//***************************************************************************** // // tm4c1294ncpdt.h - TM4C1294NCPDT Register Definitions // // Copyright (c) 2013-2020 Texas Instruments Incorporated. All rights reserved. // Software License Agreement // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the // distribution. // // Neither the name of Texas Instruments Incorporated nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // This is part of revision 2.2.0.295 of the Tiva Firmware Development Package. // //***************************************************************************** #ifndef __TM4C1294NCPDT_H__ #define __TM4C1294NCPDT_H__ //***************************************************************************** // // Interrupt assignments // //***************************************************************************** #define INT_GPIOA 16 // GPIO Port A #define INT_GPIOB 17 // GPIO Port B #define INT_GPIOC 18 // GPIO Port C #define INT_GPIOD 19 // GPIO Port D #define INT_GPIOE 20 // GPIO Port E #define INT_UART0 21 // UART0 #define INT_UART1 22 // UART1 #define INT_SSI0 23 // SSI0 #define INT_I2C0 24 // I2C0 #define INT_PWM0_FAULT 25 // PWM Fault #define INT_PWM0_0 26 // PWM Generator 0 #define INT_PWM0_1 27 // PWM Generator 1 #define INT_PWM0_2 28 // PWM Generator 2 #define INT_QEI0 29 // QEI0 #define INT_ADC0SS0 30 // ADC0 Sequence 0 #define INT_ADC0SS1 31 // ADC0 Sequence 1 #define INT_ADC0SS2 32 // ADC0 Sequence 2 #define INT_ADC0SS3 33 // ADC0 Sequence 3 #define INT_WATCHDOG 34 // Watchdog Timers 0 and 1 #define INT_TIMER0A 35 // 16/32-Bit Timer 0A #define INT_TIMER0B 36 // 16/32-Bit Timer 0B #define INT_TIMER1A 37 // 16/32-Bit Timer 1A #define INT_TIMER1B 38 // 16/32-Bit Timer 1B #define INT_TIMER2A 39 // 16/32-Bit Timer 2A #define INT_TIMER2B 40 // 16/32-Bit Timer 2B #define INT_COMP0 41 // Analog Comparator 0 #define INT_COMP1 42 // Analog Comparator 1 #define INT_COMP2 43 // Analog Comparator 2 #define INT_SYSCTL 44 // System Control #define INT_FLASH 45 // Flash Memory Control #define INT_GPIOF 46 // GPIO Port F #define INT_GPIOG 47 // GPIO Port G #define INT_GPIOH 48 // GPIO Port H #define INT_UART2 49 // UART2 #define INT_SSI1 50 // SSI1 #define INT_TIMER3A 51 // 16/32-Bit Timer 3A #define INT_TIMER3B 52 // 16/32-Bit Timer 3B #define INT_I2C1 53 // I2C1 #define INT_CAN0 54 // CAN 0 #define INT_CAN1 55 // CAN1 #define INT_EMAC0 56 // Ethernet MAC #define INT_HIBERNATE 57 // HIB #define INT_USB0 58 // USB MAC #define INT_PWM0_3 59 // PWM Generator 3 #define INT_UDMA 60 // uDMA 0 Software #define INT_UDMAERR 61 // uDMA 0 Error #define INT_ADC1SS0 62 // ADC1 Sequence 0 #define INT_ADC1SS1 63 // ADC1 Sequence 1 #define INT_ADC1SS2 64 // ADC1 Sequence 2 #define INT_ADC1SS3 65 // ADC1 Sequence 3 #define INT_EPI0 66 // EPI 0 #define INT_GPIOJ 67 // GPIO Port J #define INT_GPIOK 68 // GPIO Port K #define INT_GPIOL 69 // GPIO Port L #define INT_SSI2 70 // SSI 2 #define INT_SSI3 71 // SSI 3 #define INT_UART3 72 // UART 3 #define INT_UART4 73 // UART 4 #define INT_UART5 74 // UART 5 #define INT_UART6 75 // UART 6 #define INT_UART7 76 // UART 7 #define INT_I2C2 77 // I2C 2 #define INT_I2C3 78 // I2C 3 #define INT_TIMER4A 79 // Timer 4A #define INT_TIMER4B 80 // Timer 4B #define INT_TIMER5A 81 // Timer 5A #define INT_TIMER5B 82 // Timer 5B #define INT_SYSEXC 83 // Floating-Point Exception // (imprecise) #define INT_I2C4 86 // I2C 4 #define INT_I2C5 87 // I2C 5 #define INT_GPIOM 88 // GPIO Port M #define INT_GPION 89 // GPIO Port N #define INT_TAMPER0 91 // Tamper #define INT_GPIOP0 92 // GPIO Port P (Summary or P0) #define INT_GPIOP1 93 // GPIO Port P1 #define INT_GPIOP2 94 // GPIO Port P2 #define INT_GPIOP3 95 // GPIO Port P3 #define INT_GPIOP4 96 // GPIO Port P4 #define INT_GPIOP5 97 // GPIO Port P5 #define INT_GPIOP6 98 // GPIO Port P6 #define INT_GPIOP7 99 // GPIO Port P7 #define INT_GPIOQ0 100 // GPIO Port Q (Summary or Q0) #define INT_GPIOQ1 101 // GPIO Port Q1 #define INT_GPIOQ2 102 // GPIO Port Q2 #define INT_GPIOQ3 103 // GPIO Port Q3 #define INT_GPIOQ4 104 // GPIO Port Q4 #define INT_GPIOQ5 105 // GPIO Port Q5 #define INT_GPIOQ6 106 // GPIO Port Q6 #define INT_GPIOQ7 107 // GPIO Port Q7 #define INT_TIMER6A 114 // 16/32-Bit Timer 6A #define INT_TIMER6B 115 // 16/32-Bit Timer 6B #define INT_TIMER7A 116 // 16/32-Bit Timer 7A #define INT_TIMER7B 117 // 16/32-Bit Timer 7B #define INT_I2C6 118 // I2C 6 #define INT_I2C7 119 // I2C 7 #define INT_I2C8 125 // I2C 8 #define INT_I2C9 126 // I2C 9 //***************************************************************************** // // Watchdog Timer registers (WATCHDOG0) // //***************************************************************************** #define WATCHDOG0_LOAD_R (*((volatile uint32_t *)0x40000000)) #define WATCHDOG0_VALUE_R (*((volatile uint32_t *)0x40000004)) #define WATCHDOG0_CTL_R (*((volatile uint32_t *)0x40000008)) #define WATCHDOG0_ICR_R (*((volatile uint32_t *)0x4000000C)) #define WATCHDOG0_RIS_R (*((volatile uint32_t *)0x40000010)) #define WATCHDOG0_MIS_R (*((volatile uint32_t *)0x40000014)) #define WATCHDOG0_TEST_R (*((volatile uint32_t *)0x40000418)) #define WATCHDOG0_LOCK_R (*((volatile uint32_t *)0x40000C00)) //***************************************************************************** // // Watchdog Timer registers (WATCHDOG1) // //***************************************************************************** #define WATCHDOG1_LOAD_R (*((volatile uint32_t *)0x40001000)) #define WATCHDOG1_VALUE_R (*((volatile uint32_t *)0x40001004)) #define WATCHDOG1_CTL_R (*((volatile uint32_t *)0x40001008)) #define WATCHDOG1_ICR_R (*((volatile uint32_t *)0x4000100C)) #define WATCHDOG1_RIS_R (*((volatile uint32_t *)0x40001010)) #define WATCHDOG1_MIS_R (*((volatile uint32_t *)0x40001014)) #define WATCHDOG1_TEST_R (*((volatile uint32_t *)0x40001418)) #define WATCHDOG1_LOCK_R (*((volatile uint32_t *)0x40001C00)) //***************************************************************************** // // SSI registers (SSI0) // //***************************************************************************** #define SSI0_CR0_R (*((volatile uint32_t *)0x40008000)) #define SSI0_CR1_R (*((volatile uint32_t *)0x40008004)) #define SSI0_DR_R (*((volatile uint32_t *)0x40008008)) #define SSI0_SR_R (*((volatile uint32_t *)0x4000800C)) #define SSI0_CPSR_R (*((volatile uint32_t *)0x40008010)) #define SSI0_IM_R (*((volatile uint32_t *)0x40008014)) #define SSI0_RIS_R (*((volatile uint32_t *)0x40008018)) #define SSI0_MIS_R (*((volatile uint32_t *)0x4000801C)) #define SSI0_ICR_R (*((volatile uint32_t *)0x40008020)) #define SSI0_DMACTL_R (*((volatile uint32_t *)0x40008024)) #define SSI0_PP_R (*((volatile uint32_t *)0x40008FC0)) #define SSI0_CC_R (*((volatile uint32_t *)0x40008FC8)) //***************************************************************************** // // SSI registers (SSI1) // //***************************************************************************** #define SSI1_CR0_R (*((volatile uint32_t *)0x40009000)) #define SSI1_CR1_R (*((volatile uint32_t *)0x40009004)) #define SSI1_DR_R (*((volatile uint32_t *)0x40009008)) #define SSI1_SR_R (*((volatile uint32_t *)0x4000900C)) #define SSI1_CPSR_R (*((volatile uint32_t *)0x40009010)) #define SSI1_IM_R (*((volatile uint32_t *)0x40009014)) #define SSI1_RIS_R (*((volatile uint32_t *)0x40009018)) #define SSI1_MIS_R (*((volatile uint32_t *)0x4000901C)) #define SSI1_ICR_R (*((volatile uint32_t *)0x40009020)) #define SSI1_DMACTL_R (*((volatile uint32_t *)0x40009024)) #define SSI1_PP_R (*((volatile uint32_t *)0x40009FC0)) #define SSI1_CC_R (*((volatile uint32_t *)0x40009FC8)) //***************************************************************************** // // SSI registers (SSI2) // //***************************************************************************** #define SSI2_CR0_R (*((volatile uint32_t *)0x4000A000)) #define SSI2_CR1_R (*((volatile uint32_t *)0x4000A004)) #define SSI2_DR_R (*((volatile uint32_t *)0x4000A008)) #define SSI2_SR_R (*((volatile uint32_t *)0x4000A00C)) #define SSI2_CPSR_R (*((volatile uint32_t *)0x4000A010)) #define SSI2_IM_R (*((volatile uint32_t *)0x4000A014)) #define SSI2_RIS_R (*((volatile uint32_t *)0x4000A018)) #define SSI2_MIS_R (*((volatile uint32_t *)0x4000A01C)) #define SSI2_ICR_R (*((volatile uint32_t *)0x4000A020)) #define SSI2_DMACTL_R (*((volatile uint32_t *)0x4000A024)) #define SSI2_PP_R (*((volatile uint32_t *)0x4000AFC0)) #define SSI2_CC_R (*((volatile uint32_t *)0x4000AFC8)) //***************************************************************************** // // SSI registers (SSI3) // //***************************************************************************** #define SSI3_CR0_R (*((volatile uint32_t *)0x4000B000)) #define SSI3_CR1_R (*((volatile uint32_t *)0x4000B004)) #define SSI3_DR_R (*((volatile uint32_t *)0x4000B008)) #define SSI3_SR_R (*((volatile uint32_t *)0x4000B00C)) #define SSI3_CPSR_R (*((volatile uint32_t *)0x4000B010)) #define SSI3_IM_R (*((volatile uint32_t *)0x4000B014)) #define SSI3_RIS_R (*((volatile uint32_t *)0x4000B018)) #define SSI3_MIS_R (*((volatile uint32_t *)0x4000B01C)) #define SSI3_ICR_R (*((volatile uint32_t *)0x4000B020)) #define SSI3_DMACTL_R (*((volatile uint32_t *)0x4000B024)) #define SSI3_PP_R (*((volatile uint32_t *)0x4000BFC0)) #define SSI3_CC_R (*((volatile uint32_t *)0x4000BFC8)) //***************************************************************************** // // UART registers (UART0) // //***************************************************************************** #define UART0_DR_R (*((volatile uint32_t *)0x4000C000)) #define UART0_RSR_R (*((volatile uint32_t *)0x4000C004)) #define UART0_ECR_R (*((volatile uint32_t *)0x4000C004)) #define UART0_FR_R (*((volatile uint32_t *)0x4000C018)) #define UART0_ILPR_R (*((volatile uint32_t *)0x4000C020)) #define UART0_IBRD_R (*((volatile uint32_t *)0x4000C024)) #define UART0_FBRD_R (*((volatile uint32_t *)0x4000C028)) #define UART0_LCRH_R (*((volatile uint32_t *)0x4000C02C)) #define UART0_CTL_R (*((volatile uint32_t *)0x4000C030)) #define UART0_IFLS_R (*((volatile uint32_t *)0x4000C034)) #define UART0_IM_R (*((volatile uint32_t *)0x4000C038)) #define UART0_RIS_R (*((volatile uint32_t *)0x4000C03C)) #define UART0_MIS_R (*((volatile uint32_t *)0x4000C040)) #define UART0_ICR_R (*((volatile uint32_t *)0x4000C044)) #define UART0_DMACTL_R (*((volatile uint32_t *)0x4000C048)) #define UART0_9BITADDR_R (*((volatile uint32_t *)0x4000C0A4)) #define UART0_9BITAMASK_R (*((volatile uint32_t *)0x4000C0A8)) #define UART0_PP_R (*((volatile uint32_t *)0x4000CFC0)) #define UART0_CC_R (*((volatile uint32_t *)0x4000CFC8)) //***************************************************************************** // // UART registers (UART1) // //***************************************************************************** #define UART1_DR_R (*((volatile uint32_t *)0x4000D000)) #define UART1_RSR_R (*((volatile uint32_t *)0x4000D004)) #define UART1_ECR_R (*((volatile uint32_t *)0x4000D004)) #define UART1_FR_R (*((volatile uint32_t *)0x4000D018)) #define UART1_ILPR_R (*((volatile uint32_t *)0x4000D020)) #define UART1_IBRD_R (*((volatile uint32_t *)0x4000D024)) #define UART1_FBRD_R (*((volatile uint32_t *)0x4000D028)) #define UART1_LCRH_R (*((volatile uint32_t *)0x4000D02C)) #define UART1_CTL_R (*((volatile uint32_t *)0x4000D030)) #define UART1_IFLS_R (*((volatile uint32_t *)0x4000D034)) #define UART1_IM_R (*((volatile uint32_t *)0x4000D038)) #define UART1_RIS_R (*((volatile uint32_t *)0x4000D03C)) #define UART1_MIS_R (*((volatile uint32_t *)0x4000D040)) #define UART1_ICR_R (*((volatile uint32_t *)0x4000D044)) #define UART1_DMACTL_R (*((volatile uint32_t *)0x4000D048)) #define UART1_9BITADDR_R (*((volatile uint32_t *)0x4000D0A4)) #define UART1_9BITAMASK_R (*((volatile uint32_t *)0x4000D0A8)) #define UART1_PP_R (*((volatile uint32_t *)0x4000DFC0)) #define UART1_CC_R (*((volatile uint32_t *)0x4000DFC8)) //***************************************************************************** // // UART registers (UART2) // //***************************************************************************** #define UART2_DR_R (*((volatile uint32_t *)0x4000E000)) #define UART2_RSR_R (*((volatile uint32_t *)0x4000E004)) #define UART2_ECR_R (*((volatile uint32_t *)0x4000E004)) #define UART2_FR_R (*((volatile uint32_t *)0x4000E018)) #define UART2_ILPR_R (*((volatile uint32_t *)0x4000E020)) #define UART2_IBRD_R (*((volatile uint32_t *)0x4000E024)) #define UART2_FBRD_R (*((volatile uint32_t *)0x4000E028)) #define UART2_LCRH_R (*((volatile uint32_t *)0x4000E02C)) #define UART2_CTL_R (*((volatile uint32_t *)0x4000E030)) #define UART2_IFLS_R (*((volatile uint32_t *)0x4000E034)) #define UART2_IM_R (*((volatile uint32_t *)0x4000E038)) #define UART2_RIS_R (*((volatile uint32_t *)0x4000E03C)) #define UART2_MIS_R (*((volatile uint32_t *)0x4000E040)) #define UART2_ICR_R (*((volatile uint32_t *)0x4000E044)) #define UART2_DMACTL_R (*((volatile uint32_t *)0x4000E048)) #define UART2_9BITADDR_R (*((volatile uint32_t *)0x4000E0A4)) #define UART2_9BITAMASK_R (*((volatile uint32_t *)0x4000E0A8)) #define UART2_PP_R (*((volatile uint32_t *)0x4000EFC0)) #define UART2_CC_R (*((volatile uint32_t *)0x4000EFC8)) //***************************************************************************** // // UART registers (UART3) // //***************************************************************************** #define UART3_DR_R (*((volatile uint32_t *)0x4000F000)) #define UART3_RSR_R (*((volatile uint32_t *)0x4000F004)) #define UART3_ECR_R (*((volatile uint32_t *)0x4000F004)) #define UART3_FR_R (*((volatile uint32_t *)0x4000F018)) #define UART3_ILPR_R (*((volatile uint32_t *)0x4000F020)) #define UART3_IBRD_R (*((volatile uint32_t *)0x4000F024)) #define UART3_FBRD_R (*((volatile uint32_t *)0x4000F028)) #define UART3_LCRH_R (*((volatile uint32_t *)0x4000F02C)) #define UART3_CTL_R (*((volatile uint32_t *)0x4000F030)) #define UART3_IFLS_R (*((volatile uint32_t *)0x4000F034)) #define UART3_IM_R (*((volatile uint32_t *)0x4000F038)) #define UART3_RIS_R (*((volatile uint32_t *)0x4000F03C)) #define UART3_MIS_R (*((volatile uint32_t *)0x4000F040)) #define UART3_ICR_R (*((volatile uint32_t *)0x4000F044)) #define UART3_DMACTL_R (*((volatile uint32_t *)0x4000F048)) #define UART3_9BITADDR_R (*((volatile uint32_t *)0x4000F0A4)) #define UART3_9BITAMASK_R (*((volatile uint32_t *)0x4000F0A8)) #define UART3_PP_R (*((volatile uint32_t *)0x4000FFC0)) #define UART3_CC_R (*((volatile uint32_t *)0x4000FFC8)) //***************************************************************************** // // UART registers (UART4) // //***************************************************************************** #define UART4_DR_R (*((volatile uint32_t *)0x40010000)) #define UART4_RSR_R (*((volatile uint32_t *)0x40010004)) #define UART4_ECR_R (*((volatile uint32_t *)0x40010004)) #define UART4_FR_R (*((volatile uint32_t *)0x40010018)) #define UART4_ILPR_R (*((volatile uint32_t *)0x40010020)) #define UART4_IBRD_R (*((volatile uint32_t *)0x40010024)) #define UART4_FBRD_R (*((volatile uint32_t *)0x40010028)) #define UART4_LCRH_R (*((volatile uint32_t *)0x4001002C)) #define UART4_CTL_R (*((volatile uint32_t *)0x40010030)) #define UART4_IFLS_R (*((volatile uint32_t *)0x40010034)) #define UART4_IM_R (*((volatile uint32_t *)0x40010038)) #define UART4_RIS_R (*((volatile uint32_t *)0x4001003C)) #define UART4_MIS_R (*((volatile uint32_t *)0x40010040)) #define UART4_ICR_R (*((volatile uint32_t *)0x40010044)) #define UART4_DMACTL_R (*((volatile uint32_t *)0x40010048)) #define UART4_9BITADDR_R (*((volatile uint32_t *)0x400100A4)) #define UART4_9BITAMASK_R (*((volatile uint32_t *)0x400100A8)) #define UART4_PP_R (*((volatile uint32_t *)0x40010FC0)) #define UART4_CC_R (*((volatile uint32_t *)0x40010FC8)) //***************************************************************************** // // UART registers (UART5) // //***************************************************************************** #define UART5_DR_R (*((volatile uint32_t *)0x40011000)) #define UART5_RSR_R (*((volatile uint32_t *)0x40011004)) #define UART5_ECR_R (*((volatile uint32_t *)0x40011004)) #define UART5_FR_R (*((volatile uint32_t *)0x40011018)) #define UART5_ILPR_R (*((volatile uint32_t *)0x40011020)) #define UART5_IBRD_R (*((volatile uint32_t *)0x40011024)) #define UART5_FBRD_R (*((volatile uint32_t *)0x40011028)) #define UART5_LCRH_R (*((volatile uint32_t *)0x4001102C)) #define UART5_CTL_R (*((volatile uint32_t *)0x40011030)) #define UART5_IFLS_R (*((volatile uint32_t *)0x40011034)) #define UART5_IM_R (*((volatile uint32_t *)0x40011038)) #define UART5_RIS_R (*((volatile uint32_t *)0x4001103C)) #define UART5_MIS_R (*((volatile uint32_t *)0x40011040)) #define UART5_ICR_R (*((volatile uint32_t *)0x40011044)) #define UART5_DMACTL_R (*((volatile uint32_t *)0x40011048)) #define UART5_9BITADDR_R (*((volatile uint32_t *)0x400110A4)) #define UART5_9BITAMASK_R (*((volatile uint32_t *)0x400110A8)) #define UART5_PP_R (*((volatile uint32_t *)0x40011FC0)) #define UART5_CC_R (*((volatile uint32_t *)0x40011FC8)) //***************************************************************************** // // UART registers (UART6) // //***************************************************************************** #define UART6_DR_R (*((volatile uint32_t *)0x40012000)) #define UART6_RSR_R (*((volatile uint32_t *)0x40012004)) #define UART6_ECR_R (*((volatile uint32_t *)0x40012004)) #define UART6_FR_R (*((volatile uint32_t *)0x40012018)) #define UART6_ILPR_R (*((volatile uint32_t *)0x40012020)) #define UART6_IBRD_R (*((volatile uint32_t *)0x40012024)) #define UART6_FBRD_R (*((volatile uint32_t *)0x40012028)) #define UART6_LCRH_R (*((volatile uint32_t *)0x4001202C)) #define UART6_CTL_R (*((volatile uint32_t *)0x40012030)) #define UART6_IFLS_R (*((volatile uint32_t *)0x40012034)) #define UART6_IM_R (*((volatile uint32_t *)0x40012038)) #define UART6_RIS_R (*((volatile uint32_t *)0x4001203C)) #define UART6_MIS_R (*((volatile uint32_t *)0x40012040)) #define UART6_ICR_R (*((volatile uint32_t *)0x40012044)) #define UART6_DMACTL_R (*((volatile uint32_t *)0x40012048)) #define UART6_9BITADDR_R (*((volatile uint32_t *)0x400120A4)) #define UART6_9BITAMASK_R (*((volatile uint32_t *)0x400120A8)) #define UART6_PP_R (*((volatile uint32_t *)0x40012FC0)) #define UART6_CC_R (*((volatile uint32_t *)0x40012FC8)) //***************************************************************************** // // UART registers (UART7) // //***************************************************************************** #define UART7_DR_R (*((volatile uint32_t *)0x40013000)) #define UART7_RSR_R (*((volatile uint32_t *)0x40013004)) #define UART7_ECR_R (*((volatile uint32_t *)0x40013004)) #define UART7_FR_R (*((volatile uint32_t *)0x40013018)) #define UART7_ILPR_R (*((volatile uint32_t *)0x40013020)) #define UART7_IBRD_R (*((volatile uint32_t *)0x40013024)) #define UART7_FBRD_R (*((volatile uint32_t *)0x40013028)) #define UART7_LCRH_R (*((volatile uint32_t *)0x4001302C)) #define UART7_CTL_R (*((volatile uint32_t *)0x40013030)) #define UART7_IFLS_R (*((volatile uint32_t *)0x40013034)) #define UART7_IM_R (*((volatile uint32_t *)0x40013038)) #define UART7_RIS_R (*((volatile uint32_t *)0x4001303C)) #define UART7_MIS_R (*((volatile uint32_t *)0x40013040)) #define UART7_ICR_R (*((volatile uint32_t *)0x40013044)) #define UART7_DMACTL_R (*((volatile uint32_t *)0x40013048)) #define UART7_9BITADDR_R (*((volatile uint32_t *)0x400130A4)) #define UART7_9BITAMASK_R (*((volatile uint32_t *)0x400130A8)) #define UART7_PP_R (*((volatile uint32_t *)0x40013FC0)) #define UART7_CC_R (*((volatile uint32_t *)0x40013FC8)) //***************************************************************************** // // I2C registers (I2C0) // //***************************************************************************** #define I2C0_MSA_R (*((volatile uint32_t *)0x40020000)) #define I2C0_MCS_R (*((volatile uint32_t *)0x40020004)) #define I2C0_MDR_R (*((volatile uint32_t *)0x40020008)) #define I2C0_MTPR_R (*((volatile uint32_t *)0x4002000C)) #define I2C0_MIMR_R (*((volatile uint32_t *)0x40020010)) #define I2C0_MRIS_R (*((volatile uint32_t *)0x40020014)) #define I2C0_MMIS_R (*((volatile uint32_t *)0x40020018)) #define I2C0_MICR_R (*((volatile uint32_t *)0x4002001C)) #define I2C0_MCR_R (*((volatile uint32_t *)0x40020020)) #define I2C0_MCLKOCNT_R (*((volatile uint32_t *)0x40020024)) #define I2C0_MBMON_R (*((volatile uint32_t *)0x4002002C)) #define I2C0_MBLEN_R (*((volatile uint32_t *)0x40020030)) #define I2C0_MBCNT_R (*((volatile uint32_t *)0x40020034)) #define I2C0_SOAR_R (*((volatile uint32_t *)0x40020800)) #define I2C0_SCSR_R (*((volatile uint32_t *)0x40020804)) #define I2C0_SDR_R (*((volatile uint32_t *)0x40020808)) #define I2C0_SIMR_R (*((volatile uint32_t *)0x4002080C)) #define I2C0_SRIS_R (*((volatile uint32_t *)0x40020810)) #define I2C0_SMIS_R (*((volatile uint32_t *)0x40020814)) #define I2C0_SICR_R (*((volatile uint32_t *)0x40020818)) #define I2C0_SOAR2_R (*((volatile uint32_t *)0x4002081C)) #define I2C0_SACKCTL_R (*((volatile uint32_t *)0x40020820)) #define I2C0_FIFODATA_R (*((volatile uint32_t *)0x40020F00)) #define I2C0_FIFOCTL_R (*((volatile uint32_t *)0x40020F04)) #define I2C0_FIFOSTATUS_R (*((volatile uint32_t *)0x40020F08)) #define I2C0_PP_R (*((volatile uint32_t *)0x40020FC0)) #define I2C0_PC_R (*((volatile uint32_t *)0x40020FC4)) //***************************************************************************** // // I2C registers (I2C1) // //***************************************************************************** #define I2C1_MSA_R (*((volatile uint32_t *)0x40021000)) #define I2C1_MCS_R (*((volatile uint32_t *)0x40021004)) #define I2C1_MDR_R (*((volatile uint32_t *)0x40021008)) #define I2C1_MTPR_R (*((volatile uint32_t *)0x4002100C)) #define I2C1_MIMR_R (*((volatile uint32_t *)0x40021010)) #define I2C1_MRIS_R (*((volatile uint32_t *)0x40021014)) #define I2C1_MMIS_R (*((volatile uint32_t *)0x40021018)) #define I2C1_MICR_R (*((volatile uint32_t *)0x4002101C)) #define I2C1_MCR_R (*((volatile uint32_t *)0x40021020)) #define I2C1_MCLKOCNT_R (*((volatile uint32_t *)0x40021024)) #define I2C1_MBMON_R (*((volatile uint32_t *)0x4002102C)) #define I2C1_MBLEN_R (*((volatile uint32_t *)0x40021030)) #define I2C1_MBCNT_R (*((volatile uint32_t *)0x40021034)) #define I2C1_SOAR_R (*((volatile uint32_t *)0x40021800)) #define I2C1_SCSR_R (*((volatile uint32_t *)0x40021804)) #define I2C1_SDR_R (*((volatile uint32_t *)0x40021808)) #define I2C1_SIMR_R (*((volatile uint32_t *)0x4002180C)) #define I2C1_SRIS_R (*((volatile uint32_t *)0x40021810)) #define I2C1_SMIS_R (*((volatile uint32_t *)0x40021814)) #define I2C1_SICR_R (*((volatile uint32_t *)0x40021818)) #define I2C1_SOAR2_R (*((volatile uint32_t *)0x4002181C)) #define I2C1_SACKCTL_R (*((volatile uint32_t *)0x40021820)) #define I2C1_FIFODATA_R (*((volatile uint32_t *)0x40021F00)) #define I2C1_FIFOCTL_R (*((volatile uint32_t *)0x40021F04)) #define I2C1_FIFOSTATUS_R (*((volatile uint32_t *)0x40021F08)) #define I2C1_PP_R (*((volatile uint32_t *)0x40021FC0)) #define I2C1_PC_R (*((volatile uint32_t *)0x40021FC4)) //***************************************************************************** // // I2C registers (I2C2) // //***************************************************************************** #define I2C2_MSA_R (*((volatile uint32_t *)0x40022000)) #define I2C2_MCS_R (*((volatile uint32_t *)0x40022004)) #define I2C2_MDR_R (*((volatile uint32_t *)0x40022008)) #define I2C2_MTPR_R (*((volatile uint32_t *)0x4002200C)) #define I2C2_MIMR_R (*((volatile uint32_t *)0x40022010)) #define I2C2_MRIS_R (*((volatile uint32_t *)0x40022014)) #define I2C2_MMIS_R (*((volatile uint32_t *)0x40022018)) #define I2C2_MICR_R (*((volatile uint32_t *)0x4002201C)) #define I2C2_MCR_R (*((volatile uint32_t *)0x40022020)) #define I2C2_MCLKOCNT_R (*((volatile uint32_t *)0x40022024)) #define I2C2_MBMON_R (*((volatile uint32_t *)0x4002202C)) #define I2C2_MBLEN_R (*((volatile uint32_t *)0x40022030)) #define I2C2_MBCNT_R (*((volatile uint32_t *)0x40022034)) #define I2C2_SOAR_R (*((volatile uint32_t *)0x40022800)) #define I2C2_SCSR_R (*((volatile uint32_t *)0x40022804)) #define I2C2_SDR_R (*((volatile uint32_t *)0x40022808)) #define I2C2_SIMR_R (*((volatile uint32_t *)0x4002280C)) #define I2C2_SRIS_R (*((volatile uint32_t *)0x40022810)) #define I2C2_SMIS_R (*((volatile uint32_t *)0x40022814)) #define I2C2_SICR_R (*((volatile uint32_t *)0x40022818)) #define I2C2_SOAR2_R (*((volatile uint32_t *)0x4002281C)) #define I2C2_SACKCTL_R (*((volatile uint32_t *)0x40022820)) #define I2C2_FIFODATA_R (*((volatile uint32_t *)0x40022F00)) #define I2C2_FIFOCTL_R (*((volatile uint32_t *)0x40022F04)) #define I2C2_FIFOSTATUS_R (*((volatile uint32_t *)0x40022F08)) #define I2C2_PP_R (*((volatile uint32_t *)0x40022FC0)) #define I2C2_PC_R (*((volatile uint32_t *)0x40022FC4)) //***************************************************************************** // // I2C registers (I2C3) // //***************************************************************************** #define I2C3_MSA_R (*((volatile uint32_t *)0x40023000)) #define I2C3_MCS_R (*((volatile uint32_t *)0x40023004)) #define I2C3_MDR_R (*((volatile uint32_t *)0x40023008)) #define I2C3_MTPR_R (*((volatile uint32_t *)0x4002300C)) #define I2C3_MIMR_R (*((volatile uint32_t *)0x40023010)) #define I2C3_MRIS_R (*((volatile uint32_t *)0x40023014)) #define I2C3_MMIS_R (*((volatile uint32_t *)0x40023018)) #define I2C3_MICR_R (*((volatile uint32_t *)0x4002301C)) #define I2C3_MCR_R (*((volatile uint32_t *)0x40023020)) #define I2C3_MCLKOCNT_R (*((volatile uint32_t *)0x40023024)) #define I2C3_MBMON_R (*((volatile uint32_t *)0x4002302C)) #define I2C3_MBLEN_R (*((volatile uint32_t *)0x40023030)) #define I2C3_MBCNT_R (*((volatile uint32_t *)0x40023034)) #define I2C3_SOAR_R (*((volatile uint32_t *)0x40023800)) #define I2C3_SCSR_R (*((volatile uint32_t *)0x40023804)) #define I2C3_SDR_R (*((volatile uint32_t *)0x40023808)) #define I2C3_SIMR_R (*((volatile uint32_t *)0x4002380C)) #define I2C3_SRIS_R (*((volatile uint32_t *)0x40023810)) #define I2C3_SMIS_R (*((volatile uint32_t *)0x40023814)) #define I2C3_SICR_R (*((volatile uint32_t *)0x40023818)) #define I2C3_SOAR2_R (*((volatile uint32_t *)0x4002381C)) #define I2C3_SACKCTL_R (*((volatile uint32_t *)0x40023820)) #define I2C3_FIFODATA_R (*((volatile uint32_t *)0x40023F00)) #define I2C3_FIFOCTL_R (*((volatile uint32_t *)0x40023F04)) #define I2C3_FIFOSTATUS_R (*((volatile uint32_t *)0x40023F08)) #define I2C3_PP_R (*((volatile uint32_t *)0x40023FC0)) #define I2C3_PC_R (*((volatile uint32_t *)0x40023FC4)) //***************************************************************************** // // PWM registers (PWM0) // //***************************************************************************** #define PWM0_CTL_R (*((volatile uint32_t *)0x40028000)) #define PWM0_SYNC_R (*((volatile uint32_t *)0x40028004)) #define PWM0_ENABLE_R (*((volatile uint32_t *)0x40028008)) #define PWM0_INVERT_R (*((volatile uint32_t *)0x4002800C)) #define PWM0_FAULT_R (*((volatile uint32_t *)0x40028010)) #define PWM0_INTEN_R (*((volatile uint32_t *)0x40028014)) #define PWM0_RIS_R (*((volatile uint32_t *)0x40028018)) #define PWM0_ISC_R (*((volatile uint32_t *)0x4002801C)) #define PWM0_STATUS_R (*((volatile uint32_t *)0x40028020)) #define PWM0_FAULTVAL_R (*((volatile uint32_t *)0x40028024)) #define PWM0_ENUPD_R (*((volatile uint32_t *)0x40028028)) #define PWM0_0_CTL_R (*((volatile uint32_t *)0x40028040)) #define PWM0_0_INTEN_R (*((volatile uint32_t *)0x40028044)) #define PWM0_0_RIS_R (*((volatile uint32_t *)0x40028048)) #define PWM0_0_ISC_R (*((volatile uint32_t *)0x4002804C)) #define PWM0_0_LOAD_R (*((volatile uint32_t *)0x40028050)) #define PWM0_0_COUNT_R (*((volatile uint32_t *)0x40028054)) #define PWM0_0_CMPA_R (*((volatile uint32_t *)0x40028058)) #define PWM0_0_CMPB_R (*((volatile uint32_t *)0x4002805C)) #define PWM0_0_GENA_R (*((volatile uint32_t *)0x40028060)) #define PWM0_0_GENB_R (*((volatile uint32_t *)0x40028064)) #define PWM0_0_DBCTL_R (*((volatile uint32_t *)0x40028068)) #define PWM0_0_DBRISE_R (*((volatile uint32_t *)0x4002806C)) #define PWM0_0_DBFALL_R (*((volatile uint32_t *)0x40028070)) #define PWM0_0_FLTSRC0_R (*((volatile uint32_t *)0x40028074)) #define PWM0_0_FLTSRC1_R (*((volatile uint32_t *)0x40028078)) #define PWM0_0_MINFLTPER_R (*((volatile uint32_t *)0x4002807C)) #define PWM0_1_CTL_R (*((volatile uint32_t *)0x40028080)) #define PWM0_1_INTEN_R (*((volatile uint32_t *)0x40028084)) #define PWM0_1_RIS_R (*((volatile uint32_t *)0x40028088)) #define PWM0_1_ISC_R (*((volatile uint32_t *)0x4002808C)) #define PWM0_1_LOAD_R (*((volatile uint32_t *)0x40028090)) #define PWM0_1_COUNT_R (*((volatile uint32_t *)0x40028094)) #define PWM0_1_CMPA_R (*((volatile uint32_t *)0x40028098)) #define PWM0_1_CMPB_R (*((volatile uint32_t *)0x4002809C)) #define PWM0_1_GENA_R (*((volatile uint32_t *)0x400280A0)) #define PWM0_1_GENB_R (*((volatile uint32_t *)0x400280A4)) #define PWM0_1_DBCTL_R (*((volatile uint32_t *)0x400280A8)) #define PWM0_1_DBRISE_R (*((volatile uint32_t *)0x400280AC)) #define PWM0_1_DBFALL_R (*((volatile uint32_t *)0x400280B0)) #define PWM0_1_FLTSRC0_R (*((volatile uint32_t *)0x400280B4)) #define PWM0_1_FLTSRC1_R (*((volatile uint32_t *)0x400280B8)) #define PWM0_1_MINFLTPER_R (*((volatile uint32_t *)0x400280BC)) #define PWM0_2_CTL_R (*((volatile uint32_t *)0x400280C0)) #define PWM0_2_INTEN_R (*((volatile uint32_t *)0x400280C4)) #define PWM0_2_RIS_R (*((volatile uint32_t *)0x400280C8)) #define PWM0_2_ISC_R (*((volatile uint32_t *)0x400280CC)) #define PWM0_2_LOAD_R (*((volatile uint32_t *)0x400280D0)) #define PWM0_2_COUNT_R (*((volatile uint32_t *)0x400280D4)) #define PWM0_2_CMPA_R (*((volatile uint32_t *)0x400280D8)) #define PWM0_2_CMPB_R (*((volatile uint32_t *)0x400280DC)) #define PWM0_2_GENA_R (*((volatile uint32_t *)0x400280E0)) #define PWM0_2_GENB_R (*((volatile uint32_t *)0x400280E4)) #define PWM0_2_DBCTL_R (*((volatile uint32_t *)0x400280E8)) #define PWM0_2_DBRISE_R (*((volatile uint32_t *)0x400280EC)) #define PWM0_2_DBFALL_R (*((volatile uint32_t *)0x400280F0)) #define PWM0_2_FLTSRC0_R (*((volatile uint32_t *)0x400280F4)) #define PWM0_2_FLTSRC1_R (*((volatile uint32_t *)0x400280F8)) #define PWM0_2_MINFLTPER_R (*((volatile uint32_t *)0x400280FC)) #define PWM0_3_CTL_R (*((volatile uint32_t *)0x40028100)) #define PWM0_3_INTEN_R (*((volatile uint32_t *)0x40028104)) #define PWM0_3_RIS_R (*((volatile uint32_t *)0x40028108)) #define PWM0_3_ISC_R (*((volatile uint32_t *)0x4002810C)) #define PWM0_3_LOAD_R (*((volatile uint32_t *)0x40028110)) #define PWM0_3_COUNT_R (*((volatile uint32_t *)0x40028114)) #define PWM0_3_CMPA_R (*((volatile uint32_t *)0x40028118)) #define PWM0_3_CMPB_R (*((volatile uint32_t *)0x4002811C)) #define PWM0_3_GENA_R (*((volatile uint32_t *)0x40028120)) #define PWM0_3_GENB_R (*((volatile uint32_t *)0x40028124)) #define PWM0_3_DBCTL_R (*((volatile uint32_t *)0x40028128)) #define PWM0_3_DBRISE_R (*((volatile uint32_t *)0x4002812C)) #define PWM0_3_DBFALL_R (*((volatile uint32_t *)0x40028130)) #define PWM0_3_FLTSRC0_R (*((volatile uint32_t *)0x40028134)) #define PWM0_3_FLTSRC1_R (*((volatile uint32_t *)0x40028138)) #define PWM0_3_MINFLTPER_R (*((volatile uint32_t *)0x4002813C)) #define PWM0_0_FLTSEN_R (*((volatile uint32_t *)0x40028800)) #define PWM0_0_FLTSTAT0_R (*((volatile uint32_t *)0x40028804)) #define PWM0_0_FLTSTAT1_R (*((volatile uint32_t *)0x40028808)) #define PWM0_1_FLTSEN_R (*((volatile uint32_t *)0x40028880)) #define PWM0_1_FLTSTAT0_R (*((volatile uint32_t *)0x40028884)) #define PWM0_1_FLTSTAT1_R (*((volatile uint32_t *)0x40028888)) #define PWM0_2_FLTSEN_R (*((volatile uint32_t *)0x40028900)) #define PWM0_2_FLTSTAT0_R (*((volatile uint32_t *)0x40028904)) #define PWM0_2_FLTSTAT1_R (*((volatile uint32_t *)0x40028908)) #define PWM0_3_FLTSEN_R (*((volatile uint32_t *)0x40028980)) #define PWM0_3_FLTSTAT0_R (*((volatile uint32_t *)0x40028984)) #define PWM0_3_FLTSTAT1_R (*((volatile uint32_t *)0x40028988)) #define PWM0_PP_R (*((volatile uint32_t *)0x40028FC0)) #define PWM0_CC_R (*((volatile uint32_t *)0x40028FC8)) //***************************************************************************** // // QEI registers (QEI0) // //***************************************************************************** #define QEI0_CTL_R (*((volatile uint32_t *)0x4002C000)) #define QEI0_STAT_R (*((volatile uint32_t *)0x4002C004)) #define QEI0_POS_R (*((volatile uint32_t *)0x4002C008)) #define QEI0_MAXPOS_R (*((volatile uint32_t *)0x4002C00C)) #define QEI0_LOAD_R (*((volatile uint32_t *)0x4002C010)) #define QEI0_TIME_R (*((volatile uint32_t *)0x4002C014)) #define QEI0_COUNT_R (*((volatile uint32_t *)0x4002C018)) #define QEI0_SPEED_R (*((volatile uint32_t *)0x4002C01C)) #define QEI0_INTEN_R (*((volatile uint32_t *)0x4002C020)) #define QEI0_RIS_R (*((volatile uint32_t *)0x4002C024)) #define QEI0_ISC_R (*((volatile uint32_t *)0x4002C028)) //***************************************************************************** // // Timer registers (TIMER0) // //***************************************************************************** #define TIMER0_CFG_R (*((volatile uint32_t *)0x40030000)) #define TIMER0_TAMR_R (*((volatile uint32_t *)0x40030004)) #define TIMER0_TBMR_R (*((volatile uint32_t *)0x40030008)) #define TIMER0_CTL_R (*((volatile uint32_t *)0x4003000C)) #define TIMER0_SYNC_R (*((volatile uint32_t *)0x40030010)) #define TIMER0_IMR_R (*((volatile uint32_t *)0x40030018)) #define TIMER0_RIS_R (*((volatile uint32_t *)0x4003001C)) #define TIMER0_MIS_R (*((volatile uint32_t *)0x40030020)) #define TIMER0_ICR_R (*((volatile uint32_t *)0x40030024)) #define TIMER0_TAILR_R (*((volatile uint32_t *)0x40030028)) #define TIMER0_TBILR_R (*((volatile uint32_t *)0x4003002C)) #define TIMER0_TAMATCHR_R (*((volatile uint32_t *)0x40030030)) #define TIMER0_TBMATCHR_R (*((volatile uint32_t *)0x40030034)) #define TIMER0_TAPR_R (*((volatile uint32_t *)0x40030038)) #define TIMER0_TBPR_R (*((volatile uint32_t *)0x4003003C)) #define TIMER0_TAPMR_R (*((volatile uint32_t *)0x40030040)) #define TIMER0_TBPMR_R (*((volatile uint32_t *)0x40030044)) #define TIMER0_TAR_R (*((volatile uint32_t *)0x40030048)) #define TIMER0_TBR_R (*((volatile uint32_t *)0x4003004C)) #define TIMER0_TAV_R (*((volatile uint32_t *)0x40030050)) #define TIMER0_TBV_R (*((volatile uint32_t *)0x40030054)) #define TIMER0_RTCPD_R (*((volatile uint32_t *)0x40030058)) #define TIMER0_TAPS_R (*((volatile uint32_t *)0x4003005C)) #define TIMER0_TBPS_R (*((volatile uint32_t *)0x40030060)) #define TIMER0_DMAEV_R (*((volatile uint32_t *)0x4003006C)) #define TIMER0_ADCEV_R (*((volatile uint32_t *)0x40030070)) #define TIMER0_PP_R (*((volatile uint32_t *)0x40030FC0)) #define TIMER0_CC_R (*((volatile uint32_t *)0x40030FC8)) //***************************************************************************** // // Timer registers (TIMER1) // //***************************************************************************** #define TIMER1_CFG_R (*((volatile uint32_t *)0x40031000)) #define TIMER1_TAMR_R (*((volatile uint32_t *)0x40031004)) #define TIMER1_TBMR_R (*((volatile uint32_t *)0x40031008)) #define TIMER1_CTL_R (*((volatile uint32_t *)0x4003100C)) #define TIMER1_SYNC_R (*((volatile uint32_t *)0x40031010)) #define TIMER1_IMR_R (*((volatile uint32_t *)0x40031018)) #define TIMER1_RIS_R (*((volatile uint32_t *)0x4003101C)) #define TIMER1_MIS_R (*((volatile uint32_t *)0x40031020)) #define TIMER1_ICR_R (*((volatile uint32_t *)0x40031024)) #define TIMER1_TAILR_R (*((volatile uint32_t *)0x40031028)) #define TIMER1_TBILR_R (*((volatile uint32_t *)0x4003102C)) #define TIMER1_TAMATCHR_R (*((volatile uint32_t *)0x40031030)) #define TIMER1_TBMATCHR_R (*((volatile uint32_t *)0x40031034)) #define TIMER1_TAPR_R (*((volatile uint32_t *)0x40031038)) #define TIMER1_TBPR_R (*((volatile uint32_t *)0x4003103C)) #define TIMER1_TAPMR_R (*((volatile uint32_t *)0x40031040)) #define TIMER1_TBPMR_R (*((volatile uint32_t *)0x40031044)) #define TIMER1_TAR_R (*((volatile uint32_t *)0x40031048)) #define TIMER1_TBR_R (*((volatile uint32_t *)0x4003104C)) #define TIMER1_TAV_R (*((volatile uint32_t *)0x40031050)) #define TIMER1_TBV_R (*((volatile uint32_t *)0x40031054)) #define TIMER1_RTCPD_R (*((volatile uint32_t *)0x40031058)) #define TIMER1_TAPS_R (*((volatile uint32_t *)0x4003105C)) #define TIMER1_TBPS_R (*((volatile uint32_t *)0x40031060)) #define TIMER1_DMAEV_R (*((volatile uint32_t *)0x4003106C)) #define TIMER1_ADCEV_R (*((volatile uint32_t *)0x40031070)) #define TIMER1_PP_R (*((volatile uint32_t *)0x40031FC0)) #define TIMER1_CC_R (*((volatile uint32_t *)0x40031FC8)) //***************************************************************************** // // Timer registers (TIMER2) // //***************************************************************************** #define TIMER2_CFG_R (*((volatile uint32_t *)0x40032000)) #define TIMER2_TAMR_R (*((volatile uint32_t *)0x40032004)) #define TIMER2_TBMR_R (*((volatile uint32_t *)0x40032008)) #define TIMER2_CTL_R (*((volatile uint32_t *)0x4003200C)) #define TIMER2_SYNC_R (*((volatile uint32_t *)0x40032010)) #define TIMER2_IMR_R (*((volatile uint32_t *)0x40032018)) #define TIMER2_RIS_R (*((volatile uint32_t *)0x4003201C)) #define TIMER2_MIS_R (*((volatile uint32_t *)0x40032020)) #define TIMER2_ICR_R (*((volatile uint32_t *)0x40032024)) #define TIMER2_TAILR_R (*((volatile uint32_t *)0x40032028)) #define TIMER2_TBILR_R (*((volatile uint32_t *)0x4003202C)) #define TIMER2_TAMATCHR_R (*((volatile uint32_t *)0x40032030)) #define TIMER2_TBMATCHR_R (*((volatile uint32_t *)0x40032034)) #define TIMER2_TAPR_R (*((volatile uint32_t *)0x40032038)) #define TIMER2_TBPR_R (*((volatile uint32_t *)0x4003203C)) #define TIMER2_TAPMR_R (*((volatile uint32_t *)0x40032040)) #define TIMER2_TBPMR_R (*((volatile uint32_t *)0x40032044)) #define TIMER2_TAR_R (*((volatile uint32_t *)0x40032048)) #define TIMER2_TBR_R (*((volatile uint32_t *)0x4003204C)) #define TIMER2_TAV_R (*((volatile uint32_t *)0x40032050)) #define TIMER2_TBV_R (*((volatile uint32_t *)0x40032054)) #define TIMER2_RTCPD_R (*((volatile uint32_t *)0x40032058)) #define TIMER2_TAPS_R (*((volatile uint32_t *)0x4003205C)) #define TIMER2_TBPS_R (*((volatile uint32_t *)0x40032060)) #define TIMER2_DMAEV_R (*((volatile uint32_t *)0x4003206C)) #define TIMER2_ADCEV_R (*((volatile uint32_t *)0x40032070)) #define TIMER2_PP_R (*((volatile uint32_t *)0x40032FC0)) #define TIMER2_CC_R (*((volatile uint32_t *)0x40032FC8)) //***************************************************************************** // // Timer registers (TIMER3) // //***************************************************************************** #define TIMER3_CFG_R (*((volatile uint32_t *)0x40033000)) #define TIMER3_TAMR_R (*((volatile uint32_t *)0x40033004)) #define TIMER3_TBMR_R (*((volatile uint32_t *)0x40033008)) #define TIMER3_CTL_R (*((volatile uint32_t *)0x4003300C)) #define TIMER3_SYNC_R (*((volatile uint32_t *)0x40033010)) #define TIMER3_IMR_R (*((volatile uint32_t *)0x40033018)) #define TIMER3_RIS_R (*((volatile uint32_t *)0x4003301C)) #define TIMER3_MIS_R (*((volatile uint32_t *)0x40033020)) #define TIMER3_ICR_R (*((volatile uint32_t *)0x40033024)) #define TIMER3_TAILR_R (*((volatile uint32_t *)0x40033028)) #define TIMER3_TBILR_R (*((volatile uint32_t *)0x4003302C)) #define TIMER3_TAMATCHR_R (*((volatile uint32_t *)0x40033030)) #define TIMER3_TBMATCHR_R (*((volatile uint32_t *)0x40033034)) #define TIMER3_TAPR_R (*((volatile uint32_t *)0x40033038)) #define TIMER3_TBPR_R (*((volatile uint32_t *)0x4003303C)) #define TIMER3_TAPMR_R (*((volatile uint32_t *)0x40033040)) #define TIMER3_TBPMR_R (*((volatile uint32_t *)0x40033044)) #define TIMER3_TAR_R (*((volatile uint32_t *)0x40033048)) #define TIMER3_TBR_R (*((volatile uint32_t *)0x4003304C)) #define TIMER3_TAV_R (*((volatile uint32_t *)0x40033050)) #define TIMER3_TBV_R (*((volatile uint32_t *)0x40033054)) #define TIMER3_RTCPD_R (*((volatile uint32_t *)0x40033058)) #define TIMER3_TAPS_R (*((volatile uint32_t *)0x4003305C)) #define TIMER3_TBPS_R (*((volatile uint32_t *)0x40033060)) #define TIMER3_DMAEV_R (*((volatile uint32_t *)0x4003306C)) #define TIMER3_ADCEV_R (*((volatile uint32_t *)0x40033070)) #define TIMER3_PP_R (*((volatile uint32_t *)0x40033FC0)) #define TIMER3_CC_R (*((volatile uint32_t *)0x40033FC8)) //***************************************************************************** // // Timer registers (TIMER4) // //***************************************************************************** #define TIMER4_CFG_R (*((volatile uint32_t *)0x40034000)) #define TIMER4_TAMR_R (*((volatile uint32_t *)0x40034004)) #define TIMER4_TBMR_R (*((volatile uint32_t *)0x40034008)) #define TIMER4_CTL_R (*((volatile uint32_t *)0x4003400C)) #define TIMER4_SYNC_R (*((volatile uint32_t *)0x40034010)) #define TIMER4_IMR_R (*((volatile uint32_t *)0x40034018)) #define TIMER4_RIS_R (*((volatile uint32_t *)0x4003401C)) #define TIMER4_MIS_R (*((volatile uint32_t *)0x40034020)) #define TIMER4_ICR_R (*((volatile uint32_t *)0x40034024)) #define TIMER4_TAILR_R (*((volatile uint32_t *)0x40034028)) #define TIMER4_TBILR_R (*((volatile uint32_t *)0x4003402C)) #define TIMER4_TAMATCHR_R (*((volatile uint32_t *)0x40034030)) #define TIMER4_TBMATCHR_R (*((volatile uint32_t *)0x40034034)) #define TIMER4_TAPR_R (*((volatile uint32_t *)0x40034038)) #define TIMER4_TBPR_R (*((volatile uint32_t *)0x4003403C)) #define TIMER4_TAPMR_R (*((volatile uint32_t *)0x40034040)) #define TIMER4_TBPMR_R (*((volatile uint32_t *)0x40034044)) #define TIMER4_TAR_R (*((volatile uint32_t *)0x40034048)) #define TIMER4_TBR_R (*((volatile uint32_t *)0x4003404C)) #define TIMER4_TAV_R (*((volatile uint32_t *)0x40034050)) #define TIMER4_TBV_R (*((volatile uint32_t *)0x40034054)) #define TIMER4_RTCPD_R (*((volatile uint32_t *)0x40034058)) #define TIMER4_TAPS_R (*((volatile uint32_t *)0x4003405C)) #define TIMER4_TBPS_R (*((volatile uint32_t *)0x40034060)) #define TIMER4_DMAEV_R (*((volatile uint32_t *)0x4003406C)) #define TIMER4_ADCEV_R (*((volatile uint32_t *)0x40034070)) #define TIMER4_PP_R (*((volatile uint32_t *)0x40034FC0)) #define TIMER4_CC_R (*((volatile uint32_t *)0x40034FC8)) //***************************************************************************** // // Timer registers (TIMER5) // //***************************************************************************** #define TIMER5_CFG_R (*((volatile uint32_t *)0x40035000)) #define TIMER5_TAMR_R (*((volatile uint32_t *)0x40035004)) #define TIMER5_TBMR_R (*((volatile uint32_t *)0x40035008)) #define TIMER5_CTL_R (*((volatile uint32_t *)0x4003500C)) #define TIMER5_SYNC_R (*((volatile uint32_t *)0x40035010)) #define TIMER5_IMR_R (*((volatile uint32_t *)0x40035018)) #define TIMER5_RIS_R (*((volatile uint32_t *)0x4003501C)) #define TIMER5_MIS_R (*((volatile uint32_t *)0x40035020)) #define TIMER5_ICR_R (*((volatile uint32_t *)0x40035024)) #define TIMER5_TAILR_R (*((volatile uint32_t *)0x40035028)) #define TIMER5_TBILR_R (*((volatile uint32_t *)0x4003502C)) #define TIMER5_TAMATCHR_R (*((volatile uint32_t *)0x40035030)) #define TIMER5_TBMATCHR_R (*((volatile uint32_t *)0x40035034)) #define TIMER5_TAPR_R (*((volatile uint32_t *)0x40035038)) #define TIMER5_TBPR_R (*((volatile uint32_t *)0x4003503C)) #define TIMER5_TAPMR_R (*((volatile uint32_t *)0x40035040)) #define TIMER5_TBPMR_R (*((volatile uint32_t *)0x40035044)) #define TIMER5_TAR_R (*((volatile uint32_t *)0x40035048)) #define TIMER5_TBR_R (*((volatile uint32_t *)0x4003504C)) #define TIMER5_TAV_R (*((volatile uint32_t *)0x40035050)) #define TIMER5_TBV_R (*((volatile uint32_t *)0x40035054)) #define TIMER5_RTCPD_R (*((volatile uint32_t *)0x40035058)) #define TIMER5_TAPS_R (*((volatile uint32_t *)0x4003505C)) #define TIMER5_TBPS_R (*((volatile uint32_t *)0x40035060)) #define TIMER5_DMAEV_R (*((volatile uint32_t *)0x4003506C)) #define TIMER5_ADCEV_R (*((volatile uint32_t *)0x40035070)) #define TIMER5_PP_R (*((volatile uint32_t *)0x40035FC0)) #define TIMER5_CC_R (*((volatile uint32_t *)0x40035FC8)) //***************************************************************************** // // ADC registers (ADC0) // //***************************************************************************** #define ADC0_ACTSS_R (*((volatile uint32_t *)0x40038000)) #define ADC0_RIS_R (*((volatile uint32_t *)0x40038004)) #define ADC0_IM_R (*((volatile uint32_t *)0x40038008)) #define ADC0_ISC_R (*((volatile uint32_t *)0x4003800C)) #define ADC0_OSTAT_R (*((volatile uint32_t *)0x40038010)) #define ADC0_EMUX_R (*((volatile uint32_t *)0x40038014)) #define ADC0_USTAT_R (*((volatile uint32_t *)0x40038018)) #define ADC0_TSSEL_R (*((volatile uint32_t *)0x4003801C)) #define ADC0_SSPRI_R (*((volatile uint32_t *)0x40038020)) #define ADC0_SPC_R (*((volatile uint32_t *)0x40038024)) #define ADC0_PSSI_R (*((volatile uint32_t *)0x40038028)) #define ADC0_SAC_R (*((volatile uint32_t *)0x40038030)) #define ADC0_DCISC_R (*((volatile uint32_t *)0x40038034)) #define ADC0_CTL_R (*((volatile uint32_t *)0x40038038)) #define ADC0_SSMUX0_R (*((volatile uint32_t *)0x40038040)) #define ADC0_SSCTL0_R (*((volatile uint32_t *)0x40038044)) #define ADC0_SSFIFO0_R (*((volatile uint32_t *)0x40038048)) #define ADC0_SSFSTAT0_R (*((volatile uint32_t *)0x4003804C)) #define ADC0_SSOP0_R (*((volatile uint32_t *)0x40038050)) #define ADC0_SSDC0_R (*((volatile uint32_t *)0x40038054)) #define ADC0_SSEMUX0_R (*((volatile uint32_t *)0x40038058)) #define ADC0_SSTSH0_R (*((volatile uint32_t *)0x4003805C)) #define ADC0_SSMUX1_R (*((volatile uint32_t *)0x40038060)) #define ADC0_SSCTL1_R (*((volatile uint32_t *)0x40038064)) #define ADC0_SSFIFO1_R (*((volatile uint32_t *)0x40038068)) #define ADC0_SSFSTAT1_R (*((volatile uint32_t *)0x4003806C)) #define ADC0_SSOP1_R (*((volatile uint32_t *)0x40038070)) #define ADC0_SSDC1_R (*((volatile uint32_t *)0x40038074)) #define ADC0_SSEMUX1_R (*((volatile uint32_t *)0x40038078)) #define ADC0_SSTSH1_R (*((volatile uint32_t *)0x4003807C)) #define ADC0_SSMUX2_R (*((volatile uint32_t *)0x40038080)) #define ADC0_SSCTL2_R (*((volatile uint32_t *)0x40038084)) #define ADC0_SSFIFO2_R (*((volatile uint32_t *)0x40038088)) #define ADC0_SSFSTAT2_R (*((volatile uint32_t *)0x4003808C)) #define ADC0_SSOP2_R (*((volatile uint32_t *)0x40038090)) #define ADC0_SSDC2_R (*((volatile uint32_t *)0x40038094)) #define ADC0_SSEMUX2_R (*((volatile uint32_t *)0x40038098)) #define ADC0_SSTSH2_R (*((volatile uint32_t *)0x4003809C)) #define ADC0_SSMUX3_R (*((volatile uint32_t *)0x400380A0)) #define ADC0_SSCTL3_R (*((volatile uint32_t *)0x400380A4)) #define ADC0_SSFIFO3_R (*((volatile uint32_t *)0x400380A8)) #define ADC0_SSFSTAT3_R (*((volatile uint32_t *)0x400380AC)) #define ADC0_SSOP3_R (*((volatile uint32_t *)0x400380B0)) #define ADC0_SSDC3_R (*((volatile uint32_t *)0x400380B4)) #define ADC0_SSEMUX3_R (*((volatile uint32_t *)0x400380B8)) #define ADC0_SSTSH3_R (*((volatile uint32_t *)0x400380BC)) #define ADC0_DCRIC_R (*((volatile uint32_t *)0x40038D00)) #define ADC0_DCCTL0_R (*((volatile uint32_t *)0x40038E00)) #define ADC0_DCCTL1_R (*((volatile uint32_t *)0x40038E04)) #define ADC0_DCCTL2_R (*((volatile uint32_t *)0x40038E08)) #define ADC0_DCCTL3_R (*((volatile uint32_t *)0x40038E0C)) #define ADC0_DCCTL4_R (*((volatile uint32_t *)0x40038E10)) #define ADC0_DCCTL5_R (*((volatile uint32_t *)0x40038E14)) #define ADC0_DCCTL6_R (*((volatile uint32_t *)0x40038E18)) #define ADC0_DCCTL7_R (*((volatile uint32_t *)0x40038E1C)) #define ADC0_DCCMP0_R (*((volatile uint32_t *)0x40038E40)) #define ADC0_DCCMP1_R (*((volatile uint32_t *)0x40038E44)) #define ADC0_DCCMP2_R (*((volatile uint32_t *)0x40038E48)) #define ADC0_DCCMP3_R (*((volatile uint32_t *)0x40038E4C)) #define ADC0_DCCMP4_R (*((volatile uint32_t *)0x40038E50)) #define ADC0_DCCMP5_R (*((volatile uint32_t *)0x40038E54)) #define ADC0_DCCMP6_R (*((volatile uint32_t *)0x40038E58)) #define ADC0_DCCMP7_R (*((volatile uint32_t *)0x40038E5C)) #define ADC0_PP_R (*((volatile uint32_t *)0x40038FC0)) #define ADC0_PC_R (*((volatile uint32_t *)0x40038FC4)) #define ADC0_CC_R (*((volatile uint32_t *)0x40038FC8)) //***************************************************************************** // // ADC registers (ADC1) // //***************************************************************************** #define ADC1_ACTSS_R (*((volatile uint32_t *)0x40039000)) #define ADC1_RIS_R (*((volatile uint32_t *)0x40039004)) #define ADC1_IM_R (*((volatile uint32_t *)0x40039008)) #define ADC1_ISC_R (*((volatile uint32_t *)0x4003900C)) #define ADC1_OSTAT_R (*((volatile uint32_t *)0x40039010)) #define ADC1_EMUX_R (*((volatile uint32_t *)0x40039014)) #define ADC1_USTAT_R (*((volatile uint32_t *)0x40039018)) #define ADC1_TSSEL_R (*((volatile uint32_t *)0x4003901C)) #define ADC1_SSPRI_R (*((volatile uint32_t *)0x40039020)) #define ADC1_SPC_R (*((volatile uint32_t *)0x40039024)) #define ADC1_PSSI_R (*((volatile uint32_t *)0x40039028)) #define ADC1_SAC_R (*((volatile uint32_t *)0x40039030)) #define ADC1_DCISC_R (*((volatile uint32_t *)0x40039034)) #define ADC1_CTL_R (*((volatile uint32_t *)0x40039038)) #define ADC1_SSMUX0_R (*((volatile uint32_t *)0x40039040)) #define ADC1_SSCTL0_R (*((volatile uint32_t *)0x40039044)) #define ADC1_SSFIFO0_R (*((volatile uint32_t *)0x40039048)) #define ADC1_SSFSTAT0_R (*((volatile uint32_t *)0x4003904C)) #define ADC1_SSOP0_R (*((volatile uint32_t *)0x40039050)) #define ADC1_SSDC0_R (*((volatile uint32_t *)0x40039054)) #define ADC1_SSEMUX0_R (*((volatile uint32_t *)0x40039058)) #define ADC1_SSTSH0_R (*((volatile uint32_t *)0x4003905C)) #define ADC1_SSMUX1_R (*((volatile uint32_t *)0x40039060)) #define ADC1_SSCTL1_R (*((volatile uint32_t *)0x40039064)) #define ADC1_SSFIFO1_R (*((volatile uint32_t *)0x40039068)) #define ADC1_SSFSTAT1_R (*((volatile uint32_t *)0x4003906C)) #define ADC1_SSOP1_R (*((volatile uint32_t *)0x40039070)) #define ADC1_SSDC1_R (*((volatile uint32_t *)0x40039074)) #define ADC1_SSEMUX1_R (*((volatile uint32_t *)0x40039078)) #define ADC1_SSTSH1_R (*((volatile uint32_t *)0x4003907C)) #define ADC1_SSMUX2_R (*((volatile uint32_t *)0x40039080)) #define ADC1_SSCTL2_R (*((volatile uint32_t *)0x40039084)) #define ADC1_SSFIFO2_R (*((volatile uint32_t *)0x40039088)) #define ADC1_SSFSTAT2_R (*((volatile uint32_t *)0x4003908C)) #define ADC1_SSOP2_R (*((volatile uint32_t *)0x40039090)) #define ADC1_SSDC2_R (*((volatile uint32_t *)0x40039094)) #define ADC1_SSEMUX2_R (*((volatile uint32_t *)0x40039098)) #define ADC1_SSTSH2_R (*((volatile uint32_t *)0x4003909C)) #define ADC1_SSMUX3_R (*((volatile uint32_t *)0x400390A0)) #define ADC1_SSCTL3_R (*((volatile uint32_t *)0x400390A4)) #define ADC1_SSFIFO3_R (*((volatile uint32_t *)0x400390A8)) #define ADC1_SSFSTAT3_R (*((volatile uint32_t *)0x400390AC)) #define ADC1_SSOP3_R (*((volatile uint32_t *)0x400390B0)) #define ADC1_SSDC3_R (*((volatile uint32_t *)0x400390B4)) #define ADC1_SSEMUX3_R (*((volatile uint32_t *)0x400390B8)) #define ADC1_SSTSH3_R (*((volatile uint32_t *)0x400390BC)) #define ADC1_DCRIC_R (*((volatile uint32_t *)0x40039D00)) #define ADC1_DCCTL0_R (*((volatile uint32_t *)0x40039E00)) #define ADC1_DCCTL1_R (*((volatile uint32_t *)0x40039E04)) #define ADC1_DCCTL2_R (*((volatile uint32_t *)0x40039E08)) #define ADC1_DCCTL3_R (*((volatile uint32_t *)0x40039E0C)) #define ADC1_DCCTL4_R (*((volatile uint32_t *)0x40039E10)) #define ADC1_DCCTL5_R (*((volatile uint32_t *)0x40039E14)) #define ADC1_DCCTL6_R (*((volatile uint32_t *)0x40039E18)) #define ADC1_DCCTL7_R (*((volatile uint32_t *)0x40039E1C)) #define ADC1_DCCMP0_R (*((volatile uint32_t *)0x40039E40)) #define ADC1_DCCMP1_R (*((volatile uint32_t *)0x40039E44)) #define ADC1_DCCMP2_R (*((volatile uint32_t *)0x40039E48)) #define ADC1_DCCMP3_R (*((volatile uint32_t *)0x40039E4C)) #define ADC1_DCCMP4_R (*((volatile uint32_t *)0x40039E50)) #define ADC1_DCCMP5_R (*((volatile uint32_t *)0x40039E54)) #define ADC1_DCCMP6_R (*((volatile uint32_t *)0x40039E58)) #define ADC1_DCCMP7_R (*((volatile uint32_t *)0x40039E5C)) #define ADC1_PP_R (*((volatile uint32_t *)0x40039FC0)) #define ADC1_PC_R (*((volatile uint32_t *)0x40039FC4)) #define ADC1_CC_R (*((volatile uint32_t *)0x40039FC8)) //***************************************************************************** // // Comparator registers (COMP) // //***************************************************************************** #define COMP_ACMIS_R (*((volatile uint32_t *)0x4003C000)) #define COMP_ACRIS_R (*((volatile uint32_t *)0x4003C004)) #define COMP_ACINTEN_R (*((volatile uint32_t *)0x4003C008)) #define COMP_ACREFCTL_R (*((volatile uint32_t *)0x4003C010)) #define COMP_ACSTAT0_R (*((volatile uint32_t *)0x4003C020)) #define COMP_ACCTL0_R (*((volatile uint32_t *)0x4003C024)) #define COMP_ACSTAT1_R (*((volatile uint32_t *)0x4003C040)) #define COMP_ACCTL1_R (*((volatile uint32_t *)0x4003C044)) #define COMP_ACSTAT2_R (*((volatile uint32_t *)0x4003C060)) #define COMP_ACCTL2_R (*((volatile uint32_t *)0x4003C064)) #define COMP_PP_R (*((volatile uint32_t *)0x4003CFC0)) //***************************************************************************** // // CAN registers (CAN0) // //***************************************************************************** #define CAN0_CTL_R (*((volatile uint32_t *)0x40040000)) #define CAN0_STS_R (*((volatile uint32_t *)0x40040004)) #define CAN0_ERR_R (*((volatile uint32_t *)0x40040008)) #define CAN0_BIT_R (*((volatile uint32_t *)0x4004000C)) #define CAN0_INT_R (*((volatile uint32_t *)0x40040010)) #define CAN0_TST_R (*((volatile uint32_t *)0x40040014)) #define CAN0_BRPE_R (*((volatile uint32_t *)0x40040018)) #define CAN0_IF1CRQ_R (*((volatile uint32_t *)0x40040020)) #define CAN0_IF1CMSK_R (*((volatile uint32_t *)0x40040024)) #define CAN0_IF1MSK1_R (*((volatile uint32_t *)0x40040028)) #define CAN0_IF1MSK2_R (*((volatile uint32_t *)0x4004002C)) #define CAN0_IF1ARB1_R (*((volatile uint32_t *)0x40040030)) #define CAN0_IF1ARB2_R (*((volatile uint32_t *)0x40040034)) #define CAN0_IF1MCTL_R (*((volatile uint32_t *)0x40040038)) #define CAN0_IF1DA1_R (*((volatile uint32_t *)0x4004003C)) #define CAN0_IF1DA2_R (*((volatile uint32_t *)0x40040040)) #define CAN0_IF1DB1_R (*((volatile uint32_t *)0x40040044)) #define CAN0_IF1DB2_R (*((volatile uint32_t *)0x40040048)) #define CAN0_IF2CRQ_R (*((volatile uint32_t *)0x40040080)) #define CAN0_IF2CMSK_R (*((volatile uint32_t *)0x40040084)) #define CAN0_IF2MSK1_R (*((volatile uint32_t *)0x40040088)) #define CAN0_IF2MSK2_R (*((volatile uint32_t *)0x4004008C)) #define CAN0_IF2ARB1_R (*((volatile uint32_t *)0x40040090)) #define CAN0_IF2ARB2_R (*((volatile uint32_t *)0x40040094)) #define CAN0_IF2MCTL_R (*((volatile uint32_t *)0x40040098)) #define CAN0_IF2DA1_R (*((volatile uint32_t *)0x4004009C)) #define CAN0_IF2DA2_R (*((volatile uint32_t *)0x400400A0)) #define CAN0_IF2DB1_R (*((volatile uint32_t *)0x400400A4)) #define CAN0_IF2DB2_R (*((volatile uint32_t *)0x400400A8)) #define CAN0_TXRQ1_R (*((volatile uint32_t *)0x40040100)) #define CAN0_TXRQ2_R (*((volatile uint32_t *)0x40040104)) #define CAN0_NWDA1_R (*((volatile uint32_t *)0x40040120)) #define CAN0_NWDA2_R (*((volatile uint32_t *)0x40040124)) #define CAN0_MSG1INT_R (*((volatile uint32_t *)0x40040140)) #define CAN0_MSG2INT_R (*((volatile uint32_t *)0x40040144)) #define CAN0_MSG1VAL_R (*((volatile uint32_t *)0x40040160)) #define CAN0_MSG2VAL_R (*((volatile uint32_t *)0x40040164)) //***************************************************************************** // // CAN registers (CAN1) // //***************************************************************************** #define CAN1_CTL_R (*((volatile uint32_t *)0x40041000)) #define CAN1_STS_R (*((volatile uint32_t *)0x40041004)) #define CAN1_ERR_R (*((volatile uint32_t *)0x40041008)) #define CAN1_BIT_R (*((volatile uint32_t *)0x4004100C)) #define CAN1_INT_R (*((volatile uint32_t *)0x40041010)) #define CAN1_TST_R (*((volatile uint32_t *)0x40041014)) #define CAN1_BRPE_R (*((volatile uint32_t *)0x40041018)) #define CAN1_IF1CRQ_R (*((volatile uint32_t *)0x40041020)) #define CAN1_IF1CMSK_R (*((volatile uint32_t *)0x40041024)) #define CAN1_IF1MSK1_R (*((volatile uint32_t *)0x40041028)) #define CAN1_IF1MSK2_R (*((volatile uint32_t *)0x4004102C)) #define CAN1_IF1ARB1_R (*((volatile uint32_t *)0x40041030)) #define CAN1_IF1ARB2_R (*((volatile uint32_t *)0x40041034)) #define CAN1_IF1MCTL_R (*((volatile uint32_t *)0x40041038)) #define CAN1_IF1DA1_R (*((volatile uint32_t *)0x4004103C)) #define CAN1_IF1DA2_R (*((volatile uint32_t *)0x40041040)) #define CAN1_IF1DB1_R (*((volatile uint32_t *)0x40041044)) #define CAN1_IF1DB2_R (*((volatile uint32_t *)0x40041048)) #define CAN1_IF2CRQ_R (*((volatile uint32_t *)0x40041080)) #define CAN1_IF2CMSK_R (*((volatile uint32_t *)0x40041084)) #define CAN1_IF2MSK1_R (*((volatile uint32_t *)0x40041088)) #define CAN1_IF2MSK2_R (*((volatile uint32_t *)0x4004108C)) #define CAN1_IF2ARB1_R (*((volatile uint32_t *)0x40041090)) #define CAN1_IF2ARB2_R (*((volatile uint32_t *)0x40041094)) #define CAN1_IF2MCTL_R (*((volatile uint32_t *)0x40041098)) #define CAN1_IF2DA1_R (*((volatile uint32_t *)0x4004109C)) #define CAN1_IF2DA2_R (*((volatile uint32_t *)0x400410A0)) #define CAN1_IF2DB1_R (*((volatile uint32_t *)0x400410A4)) #define CAN1_IF2DB2_R (*((volatile uint32_t *)0x400410A8)) #define CAN1_TXRQ1_R (*((volatile uint32_t *)0x40041100)) #define CAN1_TXRQ2_R (*((volatile uint32_t *)0x40041104)) #define CAN1_NWDA1_R (*((volatile uint32_t *)0x40041120)) #define CAN1_NWDA2_R (*((volatile uint32_t *)0x40041124)) #define CAN1_MSG1INT_R (*((volatile uint32_t *)0x40041140)) #define CAN1_MSG2INT_R (*((volatile uint32_t *)0x40041144)) #define CAN1_MSG1VAL_R (*((volatile uint32_t *)0x40041160)) #define CAN1_MSG2VAL_R (*((volatile uint32_t *)0x40041164)) //***************************************************************************** // // Univeral Serial Bus registers (USB0) // //***************************************************************************** #define USB0_FADDR_R (*((volatile uint8_t *)0x40050000)) #define USB0_POWER_R (*((volatile uint8_t *)0x40050001)) #define USB0_TXIS_R (*((volatile uint16_t *)0x40050002)) #define USB0_RXIS_R (*((volatile uint16_t *)0x40050004)) #define USB0_TXIE_R (*((volatile uint16_t *)0x40050006)) #define USB0_RXIE_R (*((volatile uint16_t *)0x40050008)) #define USB0_IS_R (*((volatile uint8_t *)0x4005000A)) #define USB0_IE_R (*((volatile uint8_t *)0x4005000B)) #define USB0_FRAME_R (*((volatile uint16_t *)0x4005000C)) #define USB0_EPIDX_R (*((volatile uint8_t *)0x4005000E)) #define USB0_TEST_R (*((volatile uint8_t *)0x4005000F)) #define USB0_FIFO0_R (*((volatile uint32_t *)0x40050020)) #define USB0_FIFO1_R (*((volatile uint32_t *)0x40050024)) #define USB0_FIFO2_R (*((volatile uint32_t *)0x40050028)) #define USB0_FIFO3_R (*((volatile uint32_t *)0x4005002C)) #define USB0_FIFO4_R (*((volatile uint32_t *)0x40050030)) #define USB0_FIFO5_R (*((volatile uint32_t *)0x40050034)) #define USB0_FIFO6_R (*((volatile uint32_t *)0x40050038)) #define USB0_FIFO7_R (*((volatile uint32_t *)0x4005003C)) #define USB0_DEVCTL_R (*((volatile uint8_t *)0x40050060)) #define USB0_CCONF_R (*((volatile uint8_t *)0x40050061)) #define USB0_TXFIFOSZ_R (*((volatile uint8_t *)0x40050062)) #define USB0_RXFIFOSZ_R (*((volatile uint8_t *)0x40050063)) #define USB0_TXFIFOADD_R (*((volatile uint16_t *)0x40050064)) #define USB0_RXFIFOADD_R (*((volatile uint16_t *)0x40050066)) #define USB0_ULPIVBUSCTL_R (*((volatile uint8_t *)0x40050070)) #define USB0_ULPIREGDATA_R (*((volatile uint8_t *)0x40050074)) #define USB0_ULPIREGADDR_R (*((volatile uint8_t *)0x40050075)) #define USB0_ULPIREGCTL_R (*((volatile uint8_t *)0x40050076)) #define USB0_EPINFO_R (*((volatile uint8_t *)0x40050078)) #define USB0_RAMINFO_R (*((volatile uint8_t *)0x40050079)) #define USB0_CONTIM_R (*((volatile uint8_t *)0x4005007A)) #define USB0_VPLEN_R (*((volatile uint8_t *)0x4005007B)) #define USB0_HSEOF_R (*((volatile uint8_t *)0x4005007C)) #define USB0_FSEOF_R (*((volatile uint8_t *)0x4005007D)) #define USB0_LSEOF_R (*((volatile uint8_t *)0x4005007E)) #define USB0_TXFUNCADDR0_R (*((volatile uint8_t *)0x40050080)) #define USB0_TXHUBADDR0_R (*((volatile uint8_t *)0x40050082)) #define USB0_TXHUBPORT0_R (*((volatile uint8_t *)0x40050083)) #define USB0_TXFUNCADDR1_R (*((volatile uint8_t *)0x40050088)) #define USB0_TXHUBADDR1_R (*((volatile uint8_t *)0x4005008A)) #define USB0_TXHUBPORT1_R (*((volatile uint8_t *)0x4005008B)) #define USB0_RXFUNCADDR1_R (*((volatile uint8_t *)0x4005008C)) #define USB0_RXHUBADDR1_R (*((volatile uint8_t *)0x4005008E)) #define USB0_RXHUBPORT1_R (*((volatile uint8_t *)0x4005008F)) #define USB0_TXFUNCADDR2_R (*((volatile uint8_t *)0x40050090)) #define USB0_TXHUBADDR2_R (*((volatile uint8_t *)0x40050092)) #define USB0_TXHUBPORT2_R (*((volatile uint8_t *)0x40050093)) #define USB0_RXFUNCADDR2_R (*((volatile uint8_t *)0x40050094)) #define USB0_RXHUBADDR2_R (*((volatile uint8_t *)0x40050096)) #define USB0_RXHUBPORT2_R (*((volatile uint8_t *)0x40050097)) #define USB0_TXFUNCADDR3_R (*((volatile uint8_t *)0x40050098)) #define USB0_TXHUBADDR3_R (*((volatile uint8_t *)0x4005009A)) #define USB0_TXHUBPORT3_R (*((volatile uint8_t *)0x4005009B)) #define USB0_RXFUNCADDR3_R (*((volatile uint8_t *)0x4005009C)) #define USB0_RXHUBADDR3_R (*((volatile uint8_t *)0x4005009E)) #define USB0_RXHUBPORT3_R (*((volatile uint8_t *)0x4005009F)) #define USB0_TXFUNCADDR4_R (*((volatile uint8_t *)0x400500A0)) #define USB0_TXHUBADDR4_R (*((volatile uint8_t *)0x400500A2)) #define USB0_TXHUBPORT4_R (*((volatile uint8_t *)0x400500A3)) #define USB0_RXFUNCADDR4_R (*((volatile uint8_t *)0x400500A4)) #define USB0_RXHUBADDR4_R (*((volatile uint8_t *)0x400500A6)) #define USB0_RXHUBPORT4_R (*((volatile uint8_t *)0x400500A7)) #define USB0_TXFUNCADDR5_R (*((volatile uint8_t *)0x400500A8)) #define USB0_TXHUBADDR5_R (*((volatile uint8_t *)0x400500AA)) #define USB0_TXHUBPORT5_R (*((volatile uint8_t *)0x400500AB)) #define USB0_RXFUNCADDR5_R (*((volatile uint8_t *)0x400500AC)) #define USB0_RXHUBADDR5_R (*((volatile uint8_t *)0x400500AE)) #define USB0_RXHUBPORT5_R (*((volatile uint8_t *)0x400500AF)) #define USB0_TXFUNCADDR6_R (*((volatile uint8_t *)0x400500B0)) #define USB0_TXHUBADDR6_R (*((volatile uint8_t *)0x400500B2)) #define USB0_TXHUBPORT6_R (*((volatile uint8_t *)0x400500B3)) #define USB0_RXFUNCADDR6_R (*((volatile uint8_t *)0x400500B4)) #define USB0_RXHUBADDR6_R (*((volatile uint8_t *)0x400500B6)) #define USB0_RXHUBPORT6_R (*((volatile uint8_t *)0x400500B7)) #define USB0_TXFUNCADDR7_R (*((volatile uint8_t *)0x400500B8)) #define USB0_TXHUBADDR7_R (*((volatile uint8_t *)0x400500BA)) #define USB0_TXHUBPORT7_R (*((volatile uint8_t *)0x400500BB)) #define USB0_RXFUNCADDR7_R (*((volatile uint8_t *)0x400500BC)) #define USB0_RXHUBADDR7_R (*((volatile uint8_t *)0x400500BE)) #define USB0_RXHUBPORT7_R (*((volatile uint8_t *)0x400500BF)) #define USB0_CSRL0_R (*((volatile uint8_t *)0x40050102)) #define USB0_CSRH0_R (*((volatile uint8_t *)0x40050103)) #define USB0_COUNT0_R (*((volatile uint8_t *)0x40050108)) #define USB0_TYPE0_R (*((volatile uint8_t *)0x4005010A)) #define USB0_NAKLMT_R (*((volatile uint8_t *)0x4005010B)) #define USB0_TXMAXP1_R (*((volatile uint16_t *)0x40050110)) #define USB0_TXCSRL1_R (*((volatile uint8_t *)0x40050112)) #define USB0_TXCSRH1_R (*((volatile uint8_t *)0x40050113)) #define USB0_RXMAXP1_R (*((volatile uint16_t *)0x40050114)) #define USB0_RXCSRL1_R (*((volatile uint8_t *)0x40050116)) #define USB0_RXCSRH1_R (*((volatile uint8_t *)0x40050117)) #define USB0_RXCOUNT1_R (*((volatile uint16_t *)0x40050118)) #define USB0_TXTYPE1_R (*((volatile uint8_t *)0x4005011A)) #define USB0_TXINTERVAL1_R (*((volatile uint8_t *)0x4005011B)) #define USB0_RXTYPE1_R (*((volatile uint8_t *)0x4005011C)) #define USB0_RXINTERVAL1_R (*((volatile uint8_t *)0x4005011D)) #define USB0_TXMAXP2_R (*((volatile uint16_t *)0x40050120)) #define USB0_TXCSRL2_R (*((volatile uint8_t *)0x40050122)) #define USB0_TXCSRH2_R (*((volatile uint8_t *)0x40050123)) #define USB0_RXMAXP2_R (*((volatile uint16_t *)0x40050124)) #define USB0_RXCSRL2_R (*((volatile uint8_t *)0x40050126)) #define USB0_RXCSRH2_R (*((volatile uint8_t *)0x40050127)) #define USB0_RXCOUNT2_R (*((volatile uint16_t *)0x40050128)) #define USB0_TXTYPE2_R (*((volatile uint8_t *)0x4005012A)) #define USB0_TXINTERVAL2_R (*((volatile uint8_t *)0x4005012B)) #define USB0_RXTYPE2_R (*((volatile uint8_t *)0x4005012C)) #define USB0_RXINTERVAL2_R (*((volatile uint8_t *)0x4005012D)) #define USB0_TXMAXP3_R (*((volatile uint16_t *)0x40050130)) #define USB0_TXCSRL3_R (*((volatile uint8_t *)0x40050132)) #define USB0_TXCSRH3_R (*((volatile uint8_t *)0x40050133)) #define USB0_RXMAXP3_R (*((volatile uint16_t *)0x40050134)) #define USB0_RXCSRL3_R (*((volatile uint8_t *)0x40050136)) #define USB0_RXCSRH3_R (*((volatile uint8_t *)0x40050137)) #define USB0_RXCOUNT3_R (*((volatile uint16_t *)0x40050138)) #define USB0_TXTYPE3_R (*((volatile uint8_t *)0x4005013A)) #define USB0_TXINTERVAL3_R (*((volatile uint8_t *)0x4005013B)) #define USB0_RXTYPE3_R (*((volatile uint8_t *)0x4005013C)) #define USB0_RXINTERVAL3_R (*((volatile uint8_t *)0x4005013D)) #define USB0_TXMAXP4_R (*((volatile uint16_t *)0x40050140)) #define USB0_TXCSRL4_R (*((volatile uint8_t *)0x40050142)) #define USB0_TXCSRH4_R (*((volatile uint8_t *)0x40050143)) #define USB0_RXMAXP4_R (*((volatile uint16_t *)0x40050144)) #define USB0_RXCSRL4_R (*((volatile uint8_t *)0x40050146)) #define USB0_RXCSRH4_R (*((volatile uint8_t *)0x40050147)) #define USB0_RXCOUNT4_R (*((volatile uint16_t *)0x40050148)) #define USB0_TXTYPE4_R (*((volatile uint8_t *)0x4005014A)) #define USB0_TXINTERVAL4_R (*((volatile uint8_t *)0x4005014B)) #define USB0_RXTYPE4_R (*((volatile uint8_t *)0x4005014C)) #define USB0_RXINTERVAL4_R (*((volatile uint8_t *)0x4005014D)) #define USB0_TXMAXP5_R (*((volatile uint16_t *)0x40050150)) #define USB0_TXCSRL5_R (*((volatile uint8_t *)0x40050152)) #define USB0_TXCSRH5_R (*((volatile uint8_t *)0x40050153)) #define USB0_RXMAXP5_R (*((volatile uint16_t *)0x40050154)) #define USB0_RXCSRL5_R (*((volatile uint8_t *)0x40050156)) #define USB0_RXCSRH5_R (*((volatile uint8_t *)0x40050157)) #define USB0_RXCOUNT5_R (*((volatile uint16_t *)0x40050158)) #define USB0_TXTYPE5_R (*((volatile uint8_t *)0x4005015A)) #define USB0_TXINTERVAL5_R (*((volatile uint8_t *)0x4005015B)) #define USB0_RXTYPE5_R (*((volatile uint8_t *)0x4005015C)) #define USB0_RXINTERVAL5_R (*((volatile uint8_t *)0x4005015D)) #define USB0_TXMAXP6_R (*((volatile uint16_t *)0x40050160)) #define USB0_TXCSRL6_R (*((volatile uint8_t *)0x40050162)) #define USB0_TXCSRH6_R (*((volatile uint8_t *)0x40050163)) #define USB0_RXMAXP6_R (*((volatile uint16_t *)0x40050164)) #define USB0_RXCSRL6_R (*((volatile uint8_t *)0x40050166)) #define USB0_RXCSRH6_R (*((volatile uint8_t *)0x40050167)) #define USB0_RXCOUNT6_R (*((volatile uint16_t *)0x40050168)) #define USB0_TXTYPE6_R (*((volatile uint8_t *)0x4005016A)) #define USB0_TXINTERVAL6_R (*((volatile uint8_t *)0x4005016B)) #define USB0_RXTYPE6_R (*((volatile uint8_t *)0x4005016C)) #define USB0_RXINTERVAL6_R (*((volatile uint8_t *)0x4005016D)) #define USB0_TXMAXP7_R (*((volatile uint16_t *)0x40050170)) #define USB0_TXCSRL7_R (*((volatile uint8_t *)0x40050172)) #define USB0_TXCSRH7_R (*((volatile uint8_t *)0x40050173)) #define USB0_RXMAXP7_R (*((volatile uint16_t *)0x40050174)) #define USB0_RXCSRL7_R (*((volatile uint8_t *)0x40050176)) #define USB0_RXCSRH7_R (*((volatile uint8_t *)0x40050177)) #define USB0_RXCOUNT7_R (*((volatile uint16_t *)0x40050178)) #define USB0_TXTYPE7_R (*((volatile uint8_t *)0x4005017A)) #define USB0_TXINTERVAL7_R (*((volatile uint8_t *)0x4005017B)) #define USB0_RXTYPE7_R (*((volatile uint8_t *)0x4005017C)) #define USB0_RXINTERVAL7_R (*((volatile uint8_t *)0x4005017D)) #define USB0_DMAINTR_R (*((volatile uint8_t *)0x40050200)) #define USB0_DMACTL0_R (*((volatile uint16_t *)0x40050204)) #define USB0_DMAADDR0_R (*((volatile uint32_t *)0x40050208)) #define USB0_DMACOUNT0_R (*((volatile uint32_t *)0x4005020C)) #define USB0_DMACTL1_R (*((volatile uint16_t *)0x40050214)) #define USB0_DMAADDR1_R (*((volatile uint32_t *)0x40050218)) #define USB0_DMACOUNT1_R (*((volatile uint32_t *)0x4005021C)) #define USB0_DMACTL2_R (*((volatile uint16_t *)0x40050224)) #define USB0_DMAADDR2_R (*((volatile uint32_t *)0x40050228)) #define USB0_DMACOUNT2_R (*((volatile uint32_t *)0x4005022C)) #define USB0_DMACTL3_R (*((volatile uint16_t *)0x40050234)) #define USB0_DMAADDR3_R (*((volatile uint32_t *)0x40050238)) #define USB0_DMACOUNT3_R (*((volatile uint32_t *)0x4005023C)) #define USB0_DMACTL4_R (*((volatile uint16_t *)0x40050244)) #define USB0_DMAADDR4_R (*((volatile uint32_t *)0x40050248)) #define USB0_DMACOUNT4_R (*((volatile uint32_t *)0x4005024C)) #define USB0_DMACTL5_R (*((volatile uint16_t *)0x40050254)) #define USB0_DMAADDR5_R (*((volatile uint32_t *)0x40050258)) #define USB0_DMACOUNT5_R (*((volatile uint32_t *)0x4005025C)) #define USB0_DMACTL6_R (*((volatile uint16_t *)0x40050264)) #define USB0_DMAADDR6_R (*((volatile uint32_t *)0x40050268)) #define USB0_DMACOUNT6_R (*((volatile uint32_t *)0x4005026C)) #define USB0_DMACTL7_R (*((volatile uint16_t *)0x40050274)) #define USB0_DMAADDR7_R (*((volatile uint32_t *)0x40050278)) #define USB0_DMACOUNT7_R (*((volatile uint32_t *)0x4005027C)) #define USB0_RQPKTCOUNT1_R (*((volatile uint16_t *)0x40050304)) #define USB0_RQPKTCOUNT2_R (*((volatile uint16_t *)0x40050308)) #define USB0_RQPKTCOUNT3_R (*((volatile uint16_t *)0x4005030C)) #define USB0_RQPKTCOUNT4_R (*((volatile uint16_t *)0x40050310)) #define USB0_RQPKTCOUNT5_R (*((volatile uint16_t *)0x40050314)) #define USB0_RQPKTCOUNT6_R (*((volatile uint16_t *)0x40050318)) #define USB0_RQPKTCOUNT7_R (*((volatile uint16_t *)0x4005031C)) #define USB0_RXDPKTBUFDIS_R (*((volatile uint16_t *)0x40050340)) #define USB0_TXDPKTBUFDIS_R (*((volatile uint16_t *)0x40050342)) #define USB0_CTO_R (*((volatile uint16_t *)0x40050344)) #define USB0_HHSRTN_R (*((volatile uint16_t *)0x40050346)) #define USB0_HSBT_R (*((volatile uint16_t *)0x40050348)) #define USB0_LPMATTR_R (*((volatile uint16_t *)0x40050360)) #define USB0_LPMCNTRL_R (*((volatile uint8_t *)0x40050362)) #define USB0_LPMIM_R (*((volatile uint8_t *)0x40050363)) #define USB0_LPMRIS_R (*((volatile uint8_t *)0x40050364)) #define USB0_LPMFADDR_R (*((volatile uint8_t *)0x40050365)) #define USB0_EPC_R (*((volatile uint32_t *)0x40050400)) #define USB0_EPCRIS_R (*((volatile uint32_t *)0x40050404)) #define USB0_EPCIM_R (*((volatile uint32_t *)0x40050408)) #define USB0_EPCISC_R (*((volatile uint32_t *)0x4005040C)) #define USB0_DRRIS_R (*((volatile uint32_t *)0x40050410)) #define USB0_DRIM_R (*((volatile uint32_t *)0x40050414)) #define USB0_DRISC_R (*((volatile uint32_t *)0x40050418)) #define USB0_GPCS_R (*((volatile uint32_t *)0x4005041C)) #define USB0_VDC_R (*((volatile uint32_t *)0x40050430)) #define USB0_VDCRIS_R (*((volatile uint32_t *)0x40050434)) #define USB0_VDCIM_R (*((volatile uint32_t *)0x40050438)) #define USB0_VDCISC_R (*((volatile uint32_t *)0x4005043C)) #define USB0_PP_R (*((volatile uint32_t *)0x40050FC0)) #define USB0_PC_R (*((volatile uint32_t *)0x40050FC4)) #define USB0_CC_R (*((volatile uint32_t *)0x40050FC8)) //***************************************************************************** // // GPIO registers (PORTA AHB) // //***************************************************************************** #define GPIO_PORTA_AHB_DATA_BITS_R \ ((volatile uint32_t *)0x40058000) #define GPIO_PORTA_AHB_DATA_R (*((volatile uint32_t *)0x400583FC)) #define GPIO_PORTA_AHB_DIR_R (*((volatile uint32_t *)0x40058400)) #define GPIO_PORTA_AHB_IS_R (*((volatile uint32_t *)0x40058404)) #define GPIO_PORTA_AHB_IBE_R (*((volatile uint32_t *)0x40058408)) #define GPIO_PORTA_AHB_IEV_R (*((volatile uint32_t *)0x4005840C)) #define GPIO_PORTA_AHB_IM_R (*((volatile uint32_t *)0x40058410)) #define GPIO_PORTA_AHB_RIS_R (*((volatile uint32_t *)0x40058414)) #define GPIO_PORTA_AHB_MIS_R (*((volatile uint32_t *)0x40058418)) #define GPIO_PORTA_AHB_ICR_R (*((volatile uint32_t *)0x4005841C)) #define GPIO_PORTA_AHB_AFSEL_R (*((volatile uint32_t *)0x40058420)) #define GPIO_PORTA_AHB_DR2R_R (*((volatile uint32_t *)0x40058500)) #define GPIO_PORTA_AHB_DR4R_R (*((volatile uint32_t *)0x40058504)) #define GPIO_PORTA_AHB_DR8R_R (*((volatile uint32_t *)0x40058508)) #define GPIO_PORTA_AHB_ODR_R (*((volatile uint32_t *)0x4005850C)) #define GPIO_PORTA_AHB_PUR_R (*((volatile uint32_t *)0x40058510)) #define GPIO_PORTA_AHB_PDR_R (*((volatile uint32_t *)0x40058514)) #define GPIO_PORTA_AHB_SLR_R (*((volatile uint32_t *)0x40058518)) #define GPIO_PORTA_AHB_DEN_R (*((volatile uint32_t *)0x4005851C)) #define GPIO_PORTA_AHB_LOCK_R (*((volatile uint32_t *)0x40058520)) #define GPIO_PORTA_AHB_CR_R (*((volatile uint32_t *)0x40058524)) #define GPIO_PORTA_AHB_AMSEL_R (*((volatile uint32_t *)0x40058528)) #define GPIO_PORTA_AHB_PCTL_R (*((volatile uint32_t *)0x4005852C)) #define GPIO_PORTA_AHB_ADCCTL_R (*((volatile uint32_t *)0x40058530)) #define GPIO_PORTA_AHB_DMACTL_R (*((volatile uint32_t *)0x40058534)) #define GPIO_PORTA_AHB_SI_R (*((volatile uint32_t *)0x40058538)) #define GPIO_PORTA_AHB_DR12R_R (*((volatile uint32_t *)0x4005853C)) #define GPIO_PORTA_AHB_WAKEPEN_R \ (*((volatile uint32_t *)0x40058540)) #define GPIO_PORTA_AHB_WAKELVL_R \ (*((volatile uint32_t *)0x40058544)) #define GPIO_PORTA_AHB_WAKESTAT_R \ (*((volatile uint32_t *)0x40058548)) #define GPIO_PORTA_AHB_PP_R (*((volatile uint32_t *)0x40058FC0)) #define GPIO_PORTA_AHB_PC_R (*((volatile uint32_t *)0x40058FC4)) //***************************************************************************** // // GPIO registers (PORTB AHB) // //***************************************************************************** #define GPIO_PORTB_AHB_DATA_BITS_R \ ((volatile uint32_t *)0x40059000) #define GPIO_PORTB_AHB_DATA_R (*((volatile uint32_t *)0x400593FC)) #define GPIO_PORTB_AHB_DIR_R (*((volatile uint32_t *)0x40059400)) #define GPIO_PORTB_AHB_IS_R (*((volatile uint32_t *)0x40059404)) #define GPIO_PORTB_AHB_IBE_R (*((volatile uint32_t *)0x40059408)) #define GPIO_PORTB_AHB_IEV_R (*((volatile uint32_t *)0x4005940C)) #define GPIO_PORTB_AHB_IM_R (*((volatile uint32_t *)0x40059410)) #define GPIO_PORTB_AHB_RIS_R (*((volatile uint32_t *)0x40059414)) #define GPIO_PORTB_AHB_MIS_R (*((volatile uint32_t *)0x40059418)) #define GPIO_PORTB_AHB_ICR_R (*((volatile uint32_t *)0x4005941C)) #define GPIO_PORTB_AHB_AFSEL_R (*((volatile uint32_t *)0x40059420)) #define GPIO_PORTB_AHB_DR2R_R (*((volatile uint32_t *)0x40059500)) #define GPIO_PORTB_AHB_DR4R_R (*((volatile uint32_t *)0x40059504)) #define GPIO_PORTB_AHB_DR8R_R (*((volatile uint32_t *)0x40059508)) #define GPIO_PORTB_AHB_ODR_R (*((volatile uint32_t *)0x4005950C)) #define GPIO_PORTB_AHB_PUR_R (*((volatile uint32_t *)0x40059510)) #define GPIO_PORTB_AHB_PDR_R (*((volatile uint32_t *)0x40059514)) #define GPIO_PORTB_AHB_SLR_R (*((volatile uint32_t *)0x40059518)) #define GPIO_PORTB_AHB_DEN_R (*((volatile uint32_t *)0x4005951C)) #define GPIO_PORTB_AHB_LOCK_R (*((volatile uint32_t *)0x40059520)) #define GPIO_PORTB_AHB_CR_R (*((volatile uint32_t *)0x40059524)) #define GPIO_PORTB_AHB_AMSEL_R (*((volatile uint32_t *)0x40059528)) #define GPIO_PORTB_AHB_PCTL_R (*((volatile uint32_t *)0x4005952C)) #define GPIO_PORTB_AHB_ADCCTL_R (*((volatile uint32_t *)0x40059530)) #define GPIO_PORTB_AHB_DMACTL_R (*((volatile uint32_t *)0x40059534)) #define GPIO_PORTB_AHB_SI_R (*((volatile uint32_t *)0x40059538)) #define GPIO_PORTB_AHB_DR12R_R (*((volatile uint32_t *)0x4005953C)) #define GPIO_PORTB_AHB_WAKEPEN_R \ (*((volatile uint32_t *)0x40059540)) #define GPIO_PORTB_AHB_WAKELVL_R \ (*((volatile uint32_t *)0x40059544)) #define GPIO_PORTB_AHB_WAKESTAT_R \ (*((volatile uint32_t *)0x40059548)) #define GPIO_PORTB_AHB_PP_R (*((volatile uint32_t *)0x40059FC0)) #define GPIO_PORTB_AHB_PC_R (*((volatile uint32_t *)0x40059FC4)) //***************************************************************************** // // GPIO registers (PORTC AHB) // //***************************************************************************** #define GPIO_PORTC_AHB_DATA_BITS_R \ ((volatile uint32_t *)0x4005A000) #define GPIO_PORTC_AHB_DATA_R (*((volatile uint32_t *)0x4005A3FC)) #define GPIO_PORTC_AHB_DIR_R (*((volatile uint32_t *)0x4005A400)) #define GPIO_PORTC_AHB_IS_R (*((volatile uint32_t *)0x4005A404)) #define GPIO_PORTC_AHB_IBE_R (*((volatile uint32_t *)0x4005A408)) #define GPIO_PORTC_AHB_IEV_R (*((volatile uint32_t *)0x4005A40C)) #define GPIO_PORTC_AHB_IM_R (*((volatile uint32_t *)0x4005A410)) #define GPIO_PORTC_AHB_RIS_R (*((volatile uint32_t *)0x4005A414)) #define GPIO_PORTC_AHB_MIS_R (*((volatile uint32_t *)0x4005A418)) #define GPIO_PORTC_AHB_ICR_R (*((volatile uint32_t *)0x4005A41C)) #define GPIO_PORTC_AHB_AFSEL_R (*((volatile uint32_t *)0x4005A420)) #define GPIO_PORTC_AHB_DR2R_R (*((volatile uint32_t *)0x4005A500)) #define GPIO_PORTC_AHB_DR4R_R (*((volatile uint32_t *)0x4005A504)) #define GPIO_PORTC_AHB_DR8R_R (*((volatile uint32_t *)0x4005A508)) #define GPIO_PORTC_AHB_ODR_R (*((volatile uint32_t *)0x4005A50C)) #define GPIO_PORTC_AHB_PUR_R (*((volatile uint32_t *)0x4005A510)) #define GPIO_PORTC_AHB_PDR_R (*((volatile uint32_t *)0x4005A514)) #define GPIO_PORTC_AHB_SLR_R (*((volatile uint32_t *)0x4005A518)) #define GPIO_PORTC_AHB_DEN_R (*((volatile uint32_t *)0x4005A51C)) #define GPIO_PORTC_AHB_LOCK_R (*((volatile uint32_t *)0x4005A520)) #define GPIO_PORTC_AHB_CR_R (*((volatile uint32_t *)0x4005A524)) #define GPIO_PORTC_AHB_AMSEL_R (*((volatile uint32_t *)0x4005A528)) #define GPIO_PORTC_AHB_PCTL_R (*((volatile uint32_t *)0x4005A52C)) #define GPIO_PORTC_AHB_ADCCTL_R (*((volatile uint32_t *)0x4005A530)) #define GPIO_PORTC_AHB_DMACTL_R (*((volatile uint32_t *)0x4005A534)) #define GPIO_PORTC_AHB_SI_R (*((volatile uint32_t *)0x4005A538)) #define GPIO_PORTC_AHB_DR12R_R (*((volatile uint32_t *)0x4005A53C)) #define GPIO_PORTC_AHB_WAKEPEN_R \ (*((volatile uint32_t *)0x4005A540)) #define GPIO_PORTC_AHB_WAKELVL_R \ (*((volatile uint32_t *)0x4005A544)) #define GPIO_PORTC_AHB_WAKESTAT_R \ (*((volatile uint32_t *)0x4005A548)) #define GPIO_PORTC_AHB_PP_R (*((volatile uint32_t *)0x4005AFC0)) #define GPIO_PORTC_AHB_PC_R (*((volatile uint32_t *)0x4005AFC4)) //***************************************************************************** // // GPIO registers (PORTD AHB) // //***************************************************************************** #define GPIO_PORTD_AHB_DATA_BITS_R \ ((volatile uint32_t *)0x4005B000) #define GPIO_PORTD_AHB_DATA_R (*((volatile uint32_t *)0x4005B3FC)) #define GPIO_PORTD_AHB_DIR_R (*((volatile uint32_t *)0x4005B400)) #define GPIO_PORTD_AHB_IS_R (*((volatile uint32_t *)0x4005B404)) #define GPIO_PORTD_AHB_IBE_R (*((volatile uint32_t *)0x4005B408)) #define GPIO_PORTD_AHB_IEV_R (*((volatile uint32_t *)0x4005B40C)) #define GPIO_PORTD_AHB_IM_R (*((volatile uint32_t *)0x4005B410)) #define GPIO_PORTD_AHB_RIS_R (*((volatile uint32_t *)0x4005B414)) #define GPIO_PORTD_AHB_MIS_R (*((volatile uint32_t *)0x4005B418)) #define GPIO_PORTD_AHB_ICR_R (*((volatile uint32_t *)0x4005B41C)) #define GPIO_PORTD_AHB_AFSEL_R (*((volatile uint32_t *)0x4005B420)) #define GPIO_PORTD_AHB_DR2R_R (*((volatile uint32_t *)0x4005B500)) #define GPIO_PORTD_AHB_DR4R_R (*((volatile uint32_t *)0x4005B504)) #define GPIO_PORTD_AHB_DR8R_R (*((volatile uint32_t *)0x4005B508)) #define GPIO_PORTD_AHB_ODR_R (*((volatile uint32_t *)0x4005B50C)) #define GPIO_PORTD_AHB_PUR_R (*((volatile uint32_t *)0x4005B510)) #define GPIO_PORTD_AHB_PDR_R (*((volatile uint32_t *)0x4005B514)) #define GPIO_PORTD_AHB_SLR_R (*((volatile uint32_t *)0x4005B518)) #define GPIO_PORTD_AHB_DEN_R (*((volatile uint32_t *)0x4005B51C)) #define GPIO_PORTD_AHB_LOCK_R (*((volatile uint32_t *)0x4005B520)) #define GPIO_PORTD_AHB_CR_R (*((volatile uint32_t *)0x4005B524)) #define GPIO_PORTD_AHB_AMSEL_R (*((volatile uint32_t *)0x4005B528)) #define GPIO_PORTD_AHB_PCTL_R (*((volatile uint32_t *)0x4005B52C)) #define GPIO_PORTD_AHB_ADCCTL_R (*((volatile uint32_t *)0x4005B530)) #define GPIO_PORTD_AHB_DMACTL_R (*((volatile uint32_t *)0x4005B534)) #define GPIO_PORTD_AHB_SI_R (*((volatile uint32_t *)0x4005B538)) #define GPIO_PORTD_AHB_DR12R_R (*((volatile uint32_t *)0x4005B53C)) #define GPIO_PORTD_AHB_WAKEPEN_R \ (*((volatile uint32_t *)0x4005B540)) #define GPIO_PORTD_AHB_WAKELVL_R \ (*((volatile uint32_t *)0x4005B544)) #define GPIO_PORTD_AHB_WAKESTAT_R \ (*((volatile uint32_t *)0x4005B548)) #define GPIO_PORTD_AHB_PP_R (*((volatile uint32_t *)0x4005BFC0)) #define GPIO_PORTD_AHB_PC_R (*((volatile uint32_t *)0x4005BFC4)) //***************************************************************************** // // GPIO registers (PORTE AHB) // //***************************************************************************** #define GPIO_PORTE_AHB_DATA_BITS_R \ ((volatile uint32_t *)0x4005C000) #define GPIO_PORTE_AHB_DATA_R (*((volatile uint32_t *)0x4005C3FC)) #define GPIO_PORTE_AHB_DIR_R (*((volatile uint32_t *)0x4005C400)) #define GPIO_PORTE_AHB_IS_R (*((volatile uint32_t *)0x4005C404)) #define GPIO_PORTE_AHB_IBE_R (*((volatile uint32_t *)0x4005C408)) #define GPIO_PORTE_AHB_IEV_R (*((volatile uint32_t *)0x4005C40C)) #define GPIO_PORTE_AHB_IM_R (*((volatile uint32_t *)0x4005C410)) #define GPIO_PORTE_AHB_RIS_R (*((volatile uint32_t *)0x4005C414)) #define GPIO_PORTE_AHB_MIS_R (*((volatile uint32_t *)0x4005C418)) #define GPIO_PORTE_AHB_ICR_R (*((volatile uint32_t *)0x4005C41C)) #define GPIO_PORTE_AHB_AFSEL_R (*((volatile uint32_t *)0x4005C420)) #define GPIO_PORTE_AHB_DR2R_R (*((volatile uint32_t *)0x4005C500)) #define GPIO_PORTE_AHB_DR4R_R (*((volatile uint32_t *)0x4005C504)) #define GPIO_PORTE_AHB_DR8R_R (*((volatile uint32_t *)0x4005C508)) #define GPIO_PORTE_AHB_ODR_R (*((volatile uint32_t *)0x4005C50C)) #define GPIO_PORTE_AHB_PUR_R (*((volatile uint32_t *)0x4005C510)) #define GPIO_PORTE_AHB_PDR_R (*((volatile uint32_t *)0x4005C514)) #define GPIO_PORTE_AHB_SLR_R (*((volatile uint32_t *)0x4005C518)) #define GPIO_PORTE_AHB_DEN_R (*((volatile uint32_t *)0x4005C51C)) #define GPIO_PORTE_AHB_LOCK_R (*((volatile uint32_t *)0x4005C520)) #define GPIO_PORTE_AHB_CR_R (*((volatile uint32_t *)0x4005C524)) #define GPIO_PORTE_AHB_AMSEL_R (*((volatile uint32_t *)0x4005C528)) #define GPIO_PORTE_AHB_PCTL_R (*((volatile uint32_t *)0x4005C52C)) #define GPIO_PORTE_AHB_ADCCTL_R (*((volatile uint32_t *)0x4005C530)) #define GPIO_PORTE_AHB_DMACTL_R (*((volatile uint32_t *)0x4005C534)) #define GPIO_PORTE_AHB_SI_R (*((volatile uint32_t *)0x4005C538)) #define GPIO_PORTE_AHB_DR12R_R (*((volatile uint32_t *)0x4005C53C)) #define GPIO_PORTE_AHB_WAKEPEN_R \ (*((volatile uint32_t *)0x4005C540)) #define GPIO_PORTE_AHB_WAKELVL_R \ (*((volatile uint32_t *)0x4005C544)) #define GPIO_PORTE_AHB_WAKESTAT_R \ (*((volatile uint32_t *)0x4005C548)) #define GPIO_PORTE_AHB_PP_R (*((volatile uint32_t *)0x4005CFC0)) #define GPIO_PORTE_AHB_PC_R (*((volatile uint32_t *)0x4005CFC4)) //***************************************************************************** // // GPIO registers (PORTF AHB) // //***************************************************************************** #define GPIO_PORTF_AHB_DATA_BITS_R \ ((volatile uint32_t *)0x4005D000) #define GPIO_PORTF_AHB_DATA_R (*((volatile uint32_t *)0x4005D3FC)) #define GPIO_PORTF_AHB_DIR_R (*((volatile uint32_t *)0x4005D400)) #define GPIO_PORTF_AHB_IS_R (*((volatile uint32_t *)0x4005D404)) #define GPIO_PORTF_AHB_IBE_R (*((volatile uint32_t *)0x4005D408)) #define GPIO_PORTF_AHB_IEV_R (*((volatile uint32_t *)0x4005D40C)) #define GPIO_PORTF_AHB_IM_R (*((volatile uint32_t *)0x4005D410)) #define GPIO_PORTF_AHB_RIS_R (*((volatile uint32_t *)0x4005D414)) #define GPIO_PORTF_AHB_MIS_R (*((volatile uint32_t *)0x4005D418)) #define GPIO_PORTF_AHB_ICR_R (*((volatile uint32_t *)0x4005D41C)) #define GPIO_PORTF_AHB_AFSEL_R (*((volatile uint32_t *)0x4005D420)) #define GPIO_PORTF_AHB_DR2R_R (*((volatile uint32_t *)0x4005D500)) #define GPIO_PORTF_AHB_DR4R_R (*((volatile uint32_t *)0x4005D504)) #define GPIO_PORTF_AHB_DR8R_R (*((volatile uint32_t *)0x4005D508)) #define GPIO_PORTF_AHB_ODR_R (*((volatile uint32_t *)0x4005D50C)) #define GPIO_PORTF_AHB_PUR_R (*((volatile uint32_t *)0x4005D510)) #define GPIO_PORTF_AHB_PDR_R (*((volatile uint32_t *)0x4005D514)) #define GPIO_PORTF_AHB_SLR_R (*((volatile uint32_t *)0x4005D518)) #define GPIO_PORTF_AHB_DEN_R (*((volatile uint32_t *)0x4005D51C)) #define GPIO_PORTF_AHB_LOCK_R (*((volatile uint32_t *)0x4005D520)) #define GPIO_PORTF_AHB_CR_R (*((volatile uint32_t *)0x4005D524)) #define GPIO_PORTF_AHB_AMSEL_R (*((volatile uint32_t *)0x4005D528)) #define GPIO_PORTF_AHB_PCTL_R (*((volatile uint32_t *)0x4005D52C)) #define GPIO_PORTF_AHB_ADCCTL_R (*((volatile uint32_t *)0x4005D530)) #define GPIO_PORTF_AHB_DMACTL_R (*((volatile uint32_t *)0x4005D534)) #define GPIO_PORTF_AHB_SI_R (*((volatile uint32_t *)0x4005D538)) #define GPIO_PORTF_AHB_DR12R_R (*((volatile uint32_t *)0x4005D53C)) #define GPIO_PORTF_AHB_WAKEPEN_R \ (*((volatile uint32_t *)0x4005D540)) #define GPIO_PORTF_AHB_WAKELVL_R \ (*((volatile uint32_t *)0x4005D544)) #define GPIO_PORTF_AHB_WAKESTAT_R \ (*((volatile uint32_t *)0x4005D548)) #define GPIO_PORTF_AHB_PP_R (*((volatile uint32_t *)0x4005DFC0)) #define GPIO_PORTF_AHB_PC_R (*((volatile uint32_t *)0x4005DFC4)) //***************************************************************************** // // GPIO registers (PORTG AHB) // //***************************************************************************** #define GPIO_PORTG_AHB_DATA_BITS_R \ ((volatile uint32_t *)0x4005E000) #define GPIO_PORTG_AHB_DATA_R (*((volatile uint32_t *)0x4005E3FC)) #define GPIO_PORTG_AHB_DIR_R (*((volatile uint32_t *)0x4005E400)) #define GPIO_PORTG_AHB_IS_R (*((volatile uint32_t *)0x4005E404)) #define GPIO_PORTG_AHB_IBE_R (*((volatile uint32_t *)0x4005E408)) #define GPIO_PORTG_AHB_IEV_R (*((volatile uint32_t *)0x4005E40C)) #define GPIO_PORTG_AHB_IM_R (*((volatile uint32_t *)0x4005E410)) #define GPIO_PORTG_AHB_RIS_R (*((volatile uint32_t *)0x4005E414)) #define GPIO_PORTG_AHB_MIS_R (*((volatile uint32_t *)0x4005E418)) #define GPIO_PORTG_AHB_ICR_R (*((volatile uint32_t *)0x4005E41C)) #define GPIO_PORTG_AHB_AFSEL_R (*((volatile uint32_t *)0x4005E420)) #define GPIO_PORTG_AHB_DR2R_R (*((volatile uint32_t *)0x4005E500)) #define GPIO_PORTG_AHB_DR4R_R (*((volatile uint32_t *)0x4005E504)) #define GPIO_PORTG_AHB_DR8R_R (*((volatile uint32_t *)0x4005E508)) #define GPIO_PORTG_AHB_ODR_R (*((volatile uint32_t *)0x4005E50C)) #define GPIO_PORTG_AHB_PUR_R (*((volatile uint32_t *)0x4005E510)) #define GPIO_PORTG_AHB_PDR_R (*((volatile uint32_t *)0x4005E514)) #define GPIO_PORTG_AHB_SLR_R (*((volatile uint32_t *)0x4005E518)) #define GPIO_PORTG_AHB_DEN_R (*((volatile uint32_t *)0x4005E51C)) #define GPIO_PORTG_AHB_LOCK_R (*((volatile uint32_t *)0x4005E520)) #define GPIO_PORTG_AHB_CR_R (*((volatile uint32_t *)0x4005E524)) #define GPIO_PORTG_AHB_AMSEL_R (*((volatile uint32_t *)0x4005E528)) #define GPIO_PORTG_AHB_PCTL_R (*((volatile uint32_t *)0x4005E52C)) #define GPIO_PORTG_AHB_ADCCTL_R (*((volatile uint32_t *)0x4005E530)) #define GPIO_PORTG_AHB_DMACTL_R (*((volatile uint32_t *)0x4005E534)) #define GPIO_PORTG_AHB_SI_R (*((volatile uint32_t *)0x4005E538)) #define GPIO_PORTG_AHB_DR12R_R (*((volatile uint32_t *)0x4005E53C)) #define GPIO_PORTG_AHB_WAKEPEN_R \ (*((volatile uint32_t *)0x4005E540)) #define GPIO_PORTG_AHB_WAKELVL_R \ (*((volatile uint32_t *)0x4005E544)) #define GPIO_PORTG_AHB_WAKESTAT_R \ (*((volatile uint32_t *)0x4005E548)) #define GPIO_PORTG_AHB_PP_R (*((volatile uint32_t *)0x4005EFC0)) #define GPIO_PORTG_AHB_PC_R (*((volatile uint32_t *)0x4005EFC4)) //***************************************************************************** // // GPIO registers (PORTH AHB) // //***************************************************************************** #define GPIO_PORTH_AHB_DATA_BITS_R \ ((volatile uint32_t *)0x4005F000) #define GPIO_PORTH_AHB_DATA_R (*((volatile uint32_t *)0x4005F3FC)) #define GPIO_PORTH_AHB_DIR_R (*((volatile uint32_t *)0x4005F400)) #define GPIO_PORTH_AHB_IS_R (*((volatile uint32_t *)0x4005F404)) #define GPIO_PORTH_AHB_IBE_R (*((volatile uint32_t *)0x4005F408)) #define GPIO_PORTH_AHB_IEV_R (*((volatile uint32_t *)0x4005F40C)) #define GPIO_PORTH_AHB_IM_R (*((volatile uint32_t *)0x4005F410)) #define GPIO_PORTH_AHB_RIS_R (*((volatile uint32_t *)0x4005F414)) #define GPIO_PORTH_AHB_MIS_R (*((volatile uint32_t *)0x4005F418)) #define GPIO_PORTH_AHB_ICR_R (*((volatile uint32_t *)0x4005F41C)) #define GPIO_PORTH_AHB_AFSEL_R (*((volatile uint32_t *)0x4005F420)) #define GPIO_PORTH_AHB_DR2R_R (*((volatile uint32_t *)0x4005F500)) #define GPIO_PORTH_AHB_DR4R_R (*((volatile uint32_t *)0x4005F504)) #define GPIO_PORTH_AHB_DR8R_R (*((volatile uint32_t *)0x4005F508)) #define GPIO_PORTH_AHB_ODR_R (*((volatile uint32_t *)0x4005F50C)) #define GPIO_PORTH_AHB_PUR_R (*((volatile uint32_t *)0x4005F510)) #define GPIO_PORTH_AHB_PDR_R (*((volatile uint32_t *)0x4005F514)) #define GPIO_PORTH_AHB_SLR_R (*((volatile uint32_t *)0x4005F518)) #define GPIO_PORTH_AHB_DEN_R (*((volatile uint32_t *)0x4005F51C)) #define GPIO_PORTH_AHB_LOCK_R (*((volatile uint32_t *)0x4005F520)) #define GPIO_PORTH_AHB_CR_R (*((volatile uint32_t *)0x4005F524)) #define GPIO_PORTH_AHB_AMSEL_R (*((volatile uint32_t *)0x4005F528)) #define GPIO_PORTH_AHB_PCTL_R (*((volatile uint32_t *)0x4005F52C)) #define GPIO_PORTH_AHB_ADCCTL_R (*((volatile uint32_t *)0x4005F530)) #define GPIO_PORTH_AHB_DMACTL_R (*((volatile uint32_t *)0x4005F534)) #define GPIO_PORTH_AHB_SI_R (*((volatile uint32_t *)0x4005F538)) #define GPIO_PORTH_AHB_DR12R_R (*((volatile uint32_t *)0x4005F53C)) #define GPIO_PORTH_AHB_WAKEPEN_R \ (*((volatile uint32_t *)0x4005F540)) #define GPIO_PORTH_AHB_WAKELVL_R \ (*((volatile uint32_t *)0x4005F544)) #define GPIO_PORTH_AHB_WAKESTAT_R \ (*((volatile uint32_t *)0x4005F548)) #define GPIO_PORTH_AHB_PP_R (*((volatile uint32_t *)0x4005FFC0)) #define GPIO_PORTH_AHB_PC_R (*((volatile uint32_t *)0x4005FFC4)) //***************************************************************************** // // GPIO registers (PORTJ AHB) // //***************************************************************************** #define GPIO_PORTJ_AHB_DATA_BITS_R \ ((volatile uint32_t *)0x40060000) #define GPIO_PORTJ_AHB_DATA_R (*((volatile uint32_t *)0x400603FC)) #define GPIO_PORTJ_AHB_DIR_R (*((volatile uint32_t *)0x40060400)) #define GPIO_PORTJ_AHB_IS_R (*((volatile uint32_t *)0x40060404)) #define GPIO_PORTJ_AHB_IBE_R (*((volatile uint32_t *)0x40060408)) #define GPIO_PORTJ_AHB_IEV_R (*((volatile uint32_t *)0x4006040C)) #define GPIO_PORTJ_AHB_IM_R (*((volatile uint32_t *)0x40060410)) #define GPIO_PORTJ_AHB_RIS_R (*((volatile uint32_t *)0x40060414)) #define GPIO_PORTJ_AHB_MIS_R (*((volatile uint32_t *)0x40060418)) #define GPIO_PORTJ_AHB_ICR_R (*((volatile uint32_t *)0x4006041C)) #define GPIO_PORTJ_AHB_AFSEL_R (*((volatile uint32_t *)0x40060420)) #define GPIO_PORTJ_AHB_DR2R_R (*((volatile uint32_t *)0x40060500)) #define GPIO_PORTJ_AHB_DR4R_R (*((volatile uint32_t *)0x40060504)) #define GPIO_PORTJ_AHB_DR8R_R (*((volatile uint32_t *)0x40060508)) #define GPIO_PORTJ_AHB_ODR_R (*((volatile uint32_t *)0x4006050C)) #define GPIO_PORTJ_AHB_PUR_R (*((volatile uint32_t *)0x40060510)) #define GPIO_PORTJ_AHB_PDR_R (*((volatile uint32_t *)0x40060514)) #define GPIO_PORTJ_AHB_SLR_R (*((volatile uint32_t *)0x40060518)) #define GPIO_PORTJ_AHB_DEN_R (*((volatile uint32_t *)0x4006051C)) #define GPIO_PORTJ_AHB_LOCK_R (*((volatile uint32_t *)0x40060520)) #define GPIO_PORTJ_AHB_CR_R (*((volatile uint32_t *)0x40060524)) #define GPIO_PORTJ_AHB_AMSEL_R (*((volatile uint32_t *)0x40060528)) #define GPIO_PORTJ_AHB_PCTL_R (*((volatile uint32_t *)0x4006052C)) #define GPIO_PORTJ_AHB_ADCCTL_R (*((volatile uint32_t *)0x40060530)) #define GPIO_PORTJ_AHB_DMACTL_R (*((volatile uint32_t *)0x40060534)) #define GPIO_PORTJ_AHB_SI_R (*((volatile uint32_t *)0x40060538)) #define GPIO_PORTJ_AHB_DR12R_R (*((volatile uint32_t *)0x4006053C)) #define GPIO_PORTJ_AHB_WAKEPEN_R \ (*((volatile uint32_t *)0x40060540)) #define GPIO_PORTJ_AHB_WAKELVL_R \ (*((volatile uint32_t *)0x40060544)) #define GPIO_PORTJ_AHB_WAKESTAT_R \ (*((volatile uint32_t *)0x40060548)) #define GPIO_PORTJ_AHB_PP_R (*((volatile uint32_t *)0x40060FC0)) #define GPIO_PORTJ_AHB_PC_R (*((volatile uint32_t *)0x40060FC4)) //***************************************************************************** // // GPIO registers (PORTK) // //***************************************************************************** #define GPIO_PORTK_DATA_BITS_R ((volatile uint32_t *)0x40061000) #define GPIO_PORTK_DATA_R (*((volatile uint32_t *)0x400613FC)) #define GPIO_PORTK_DIR_R (*((volatile uint32_t *)0x40061400)) #define GPIO_PORTK_IS_R (*((volatile uint32_t *)0x40061404)) #define GPIO_PORTK_IBE_R (*((volatile uint32_t *)0x40061408)) #define GPIO_PORTK_IEV_R (*((volatile uint32_t *)0x4006140C)) #define GPIO_PORTK_IM_R (*((volatile uint32_t *)0x40061410)) #define GPIO_PORTK_RIS_R (*((volatile uint32_t *)0x40061414)) #define GPIO_PORTK_MIS_R (*((volatile uint32_t *)0x40061418)) #define GPIO_PORTK_ICR_R (*((volatile uint32_t *)0x4006141C)) #define GPIO_PORTK_AFSEL_R (*((volatile uint32_t *)0x40061420)) #define GPIO_PORTK_DR2R_R (*((volatile uint32_t *)0x40061500)) #define GPIO_PORTK_DR4R_R (*((volatile uint32_t *)0x40061504)) #define GPIO_PORTK_DR8R_R (*((volatile uint32_t *)0x40061508)) #define GPIO_PORTK_ODR_R (*((volatile uint32_t *)0x4006150C)) #define GPIO_PORTK_PUR_R (*((volatile uint32_t *)0x40061510)) #define GPIO_PORTK_PDR_R (*((volatile uint32_t *)0x40061514)) #define GPIO_PORTK_SLR_R (*((volatile uint32_t *)0x40061518)) #define GPIO_PORTK_DEN_R (*((volatile uint32_t *)0x4006151C)) #define GPIO_PORTK_LOCK_R (*((volatile uint32_t *)0x40061520)) #define GPIO_PORTK_CR_R (*((volatile uint32_t *)0x40061524)) #define GPIO_PORTK_AMSEL_R (*((volatile uint32_t *)0x40061528)) #define GPIO_PORTK_PCTL_R (*((volatile uint32_t *)0x4006152C)) #define GPIO_PORTK_ADCCTL_R (*((volatile uint32_t *)0x40061530)) #define GPIO_PORTK_DMACTL_R (*((volatile uint32_t *)0x40061534)) #define GPIO_PORTK_SI_R (*((volatile uint32_t *)0x40061538)) #define GPIO_PORTK_DR12R_R (*((volatile uint32_t *)0x4006153C)) #define GPIO_PORTK_WAKEPEN_R (*((volatile uint32_t *)0x40061540)) #define GPIO_PORTK_WAKELVL_R (*((volatile uint32_t *)0x40061544)) #define GPIO_PORTK_WAKESTAT_R (*((volatile uint32_t *)0x40061548)) #define GPIO_PORTK_PP_R (*((volatile uint32_t *)0x40061FC0)) #define GPIO_PORTK_PC_R (*((volatile uint32_t *)0x40061FC4)) //***************************************************************************** // // GPIO registers (PORTL) // //***************************************************************************** #define GPIO_PORTL_DATA_BITS_R ((volatile uint32_t *)0x40062000) #define GPIO_PORTL_DATA_R (*((volatile uint32_t *)0x400623FC)) #define GPIO_PORTL_DIR_R (*((volatile uint32_t *)0x40062400)) #define GPIO_PORTL_IS_R (*((volatile uint32_t *)0x40062404)) #define GPIO_PORTL_IBE_R (*((volatile uint32_t *)0x40062408)) #define GPIO_PORTL_IEV_R (*((volatile uint32_t *)0x4006240C)) #define GPIO_PORTL_IM_R (*((volatile uint32_t *)0x40062410)) #define GPIO_PORTL_RIS_R (*((volatile uint32_t *)0x40062414)) #define GPIO_PORTL_MIS_R (*((volatile uint32_t *)0x40062418)) #define GPIO_PORTL_ICR_R (*((volatile uint32_t *)0x4006241C)) #define GPIO_PORTL_AFSEL_R (*((volatile uint32_t *)0x40062420)) #define GPIO_PORTL_DR2R_R (*((volatile uint32_t *)0x40062500)) #define GPIO_PORTL_DR4R_R (*((volatile uint32_t *)0x40062504)) #define GPIO_PORTL_DR8R_R (*((volatile uint32_t *)0x40062508)) #define GPIO_PORTL_ODR_R (*((volatile uint32_t *)0x4006250C)) #define GPIO_PORTL_PUR_R (*((volatile uint32_t *)0x40062510)) #define GPIO_PORTL_PDR_R (*((volatile uint32_t *)0x40062514)) #define GPIO_PORTL_SLR_R (*((volatile uint32_t *)0x40062518)) #define GPIO_PORTL_DEN_R (*((volatile uint32_t *)0x4006251C)) #define GPIO_PORTL_LOCK_R (*((volatile uint32_t *)0x40062520)) #define GPIO_PORTL_CR_R (*((volatile uint32_t *)0x40062524)) #define GPIO_PORTL_AMSEL_R (*((volatile uint32_t *)0x40062528)) #define GPIO_PORTL_PCTL_R (*((volatile uint32_t *)0x4006252C)) #define GPIO_PORTL_ADCCTL_R (*((volatile uint32_t *)0x40062530)) #define GPIO_PORTL_DMACTL_R (*((volatile uint32_t *)0x40062534)) #define GPIO_PORTL_SI_R (*((volatile uint32_t *)0x40062538)) #define GPIO_PORTL_DR12R_R (*((volatile uint32_t *)0x4006253C)) #define GPIO_PORTL_WAKEPEN_R (*((volatile uint32_t *)0x40062540)) #define GPIO_PORTL_WAKELVL_R (*((volatile uint32_t *)0x40062544)) #define GPIO_PORTL_WAKESTAT_R (*((volatile uint32_t *)0x40062548)) #define GPIO_PORTL_PP_R (*((volatile uint32_t *)0x40062FC0)) #define GPIO_PORTL_PC_R (*((volatile uint32_t *)0x40062FC4)) //***************************************************************************** // // GPIO registers (PORTM) // //***************************************************************************** #define GPIO_PORTM_DATA_BITS_R ((volatile uint32_t *)0x40063000) #define GPIO_PORTM_DATA_R (*((volatile uint32_t *)0x400633FC)) #define GPIO_PORTM_DIR_R (*((volatile uint32_t *)0x40063400)) #define GPIO_PORTM_IS_R (*((volatile uint32_t *)0x40063404)) #define GPIO_PORTM_IBE_R (*((volatile uint32_t *)0x40063408)) #define GPIO_PORTM_IEV_R (*((volatile uint32_t *)0x4006340C)) #define GPIO_PORTM_IM_R (*((volatile uint32_t *)0x40063410)) #define GPIO_PORTM_RIS_R (*((volatile uint32_t *)0x40063414)) #define GPIO_PORTM_MIS_R (*((volatile uint32_t *)0x40063418)) #define GPIO_PORTM_ICR_R (*((volatile uint32_t *)0x4006341C)) #define GPIO_PORTM_AFSEL_R (*((volatile uint32_t *)0x40063420)) #define GPIO_PORTM_DR2R_R (*((volatile uint32_t *)0x40063500)) #define GPIO_PORTM_DR4R_R (*((volatile uint32_t *)0x40063504)) #define GPIO_PORTM_DR8R_R (*((volatile uint32_t *)0x40063508)) #define GPIO_PORTM_ODR_R (*((volatile uint32_t *)0x4006350C)) #define GPIO_PORTM_PUR_R (*((volatile uint32_t *)0x40063510)) #define GPIO_PORTM_PDR_R (*((volatile uint32_t *)0x40063514)) #define GPIO_PORTM_SLR_R (*((volatile uint32_t *)0x40063518)) #define GPIO_PORTM_DEN_R (*((volatile uint32_t *)0x4006351C)) #define GPIO_PORTM_LOCK_R (*((volatile uint32_t *)0x40063520)) #define GPIO_PORTM_CR_R (*((volatile uint32_t *)0x40063524)) #define GPIO_PORTM_AMSEL_R (*((volatile uint32_t *)0x40063528)) #define GPIO_PORTM_PCTL_R (*((volatile uint32_t *)0x4006352C)) #define GPIO_PORTM_ADCCTL_R (*((volatile uint32_t *)0x40063530)) #define GPIO_PORTM_DMACTL_R (*((volatile uint32_t *)0x40063534)) #define GPIO_PORTM_SI_R (*((volatile uint32_t *)0x40063538)) #define GPIO_PORTM_DR12R_R (*((volatile uint32_t *)0x4006353C)) #define GPIO_PORTM_WAKEPEN_R (*((volatile uint32_t *)0x40063540)) #define GPIO_PORTM_WAKELVL_R (*((volatile uint32_t *)0x40063544)) #define GPIO_PORTM_WAKESTAT_R (*((volatile uint32_t *)0x40063548)) #define GPIO_PORTM_PP_R (*((volatile uint32_t *)0x40063FC0)) #define GPIO_PORTM_PC_R (*((volatile uint32_t *)0x40063FC4)) //***************************************************************************** // // GPIO registers (PORTN) // //***************************************************************************** #define GPIO_PORTN_DATA_BITS_R ((volatile uint32_t *)0x40064000) #define GPIO_PORTN_DATA_R (*((volatile uint32_t *)0x400643FC)) #define GPIO_PORTN_DIR_R (*((volatile uint32_t *)0x40064400)) #define GPIO_PORTN_IS_R (*((volatile uint32_t *)0x40064404)) #define GPIO_PORTN_IBE_R (*((volatile uint32_t *)0x40064408)) #define GPIO_PORTN_IEV_R (*((volatile uint32_t *)0x4006440C)) #define GPIO_PORTN_IM_R (*((volatile uint32_t *)0x40064410)) #define GPIO_PORTN_RIS_R (*((volatile uint32_t *)0x40064414)) #define GPIO_PORTN_MIS_R (*((volatile uint32_t *)0x40064418)) #define GPIO_PORTN_ICR_R (*((volatile uint32_t *)0x4006441C)) #define GPIO_PORTN_AFSEL_R (*((volatile uint32_t *)0x40064420)) #define GPIO_PORTN_DR2R_R (*((volatile uint32_t *)0x40064500)) #define GPIO_PORTN_DR4R_R (*((volatile uint32_t *)0x40064504)) #define GPIO_PORTN_DR8R_R (*((volatile uint32_t *)0x40064508)) #define GPIO_PORTN_ODR_R (*((volatile uint32_t *)0x4006450C)) #define GPIO_PORTN_PUR_R (*((volatile uint32_t *)0x40064510)) #define GPIO_PORTN_PDR_R (*((volatile uint32_t *)0x40064514)) #define GPIO_PORTN_SLR_R (*((volatile uint32_t *)0x40064518)) #define GPIO_PORTN_DEN_R (*((volatile uint32_t *)0x4006451C)) #define GPIO_PORTN_LOCK_R (*((volatile uint32_t *)0x40064520)) #define GPIO_PORTN_CR_R (*((volatile uint32_t *)0x40064524)) #define GPIO_PORTN_AMSEL_R (*((volatile uint32_t *)0x40064528)) #define GPIO_PORTN_PCTL_R (*((volatile uint32_t *)0x4006452C)) #define GPIO_PORTN_ADCCTL_R (*((volatile uint32_t *)0x40064530)) #define GPIO_PORTN_DMACTL_R (*((volatile uint32_t *)0x40064534)) #define GPIO_PORTN_SI_R (*((volatile uint32_t *)0x40064538)) #define GPIO_PORTN_DR12R_R (*((volatile uint32_t *)0x4006453C)) #define GPIO_PORTN_WAKEPEN_R (*((volatile uint32_t *)0x40064540)) #define GPIO_PORTN_WAKELVL_R (*((volatile uint32_t *)0x40064544)) #define GPIO_PORTN_WAKESTAT_R (*((volatile uint32_t *)0x40064548)) #define GPIO_PORTN_PP_R (*((volatile uint32_t *)0x40064FC0)) #define GPIO_PORTN_PC_R (*((volatile uint32_t *)0x40064FC4)) //***************************************************************************** // // GPIO registers (PORTP) // //***************************************************************************** #define GPIO_PORTP_DATA_BITS_R ((volatile uint32_t *)0x40065000) #define GPIO_PORTP_DATA_R (*((volatile uint32_t *)0x400653FC)) #define GPIO_PORTP_DIR_R (*((volatile uint32_t *)0x40065400)) #define GPIO_PORTP_IS_R (*((volatile uint32_t *)0x40065404)) #define GPIO_PORTP_IBE_R (*((volatile uint32_t *)0x40065408)) #define GPIO_PORTP_IEV_R (*((volatile uint32_t *)0x4006540C)) #define GPIO_PORTP_IM_R (*((volatile uint32_t *)0x40065410)) #define GPIO_PORTP_RIS_R (*((volatile uint32_t *)0x40065414)) #define GPIO_PORTP_MIS_R (*((volatile uint32_t *)0x40065418)) #define GPIO_PORTP_ICR_R (*((volatile uint32_t *)0x4006541C)) #define GPIO_PORTP_AFSEL_R (*((volatile uint32_t *)0x40065420)) #define GPIO_PORTP_DR2R_R (*((volatile uint32_t *)0x40065500)) #define GPIO_PORTP_DR4R_R (*((volatile uint32_t *)0x40065504)) #define GPIO_PORTP_DR8R_R (*((volatile uint32_t *)0x40065508)) #define GPIO_PORTP_ODR_R (*((volatile uint32_t *)0x4006550C)) #define GPIO_PORTP_PUR_R (*((volatile uint32_t *)0x40065510)) #define GPIO_PORTP_PDR_R (*((volatile uint32_t *)0x40065514)) #define GPIO_PORTP_SLR_R (*((volatile uint32_t *)0x40065518)) #define GPIO_PORTP_DEN_R (*((volatile uint32_t *)0x4006551C)) #define GPIO_PORTP_LOCK_R (*((volatile uint32_t *)0x40065520)) #define GPIO_PORTP_CR_R (*((volatile uint32_t *)0x40065524)) #define GPIO_PORTP_AMSEL_R (*((volatile uint32_t *)0x40065528)) #define GPIO_PORTP_PCTL_R (*((volatile uint32_t *)0x4006552C)) #define GPIO_PORTP_ADCCTL_R (*((volatile uint32_t *)0x40065530)) #define GPIO_PORTP_DMACTL_R (*((volatile uint32_t *)0x40065534)) #define GPIO_PORTP_SI_R (*((volatile uint32_t *)0x40065538)) #define GPIO_PORTP_DR12R_R (*((volatile uint32_t *)0x4006553C)) #define GPIO_PORTP_WAKEPEN_R (*((volatile uint32_t *)0x40065540)) #define GPIO_PORTP_WAKELVL_R (*((volatile uint32_t *)0x40065544)) #define GPIO_PORTP_WAKESTAT_R (*((volatile uint32_t *)0x40065548)) #define GPIO_PORTP_PP_R (*((volatile uint32_t *)0x40065FC0)) #define GPIO_PORTP_PC_R (*((volatile uint32_t *)0x40065FC4)) //***************************************************************************** // // GPIO registers (PORTQ) // //***************************************************************************** #define GPIO_PORTQ_DATA_BITS_R ((volatile uint32_t *)0x40066000) #define GPIO_PORTQ_DATA_R (*((volatile uint32_t *)0x400663FC)) #define GPIO_PORTQ_DIR_R (*((volatile uint32_t *)0x40066400)) #define GPIO_PORTQ_IS_R (*((volatile uint32_t *)0x40066404)) #define GPIO_PORTQ_IBE_R (*((volatile uint32_t *)0x40066408)) #define GPIO_PORTQ_IEV_R (*((volatile uint32_t *)0x4006640C)) #define GPIO_PORTQ_IM_R (*((volatile uint32_t *)0x40066410)) #define GPIO_PORTQ_RIS_R (*((volatile uint32_t *)0x40066414)) #define GPIO_PORTQ_MIS_R (*((volatile uint32_t *)0x40066418)) #define GPIO_PORTQ_ICR_R (*((volatile uint32_t *)0x4006641C)) #define GPIO_PORTQ_AFSEL_R (*((volatile uint32_t *)0x40066420)) #define GPIO_PORTQ_DR2R_R (*((volatile uint32_t *)0x40066500)) #define GPIO_PORTQ_DR4R_R (*((volatile uint32_t *)0x40066504)) #define GPIO_PORTQ_DR8R_R (*((volatile uint32_t *)0x40066508)) #define GPIO_PORTQ_ODR_R (*((volatile uint32_t *)0x4006650C)) #define GPIO_PORTQ_PUR_R (*((volatile uint32_t *)0x40066510)) #define GPIO_PORTQ_PDR_R (*((volatile uint32_t *)0x40066514)) #define GPIO_PORTQ_SLR_R (*((volatile uint32_t *)0x40066518)) #define GPIO_PORTQ_DEN_R (*((volatile uint32_t *)0x4006651C)) #define GPIO_PORTQ_LOCK_R (*((volatile uint32_t *)0x40066520)) #define GPIO_PORTQ_CR_R (*((volatile uint32_t *)0x40066524)) #define GPIO_PORTQ_AMSEL_R (*((volatile uint32_t *)0x40066528)) #define GPIO_PORTQ_PCTL_R (*((volatile uint32_t *)0x4006652C)) #define GPIO_PORTQ_ADCCTL_R (*((volatile uint32_t *)0x40066530)) #define GPIO_PORTQ_DMACTL_R (*((volatile uint32_t *)0x40066534)) #define GPIO_PORTQ_SI_R (*((volatile uint32_t *)0x40066538)) #define GPIO_PORTQ_DR12R_R (*((volatile uint32_t *)0x4006653C)) #define GPIO_PORTQ_WAKEPEN_R (*((volatile uint32_t *)0x40066540)) #define GPIO_PORTQ_WAKELVL_R (*((volatile uint32_t *)0x40066544)) #define GPIO_PORTQ_WAKESTAT_R (*((volatile uint32_t *)0x40066548)) #define GPIO_PORTQ_PP_R (*((volatile uint32_t *)0x40066FC0)) #define GPIO_PORTQ_PC_R (*((volatile uint32_t *)0x40066FC4)) //***************************************************************************** // // EEPROM registers (EEPROM) // //***************************************************************************** #define EEPROM_EESIZE_R (*((volatile uint32_t *)0x400AF000)) #define EEPROM_EEBLOCK_R (*((volatile uint32_t *)0x400AF004)) #define EEPROM_EEOFFSET_R (*((volatile uint32_t *)0x400AF008)) #define EEPROM_EERDWR_R (*((volatile uint32_t *)0x400AF010)) #define EEPROM_EERDWRINC_R (*((volatile uint32_t *)0x400AF014)) #define EEPROM_EEDONE_R (*((volatile uint32_t *)0x400AF018)) #define EEPROM_EESUPP_R (*((volatile uint32_t *)0x400AF01C)) #define EEPROM_EEUNLOCK_R (*((volatile uint32_t *)0x400AF020)) #define EEPROM_EEPROT_R (*((volatile uint32_t *)0x400AF030)) #define EEPROM_EEPASS0_R (*((volatile uint32_t *)0x400AF034)) #define EEPROM_EEPASS1_R (*((volatile uint32_t *)0x400AF038)) #define EEPROM_EEPASS2_R (*((volatile uint32_t *)0x400AF03C)) #define EEPROM_EEINT_R (*((volatile uint32_t *)0x400AF040)) #define EEPROM_EEHIDE0_R (*((volatile uint32_t *)0x400AF050)) #define EEPROM_EEHIDE1_R (*((volatile uint32_t *)0x400AF054)) #define EEPROM_EEHIDE2_R (*((volatile uint32_t *)0x400AF058)) #define EEPROM_EEDBGME_R (*((volatile uint32_t *)0x400AF080)) #define EEPROM_PP_R (*((volatile uint32_t *)0x400AFFC0)) //***************************************************************************** // // I2C registers (I2C8) // //***************************************************************************** #define I2C8_MSA_R (*((volatile uint32_t *)0x400B8000)) #define I2C8_MCS_R (*((volatile uint32_t *)0x400B8004)) #define I2C8_MDR_R (*((volatile uint32_t *)0x400B8008)) #define I2C8_MTPR_R (*((volatile uint32_t *)0x400B800C)) #define I2C8_MIMR_R (*((volatile uint32_t *)0x400B8010)) #define I2C8_MRIS_R (*((volatile uint32_t *)0x400B8014)) #define I2C8_MMIS_R (*((volatile uint32_t *)0x400B8018)) #define I2C8_MICR_R (*((volatile uint32_t *)0x400B801C)) #define I2C8_MCR_R (*((volatile uint32_t *)0x400B8020)) #define I2C8_MCLKOCNT_R (*((volatile uint32_t *)0x400B8024)) #define I2C8_MBMON_R (*((volatile uint32_t *)0x400B802C)) #define I2C8_MBLEN_R (*((volatile uint32_t *)0x400B8030)) #define I2C8_MBCNT_R (*((volatile uint32_t *)0x400B8034)) #define I2C8_SOAR_R (*((volatile uint32_t *)0x400B8800)) #define I2C8_SCSR_R (*((volatile uint32_t *)0x400B8804)) #define I2C8_SDR_R (*((volatile uint32_t *)0x400B8808)) #define I2C8_SIMR_R (*((volatile uint32_t *)0x400B880C)) #define I2C8_SRIS_R (*((volatile uint32_t *)0x400B8810)) #define I2C8_SMIS_R (*((volatile uint32_t *)0x400B8814)) #define I2C8_SICR_R (*((volatile uint32_t *)0x400B8818)) #define I2C8_SOAR2_R (*((volatile uint32_t *)0x400B881C)) #define I2C8_SACKCTL_R (*((volatile uint32_t *)0x400B8820)) #define I2C8_FIFODATA_R (*((volatile uint32_t *)0x400B8F00)) #define I2C8_FIFOCTL_R (*((volatile uint32_t *)0x400B8F04)) #define I2C8_FIFOSTATUS_R (*((volatile uint32_t *)0x400B8F08)) #define I2C8_PP_R (*((volatile uint32_t *)0x400B8FC0)) #define I2C8_PC_R (*((volatile uint32_t *)0x400B8FC4)) //***************************************************************************** // // I2C registers (I2C9) // //***************************************************************************** #define I2C9_MSA_R (*((volatile uint32_t *)0x400B9000)) #define I2C9_MCS_R (*((volatile uint32_t *)0x400B9004)) #define I2C9_MDR_R (*((volatile uint32_t *)0x400B9008)) #define I2C9_MTPR_R (*((volatile uint32_t *)0x400B900C)) #define I2C9_MIMR_R (*((volatile uint32_t *)0x400B9010)) #define I2C9_MRIS_R (*((volatile uint32_t *)0x400B9014)) #define I2C9_MMIS_R (*((volatile uint32_t *)0x400B9018)) #define I2C9_MICR_R (*((volatile uint32_t *)0x400B901C)) #define I2C9_MCR_R (*((volatile uint32_t *)0x400B9020)) #define I2C9_MCLKOCNT_R (*((volatile uint32_t *)0x400B9024)) #define I2C9_MBMON_R (*((volatile uint32_t *)0x400B902C)) #define I2C9_MBLEN_R (*((volatile uint32_t *)0x400B9030)) #define I2C9_MBCNT_R (*((volatile uint32_t *)0x400B9034)) #define I2C9_SOAR_R (*((volatile uint32_t *)0x400B9800)) #define I2C9_SCSR_R (*((volatile uint32_t *)0x400B9804)) #define I2C9_SDR_R (*((volatile uint32_t *)0x400B9808)) #define I2C9_SIMR_R (*((volatile uint32_t *)0x400B980C)) #define I2C9_SRIS_R (*((volatile uint32_t *)0x400B9810)) #define I2C9_SMIS_R (*((volatile uint32_t *)0x400B9814)) #define I2C9_SICR_R (*((volatile uint32_t *)0x400B9818)) #define I2C9_SOAR2_R (*((volatile uint32_t *)0x400B981C)) #define I2C9_SACKCTL_R (*((volatile uint32_t *)0x400B9820)) #define I2C9_FIFODATA_R (*((volatile uint32_t *)0x400B9F00)) #define I2C9_FIFOCTL_R (*((volatile uint32_t *)0x400B9F04)) #define I2C9_FIFOSTATUS_R (*((volatile uint32_t *)0x400B9F08)) #define I2C9_PP_R (*((volatile uint32_t *)0x400B9FC0)) #define I2C9_PC_R (*((volatile uint32_t *)0x400B9FC4)) //***************************************************************************** // // I2C registers (I2C4) // //***************************************************************************** #define I2C4_MSA_R (*((volatile uint32_t *)0x400C0000)) #define I2C4_MCS_R (*((volatile uint32_t *)0x400C0004)) #define I2C4_MDR_R (*((volatile uint32_t *)0x400C0008)) #define I2C4_MTPR_R (*((volatile uint32_t *)0x400C000C)) #define I2C4_MIMR_R (*((volatile uint32_t *)0x400C0010)) #define I2C4_MRIS_R (*((volatile uint32_t *)0x400C0014)) #define I2C4_MMIS_R (*((volatile uint32_t *)0x400C0018)) #define I2C4_MICR_R (*((volatile uint32_t *)0x400C001C)) #define I2C4_MCR_R (*((volatile uint32_t *)0x400C0020)) #define I2C4_MCLKOCNT_R (*((volatile uint32_t *)0x400C0024)) #define I2C4_MBMON_R (*((volatile uint32_t *)0x400C002C)) #define I2C4_MBLEN_R (*((volatile uint32_t *)0x400C0030)) #define I2C4_MBCNT_R (*((volatile uint32_t *)0x400C0034)) #define I2C4_SOAR_R (*((volatile uint32_t *)0x400C0800)) #define I2C4_SCSR_R (*((volatile uint32_t *)0x400C0804)) #define I2C4_SDR_R (*((volatile uint32_t *)0x400C0808)) #define I2C4_SIMR_R (*((volatile uint32_t *)0x400C080C)) #define I2C4_SRIS_R (*((volatile uint32_t *)0x400C0810)) #define I2C4_SMIS_R (*((volatile uint32_t *)0x400C0814)) #define I2C4_SICR_R (*((volatile uint32_t *)0x400C0818)) #define I2C4_SOAR2_R (*((volatile uint32_t *)0x400C081C)) #define I2C4_SACKCTL_R (*((volatile uint32_t *)0x400C0820)) #define I2C4_FIFODATA_R (*((volatile uint32_t *)0x400C0F00)) #define I2C4_FIFOCTL_R (*((volatile uint32_t *)0x400C0F04)) #define I2C4_FIFOSTATUS_R (*((volatile uint32_t *)0x400C0F08)) #define I2C4_PP_R (*((volatile uint32_t *)0x400C0FC0)) #define I2C4_PC_R (*((volatile uint32_t *)0x400C0FC4)) //***************************************************************************** // // I2C registers (I2C5) // //***************************************************************************** #define I2C5_MSA_R (*((volatile uint32_t *)0x400C1000)) #define I2C5_MCS_R (*((volatile uint32_t *)0x400C1004)) #define I2C5_MDR_R (*((volatile uint32_t *)0x400C1008)) #define I2C5_MTPR_R (*((volatile uint32_t *)0x400C100C)) #define I2C5_MIMR_R (*((volatile uint32_t *)0x400C1010)) #define I2C5_MRIS_R (*((volatile uint32_t *)0x400C1014)) #define I2C5_MMIS_R (*((volatile uint32_t *)0x400C1018)) #define I2C5_MICR_R (*((volatile uint32_t *)0x400C101C)) #define I2C5_MCR_R (*((volatile uint32_t *)0x400C1020)) #define I2C5_MCLKOCNT_R (*((volatile uint32_t *)0x400C1024)) #define I2C5_MBMON_R (*((volatile uint32_t *)0x400C102C)) #define I2C5_MBLEN_R (*((volatile uint32_t *)0x400C1030)) #define I2C5_MBCNT_R (*((volatile uint32_t *)0x400C1034)) #define I2C5_SOAR_R (*((volatile uint32_t *)0x400C1800)) #define I2C5_SCSR_R (*((volatile uint32_t *)0x400C1804)) #define I2C5_SDR_R (*((volatile uint32_t *)0x400C1808)) #define I2C5_SIMR_R (*((volatile uint32_t *)0x400C180C)) #define I2C5_SRIS_R (*((volatile uint32_t *)0x400C1810)) #define I2C5_SMIS_R (*((volatile uint32_t *)0x400C1814)) #define I2C5_SICR_R (*((volatile uint32_t *)0x400C1818)) #define I2C5_SOAR2_R (*((volatile uint32_t *)0x400C181C)) #define I2C5_SACKCTL_R (*((volatile uint32_t *)0x400C1820)) #define I2C5_FIFODATA_R (*((volatile uint32_t *)0x400C1F00)) #define I2C5_FIFOCTL_R (*((volatile uint32_t *)0x400C1F04)) #define I2C5_FIFOSTATUS_R (*((volatile uint32_t *)0x400C1F08)) #define I2C5_PP_R (*((volatile uint32_t *)0x400C1FC0)) #define I2C5_PC_R (*((volatile uint32_t *)0x400C1FC4)) //***************************************************************************** // // I2C registers (I2C6) // //***************************************************************************** #define I2C6_MSA_R (*((volatile uint32_t *)0x400C2000)) #define I2C6_MCS_R (*((volatile uint32_t *)0x400C2004)) #define I2C6_MDR_R (*((volatile uint32_t *)0x400C2008)) #define I2C6_MTPR_R (*((volatile uint32_t *)0x400C200C)) #define I2C6_MIMR_R (*((volatile uint32_t *)0x400C2010)) #define I2C6_MRIS_R (*((volatile uint32_t *)0x400C2014)) #define I2C6_MMIS_R (*((volatile uint32_t *)0x400C2018)) #define I2C6_MICR_R (*((volatile uint32_t *)0x400C201C)) #define I2C6_MCR_R (*((volatile uint32_t *)0x400C2020)) #define I2C6_MCLKOCNT_R (*((volatile uint32_t *)0x400C2024)) #define I2C6_MBMON_R (*((volatile uint32_t *)0x400C202C)) #define I2C6_MBLEN_R (*((volatile uint32_t *)0x400C2030)) #define I2C6_MBCNT_R (*((volatile uint32_t *)0x400C2034)) #define I2C6_SOAR_R (*((volatile uint32_t *)0x400C2800)) #define I2C6_SCSR_R (*((volatile uint32_t *)0x400C2804)) #define I2C6_SDR_R (*((volatile uint32_t *)0x400C2808)) #define I2C6_SIMR_R (*((volatile uint32_t *)0x400C280C)) #define I2C6_SRIS_R (*((volatile uint32_t *)0x400C2810)) #define I2C6_SMIS_R (*((volatile uint32_t *)0x400C2814)) #define I2C6_SICR_R (*((volatile uint32_t *)0x400C2818)) #define I2C6_SOAR2_R (*((volatile uint32_t *)0x400C281C)) #define I2C6_SACKCTL_R (*((volatile uint32_t *)0x400C2820)) #define I2C6_FIFODATA_R (*((volatile uint32_t *)0x400C2F00)) #define I2C6_FIFOCTL_R (*((volatile uint32_t *)0x400C2F04)) #define I2C6_FIFOSTATUS_R (*((volatile uint32_t *)0x400C2F08)) #define I2C6_PP_R (*((volatile uint32_t *)0x400C2FC0)) #define I2C6_PC_R (*((volatile uint32_t *)0x400C2FC4)) //***************************************************************************** // // I2C registers (I2C7) // //***************************************************************************** #define I2C7_MSA_R (*((volatile uint32_t *)0x400C3000)) #define I2C7_MCS_R (*((volatile uint32_t *)0x400C3004)) #define I2C7_MDR_R (*((volatile uint32_t *)0x400C3008)) #define I2C7_MTPR_R (*((volatile uint32_t *)0x400C300C)) #define I2C7_MIMR_R (*((volatile uint32_t *)0x400C3010)) #define I2C7_MRIS_R (*((volatile uint32_t *)0x400C3014)) #define I2C7_MMIS_R (*((volatile uint32_t *)0x400C3018)) #define I2C7_MICR_R (*((volatile uint32_t *)0x400C301C)) #define I2C7_MCR_R (*((volatile uint32_t *)0x400C3020)) #define I2C7_MCLKOCNT_R (*((volatile uint32_t *)0x400C3024)) #define I2C7_MBMON_R (*((volatile uint32_t *)0x400C302C)) #define I2C7_MBLEN_R (*((volatile uint32_t *)0x400C3030)) #define I2C7_MBCNT_R (*((volatile uint32_t *)0x400C3034)) #define I2C7_SOAR_R (*((volatile uint32_t *)0x400C3800)) #define I2C7_SCSR_R (*((volatile uint32_t *)0x400C3804)) #define I2C7_SDR_R (*((volatile uint32_t *)0x400C3808)) #define I2C7_SIMR_R (*((volatile uint32_t *)0x400C380C)) #define I2C7_SRIS_R (*((volatile uint32_t *)0x400C3810)) #define I2C7_SMIS_R (*((volatile uint32_t *)0x400C3814)) #define I2C7_SICR_R (*((volatile uint32_t *)0x400C3818)) #define I2C7_SOAR2_R (*((volatile uint32_t *)0x400C381C)) #define I2C7_SACKCTL_R (*((volatile uint32_t *)0x400C3820)) #define I2C7_FIFODATA_R (*((volatile uint32_t *)0x400C3F00)) #define I2C7_FIFOCTL_R (*((volatile uint32_t *)0x400C3F04)) #define I2C7_FIFOSTATUS_R (*((volatile uint32_t *)0x400C3F08)) #define I2C7_PP_R (*((volatile uint32_t *)0x400C3FC0)) #define I2C7_PC_R (*((volatile uint32_t *)0x400C3FC4)) //***************************************************************************** // // External Peripheral Interface registers (EPI0) // //***************************************************************************** #define EPI0_CFG_R (*((volatile uint32_t *)0x400D0000)) #define EPI0_BAUD_R (*((volatile uint32_t *)0x400D0004)) #define EPI0_BAUD2_R (*((volatile uint32_t *)0x400D0008)) #define EPI0_HB16CFG_R (*((volatile uint32_t *)0x400D0010)) #define EPI0_GPCFG_R (*((volatile uint32_t *)0x400D0010)) #define EPI0_SDRAMCFG_R (*((volatile uint32_t *)0x400D0010)) #define EPI0_HB8CFG_R (*((volatile uint32_t *)0x400D0010)) #define EPI0_HB8CFG2_R (*((volatile uint32_t *)0x400D0014)) #define EPI0_HB16CFG2_R (*((volatile uint32_t *)0x400D0014)) #define EPI0_ADDRMAP_R (*((volatile uint32_t *)0x400D001C)) #define EPI0_RSIZE0_R (*((volatile uint32_t *)0x400D0020)) #define EPI0_RADDR0_R (*((volatile uint32_t *)0x400D0024)) #define EPI0_RPSTD0_R (*((volatile uint32_t *)0x400D0028)) #define EPI0_RSIZE1_R (*((volatile uint32_t *)0x400D0030)) #define EPI0_RADDR1_R (*((volatile uint32_t *)0x400D0034)) #define EPI0_RPSTD1_R (*((volatile uint32_t *)0x400D0038)) #define EPI0_STAT_R (*((volatile uint32_t *)0x400D0060)) #define EPI0_RFIFOCNT_R (*((volatile uint32_t *)0x400D006C)) #define EPI0_READFIFO0_R (*((volatile uint32_t *)0x400D0070)) #define EPI0_READFIFO1_R (*((volatile uint32_t *)0x400D0074)) #define EPI0_READFIFO2_R (*((volatile uint32_t *)0x400D0078)) #define EPI0_READFIFO3_R (*((volatile uint32_t *)0x400D007C)) #define EPI0_READFIFO4_R (*((volatile uint32_t *)0x400D0080)) #define EPI0_READFIFO5_R (*((volatile uint32_t *)0x400D0084)) #define EPI0_READFIFO6_R (*((volatile uint32_t *)0x400D0088)) #define EPI0_READFIFO7_R (*((volatile uint32_t *)0x400D008C)) #define EPI0_FIFOLVL_R (*((volatile uint32_t *)0x400D0200)) #define EPI0_WFIFOCNT_R (*((volatile uint32_t *)0x400D0204)) #define EPI0_DMATXCNT_R (*((volatile uint32_t *)0x400D0208)) #define EPI0_IM_R (*((volatile uint32_t *)0x400D0210)) #define EPI0_RIS_R (*((volatile uint32_t *)0x400D0214)) #define EPI0_MIS_R (*((volatile uint32_t *)0x400D0218)) #define EPI0_EISC_R (*((volatile uint32_t *)0x400D021C)) #define EPI0_HB8CFG3_R (*((volatile uint32_t *)0x400D0308)) #define EPI0_HB16CFG3_R (*((volatile uint32_t *)0x400D0308)) #define EPI0_HB16CFG4_R (*((volatile uint32_t *)0x400D030C)) #define EPI0_HB8CFG4_R (*((volatile uint32_t *)0x400D030C)) #define EPI0_HB8TIME_R (*((volatile uint32_t *)0x400D0310)) #define EPI0_HB16TIME_R (*((volatile uint32_t *)0x400D0310)) #define EPI0_HB8TIME2_R (*((volatile uint32_t *)0x400D0314)) #define EPI0_HB16TIME2_R (*((volatile uint32_t *)0x400D0314)) #define EPI0_HB16TIME3_R (*((volatile uint32_t *)0x400D0318)) #define EPI0_HB8TIME3_R (*((volatile uint32_t *)0x400D0318)) #define EPI0_HB8TIME4_R (*((volatile uint32_t *)0x400D031C)) #define EPI0_HB16TIME4_R (*((volatile uint32_t *)0x400D031C)) #define EPI0_HBPSRAM_R (*((volatile uint32_t *)0x400D0360)) //***************************************************************************** // // Timer registers (TIMER6) // //***************************************************************************** #define TIMER6_CFG_R (*((volatile uint32_t *)0x400E0000)) #define TIMER6_TAMR_R (*((volatile uint32_t *)0x400E0004)) #define TIMER6_TBMR_R (*((volatile uint32_t *)0x400E0008)) #define TIMER6_CTL_R (*((volatile uint32_t *)0x400E000C)) #define TIMER6_SYNC_R (*((volatile uint32_t *)0x400E0010)) #define TIMER6_IMR_R (*((volatile uint32_t *)0x400E0018)) #define TIMER6_RIS_R (*((volatile uint32_t *)0x400E001C)) #define TIMER6_MIS_R (*((volatile uint32_t *)0x400E0020)) #define TIMER6_ICR_R (*((volatile uint32_t *)0x400E0024)) #define TIMER6_TAILR_R (*((volatile uint32_t *)0x400E0028)) #define TIMER6_TBILR_R (*((volatile uint32_t *)0x400E002C)) #define TIMER6_TAMATCHR_R (*((volatile uint32_t *)0x400E0030)) #define TIMER6_TBMATCHR_R (*((volatile uint32_t *)0x400E0034)) #define TIMER6_TAPR_R (*((volatile uint32_t *)0x400E0038)) #define TIMER6_TBPR_R (*((volatile uint32_t *)0x400E003C)) #define TIMER6_TAPMR_R (*((volatile uint32_t *)0x400E0040)) #define TIMER6_TBPMR_R (*((volatile uint32_t *)0x400E0044)) #define TIMER6_TAR_R (*((volatile uint32_t *)0x400E0048)) #define TIMER6_TBR_R (*((volatile uint32_t *)0x400E004C)) #define TIMER6_TAV_R (*((volatile uint32_t *)0x400E0050)) #define TIMER6_TBV_R (*((volatile uint32_t *)0x400E0054)) #define TIMER6_RTCPD_R (*((volatile uint32_t *)0x400E0058)) #define TIMER6_TAPS_R (*((volatile uint32_t *)0x400E005C)) #define TIMER6_TBPS_R (*((volatile uint32_t *)0x400E0060)) #define TIMER6_DMAEV_R (*((volatile uint32_t *)0x400E006C)) #define TIMER6_ADCEV_R (*((volatile uint32_t *)0x400E0070)) #define TIMER6_PP_R (*((volatile uint32_t *)0x400E0FC0)) #define TIMER6_CC_R (*((volatile uint32_t *)0x400E0FC8)) //***************************************************************************** // // Timer registers (TIMER7) // //***************************************************************************** #define TIMER7_CFG_R (*((volatile uint32_t *)0x400E1000)) #define TIMER7_TAMR_R (*((volatile uint32_t *)0x400E1004)) #define TIMER7_TBMR_R (*((volatile uint32_t *)0x400E1008)) #define TIMER7_CTL_R (*((volatile uint32_t *)0x400E100C)) #define TIMER7_SYNC_R (*((volatile uint32_t *)0x400E1010)) #define TIMER7_IMR_R (*((volatile uint32_t *)0x400E1018)) #define TIMER7_RIS_R (*((volatile uint32_t *)0x400E101C)) #define TIMER7_MIS_R (*((volatile uint32_t *)0x400E1020)) #define TIMER7_ICR_R (*((volatile uint32_t *)0x400E1024)) #define TIMER7_TAILR_R (*((volatile uint32_t *)0x400E1028)) #define TIMER7_TBILR_R (*((volatile uint32_t *)0x400E102C)) #define TIMER7_TAMATCHR_R (*((volatile uint32_t *)0x400E1030)) #define TIMER7_TBMATCHR_R (*((volatile uint32_t *)0x400E1034)) #define TIMER7_TAPR_R (*((volatile uint32_t *)0x400E1038)) #define TIMER7_TBPR_R (*((volatile uint32_t *)0x400E103C)) #define TIMER7_TAPMR_R (*((volatile uint32_t *)0x400E1040)) #define TIMER7_TBPMR_R (*((volatile uint32_t *)0x400E1044)) #define TIMER7_TAR_R (*((volatile uint32_t *)0x400E1048)) #define TIMER7_TBR_R (*((volatile uint32_t *)0x400E104C)) #define TIMER7_TAV_R (*((volatile uint32_t *)0x400E1050)) #define TIMER7_TBV_R (*((volatile uint32_t *)0x400E1054)) #define TIMER7_RTCPD_R (*((volatile uint32_t *)0x400E1058)) #define TIMER7_TAPS_R (*((volatile uint32_t *)0x400E105C)) #define TIMER7_TBPS_R (*((volatile uint32_t *)0x400E1060)) #define TIMER7_DMAEV_R (*((volatile uint32_t *)0x400E106C)) #define TIMER7_ADCEV_R (*((volatile uint32_t *)0x400E1070)) #define TIMER7_PP_R (*((volatile uint32_t *)0x400E1FC0)) #define TIMER7_CC_R (*((volatile uint32_t *)0x400E1FC8)) //***************************************************************************** // // EMAC registers (EMAC0) // //***************************************************************************** #define EMAC0_CFG_R (*((volatile uint32_t *)0x400EC000)) #define EMAC0_FRAMEFLTR_R (*((volatile uint32_t *)0x400EC004)) #define EMAC0_HASHTBLH_R (*((volatile uint32_t *)0x400EC008)) #define EMAC0_HASHTBLL_R (*((volatile uint32_t *)0x400EC00C)) #define EMAC0_MIIADDR_R (*((volatile uint32_t *)0x400EC010)) #define EMAC0_MIIDATA_R (*((volatile uint32_t *)0x400EC014)) #define EMAC0_FLOWCTL_R (*((volatile uint32_t *)0x400EC018)) #define EMAC0_VLANTG_R (*((volatile uint32_t *)0x400EC01C)) #define EMAC0_STATUS_R (*((volatile uint32_t *)0x400EC024)) #define EMAC0_RWUFF_R (*((volatile uint32_t *)0x400EC028)) #define EMAC0_PMTCTLSTAT_R (*((volatile uint32_t *)0x400EC02C)) #define EMAC0_RIS_R (*((volatile uint32_t *)0x400EC038)) #define EMAC0_IM_R (*((volatile uint32_t *)0x400EC03C)) #define EMAC0_ADDR0H_R (*((volatile uint32_t *)0x400EC040)) #define EMAC0_ADDR0L_R (*((volatile uint32_t *)0x400EC044)) #define EMAC0_ADDR1H_R (*((volatile uint32_t *)0x400EC048)) #define EMAC0_ADDR1L_R (*((volatile uint32_t *)0x400EC04C)) #define EMAC0_ADDR2H_R (*((volatile uint32_t *)0x400EC050)) #define EMAC0_ADDR2L_R (*((volatile uint32_t *)0x400EC054)) #define EMAC0_ADDR3H_R (*((volatile uint32_t *)0x400EC058)) #define EMAC0_ADDR3L_R (*((volatile uint32_t *)0x400EC05C)) #define EMAC0_WDOGTO_R (*((volatile uint32_t *)0x400EC0DC)) #define EMAC0_MMCCTRL_R (*((volatile uint32_t *)0x400EC100)) #define EMAC0_MMCRXRIS_R (*((volatile uint32_t *)0x400EC104)) #define EMAC0_MMCTXRIS_R (*((volatile uint32_t *)0x400EC108)) #define EMAC0_MMCRXIM_R (*((volatile uint32_t *)0x400EC10C)) #define EMAC0_MMCTXIM_R (*((volatile uint32_t *)0x400EC110)) #define EMAC0_TXCNTGB_R (*((volatile uint32_t *)0x400EC118)) #define EMAC0_TXCNTSCOL_R (*((volatile uint32_t *)0x400EC14C)) #define EMAC0_TXCNTMCOL_R (*((volatile uint32_t *)0x400EC150)) #define EMAC0_TXOCTCNTG_R (*((volatile uint32_t *)0x400EC164)) #define EMAC0_RXCNTGB_R (*((volatile uint32_t *)0x400EC180)) #define EMAC0_RXCNTCRCERR_R (*((volatile uint32_t *)0x400EC194)) #define EMAC0_RXCNTALGNERR_R (*((volatile uint32_t *)0x400EC198)) #define EMAC0_RXCNTGUNI_R (*((volatile uint32_t *)0x400EC1C4)) #define EMAC0_VLNINCREP_R (*((volatile uint32_t *)0x400EC584)) #define EMAC0_VLANHASH_R (*((volatile uint32_t *)0x400EC588)) #define EMAC0_TIMSTCTRL_R (*((volatile uint32_t *)0x400EC700)) #define EMAC0_SUBSECINC_R (*((volatile uint32_t *)0x400EC704)) #define EMAC0_TIMSEC_R (*((volatile uint32_t *)0x400EC708)) #define EMAC0_TIMNANO_R (*((volatile uint32_t *)0x400EC70C)) #define EMAC0_TIMSECU_R (*((volatile uint32_t *)0x400EC710)) #define EMAC0_TIMNANOU_R (*((volatile uint32_t *)0x400EC714)) #define EMAC0_TIMADD_R (*((volatile uint32_t *)0x400EC718)) #define EMAC0_TARGSEC_R (*((volatile uint32_t *)0x400EC71C)) #define EMAC0_TARGNANO_R (*((volatile uint32_t *)0x400EC720)) #define EMAC0_HWORDSEC_R (*((volatile uint32_t *)0x400EC724)) #define EMAC0_TIMSTAT_R (*((volatile uint32_t *)0x400EC728)) #define EMAC0_PPSCTRL_R (*((volatile uint32_t *)0x400EC72C)) #define EMAC0_PPS0INTVL_R (*((volatile uint32_t *)0x400EC760)) #define EMAC0_PPS0WIDTH_R (*((volatile uint32_t *)0x400EC764)) #define EMAC0_DMABUSMOD_R (*((volatile uint32_t *)0x400ECC00)) #define EMAC0_TXPOLLD_R (*((volatile uint32_t *)0x400ECC04)) #define EMAC0_RXPOLLD_R (*((volatile uint32_t *)0x400ECC08)) #define EMAC0_RXDLADDR_R (*((volatile uint32_t *)0x400ECC0C)) #define EMAC0_TXDLADDR_R (*((volatile uint32_t *)0x400ECC10)) #define EMAC0_DMARIS_R (*((volatile uint32_t *)0x400ECC14)) #define EMAC0_DMAOPMODE_R (*((volatile uint32_t *)0x400ECC18)) #define EMAC0_DMAIM_R (*((volatile uint32_t *)0x400ECC1C)) #define EMAC0_MFBOC_R (*((volatile uint32_t *)0x400ECC20)) #define EMAC0_RXINTWDT_R (*((volatile uint32_t *)0x400ECC24)) #define EMAC0_HOSTXDESC_R (*((volatile uint32_t *)0x400ECC48)) #define EMAC0_HOSRXDESC_R (*((volatile uint32_t *)0x400ECC4C)) #define EMAC0_HOSTXBA_R (*((volatile uint32_t *)0x400ECC50)) #define EMAC0_HOSRXBA_R (*((volatile uint32_t *)0x400ECC54)) #define EMAC0_PP_R (*((volatile uint32_t *)0x400ECFC0)) #define EMAC0_PC_R (*((volatile uint32_t *)0x400ECFC4)) #define EMAC0_CC_R (*((volatile uint32_t *)0x400ECFC8)) #define EMAC0_EPHYRIS_R (*((volatile uint32_t *)0x400ECFD0)) #define EMAC0_EPHYIM_R (*((volatile uint32_t *)0x400ECFD4)) #define EMAC0_EPHYMISC_R (*((volatile uint32_t *)0x400ECFD8)) //***************************************************************************** // // EPHY registers (EMAC0) // //***************************************************************************** #define EPHY_BMCR 0x00000000 // Ethernet PHY Basic Mode Control #define EPHY_BMSR 0x00000001 // Ethernet PHY Basic Mode Status #define EPHY_ID1 0x00000002 // Ethernet PHY Identifier Register // 1 #define EPHY_ID2 0x00000003 // Ethernet PHY Identifier Register // 2 #define EPHY_ANA 0x00000004 // Ethernet PHY Auto-Negotiation // Advertisement #define EPHY_ANLPA 0x00000005 // Ethernet PHY Auto-Negotiation // Link Partner Ability #define EPHY_ANER 0x00000006 // Ethernet PHY Auto-Negotiation // Expansion #define EPHY_ANNPTR 0x00000007 // Ethernet PHY Auto-Negotiation // Next Page TX #define EPHY_ANLNPTR 0x00000008 // Ethernet PHY Auto-Negotiation // Link Partner Ability Next Page #define EPHY_CFG1 0x00000009 // Ethernet PHY Configuration 1 #define EPHY_CFG2 0x0000000A // Ethernet PHY Configuration 2 #define EPHY_CFG3 0x0000000B // Ethernet PHY Configuration 3 #define EPHY_REGCTL 0x0000000D // Ethernet PHY Register Control #define EPHY_ADDAR 0x0000000E // Ethernet PHY Address or Data #define EPHY_STS 0x00000010 // Ethernet PHY Status #define EPHY_SCR 0x00000011 // Ethernet PHY Specific Control #define EPHY_MISR1 0x00000012 // Ethernet PHY MII Interrupt // Status 1 #define EPHY_MISR2 0x00000013 // Ethernet PHY MII Interrupt // Status 2 #define EPHY_FCSCR 0x00000014 // Ethernet PHY False Carrier Sense // Counter #define EPHY_RXERCNT 0x00000015 // Ethernet PHY Receive Error Count #define EPHY_BISTCR 0x00000016 // Ethernet PHY BIST Control #define EPHY_LEDCR 0x00000018 // Ethernet PHY LED Control #define EPHY_CTL 0x00000019 // Ethernet PHY Control #define EPHY_10BTSC 0x0000001A // Ethernet PHY 10Base-T // Status/Control - MR26 #define EPHY_BICSR1 0x0000001B // Ethernet PHY BIST Control and // Status 1 #define EPHY_BICSR2 0x0000001C // Ethernet PHY BIST Control and // Status 2 #define EPHY_CDCR 0x0000001E // Ethernet PHY Cable Diagnostic // Control #define EPHY_RCR 0x0000001F // Ethernet PHY Reset Control #define EPHY_LEDCFG 0x00000025 // Ethernet PHY LED Configuration //***************************************************************************** // // System Exception Module registers (SYSEXC) // //***************************************************************************** #define SYSEXC_RIS_R (*((volatile uint32_t *)0x400F9000)) #define SYSEXC_IM_R (*((volatile uint32_t *)0x400F9004)) #define SYSEXC_MIS_R (*((volatile uint32_t *)0x400F9008)) #define SYSEXC_IC_R (*((volatile uint32_t *)0x400F900C)) //***************************************************************************** // // Hibernation module registers (HIB) // //***************************************************************************** #define HIB_RTCC_R (*((volatile uint32_t *)0x400FC000)) #define HIB_RTCM0_R (*((volatile uint32_t *)0x400FC004)) #define HIB_RTCLD_R (*((volatile uint32_t *)0x400FC00C)) #define HIB_CTL_R (*((volatile uint32_t *)0x400FC010)) #define HIB_IM_R (*((volatile uint32_t *)0x400FC014)) #define HIB_RIS_R (*((volatile uint32_t *)0x400FC018)) #define HIB_MIS_R (*((volatile uint32_t *)0x400FC01C)) #define HIB_IC_R (*((volatile uint32_t *)0x400FC020)) #define HIB_RTCT_R (*((volatile uint32_t *)0x400FC024)) #define HIB_RTCSS_R (*((volatile uint32_t *)0x400FC028)) #define HIB_IO_R (*((volatile uint32_t *)0x400FC02C)) #define HIB_DATA_R (*((volatile uint32_t *)0x400FC030)) #define HIB_CALCTL_R (*((volatile uint32_t *)0x400FC300)) #define HIB_CAL0_R (*((volatile uint32_t *)0x400FC310)) #define HIB_CAL1_R (*((volatile uint32_t *)0x400FC314)) #define HIB_CALLD0_R (*((volatile uint32_t *)0x400FC320)) #define HIB_CALLD1_R (*((volatile uint32_t *)0x400FC324)) #define HIB_CALM0_R (*((volatile uint32_t *)0x400FC330)) #define HIB_CALM1_R (*((volatile uint32_t *)0x400FC334)) #define HIB_LOCK_R (*((volatile uint32_t *)0x400FC360)) #define HIB_TPCTL_R (*((volatile uint32_t *)0x400FC400)) #define HIB_TPSTAT_R (*((volatile uint32_t *)0x400FC404)) #define HIB_TPIO_R (*((volatile uint32_t *)0x400FC410)) #define HIB_TPLOG0_R (*((volatile uint32_t *)0x400FC4E0)) #define HIB_TPLOG1_R (*((volatile uint32_t *)0x400FC4E4)) #define HIB_TPLOG2_R (*((volatile uint32_t *)0x400FC4E8)) #define HIB_TPLOG3_R (*((volatile uint32_t *)0x400FC4EC)) #define HIB_TPLOG4_R (*((volatile uint32_t *)0x400FC4F0)) #define HIB_TPLOG5_R (*((volatile uint32_t *)0x400FC4F4)) #define HIB_TPLOG6_R (*((volatile uint32_t *)0x400FC4F8)) #define HIB_TPLOG7_R (*((volatile uint32_t *)0x400FC4FC)) #define HIB_PP_R (*((volatile uint32_t *)0x400FCFC0)) #define HIB_CC_R (*((volatile uint32_t *)0x400FCFC8)) //***************************************************************************** // // FLASH registers (FLASH CTRL) // //***************************************************************************** #define FLASH_FMA_R (*((volatile uint32_t *)0x400FD000)) #define FLASH_FMD_R (*((volatile uint32_t *)0x400FD004)) #define FLASH_FMC_R (*((volatile uint32_t *)0x400FD008)) #define FLASH_FCRIS_R (*((volatile uint32_t *)0x400FD00C)) #define FLASH_FCIM_R (*((volatile uint32_t *)0x400FD010)) #define FLASH_FCMISC_R (*((volatile uint32_t *)0x400FD014)) #define FLASH_FMC2_R (*((volatile uint32_t *)0x400FD020)) #define FLASH_FWBVAL_R (*((volatile uint32_t *)0x400FD030)) #define FLASH_FLPEKEY_R (*((volatile uint32_t *)0x400FD03C)) #define FLASH_FWBN_R (*((volatile uint32_t *)0x400FD100)) #define FLASH_PP_R (*((volatile uint32_t *)0x400FDFC0)) #define FLASH_SSIZE_R (*((volatile uint32_t *)0x400FDFC4)) #define FLASH_CONF_R (*((volatile uint32_t *)0x400FDFC8)) #define FLASH_ROMSWMAP_R (*((volatile uint32_t *)0x400FDFCC)) #define FLASH_DMASZ_R (*((volatile uint32_t *)0x400FDFD0)) #define FLASH_DMAST_R (*((volatile uint32_t *)0x400FDFD4)) #define FLASH_RVP_R (*((volatile uint32_t *)0x400FE0D4)) #define FLASH_BOOTCFG_R (*((volatile uint32_t *)0x400FE1D0)) #define FLASH_USERREG0_R (*((volatile uint32_t *)0x400FE1E0)) #define FLASH_USERREG1_R (*((volatile uint32_t *)0x400FE1E4)) #define FLASH_USERREG2_R (*((volatile uint32_t *)0x400FE1E8)) #define FLASH_USERREG3_R (*((volatile uint32_t *)0x400FE1EC)) #define FLASH_FMPRE0_R (*((volatile uint32_t *)0x400FE200)) #define FLASH_FMPRE1_R (*((volatile uint32_t *)0x400FE204)) #define FLASH_FMPRE2_R (*((volatile uint32_t *)0x400FE208)) #define FLASH_FMPRE3_R (*((volatile uint32_t *)0x400FE20C)) #define FLASH_FMPRE4_R (*((volatile uint32_t *)0x400FE210)) #define FLASH_FMPRE5_R (*((volatile uint32_t *)0x400FE214)) #define FLASH_FMPRE6_R (*((volatile uint32_t *)0x400FE218)) #define FLASH_FMPRE7_R (*((volatile uint32_t *)0x400FE21C)) #define FLASH_FMPRE8_R (*((volatile uint32_t *)0x400FE220)) #define FLASH_FMPRE9_R (*((volatile uint32_t *)0x400FE224)) #define FLASH_FMPRE10_R (*((volatile uint32_t *)0x400FE228)) #define FLASH_FMPRE11_R (*((volatile uint32_t *)0x400FE22C)) #define FLASH_FMPRE12_R (*((volatile uint32_t *)0x400FE230)) #define FLASH_FMPRE13_R (*((volatile uint32_t *)0x400FE234)) #define FLASH_FMPRE14_R (*((volatile uint32_t *)0x400FE238)) #define FLASH_FMPRE15_R (*((volatile uint32_t *)0x400FE23C)) #define FLASH_FMPPE0_R (*((volatile uint32_t *)0x400FE400)) #define FLASH_FMPPE1_R (*((volatile uint32_t *)0x400FE404)) #define FLASH_FMPPE2_R (*((volatile uint32_t *)0x400FE408)) #define FLASH_FMPPE3_R (*((volatile uint32_t *)0x400FE40C)) #define FLASH_FMPPE4_R (*((volatile uint32_t *)0x400FE410)) #define FLASH_FMPPE5_R (*((volatile uint32_t *)0x400FE414)) #define FLASH_FMPPE6_R (*((volatile uint32_t *)0x400FE418)) #define FLASH_FMPPE7_R (*((volatile uint32_t *)0x400FE41C)) #define FLASH_FMPPE8_R (*((volatile uint32_t *)0x400FE420)) #define FLASH_FMPPE9_R (*((volatile uint32_t *)0x400FE424)) #define FLASH_FMPPE10_R (*((volatile uint32_t *)0x400FE428)) #define FLASH_FMPPE11_R (*((volatile uint32_t *)0x400FE42C)) #define FLASH_FMPPE12_R (*((volatile uint32_t *)0x400FE430)) #define FLASH_FMPPE13_R (*((volatile uint32_t *)0x400FE434)) #define FLASH_FMPPE14_R (*((volatile uint32_t *)0x400FE438)) #define FLASH_FMPPE15_R (*((volatile uint32_t *)0x400FE43C)) //***************************************************************************** // // System Control registers (SYSCTL) // //***************************************************************************** #define SYSCTL_DID0_R (*((volatile uint32_t *)0x400FE000)) #define SYSCTL_DID1_R (*((volatile uint32_t *)0x400FE004)) #define SYSCTL_PTBOCTL_R (*((volatile uint32_t *)0x400FE038)) #define SYSCTL_RIS_R (*((volatile uint32_t *)0x400FE050)) #define SYSCTL_IMC_R (*((volatile uint32_t *)0x400FE054)) #define SYSCTL_MISC_R (*((volatile uint32_t *)0x400FE058)) #define SYSCTL_RESC_R (*((volatile uint32_t *)0x400FE05C)) #define SYSCTL_PWRTC_R (*((volatile uint32_t *)0x400FE060)) #define SYSCTL_NMIC_R (*((volatile uint32_t *)0x400FE064)) #define SYSCTL_MOSCCTL_R (*((volatile uint32_t *)0x400FE07C)) #define SYSCTL_RSCLKCFG_R (*((volatile uint32_t *)0x400FE0B0)) #define SYSCTL_MEMTIM0_R (*((volatile uint32_t *)0x400FE0C0)) #define SYSCTL_ALTCLKCFG_R (*((volatile uint32_t *)0x400FE138)) #define SYSCTL_DSCLKCFG_R (*((volatile uint32_t *)0x400FE144)) #define SYSCTL_DIVSCLK_R (*((volatile uint32_t *)0x400FE148)) #define SYSCTL_SYSPROP_R (*((volatile uint32_t *)0x400FE14C)) #define SYSCTL_PIOSCCAL_R (*((volatile uint32_t *)0x400FE150)) #define SYSCTL_PIOSCSTAT_R (*((volatile uint32_t *)0x400FE154)) #define SYSCTL_PLLFREQ0_R (*((volatile uint32_t *)0x400FE160)) #define SYSCTL_PLLFREQ1_R (*((volatile uint32_t *)0x400FE164)) #define SYSCTL_PLLSTAT_R (*((volatile uint32_t *)0x400FE168)) #define SYSCTL_SLPPWRCFG_R (*((volatile uint32_t *)0x400FE188)) #define SYSCTL_DSLPPWRCFG_R (*((volatile uint32_t *)0x400FE18C)) #define SYSCTL_NVMSTAT_R (*((volatile uint32_t *)0x400FE1A0)) #define SYSCTL_LDOSPCTL_R (*((volatile uint32_t *)0x400FE1B4)) #define SYSCTL_LDODPCTL_R (*((volatile uint32_t *)0x400FE1BC)) #define SYSCTL_RESBEHAVCTL_R (*((volatile uint32_t *)0x400FE1D8)) #define SYSCTL_HSSR_R (*((volatile uint32_t *)0x400FE1F4)) #define SYSCTL_USBPDS_R (*((volatile uint32_t *)0x400FE280)) #define SYSCTL_USBMPC_R (*((volatile uint32_t *)0x400FE284)) #define SYSCTL_EMACPDS_R (*((volatile uint32_t *)0x400FE288)) #define SYSCTL_EMACMPC_R (*((volatile uint32_t *)0x400FE28C)) #define SYSCTL_PPWD_R (*((volatile uint32_t *)0x400FE300)) #define SYSCTL_PPTIMER_R (*((volatile uint32_t *)0x400FE304)) #define SYSCTL_PPGPIO_R (*((volatile uint32_t *)0x400FE308)) #define SYSCTL_PPDMA_R (*((volatile uint32_t *)0x400FE30C)) #define SYSCTL_PPEPI_R (*((volatile uint32_t *)0x400FE310)) #define SYSCTL_PPHIB_R (*((volatile uint32_t *)0x400FE314)) #define SYSCTL_PPUART_R (*((volatile uint32_t *)0x400FE318)) #define SYSCTL_PPSSI_R (*((volatile uint32_t *)0x400FE31C)) #define SYSCTL_PPI2C_R (*((volatile uint32_t *)0x400FE320)) #define SYSCTL_PPUSB_R (*((volatile uint32_t *)0x400FE328)) #define SYSCTL_PPEPHY_R (*((volatile uint32_t *)0x400FE330)) #define SYSCTL_PPCAN_R (*((volatile uint32_t *)0x400FE334)) #define SYSCTL_PPADC_R (*((volatile uint32_t *)0x400FE338)) #define SYSCTL_PPACMP_R (*((volatile uint32_t *)0x400FE33C)) #define SYSCTL_PPPWM_R (*((volatile uint32_t *)0x400FE340)) #define SYSCTL_PPQEI_R (*((volatile uint32_t *)0x400FE344)) #define SYSCTL_PPLPC_R (*((volatile uint32_t *)0x400FE348)) #define SYSCTL_PPPECI_R (*((volatile uint32_t *)0x400FE350)) #define SYSCTL_PPFAN_R (*((volatile uint32_t *)0x400FE354)) #define SYSCTL_PPEEPROM_R (*((volatile uint32_t *)0x400FE358)) #define SYSCTL_PPWTIMER_R (*((volatile uint32_t *)0x400FE35C)) #define SYSCTL_PPRTS_R (*((volatile uint32_t *)0x400FE370)) #define SYSCTL_PPCCM_R (*((volatile uint32_t *)0x400FE374)) #define SYSCTL_PPLCD_R (*((volatile uint32_t *)0x400FE390)) #define SYSCTL_PPOWIRE_R (*((volatile uint32_t *)0x400FE398)) #define SYSCTL_PPEMAC_R (*((volatile uint32_t *)0x400FE39C)) #define SYSCTL_PPHIM_R (*((volatile uint32_t *)0x400FE3A4)) #define SYSCTL_SRWD_R (*((volatile uint32_t *)0x400FE500)) #define SYSCTL_SRTIMER_R (*((volatile uint32_t *)0x400FE504)) #define SYSCTL_SRGPIO_R (*((volatile uint32_t *)0x400FE508)) #define SYSCTL_SRDMA_R (*((volatile uint32_t *)0x400FE50C)) #define SYSCTL_SREPI_R (*((volatile uint32_t *)0x400FE510)) #define SYSCTL_SRHIB_R (*((volatile uint32_t *)0x400FE514)) #define SYSCTL_SRUART_R (*((volatile uint32_t *)0x400FE518)) #define SYSCTL_SRSSI_R (*((volatile uint32_t *)0x400FE51C)) #define SYSCTL_SRI2C_R (*((volatile uint32_t *)0x400FE520)) #define SYSCTL_SRUSB_R (*((volatile uint32_t *)0x400FE528)) #define SYSCTL_SREPHY_R (*((volatile uint32_t *)0x400FE530)) #define SYSCTL_SRCAN_R (*((volatile uint32_t *)0x400FE534)) #define SYSCTL_SRADC_R (*((volatile uint32_t *)0x400FE538)) #define SYSCTL_SRACMP_R (*((volatile uint32_t *)0x400FE53C)) #define SYSCTL_SRPWM_R (*((volatile uint32_t *)0x400FE540)) #define SYSCTL_SRQEI_R (*((volatile uint32_t *)0x400FE544)) #define SYSCTL_SREEPROM_R (*((volatile uint32_t *)0x400FE558)) #define SYSCTL_SRCCM_R (*((volatile uint32_t *)0x400FE574)) #define SYSCTL_SREMAC_R (*((volatile uint32_t *)0x400FE59C)) #define SYSCTL_RCGCWD_R (*((volatile uint32_t *)0x400FE600)) #define SYSCTL_RCGCTIMER_R (*((volatile uint32_t *)0x400FE604)) #define SYSCTL_RCGCGPIO_R (*((volatile uint32_t *)0x400FE608)) #define SYSCTL_RCGCDMA_R (*((volatile uint32_t *)0x400FE60C)) #define SYSCTL_RCGCEPI_R (*((volatile uint32_t *)0x400FE610)) #define SYSCTL_RCGCHIB_R (*((volatile uint32_t *)0x400FE614)) #define SYSCTL_RCGCUART_R (*((volatile uint32_t *)0x400FE618)) #define SYSCTL_RCGCSSI_R (*((volatile uint32_t *)0x400FE61C)) #define SYSCTL_RCGCI2C_R (*((volatile uint32_t *)0x400FE620)) #define SYSCTL_RCGCUSB_R (*((volatile uint32_t *)0x400FE628)) #define SYSCTL_RCGCEPHY_R (*((volatile uint32_t *)0x400FE630)) #define SYSCTL_RCGCCAN_R (*((volatile uint32_t *)0x400FE634)) #define SYSCTL_RCGCADC_R (*((volatile uint32_t *)0x400FE638)) #define SYSCTL_RCGCACMP_R (*((volatile uint32_t *)0x400FE63C)) #define SYSCTL_RCGCPWM_R (*((volatile uint32_t *)0x400FE640)) #define SYSCTL_RCGCQEI_R (*((volatile uint32_t *)0x400FE644)) #define SYSCTL_RCGCEEPROM_R (*((volatile uint32_t *)0x400FE658)) #define SYSCTL_RCGCCCM_R (*((volatile uint32_t *)0x400FE674)) #define SYSCTL_RCGCEMAC_R (*((volatile uint32_t *)0x400FE69C)) #define SYSCTL_SCGCWD_R (*((volatile uint32_t *)0x400FE700)) #define SYSCTL_SCGCTIMER_R (*((volatile uint32_t *)0x400FE704)) #define SYSCTL_SCGCGPIO_R (*((volatile uint32_t *)0x400FE708)) #define SYSCTL_SCGCDMA_R (*((volatile uint32_t *)0x400FE70C)) #define SYSCTL_SCGCEPI_R (*((volatile uint32_t *)0x400FE710)) #define SYSCTL_SCGCHIB_R (*((volatile uint32_t *)0x400FE714)) #define SYSCTL_SCGCUART_R (*((volatile uint32_t *)0x400FE718)) #define SYSCTL_SCGCSSI_R (*((volatile uint32_t *)0x400FE71C)) #define SYSCTL_SCGCI2C_R (*((volatile uint32_t *)0x400FE720)) #define SYSCTL_SCGCUSB_R (*((volatile uint32_t *)0x400FE728)) #define SYSCTL_SCGCEPHY_R (*((volatile uint32_t *)0x400FE730)) #define SYSCTL_SCGCCAN_R (*((volatile uint32_t *)0x400FE734)) #define SYSCTL_SCGCADC_R (*((volatile uint32_t *)0x400FE738)) #define SYSCTL_SCGCACMP_R (*((volatile uint32_t *)0x400FE73C)) #define SYSCTL_SCGCPWM_R (*((volatile uint32_t *)0x400FE740)) #define SYSCTL_SCGCQEI_R (*((volatile uint32_t *)0x400FE744)) #define SYSCTL_SCGCEEPROM_R (*((volatile uint32_t *)0x400FE758)) #define SYSCTL_SCGCCCM_R (*((volatile uint32_t *)0x400FE774)) #define SYSCTL_SCGCEMAC_R (*((volatile uint32_t *)0x400FE79C)) #define SYSCTL_DCGCWD_R (*((volatile uint32_t *)0x400FE800)) #define SYSCTL_DCGCTIMER_R (*((volatile uint32_t *)0x400FE804)) #define SYSCTL_DCGCGPIO_R (*((volatile uint32_t *)0x400FE808)) #define SYSCTL_DCGCDMA_R (*((volatile uint32_t *)0x400FE80C)) #define SYSCTL_DCGCEPI_R (*((volatile uint32_t *)0x400FE810)) #define SYSCTL_DCGCHIB_R (*((volatile uint32_t *)0x400FE814)) #define SYSCTL_DCGCUART_R (*((volatile uint32_t *)0x400FE818)) #define SYSCTL_DCGCSSI_R (*((volatile uint32_t *)0x400FE81C)) #define SYSCTL_DCGCI2C_R (*((volatile uint32_t *)0x400FE820)) #define SYSCTL_DCGCUSB_R (*((volatile uint32_t *)0x400FE828)) #define SYSCTL_DCGCEPHY_R (*((volatile uint32_t *)0x400FE830)) #define SYSCTL_DCGCCAN_R (*((volatile uint32_t *)0x400FE834)) #define SYSCTL_DCGCADC_R (*((volatile uint32_t *)0x400FE838)) #define SYSCTL_DCGCACMP_R (*((volatile uint32_t *)0x400FE83C)) #define SYSCTL_DCGCPWM_R (*((volatile uint32_t *)0x400FE840)) #define SYSCTL_DCGCQEI_R (*((volatile uint32_t *)0x400FE844)) #define SYSCTL_DCGCEEPROM_R (*((volatile uint32_t *)0x400FE858)) #define SYSCTL_DCGCCCM_R (*((volatile uint32_t *)0x400FE874)) #define SYSCTL_DCGCEMAC_R (*((volatile uint32_t *)0x400FE89C)) #define SYSCTL_PCWD_R (*((volatile uint32_t *)0x400FE900)) #define SYSCTL_PCTIMER_R (*((volatile uint32_t *)0x400FE904)) #define SYSCTL_PCGPIO_R (*((volatile uint32_t *)0x400FE908)) #define SYSCTL_PCDMA_R (*((volatile uint32_t *)0x400FE90C)) #define SYSCTL_PCEPI_R (*((volatile uint32_t *)0x400FE910)) #define SYSCTL_PCHIB_R (*((volatile uint32_t *)0x400FE914)) #define SYSCTL_PCUART_R (*((volatile uint32_t *)0x400FE918)) #define SYSCTL_PCSSI_R (*((volatile uint32_t *)0x400FE91C)) #define SYSCTL_PCI2C_R (*((volatile uint32_t *)0x400FE920)) #define SYSCTL_PCUSB_R (*((volatile uint32_t *)0x400FE928)) #define SYSCTL_PCEPHY_R (*((volatile uint32_t *)0x400FE930)) #define SYSCTL_PCCAN_R (*((volatile uint32_t *)0x400FE934)) #define SYSCTL_PCADC_R (*((volatile uint32_t *)0x400FE938)) #define SYSCTL_PCACMP_R (*((volatile uint32_t *)0x400FE93C)) #define SYSCTL_PCPWM_R (*((volatile uint32_t *)0x400FE940)) #define SYSCTL_PCQEI_R (*((volatile uint32_t *)0x400FE944)) #define SYSCTL_PCEEPROM_R (*((volatile uint32_t *)0x400FE958)) #define SYSCTL_PCCCM_R (*((volatile uint32_t *)0x400FE974)) #define SYSCTL_PCEMAC_R (*((volatile uint32_t *)0x400FE99C)) #define SYSCTL_PRWD_R (*((volatile uint32_t *)0x400FEA00)) #define SYSCTL_PRTIMER_R (*((volatile uint32_t *)0x400FEA04)) #define SYSCTL_PRGPIO_R (*((volatile uint32_t *)0x400FEA08)) #define SYSCTL_PRDMA_R (*((volatile uint32_t *)0x400FEA0C)) #define SYSCTL_PREPI_R (*((volatile uint32_t *)0x400FEA10)) #define SYSCTL_PRHIB_R (*((volatile uint32_t *)0x400FEA14)) #define SYSCTL_PRUART_R (*((volatile uint32_t *)0x400FEA18)) #define SYSCTL_PRSSI_R (*((volatile uint32_t *)0x400FEA1C)) #define SYSCTL_PRI2C_R (*((volatile uint32_t *)0x400FEA20)) #define SYSCTL_PRUSB_R (*((volatile uint32_t *)0x400FEA28)) #define SYSCTL_PREPHY_R (*((volatile uint32_t *)0x400FEA30)) #define SYSCTL_PRCAN_R (*((volatile uint32_t *)0x400FEA34)) #define SYSCTL_PRADC_R (*((volatile uint32_t *)0x400FEA38)) #define SYSCTL_PRACMP_R (*((volatile uint32_t *)0x400FEA3C)) #define SYSCTL_PRPWM_R (*((volatile uint32_t *)0x400FEA40)) #define SYSCTL_PRQEI_R (*((volatile uint32_t *)0x400FEA44)) #define SYSCTL_PREEPROM_R (*((volatile uint32_t *)0x400FEA58)) #define SYSCTL_PRCCM_R (*((volatile uint32_t *)0x400FEA74)) #define SYSCTL_PREMAC_R (*((volatile uint32_t *)0x400FEA9C)) //***************************************************************************** // // Micro Direct Memory Access registers (UDMA) // //***************************************************************************** #define UDMA_STAT_R (*((volatile uint32_t *)0x400FF000)) #define UDMA_CFG_R (*((volatile uint32_t *)0x400FF004)) #define UDMA_CTLBASE_R (*((volatile uint32_t *)0x400FF008)) #define UDMA_ALTBASE_R (*((volatile uint32_t *)0x400FF00C)) #define UDMA_WAITSTAT_R (*((volatile uint32_t *)0x400FF010)) #define UDMA_SWREQ_R (*((volatile uint32_t *)0x400FF014)) #define UDMA_USEBURSTSET_R (*((volatile uint32_t *)0x400FF018)) #define UDMA_USEBURSTCLR_R (*((volatile uint32_t *)0x400FF01C)) #define UDMA_REQMASKSET_R (*((volatile uint32_t *)0x400FF020)) #define UDMA_REQMASKCLR_R (*((volatile uint32_t *)0x400FF024)) #define UDMA_ENASET_R (*((volatile uint32_t *)0x400FF028)) #define UDMA_ENACLR_R (*((volatile uint32_t *)0x400FF02C)) #define UDMA_ALTSET_R (*((volatile uint32_t *)0x400FF030)) #define UDMA_ALTCLR_R (*((volatile uint32_t *)0x400FF034)) #define UDMA_PRIOSET_R (*((volatile uint32_t *)0x400FF038)) #define UDMA_PRIOCLR_R (*((volatile uint32_t *)0x400FF03C)) #define UDMA_ERRCLR_R (*((volatile uint32_t *)0x400FF04C)) #define UDMA_CHASGN_R (*((volatile uint32_t *)0x400FF500)) #define UDMA_CHMAP0_R (*((volatile uint32_t *)0x400FF510)) #define UDMA_CHMAP1_R (*((volatile uint32_t *)0x400FF514)) #define UDMA_CHMAP2_R (*((volatile uint32_t *)0x400FF518)) #define UDMA_CHMAP3_R (*((volatile uint32_t *)0x400FF51C)) //***************************************************************************** // // Micro Direct Memory Access (uDMA) offsets (UDMA) // //***************************************************************************** #define UDMA_SRCENDP 0x00000000 // DMA Channel Source Address End // Pointer #define UDMA_DSTENDP 0x00000004 // DMA Channel Destination Address // End Pointer #define UDMA_CHCTL 0x00000008 // DMA Channel Control Word //***************************************************************************** // // EC registers (CCM0) // //***************************************************************************** #define CCM0_CRCCTRL_R (*((volatile uint32_t *)0x44030400)) #define CCM0_CRCSEED_R (*((volatile uint32_t *)0x44030410)) #define CCM0_CRCDIN_R (*((volatile uint32_t *)0x44030414)) #define CCM0_CRCRSLTPP_R (*((volatile uint32_t *)0x44030418)) //***************************************************************************** // // NVIC registers (NVIC) // //***************************************************************************** #define NVIC_ACTLR_R (*((volatile uint32_t *)0xE000E008)) #define NVIC_ST_CTRL_R (*((volatile uint32_t *)0xE000E010)) #define NVIC_ST_RELOAD_R (*((volatile uint32_t *)0xE000E014)) #define NVIC_ST_CURRENT_R (*((volatile uint32_t *)0xE000E018)) #define NVIC_EN0_R (*((volatile uint32_t *)0xE000E100)) #define NVIC_EN1_R (*((volatile uint32_t *)0xE000E104)) #define NVIC_EN2_R (*((volatile uint32_t *)0xE000E108)) #define NVIC_EN3_R (*((volatile uint32_t *)0xE000E10C)) #define NVIC_DIS0_R (*((volatile uint32_t *)0xE000E180)) #define NVIC_DIS1_R (*((volatile uint32_t *)0xE000E184)) #define NVIC_DIS2_R (*((volatile uint32_t *)0xE000E188)) #define NVIC_DIS3_R (*((volatile uint32_t *)0xE000E18C)) #define NVIC_PEND0_R (*((volatile uint32_t *)0xE000E200)) #define NVIC_PEND1_R (*((volatile uint32_t *)0xE000E204)) #define NVIC_PEND2_R (*((volatile uint32_t *)0xE000E208)) #define NVIC_PEND3_R (*((volatile uint32_t *)0xE000E20C)) #define NVIC_UNPEND0_R (*((volatile uint32_t *)0xE000E280)) #define NVIC_UNPEND1_R (*((volatile uint32_t *)0xE000E284)) #define NVIC_UNPEND2_R (*((volatile uint32_t *)0xE000E288)) #define NVIC_UNPEND3_R (*((volatile uint32_t *)0xE000E28C)) #define NVIC_ACTIVE0_R (*((volatile uint32_t *)0xE000E300)) #define NVIC_ACTIVE1_R (*((volatile uint32_t *)0xE000E304)) #define NVIC_ACTIVE2_R (*((volatile uint32_t *)0xE000E308)) #define NVIC_ACTIVE3_R (*((volatile uint32_t *)0xE000E30C)) #define NVIC_PRI0_R (*((volatile uint32_t *)0xE000E400)) #define NVIC_PRI1_R (*((volatile uint32_t *)0xE000E404)) #define NVIC_PRI2_R (*((volatile uint32_t *)0xE000E408)) #define NVIC_PRI3_R (*((volatile uint32_t *)0xE000E40C)) #define NVIC_PRI4_R (*((volatile uint32_t *)0xE000E410)) #define NVIC_PRI5_R (*((volatile uint32_t *)0xE000E414)) #define NVIC_PRI6_R (*((volatile uint32_t *)0xE000E418)) #define NVIC_PRI7_R (*((volatile uint32_t *)0xE000E41C)) #define NVIC_PRI8_R (*((volatile uint32_t *)0xE000E420)) #define NVIC_PRI9_R (*((volatile uint32_t *)0xE000E424)) #define NVIC_PRI10_R (*((volatile uint32_t *)0xE000E428)) #define NVIC_PRI11_R (*((volatile uint32_t *)0xE000E42C)) #define NVIC_PRI12_R (*((volatile uint32_t *)0xE000E430)) #define NVIC_PRI13_R (*((volatile uint32_t *)0xE000E434)) #define NVIC_PRI14_R (*((volatile uint32_t *)0xE000E438)) #define NVIC_PRI15_R (*((volatile uint32_t *)0xE000E43C)) #define NVIC_PRI16_R (*((volatile uint32_t *)0xE000E440)) #define NVIC_PRI17_R (*((volatile uint32_t *)0xE000E444)) #define NVIC_PRI18_R (*((volatile uint32_t *)0xE000E448)) #define NVIC_PRI19_R (*((volatile uint32_t *)0xE000E44C)) #define NVIC_PRI20_R (*((volatile uint32_t *)0xE000E450)) #define NVIC_PRI21_R (*((volatile uint32_t *)0xE000E454)) #define NVIC_PRI22_R (*((volatile uint32_t *)0xE000E458)) #define NVIC_PRI23_R (*((volatile uint32_t *)0xE000E45C)) #define NVIC_PRI24_R (*((volatile uint32_t *)0xE000E460)) #define NVIC_PRI25_R (*((volatile uint32_t *)0xE000E464)) #define NVIC_PRI26_R (*((volatile uint32_t *)0xE000E468)) #define NVIC_PRI27_R (*((volatile uint32_t *)0xE000E46C)) #define NVIC_PRI28_R (*((volatile uint32_t *)0xE000E470)) #define NVIC_CPUID_R (*((volatile uint32_t *)0xE000ED00)) #define NVIC_INT_CTRL_R (*((volatile uint32_t *)0xE000ED04)) #define NVIC_VTABLE_R (*((volatile uint32_t *)0xE000ED08)) #define NVIC_APINT_R (*((volatile uint32_t *)0xE000ED0C)) #define NVIC_SYS_CTRL_R (*((volatile uint32_t *)0xE000ED10)) #define NVIC_CFG_CTRL_R (*((volatile uint32_t *)0xE000ED14)) #define NVIC_SYS_PRI1_R (*((volatile uint32_t *)0xE000ED18)) #define NVIC_SYS_PRI2_R (*((volatile uint32_t *)0xE000ED1C)) #define NVIC_SYS_PRI3_R (*((volatile uint32_t *)0xE000ED20)) #define NVIC_SYS_HND_CTRL_R (*((volatile uint32_t *)0xE000ED24)) #define NVIC_FAULT_STAT_R (*((volatile uint32_t *)0xE000ED28)) #define NVIC_HFAULT_STAT_R (*((volatile uint32_t *)0xE000ED2C)) #define NVIC_DEBUG_STAT_R (*((volatile uint32_t *)0xE000ED30)) #define NVIC_MM_ADDR_R (*((volatile uint32_t *)0xE000ED34)) #define NVIC_FAULT_ADDR_R (*((volatile uint32_t *)0xE000ED38)) #define NVIC_CPAC_R (*((volatile uint32_t *)0xE000ED88)) #define NVIC_MPU_TYPE_R (*((volatile uint32_t *)0xE000ED90)) #define NVIC_MPU_CTRL_R (*((volatile uint32_t *)0xE000ED94)) #define NVIC_MPU_NUMBER_R (*((volatile uint32_t *)0xE000ED98)) #define NVIC_MPU_BASE_R (*((volatile uint32_t *)0xE000ED9C)) #define NVIC_MPU_ATTR_R (*((volatile uint32_t *)0xE000EDA0)) #define NVIC_MPU_BASE1_R (*((volatile uint32_t *)0xE000EDA4)) #define NVIC_MPU_ATTR1_R (*((volatile uint32_t *)0xE000EDA8)) #define NVIC_MPU_BASE2_R (*((volatile uint32_t *)0xE000EDAC)) #define NVIC_MPU_ATTR2_R (*((volatile uint32_t *)0xE000EDB0)) #define NVIC_MPU_BASE3_R (*((volatile uint32_t *)0xE000EDB4)) #define NVIC_MPU_ATTR3_R (*((volatile uint32_t *)0xE000EDB8)) #define NVIC_DBG_CTRL_R (*((volatile uint32_t *)0xE000EDF0)) #define NVIC_DBG_XFER_R (*((volatile uint32_t *)0xE000EDF4)) #define NVIC_DBG_DATA_R (*((volatile uint32_t *)0xE000EDF8)) #define NVIC_DBG_INT_R (*((volatile uint32_t *)0xE000EDFC)) #define NVIC_SW_TRIG_R (*((volatile uint32_t *)0xE000EF00)) #define NVIC_FPCC_R (*((volatile uint32_t *)0xE000EF34)) #define NVIC_FPCA_R (*((volatile uint32_t *)0xE000EF38)) #define NVIC_FPDSC_R (*((volatile uint32_t *)0xE000EF3C)) //***************************************************************************** // // The following are defines for the bit fields in the WDT_O_LOAD register. // //***************************************************************************** #define WDT_LOAD_M 0xFFFFFFFF // Watchdog Load Value #define WDT_LOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the WDT_O_VALUE register. // //***************************************************************************** #define WDT_VALUE_M 0xFFFFFFFF // Watchdog Value #define WDT_VALUE_S 0 //***************************************************************************** // // The following are defines for the bit fields in the WDT_O_CTL register. // //***************************************************************************** #define WDT_CTL_WRC 0x80000000 // Write Complete #define WDT_CTL_INTTYPE 0x00000004 // Watchdog Interrupt Type #define WDT_CTL_RESEN 0x00000002 // Watchdog Reset Enable #define WDT_CTL_INTEN 0x00000001 // Watchdog Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the WDT_O_ICR register. // //***************************************************************************** #define WDT_ICR_M 0xFFFFFFFF // Watchdog Interrupt Clear #define WDT_ICR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the WDT_O_RIS register. // //***************************************************************************** #define WDT_RIS_WDTRIS 0x00000001 // Watchdog Raw Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the WDT_O_MIS register. // //***************************************************************************** #define WDT_MIS_WDTMIS 0x00000001 // Watchdog Masked Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the WDT_O_TEST register. // //***************************************************************************** #define WDT_TEST_STALL 0x00000100 // Watchdog Stall Enable //***************************************************************************** // // The following are defines for the bit fields in the WDT_O_LOCK register. // //***************************************************************************** #define WDT_LOCK_M 0xFFFFFFFF // Watchdog Lock #define WDT_LOCK_UNLOCKED 0x00000000 // Unlocked #define WDT_LOCK_LOCKED 0x00000001 // Locked #define WDT_LOCK_UNLOCK 0x1ACCE551 // Unlocks the watchdog timer //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_CR0 register. // //***************************************************************************** #define SSI_CR0_SCR_M 0x0000FF00 // SSI Serial Clock Rate #define SSI_CR0_SPH 0x00000080 // SSI Serial Clock Phase #define SSI_CR0_SPO 0x00000040 // SSI Serial Clock Polarity #define SSI_CR0_FRF_M 0x00000030 // SSI Frame Format Select #define SSI_CR0_FRF_MOTO 0x00000000 // Freescale SPI Frame Format #define SSI_CR0_FRF_TI 0x00000010 // Synchronous Serial Frame Format #define SSI_CR0_DSS_M 0x0000000F // SSI Data Size Select #define SSI_CR0_DSS_4 0x00000003 // 4-bit data #define SSI_CR0_DSS_5 0x00000004 // 5-bit data #define SSI_CR0_DSS_6 0x00000005 // 6-bit data #define SSI_CR0_DSS_7 0x00000006 // 7-bit data #define SSI_CR0_DSS_8 0x00000007 // 8-bit data #define SSI_CR0_DSS_9 0x00000008 // 9-bit data #define SSI_CR0_DSS_10 0x00000009 // 10-bit data #define SSI_CR0_DSS_11 0x0000000A // 11-bit data #define SSI_CR0_DSS_12 0x0000000B // 12-bit data #define SSI_CR0_DSS_13 0x0000000C // 13-bit data #define SSI_CR0_DSS_14 0x0000000D // 14-bit data #define SSI_CR0_DSS_15 0x0000000E // 15-bit data #define SSI_CR0_DSS_16 0x0000000F // 16-bit data #define SSI_CR0_SCR_S 8 //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_CR1 register. // //***************************************************************************** #define SSI_CR1_EOM 0x00000800 // Stop Frame (End of Message) #define SSI_CR1_FSSHLDFRM 0x00000400 // FSS Hold Frame #define SSI_CR1_HSCLKEN 0x00000200 // High Speed Clock Enable #define SSI_CR1_DIR 0x00000100 // SSI Direction of Operation #define SSI_CR1_MODE_M 0x000000C0 // SSI Mode #define SSI_CR1_MODE_LEGACY 0x00000000 // Legacy SSI mode #define SSI_CR1_MODE_BI 0x00000040 // Bi-SSI mode #define SSI_CR1_MODE_QUAD 0x00000080 // Quad-SSI Mode #define SSI_CR1_MODE_ADVANCED 0x000000C0 // Advanced SSI Mode with 8-bit // packet size #define SSI_CR1_EOT 0x00000010 // End of Transmission #define SSI_CR1_MS 0x00000004 // SSI Master/Slave Select #define SSI_CR1_SSE 0x00000002 // SSI Synchronous Serial Port // Enable #define SSI_CR1_LBM 0x00000001 // SSI Loopback Mode //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_DR register. // //***************************************************************************** #define SSI_DR_DATA_M 0x0000FFFF // SSI Receive/Transmit Data #define SSI_DR_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_SR register. // //***************************************************************************** #define SSI_SR_BSY 0x00000010 // SSI Busy Bit #define SSI_SR_RFF 0x00000008 // SSI Receive FIFO Full #define SSI_SR_RNE 0x00000004 // SSI Receive FIFO Not Empty #define SSI_SR_TNF 0x00000002 // SSI Transmit FIFO Not Full #define SSI_SR_TFE 0x00000001 // SSI Transmit FIFO Empty //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_CPSR register. // //***************************************************************************** #define SSI_CPSR_CPSDVSR_M 0x000000FF // SSI Clock Prescale Divisor #define SSI_CPSR_CPSDVSR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_IM register. // //***************************************************************************** #define SSI_IM_EOTIM 0x00000040 // End of Transmit Interrupt Mask #define SSI_IM_DMATXIM 0x00000020 // SSI Transmit DMA Interrupt Mask #define SSI_IM_DMARXIM 0x00000010 // SSI Receive DMA Interrupt Mask #define SSI_IM_TXIM 0x00000008 // SSI Transmit FIFO Interrupt Mask #define SSI_IM_RXIM 0x00000004 // SSI Receive FIFO Interrupt Mask #define SSI_IM_RTIM 0x00000002 // SSI Receive Time-Out Interrupt // Mask #define SSI_IM_RORIM 0x00000001 // SSI Receive Overrun Interrupt // Mask //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_RIS register. // //***************************************************************************** #define SSI_RIS_EOTRIS 0x00000040 // End of Transmit Raw Interrupt // Status #define SSI_RIS_DMATXRIS 0x00000020 // SSI Transmit DMA Raw Interrupt // Status #define SSI_RIS_DMARXRIS 0x00000010 // SSI Receive DMA Raw Interrupt // Status #define SSI_RIS_TXRIS 0x00000008 // SSI Transmit FIFO Raw Interrupt // Status #define SSI_RIS_RXRIS 0x00000004 // SSI Receive FIFO Raw Interrupt // Status #define SSI_RIS_RTRIS 0x00000002 // SSI Receive Time-Out Raw // Interrupt Status #define SSI_RIS_RORRIS 0x00000001 // SSI Receive Overrun Raw // Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_MIS register. // //***************************************************************************** #define SSI_MIS_EOTMIS 0x00000040 // End of Transmit Masked Interrupt // Status #define SSI_MIS_DMATXMIS 0x00000020 // SSI Transmit DMA Masked // Interrupt Status #define SSI_MIS_DMARXMIS 0x00000010 // SSI Receive DMA Masked Interrupt // Status #define SSI_MIS_TXMIS 0x00000008 // SSI Transmit FIFO Masked // Interrupt Status #define SSI_MIS_RXMIS 0x00000004 // SSI Receive FIFO Masked // Interrupt Status #define SSI_MIS_RTMIS 0x00000002 // SSI Receive Time-Out Masked // Interrupt Status #define SSI_MIS_RORMIS 0x00000001 // SSI Receive Overrun Masked // Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_ICR register. // //***************************************************************************** #define SSI_ICR_EOTIC 0x00000040 // End of Transmit Interrupt Clear #define SSI_ICR_DMATXIC 0x00000020 // SSI Transmit DMA Interrupt Clear #define SSI_ICR_DMARXIC 0x00000010 // SSI Receive DMA Interrupt Clear #define SSI_ICR_RTIC 0x00000002 // SSI Receive Time-Out Interrupt // Clear #define SSI_ICR_RORIC 0x00000001 // SSI Receive Overrun Interrupt // Clear //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_DMACTL register. // //***************************************************************************** #define SSI_DMACTL_TXDMAE 0x00000002 // Transmit DMA Enable #define SSI_DMACTL_RXDMAE 0x00000001 // Receive DMA Enable //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_PP register. // //***************************************************************************** #define SSI_PP_FSSHLDFRM 0x00000008 // FSS Hold Frame Capability #define SSI_PP_MODE_M 0x00000006 // Mode of Operation #define SSI_PP_MODE_LEGACY 0x00000000 // Legacy SSI mode #define SSI_PP_MODE_ADVBI 0x00000002 // Legacy mode, Advanced SSI mode // and Bi-SSI mode enabled #define SSI_PP_MODE_ADVBIQUAD 0x00000004 // Legacy mode, Advanced mode, // Bi-SSI and Quad-SSI mode enabled #define SSI_PP_HSCLK 0x00000001 // High Speed Capability //***************************************************************************** // // The following are defines for the bit fields in the SSI_O_CC register. // //***************************************************************************** #define SSI_CC_CS_M 0x0000000F // SSI Baud Clock Source #define SSI_CC_CS_SYSPLL 0x00000000 // System clock (based on clock // source and divisor factor) #define SSI_CC_CS_PIOSC 0x00000005 // PIOSC //***************************************************************************** // // The following are defines for the bit fields in the UART_O_DR register. // //***************************************************************************** #define UART_DR_OE 0x00000800 // UART Overrun Error #define UART_DR_BE 0x00000400 // UART Break Error #define UART_DR_PE 0x00000200 // UART Parity Error #define UART_DR_FE 0x00000100 // UART Framing Error #define UART_DR_DATA_M 0x000000FF // Data Transmitted or Received #define UART_DR_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UART_O_RSR register. // //***************************************************************************** #define UART_RSR_OE 0x00000008 // UART Overrun Error #define UART_RSR_BE 0x00000004 // UART Break Error #define UART_RSR_PE 0x00000002 // UART Parity Error #define UART_RSR_FE 0x00000001 // UART Framing Error //***************************************************************************** // // The following are defines for the bit fields in the UART_O_ECR register. // //***************************************************************************** #define UART_ECR_DATA_M 0x000000FF // Error Clear #define UART_ECR_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UART_O_FR register. // //***************************************************************************** #define UART_FR_RI 0x00000100 // Ring Indicator #define UART_FR_TXFE 0x00000080 // UART Transmit FIFO Empty #define UART_FR_RXFF 0x00000040 // UART Receive FIFO Full #define UART_FR_TXFF 0x00000020 // UART Transmit FIFO Full #define UART_FR_RXFE 0x00000010 // UART Receive FIFO Empty #define UART_FR_BUSY 0x00000008 // UART Busy #define UART_FR_DCD 0x00000004 // Data Carrier Detect #define UART_FR_DSR 0x00000002 // Data Set Ready #define UART_FR_CTS 0x00000001 // Clear To Send //***************************************************************************** // // The following are defines for the bit fields in the UART_O_ILPR register. // //***************************************************************************** #define UART_ILPR_ILPDVSR_M 0x000000FF // IrDA Low-Power Divisor #define UART_ILPR_ILPDVSR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UART_O_IBRD register. // //***************************************************************************** #define UART_IBRD_DIVINT_M 0x0000FFFF // Integer Baud-Rate Divisor #define UART_IBRD_DIVINT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UART_O_FBRD register. // //***************************************************************************** #define UART_FBRD_DIVFRAC_M 0x0000003F // Fractional Baud-Rate Divisor #define UART_FBRD_DIVFRAC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UART_O_LCRH register. // //***************************************************************************** #define UART_LCRH_SPS 0x00000080 // UART Stick Parity Select #define UART_LCRH_WLEN_M 0x00000060 // UART Word Length #define UART_LCRH_WLEN_5 0x00000000 // 5 bits (default) #define UART_LCRH_WLEN_6 0x00000020 // 6 bits #define UART_LCRH_WLEN_7 0x00000040 // 7 bits #define UART_LCRH_WLEN_8 0x00000060 // 8 bits #define UART_LCRH_FEN 0x00000010 // UART Enable FIFOs #define UART_LCRH_STP2 0x00000008 // UART Two Stop Bits Select #define UART_LCRH_EPS 0x00000004 // UART Even Parity Select #define UART_LCRH_PEN 0x00000002 // UART Parity Enable #define UART_LCRH_BRK 0x00000001 // UART Send Break //***************************************************************************** // // The following are defines for the bit fields in the UART_O_CTL register. // //***************************************************************************** #define UART_CTL_CTSEN 0x00008000 // Enable Clear To Send #define UART_CTL_RTSEN 0x00004000 // Enable Request to Send #define UART_CTL_RTS 0x00000800 // Request to Send #define UART_CTL_DTR 0x00000400 // Data Terminal Ready #define UART_CTL_RXE 0x00000200 // UART Receive Enable #define UART_CTL_TXE 0x00000100 // UART Transmit Enable #define UART_CTL_LBE 0x00000080 // UART Loop Back Enable #define UART_CTL_HSE 0x00000020 // High-Speed Enable #define UART_CTL_EOT 0x00000010 // End of Transmission #define UART_CTL_SMART 0x00000008 // ISO 7816 Smart Card Support #define UART_CTL_SIRLP 0x00000004 // UART SIR Low-Power Mode #define UART_CTL_SIREN 0x00000002 // UART SIR Enable #define UART_CTL_UARTEN 0x00000001 // UART Enable //***************************************************************************** // // The following are defines for the bit fields in the UART_O_IFLS register. // //***************************************************************************** #define UART_IFLS_RX_M 0x00000038 // UART Receive Interrupt FIFO // Level Select #define UART_IFLS_RX1_8 0x00000000 // RX FIFO >= 1/8 full #define UART_IFLS_RX2_8 0x00000008 // RX FIFO >= 1/4 full #define UART_IFLS_RX4_8 0x00000010 // RX FIFO >= 1/2 full (default) #define UART_IFLS_RX6_8 0x00000018 // RX FIFO >= 3/4 full #define UART_IFLS_RX7_8 0x00000020 // RX FIFO >= 7/8 full #define UART_IFLS_TX_M 0x00000007 // UART Transmit Interrupt FIFO // Level Select #define UART_IFLS_TX1_8 0x00000000 // TX FIFO <= 1/8 full #define UART_IFLS_TX2_8 0x00000001 // TX FIFO <= 1/4 full #define UART_IFLS_TX4_8 0x00000002 // TX FIFO <= 1/2 full (default) #define UART_IFLS_TX6_8 0x00000003 // TX FIFO <= 3/4 full #define UART_IFLS_TX7_8 0x00000004 // TX FIFO <= 7/8 full //***************************************************************************** // // The following are defines for the bit fields in the UART_O_IM register. // //***************************************************************************** #define UART_IM_DMATXIM 0x00020000 // Transmit DMA Interrupt Mask #define UART_IM_DMARXIM 0x00010000 // Receive DMA Interrupt Mask #define UART_IM_9BITIM 0x00001000 // 9-Bit Mode Interrupt Mask #define UART_IM_EOTIM 0x00000800 // End of Transmission Interrupt // Mask #define UART_IM_OEIM 0x00000400 // UART Overrun Error Interrupt // Mask #define UART_IM_BEIM 0x00000200 // UART Break Error Interrupt Mask #define UART_IM_PEIM 0x00000100 // UART Parity Error Interrupt Mask #define UART_IM_FEIM 0x00000080 // UART Framing Error Interrupt // Mask #define UART_IM_RTIM 0x00000040 // UART Receive Time-Out Interrupt // Mask #define UART_IM_TXIM 0x00000020 // UART Transmit Interrupt Mask #define UART_IM_RXIM 0x00000010 // UART Receive Interrupt Mask #define UART_IM_DSRMIM 0x00000008 // UART Data Set Ready Modem // Interrupt Mask #define UART_IM_DCDMIM 0x00000004 // UART Data Carrier Detect Modem // Interrupt Mask #define UART_IM_CTSMIM 0x00000002 // UART Clear to Send Modem // Interrupt Mask #define UART_IM_RIMIM 0x00000001 // UART Ring Indicator Modem // Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the UART_O_RIS register. // //***************************************************************************** #define UART_RIS_DMATXRIS 0x00020000 // Transmit DMA Raw Interrupt // Status #define UART_RIS_DMARXRIS 0x00010000 // Receive DMA Raw Interrupt Status #define UART_RIS_9BITRIS 0x00001000 // 9-Bit Mode Raw Interrupt Status #define UART_RIS_EOTRIS 0x00000800 // End of Transmission Raw // Interrupt Status #define UART_RIS_OERIS 0x00000400 // UART Overrun Error Raw Interrupt // Status #define UART_RIS_BERIS 0x00000200 // UART Break Error Raw Interrupt // Status #define UART_RIS_PERIS 0x00000100 // UART Parity Error Raw Interrupt // Status #define UART_RIS_FERIS 0x00000080 // UART Framing Error Raw Interrupt // Status #define UART_RIS_RTRIS 0x00000040 // UART Receive Time-Out Raw // Interrupt Status #define UART_RIS_TXRIS 0x00000020 // UART Transmit Raw Interrupt // Status #define UART_RIS_RXRIS 0x00000010 // UART Receive Raw Interrupt // Status #define UART_RIS_DSRRIS 0x00000008 // UART Data Set Ready Modem Raw // Interrupt Status #define UART_RIS_DCDRIS 0x00000004 // UART Data Carrier Detect Modem // Raw Interrupt Status #define UART_RIS_CTSRIS 0x00000002 // UART Clear to Send Modem Raw // Interrupt Status #define UART_RIS_RIRIS 0x00000001 // UART Ring Indicator Modem Raw // Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the UART_O_MIS register. // //***************************************************************************** #define UART_MIS_DMATXMIS 0x00020000 // Transmit DMA Masked Interrupt // Status #define UART_MIS_DMARXMIS 0x00010000 // Receive DMA Masked Interrupt // Status #define UART_MIS_9BITMIS 0x00001000 // 9-Bit Mode Masked Interrupt // Status #define UART_MIS_EOTMIS 0x00000800 // End of Transmission Masked // Interrupt Status #define UART_MIS_OEMIS 0x00000400 // UART Overrun Error Masked // Interrupt Status #define UART_MIS_BEMIS 0x00000200 // UART Break Error Masked // Interrupt Status #define UART_MIS_PEMIS 0x00000100 // UART Parity Error Masked // Interrupt Status #define UART_MIS_FEMIS 0x00000080 // UART Framing Error Masked // Interrupt Status #define UART_MIS_RTMIS 0x00000040 // UART Receive Time-Out Masked // Interrupt Status #define UART_MIS_TXMIS 0x00000020 // UART Transmit Masked Interrupt // Status #define UART_MIS_RXMIS 0x00000010 // UART Receive Masked Interrupt // Status #define UART_MIS_DSRMIS 0x00000008 // UART Data Set Ready Modem Masked // Interrupt Status #define UART_MIS_DCDMIS 0x00000004 // UART Data Carrier Detect Modem // Masked Interrupt Status #define UART_MIS_CTSMIS 0x00000002 // UART Clear to Send Modem Masked // Interrupt Status #define UART_MIS_RIMIS 0x00000001 // UART Ring Indicator Modem Masked // Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the UART_O_ICR register. // //***************************************************************************** #define UART_ICR_DMATXIC 0x00020000 // Transmit DMA Interrupt Clear #define UART_ICR_DMARXIC 0x00010000 // Receive DMA Interrupt Clear #define UART_ICR_9BITIC 0x00001000 // 9-Bit Mode Interrupt Clear #define UART_ICR_EOTIC 0x00000800 // End of Transmission Interrupt // Clear #define UART_ICR_OEIC 0x00000400 // Overrun Error Interrupt Clear #define UART_ICR_BEIC 0x00000200 // Break Error Interrupt Clear #define UART_ICR_PEIC 0x00000100 // Parity Error Interrupt Clear #define UART_ICR_FEIC 0x00000080 // Framing Error Interrupt Clear #define UART_ICR_RTIC 0x00000040 // Receive Time-Out Interrupt Clear #define UART_ICR_TXIC 0x00000020 // Transmit Interrupt Clear #define UART_ICR_RXIC 0x00000010 // Receive Interrupt Clear #define UART_ICR_DSRMIC 0x00000008 // UART Data Set Ready Modem // Interrupt Clear #define UART_ICR_DCDMIC 0x00000004 // UART Data Carrier Detect Modem // Interrupt Clear #define UART_ICR_CTSMIC 0x00000002 // UART Clear to Send Modem // Interrupt Clear #define UART_ICR_RIMIC 0x00000001 // UART Ring Indicator Modem // Interrupt Clear //***************************************************************************** // // The following are defines for the bit fields in the UART_O_DMACTL register. // //***************************************************************************** #define UART_DMACTL_DMAERR 0x00000004 // DMA on Error #define UART_DMACTL_TXDMAE 0x00000002 // Transmit DMA Enable #define UART_DMACTL_RXDMAE 0x00000001 // Receive DMA Enable //***************************************************************************** // // The following are defines for the bit fields in the UART_O_9BITADDR // register. // //***************************************************************************** #define UART_9BITADDR_9BITEN 0x00008000 // Enable 9-Bit Mode #define UART_9BITADDR_ADDR_M 0x000000FF // Self Address for 9-Bit Mode #define UART_9BITADDR_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UART_O_9BITAMASK // register. // //***************************************************************************** #define UART_9BITAMASK_MASK_M 0x000000FF // Self Address Mask for 9-Bit Mode #define UART_9BITAMASK_MASK_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UART_O_PP register. // //***************************************************************************** #define UART_PP_MSE 0x00000008 // Modem Support Extended #define UART_PP_MS 0x00000004 // Modem Support #define UART_PP_NB 0x00000002 // 9-Bit Support #define UART_PP_SC 0x00000001 // Smart Card Support //***************************************************************************** // // The following are defines for the bit fields in the UART_O_CC register. // //***************************************************************************** #define UART_CC_CS_M 0x0000000F // UART Baud Clock Source #define UART_CC_CS_SYSCLK 0x00000000 // System clock (based on clock // source and divisor factor) #define UART_CC_CS_PIOSC 0x00000005 // PIOSC //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MSA register. // //***************************************************************************** #define I2C_MSA_SA_M 0x000000FE // I2C Slave Address #define I2C_MSA_RS 0x00000001 // Receive not send #define I2C_MSA_SA_S 1 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MCS register. // //***************************************************************************** #define I2C_MCS_ACTDMARX 0x80000000 // DMA RX Active Status #define I2C_MCS_ACTDMATX 0x40000000 // DMA TX Active Status #define I2C_MCS_CLKTO 0x00000080 // Clock Timeout Error #define I2C_MCS_BURST 0x00000040 // Burst Enable #define I2C_MCS_BUSBSY 0x00000040 // Bus Busy #define I2C_MCS_IDLE 0x00000020 // I2C Idle #define I2C_MCS_QCMD 0x00000020 // Quick Command #define I2C_MCS_ARBLST 0x00000010 // Arbitration Lost #define I2C_MCS_HS 0x00000010 // High-Speed Enable #define I2C_MCS_ACK 0x00000008 // Data Acknowledge Enable #define I2C_MCS_DATACK 0x00000008 // Acknowledge Data #define I2C_MCS_ADRACK 0x00000004 // Acknowledge Address #define I2C_MCS_STOP 0x00000004 // Generate STOP #define I2C_MCS_ERROR 0x00000002 // Error #define I2C_MCS_START 0x00000002 // Generate START #define I2C_MCS_RUN 0x00000001 // I2C Master Enable #define I2C_MCS_BUSY 0x00000001 // I2C Busy //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MDR register. // //***************************************************************************** #define I2C_MDR_DATA_M 0x000000FF // This byte contains the data // transferred during a transaction #define I2C_MDR_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MTPR register. // //***************************************************************************** #define I2C_MTPR_PULSEL_M 0x00070000 // Glitch Suppression Pulse Width #define I2C_MTPR_PULSEL_BYPASS 0x00000000 // Bypass #define I2C_MTPR_PULSEL_1 0x00010000 // 1 clock #define I2C_MTPR_PULSEL_2 0x00020000 // 2 clocks #define I2C_MTPR_PULSEL_3 0x00030000 // 3 clocks #define I2C_MTPR_PULSEL_4 0x00040000 // 4 clocks #define I2C_MTPR_PULSEL_8 0x00050000 // 8 clocks #define I2C_MTPR_PULSEL_16 0x00060000 // 16 clocks #define I2C_MTPR_PULSEL_31 0x00070000 // 31 clocks #define I2C_MTPR_HS 0x00000080 // High-Speed Enable #define I2C_MTPR_TPR_M 0x0000007F // Timer Period #define I2C_MTPR_TPR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MIMR register. // //***************************************************************************** #define I2C_MIMR_RXFFIM 0x00000800 // Receive FIFO Full Interrupt Mask #define I2C_MIMR_TXFEIM 0x00000400 // Transmit FIFO Empty Interrupt // Mask #define I2C_MIMR_RXIM 0x00000200 // Receive FIFO Request Interrupt // Mask #define I2C_MIMR_TXIM 0x00000100 // Transmit FIFO Request Interrupt // Mask #define I2C_MIMR_ARBLOSTIM 0x00000080 // Arbitration Lost Interrupt Mask #define I2C_MIMR_STOPIM 0x00000040 // STOP Detection Interrupt Mask #define I2C_MIMR_STARTIM 0x00000020 // START Detection Interrupt Mask #define I2C_MIMR_NACKIM 0x00000010 // Address/Data NACK Interrupt Mask #define I2C_MIMR_DMATXIM 0x00000008 // Transmit DMA Interrupt Mask #define I2C_MIMR_DMARXIM 0x00000004 // Receive DMA Interrupt Mask #define I2C_MIMR_CLKIM 0x00000002 // Clock Timeout Interrupt Mask #define I2C_MIMR_IM 0x00000001 // Master Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MRIS register. // //***************************************************************************** #define I2C_MRIS_RXFFRIS 0x00000800 // Receive FIFO Full Raw Interrupt // Status #define I2C_MRIS_TXFERIS 0x00000400 // Transmit FIFO Empty Raw // Interrupt Status #define I2C_MRIS_RXRIS 0x00000200 // Receive FIFO Request Raw // Interrupt Status #define I2C_MRIS_TXRIS 0x00000100 // Transmit Request Raw Interrupt // Status #define I2C_MRIS_ARBLOSTRIS 0x00000080 // Arbitration Lost Raw Interrupt // Status #define I2C_MRIS_STOPRIS 0x00000040 // STOP Detection Raw Interrupt // Status #define I2C_MRIS_STARTRIS 0x00000020 // START Detection Raw Interrupt // Status #define I2C_MRIS_NACKRIS 0x00000010 // Address/Data NACK Raw Interrupt // Status #define I2C_MRIS_DMATXRIS 0x00000008 // Transmit DMA Raw Interrupt // Status #define I2C_MRIS_DMARXRIS 0x00000004 // Receive DMA Raw Interrupt Status #define I2C_MRIS_CLKRIS 0x00000002 // Clock Timeout Raw Interrupt // Status #define I2C_MRIS_RIS 0x00000001 // Master Raw Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MMIS register. // //***************************************************************************** #define I2C_MMIS_RXFFMIS 0x00000800 // Receive FIFO Full Interrupt Mask #define I2C_MMIS_TXFEMIS 0x00000400 // Transmit FIFO Empty Interrupt // Mask #define I2C_MMIS_RXMIS 0x00000200 // Receive FIFO Request Interrupt // Mask #define I2C_MMIS_TXMIS 0x00000100 // Transmit Request Interrupt Mask #define I2C_MMIS_ARBLOSTMIS 0x00000080 // Arbitration Lost Interrupt Mask #define I2C_MMIS_STOPMIS 0x00000040 // STOP Detection Interrupt Mask #define I2C_MMIS_STARTMIS 0x00000020 // START Detection Interrupt Mask #define I2C_MMIS_NACKMIS 0x00000010 // Address/Data NACK Interrupt Mask #define I2C_MMIS_DMATXMIS 0x00000008 // Transmit DMA Interrupt Status #define I2C_MMIS_DMARXMIS 0x00000004 // Receive DMA Interrupt Status #define I2C_MMIS_CLKMIS 0x00000002 // Clock Timeout Masked Interrupt // Status #define I2C_MMIS_MIS 0x00000001 // Masked Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MICR register. // //***************************************************************************** #define I2C_MICR_RXFFIC 0x00000800 // Receive FIFO Full Interrupt // Clear #define I2C_MICR_TXFEIC 0x00000400 // Transmit FIFO Empty Interrupt // Clear #define I2C_MICR_RXIC 0x00000200 // Receive FIFO Request Interrupt // Clear #define I2C_MICR_TXIC 0x00000100 // Transmit FIFO Request Interrupt // Clear #define I2C_MICR_ARBLOSTIC 0x00000080 // Arbitration Lost Interrupt Clear #define I2C_MICR_STOPIC 0x00000040 // STOP Detection Interrupt Clear #define I2C_MICR_STARTIC 0x00000020 // START Detection Interrupt Clear #define I2C_MICR_NACKIC 0x00000010 // Address/Data NACK Interrupt // Clear #define I2C_MICR_DMATXIC 0x00000008 // Transmit DMA Interrupt Clear #define I2C_MICR_DMARXIC 0x00000004 // Receive DMA Interrupt Clear #define I2C_MICR_CLKIC 0x00000002 // Clock Timeout Interrupt Clear #define I2C_MICR_IC 0x00000001 // Master Interrupt Clear //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MCR register. // //***************************************************************************** #define I2C_MCR_SFE 0x00000020 // I2C Slave Function Enable #define I2C_MCR_MFE 0x00000010 // I2C Master Function Enable #define I2C_MCR_LPBK 0x00000001 // I2C Loopback //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MCLKOCNT register. // //***************************************************************************** #define I2C_MCLKOCNT_CNTL_M 0x000000FF // I2C Master Count #define I2C_MCLKOCNT_CNTL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MBMON register. // //***************************************************************************** #define I2C_MBMON_SDA 0x00000002 // I2C SDA Status #define I2C_MBMON_SCL 0x00000001 // I2C SCL Status //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MBLEN register. // //***************************************************************************** #define I2C_MBLEN_CNTL_M 0x000000FF // I2C Burst Length #define I2C_MBLEN_CNTL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_MBCNT register. // //***************************************************************************** #define I2C_MBCNT_CNTL_M 0x000000FF // I2C Master Burst Count #define I2C_MBCNT_CNTL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_SOAR register. // //***************************************************************************** #define I2C_SOAR_OAR_M 0x0000007F // I2C Slave Own Address #define I2C_SOAR_OAR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_SCSR register. // //***************************************************************************** #define I2C_SCSR_ACTDMARX 0x80000000 // DMA RX Active Status #define I2C_SCSR_ACTDMATX 0x40000000 // DMA TX Active Status #define I2C_SCSR_QCMDRW 0x00000020 // Quick Command Read / Write #define I2C_SCSR_QCMDST 0x00000010 // Quick Command Status #define I2C_SCSR_OAR2SEL 0x00000008 // OAR2 Address Matched #define I2C_SCSR_FBR 0x00000004 // First Byte Received #define I2C_SCSR_RXFIFO 0x00000004 // RX FIFO Enable #define I2C_SCSR_TXFIFO 0x00000002 // TX FIFO Enable #define I2C_SCSR_TREQ 0x00000002 // Transmit Request #define I2C_SCSR_DA 0x00000001 // Device Active #define I2C_SCSR_RREQ 0x00000001 // Receive Request //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_SDR register. // //***************************************************************************** #define I2C_SDR_DATA_M 0x000000FF // Data for Transfer #define I2C_SDR_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_SIMR register. // //***************************************************************************** #define I2C_SIMR_RXFFIM 0x00000100 // Receive FIFO Full Interrupt Mask #define I2C_SIMR_TXFEIM 0x00000080 // Transmit FIFO Empty Interrupt // Mask #define I2C_SIMR_RXIM 0x00000040 // Receive FIFO Request Interrupt // Mask #define I2C_SIMR_TXIM 0x00000020 // Transmit FIFO Request Interrupt // Mask #define I2C_SIMR_DMATXIM 0x00000010 // Transmit DMA Interrupt Mask #define I2C_SIMR_DMARXIM 0x00000008 // Receive DMA Interrupt Mask #define I2C_SIMR_STOPIM 0x00000004 // Stop Condition Interrupt Mask #define I2C_SIMR_STARTIM 0x00000002 // Start Condition Interrupt Mask #define I2C_SIMR_DATAIM 0x00000001 // Data Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_SRIS register. // //***************************************************************************** #define I2C_SRIS_RXFFRIS 0x00000100 // Receive FIFO Full Raw Interrupt // Status #define I2C_SRIS_TXFERIS 0x00000080 // Transmit FIFO Empty Raw // Interrupt Status #define I2C_SRIS_RXRIS 0x00000040 // Receive FIFO Request Raw // Interrupt Status #define I2C_SRIS_TXRIS 0x00000020 // Transmit Request Raw Interrupt // Status #define I2C_SRIS_DMATXRIS 0x00000010 // Transmit DMA Raw Interrupt // Status #define I2C_SRIS_DMARXRIS 0x00000008 // Receive DMA Raw Interrupt Status #define I2C_SRIS_STOPRIS 0x00000004 // Stop Condition Raw Interrupt // Status #define I2C_SRIS_STARTRIS 0x00000002 // Start Condition Raw Interrupt // Status #define I2C_SRIS_DATARIS 0x00000001 // Data Raw Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_SMIS register. // //***************************************************************************** #define I2C_SMIS_RXFFMIS 0x00000100 // Receive FIFO Full Interrupt Mask #define I2C_SMIS_TXFEMIS 0x00000080 // Transmit FIFO Empty Interrupt // Mask #define I2C_SMIS_RXMIS 0x00000040 // Receive FIFO Request Interrupt // Mask #define I2C_SMIS_TXMIS 0x00000020 // Transmit FIFO Request Interrupt // Mask #define I2C_SMIS_DMATXMIS 0x00000010 // Transmit DMA Masked Interrupt // Status #define I2C_SMIS_DMARXMIS 0x00000008 // Receive DMA Masked Interrupt // Status #define I2C_SMIS_STOPMIS 0x00000004 // Stop Condition Masked Interrupt // Status #define I2C_SMIS_STARTMIS 0x00000002 // Start Condition Masked Interrupt // Status #define I2C_SMIS_DATAMIS 0x00000001 // Data Masked Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_SICR register. // //***************************************************************************** #define I2C_SICR_RXFFIC 0x00000100 // Receive FIFO Full Interrupt Mask #define I2C_SICR_TXFEIC 0x00000080 // Transmit FIFO Empty Interrupt // Mask #define I2C_SICR_RXIC 0x00000040 // Receive Request Interrupt Mask #define I2C_SICR_TXIC 0x00000020 // Transmit Request Interrupt Mask #define I2C_SICR_DMATXIC 0x00000010 // Transmit DMA Interrupt Clear #define I2C_SICR_DMARXIC 0x00000008 // Receive DMA Interrupt Clear #define I2C_SICR_STOPIC 0x00000004 // Stop Condition Interrupt Clear #define I2C_SICR_STARTIC 0x00000002 // Start Condition Interrupt Clear #define I2C_SICR_DATAIC 0x00000001 // Data Interrupt Clear //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_SOAR2 register. // //***************************************************************************** #define I2C_SOAR2_OAR2EN 0x00000080 // I2C Slave Own Address 2 Enable #define I2C_SOAR2_OAR2_M 0x0000007F // I2C Slave Own Address 2 #define I2C_SOAR2_OAR2_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_SACKCTL register. // //***************************************************************************** #define I2C_SACKCTL_ACKOVAL 0x00000002 // I2C Slave ACK Override Value #define I2C_SACKCTL_ACKOEN 0x00000001 // I2C Slave ACK Override Enable //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_FIFODATA register. // //***************************************************************************** #define I2C_FIFODATA_DATA_M 0x000000FF // I2C TX FIFO Write Data Byte #define I2C_FIFODATA_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_FIFOCTL register. // //***************************************************************************** #define I2C_FIFOCTL_RXASGNMT 0x80000000 // RX Control Assignment #define I2C_FIFOCTL_RXFLUSH 0x40000000 // RX FIFO Flush #define I2C_FIFOCTL_DMARXENA 0x20000000 // DMA RX Channel Enable #define I2C_FIFOCTL_RXTRIG_M 0x00070000 // RX FIFO Trigger #define I2C_FIFOCTL_TXASGNMT 0x00008000 // TX Control Assignment #define I2C_FIFOCTL_TXFLUSH 0x00004000 // TX FIFO Flush #define I2C_FIFOCTL_DMATXENA 0x00002000 // DMA TX Channel Enable #define I2C_FIFOCTL_TXTRIG_M 0x00000007 // TX FIFO Trigger #define I2C_FIFOCTL_RXTRIG_S 16 #define I2C_FIFOCTL_TXTRIG_S 0 //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_FIFOSTATUS // register. // //***************************************************************************** #define I2C_FIFOSTATUS_RXABVTRIG \ 0x00040000 // RX FIFO Above Trigger Level #define I2C_FIFOSTATUS_RXFF 0x00020000 // RX FIFO Full #define I2C_FIFOSTATUS_RXFE 0x00010000 // RX FIFO Empty #define I2C_FIFOSTATUS_TXBLWTRIG \ 0x00000004 // TX FIFO Below Trigger Level #define I2C_FIFOSTATUS_TXFF 0x00000002 // TX FIFO Full #define I2C_FIFOSTATUS_TXFE 0x00000001 // TX FIFO Empty //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_PP register. // //***************************************************************************** #define I2C_PP_HS 0x00000001 // High-Speed Capable //***************************************************************************** // // The following are defines for the bit fields in the I2C_O_PC register. // //***************************************************************************** #define I2C_PC_HS 0x00000001 // High-Speed Capable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_CTL register. // //***************************************************************************** #define PWM_CTL_GLOBALSYNC3 0x00000008 // Update PWM Generator 3 #define PWM_CTL_GLOBALSYNC2 0x00000004 // Update PWM Generator 2 #define PWM_CTL_GLOBALSYNC1 0x00000002 // Update PWM Generator 1 #define PWM_CTL_GLOBALSYNC0 0x00000001 // Update PWM Generator 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_SYNC register. // //***************************************************************************** #define PWM_SYNC_SYNC3 0x00000008 // Reset Generator 3 Counter #define PWM_SYNC_SYNC2 0x00000004 // Reset Generator 2 Counter #define PWM_SYNC_SYNC1 0x00000002 // Reset Generator 1 Counter #define PWM_SYNC_SYNC0 0x00000001 // Reset Generator 0 Counter //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_ENABLE register. // //***************************************************************************** #define PWM_ENABLE_PWM7EN 0x00000080 // MnPWM7 Output Enable #define PWM_ENABLE_PWM6EN 0x00000040 // MnPWM6 Output Enable #define PWM_ENABLE_PWM5EN 0x00000020 // MnPWM5 Output Enable #define PWM_ENABLE_PWM4EN 0x00000010 // MnPWM4 Output Enable #define PWM_ENABLE_PWM3EN 0x00000008 // MnPWM3 Output Enable #define PWM_ENABLE_PWM2EN 0x00000004 // MnPWM2 Output Enable #define PWM_ENABLE_PWM1EN 0x00000002 // MnPWM1 Output Enable #define PWM_ENABLE_PWM0EN 0x00000001 // MnPWM0 Output Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_INVERT register. // //***************************************************************************** #define PWM_INVERT_PWM7INV 0x00000080 // Invert MnPWM7 Signal #define PWM_INVERT_PWM6INV 0x00000040 // Invert MnPWM6 Signal #define PWM_INVERT_PWM5INV 0x00000020 // Invert MnPWM5 Signal #define PWM_INVERT_PWM4INV 0x00000010 // Invert MnPWM4 Signal #define PWM_INVERT_PWM3INV 0x00000008 // Invert MnPWM3 Signal #define PWM_INVERT_PWM2INV 0x00000004 // Invert MnPWM2 Signal #define PWM_INVERT_PWM1INV 0x00000002 // Invert MnPWM1 Signal #define PWM_INVERT_PWM0INV 0x00000001 // Invert MnPWM0 Signal //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_FAULT register. // //***************************************************************************** #define PWM_FAULT_FAULT7 0x00000080 // MnPWM7 Fault #define PWM_FAULT_FAULT6 0x00000040 // MnPWM6 Fault #define PWM_FAULT_FAULT5 0x00000020 // MnPWM5 Fault #define PWM_FAULT_FAULT4 0x00000010 // MnPWM4 Fault #define PWM_FAULT_FAULT3 0x00000008 // MnPWM3 Fault #define PWM_FAULT_FAULT2 0x00000004 // MnPWM2 Fault #define PWM_FAULT_FAULT1 0x00000002 // MnPWM1 Fault #define PWM_FAULT_FAULT0 0x00000001 // MnPWM0 Fault //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_INTEN register. // //***************************************************************************** #define PWM_INTEN_INTFAULT3 0x00080000 // Interrupt Fault 3 #define PWM_INTEN_INTFAULT2 0x00040000 // Interrupt Fault 2 #define PWM_INTEN_INTFAULT1 0x00020000 // Interrupt Fault 1 #define PWM_INTEN_INTFAULT0 0x00010000 // Interrupt Fault 0 #define PWM_INTEN_INTPWM3 0x00000008 // PWM3 Interrupt Enable #define PWM_INTEN_INTPWM2 0x00000004 // PWM2 Interrupt Enable #define PWM_INTEN_INTPWM1 0x00000002 // PWM1 Interrupt Enable #define PWM_INTEN_INTPWM0 0x00000001 // PWM0 Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_RIS register. // //***************************************************************************** #define PWM_RIS_INTFAULT3 0x00080000 // Interrupt Fault PWM 3 #define PWM_RIS_INTFAULT2 0x00040000 // Interrupt Fault PWM 2 #define PWM_RIS_INTFAULT1 0x00020000 // Interrupt Fault PWM 1 #define PWM_RIS_INTFAULT0 0x00010000 // Interrupt Fault PWM 0 #define PWM_RIS_INTPWM3 0x00000008 // PWM3 Interrupt Asserted #define PWM_RIS_INTPWM2 0x00000004 // PWM2 Interrupt Asserted #define PWM_RIS_INTPWM1 0x00000002 // PWM1 Interrupt Asserted #define PWM_RIS_INTPWM0 0x00000001 // PWM0 Interrupt Asserted //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_ISC register. // //***************************************************************************** #define PWM_ISC_INTFAULT3 0x00080000 // FAULT3 Interrupt Asserted #define PWM_ISC_INTFAULT2 0x00040000 // FAULT2 Interrupt Asserted #define PWM_ISC_INTFAULT1 0x00020000 // FAULT1 Interrupt Asserted #define PWM_ISC_INTFAULT0 0x00010000 // FAULT0 Interrupt Asserted #define PWM_ISC_INTPWM3 0x00000008 // PWM3 Interrupt Status #define PWM_ISC_INTPWM2 0x00000004 // PWM2 Interrupt Status #define PWM_ISC_INTPWM1 0x00000002 // PWM1 Interrupt Status #define PWM_ISC_INTPWM0 0x00000001 // PWM0 Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_STATUS register. // //***************************************************************************** #define PWM_STATUS_FAULT3 0x00000008 // Generator 3 Fault Status #define PWM_STATUS_FAULT2 0x00000004 // Generator 2 Fault Status #define PWM_STATUS_FAULT1 0x00000002 // Generator 1 Fault Status #define PWM_STATUS_FAULT0 0x00000001 // Generator 0 Fault Status //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_FAULTVAL register. // //***************************************************************************** #define PWM_FAULTVAL_PWM7 0x00000080 // MnPWM7 Fault Value #define PWM_FAULTVAL_PWM6 0x00000040 // MnPWM6 Fault Value #define PWM_FAULTVAL_PWM5 0x00000020 // MnPWM5 Fault Value #define PWM_FAULTVAL_PWM4 0x00000010 // MnPWM4 Fault Value #define PWM_FAULTVAL_PWM3 0x00000008 // MnPWM3 Fault Value #define PWM_FAULTVAL_PWM2 0x00000004 // MnPWM2 Fault Value #define PWM_FAULTVAL_PWM1 0x00000002 // MnPWM1 Fault Value #define PWM_FAULTVAL_PWM0 0x00000001 // MnPWM0 Fault Value //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_ENUPD register. // //***************************************************************************** #define PWM_ENUPD_ENUPD7_M 0x0000C000 // MnPWM7 Enable Update Mode #define PWM_ENUPD_ENUPD7_IMM 0x00000000 // Immediate #define PWM_ENUPD_ENUPD7_LSYNC 0x00008000 // Locally Synchronized #define PWM_ENUPD_ENUPD7_GSYNC 0x0000C000 // Globally Synchronized #define PWM_ENUPD_ENUPD6_M 0x00003000 // MnPWM6 Enable Update Mode #define PWM_ENUPD_ENUPD6_IMM 0x00000000 // Immediate #define PWM_ENUPD_ENUPD6_LSYNC 0x00002000 // Locally Synchronized #define PWM_ENUPD_ENUPD6_GSYNC 0x00003000 // Globally Synchronized #define PWM_ENUPD_ENUPD5_M 0x00000C00 // MnPWM5 Enable Update Mode #define PWM_ENUPD_ENUPD5_IMM 0x00000000 // Immediate #define PWM_ENUPD_ENUPD5_LSYNC 0x00000800 // Locally Synchronized #define PWM_ENUPD_ENUPD5_GSYNC 0x00000C00 // Globally Synchronized #define PWM_ENUPD_ENUPD4_M 0x00000300 // MnPWM4 Enable Update Mode #define PWM_ENUPD_ENUPD4_IMM 0x00000000 // Immediate #define PWM_ENUPD_ENUPD4_LSYNC 0x00000200 // Locally Synchronized #define PWM_ENUPD_ENUPD4_GSYNC 0x00000300 // Globally Synchronized #define PWM_ENUPD_ENUPD3_M 0x000000C0 // MnPWM3 Enable Update Mode #define PWM_ENUPD_ENUPD3_IMM 0x00000000 // Immediate #define PWM_ENUPD_ENUPD3_LSYNC 0x00000080 // Locally Synchronized #define PWM_ENUPD_ENUPD3_GSYNC 0x000000C0 // Globally Synchronized #define PWM_ENUPD_ENUPD2_M 0x00000030 // MnPWM2 Enable Update Mode #define PWM_ENUPD_ENUPD2_IMM 0x00000000 // Immediate #define PWM_ENUPD_ENUPD2_LSYNC 0x00000020 // Locally Synchronized #define PWM_ENUPD_ENUPD2_GSYNC 0x00000030 // Globally Synchronized #define PWM_ENUPD_ENUPD1_M 0x0000000C // MnPWM1 Enable Update Mode #define PWM_ENUPD_ENUPD1_IMM 0x00000000 // Immediate #define PWM_ENUPD_ENUPD1_LSYNC 0x00000008 // Locally Synchronized #define PWM_ENUPD_ENUPD1_GSYNC 0x0000000C // Globally Synchronized #define PWM_ENUPD_ENUPD0_M 0x00000003 // MnPWM0 Enable Update Mode #define PWM_ENUPD_ENUPD0_IMM 0x00000000 // Immediate #define PWM_ENUPD_ENUPD0_LSYNC 0x00000002 // Locally Synchronized #define PWM_ENUPD_ENUPD0_GSYNC 0x00000003 // Globally Synchronized //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_CTL register. // //***************************************************************************** #define PWM_0_CTL_LATCH 0x00040000 // Latch Fault Input #define PWM_0_CTL_MINFLTPER 0x00020000 // Minimum Fault Period #define PWM_0_CTL_FLTSRC 0x00010000 // Fault Condition Source #define PWM_0_CTL_DBFALLUPD_M 0x0000C000 // PWMnDBFALL Update Mode #define PWM_0_CTL_DBFALLUPD_I 0x00000000 // Immediate #define PWM_0_CTL_DBFALLUPD_LS 0x00008000 // Locally Synchronized #define PWM_0_CTL_DBFALLUPD_GS 0x0000C000 // Globally Synchronized #define PWM_0_CTL_DBRISEUPD_M 0x00003000 // PWMnDBRISE Update Mode #define PWM_0_CTL_DBRISEUPD_I 0x00000000 // Immediate #define PWM_0_CTL_DBRISEUPD_LS 0x00002000 // Locally Synchronized #define PWM_0_CTL_DBRISEUPD_GS 0x00003000 // Globally Synchronized #define PWM_0_CTL_DBCTLUPD_M 0x00000C00 // PWMnDBCTL Update Mode #define PWM_0_CTL_DBCTLUPD_I 0x00000000 // Immediate #define PWM_0_CTL_DBCTLUPD_LS 0x00000800 // Locally Synchronized #define PWM_0_CTL_DBCTLUPD_GS 0x00000C00 // Globally Synchronized #define PWM_0_CTL_GENBUPD_M 0x00000300 // PWMnGENB Update Mode #define PWM_0_CTL_GENBUPD_I 0x00000000 // Immediate #define PWM_0_CTL_GENBUPD_LS 0x00000200 // Locally Synchronized #define PWM_0_CTL_GENBUPD_GS 0x00000300 // Globally Synchronized #define PWM_0_CTL_GENAUPD_M 0x000000C0 // PWMnGENA Update Mode #define PWM_0_CTL_GENAUPD_I 0x00000000 // Immediate #define PWM_0_CTL_GENAUPD_LS 0x00000080 // Locally Synchronized #define PWM_0_CTL_GENAUPD_GS 0x000000C0 // Globally Synchronized #define PWM_0_CTL_CMPBUPD 0x00000020 // Comparator B Update Mode #define PWM_0_CTL_CMPAUPD 0x00000010 // Comparator A Update Mode #define PWM_0_CTL_LOADUPD 0x00000008 // Load Register Update Mode #define PWM_0_CTL_DEBUG 0x00000004 // Debug Mode #define PWM_0_CTL_MODE 0x00000002 // Counter Mode #define PWM_0_CTL_ENABLE 0x00000001 // PWM Block Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_INTEN register. // //***************************************************************************** #define PWM_0_INTEN_TRCMPBD 0x00002000 // Trigger for Counter=PWMnCMPB // Down #define PWM_0_INTEN_TRCMPBU 0x00001000 // Trigger for Counter=PWMnCMPB Up #define PWM_0_INTEN_TRCMPAD 0x00000800 // Trigger for Counter=PWMnCMPA // Down #define PWM_0_INTEN_TRCMPAU 0x00000400 // Trigger for Counter=PWMnCMPA Up #define PWM_0_INTEN_TRCNTLOAD 0x00000200 // Trigger for Counter=PWMnLOAD #define PWM_0_INTEN_TRCNTZERO 0x00000100 // Trigger for Counter=0 #define PWM_0_INTEN_INTCMPBD 0x00000020 // Interrupt for Counter=PWMnCMPB // Down #define PWM_0_INTEN_INTCMPBU 0x00000010 // Interrupt for Counter=PWMnCMPB // Up #define PWM_0_INTEN_INTCMPAD 0x00000008 // Interrupt for Counter=PWMnCMPA // Down #define PWM_0_INTEN_INTCMPAU 0x00000004 // Interrupt for Counter=PWMnCMPA // Up #define PWM_0_INTEN_INTCNTLOAD 0x00000002 // Interrupt for Counter=PWMnLOAD #define PWM_0_INTEN_INTCNTZERO 0x00000001 // Interrupt for Counter=0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_RIS register. // //***************************************************************************** #define PWM_0_RIS_INTCMPBD 0x00000020 // Comparator B Down Interrupt // Status #define PWM_0_RIS_INTCMPBU 0x00000010 // Comparator B Up Interrupt Status #define PWM_0_RIS_INTCMPAD 0x00000008 // Comparator A Down Interrupt // Status #define PWM_0_RIS_INTCMPAU 0x00000004 // Comparator A Up Interrupt Status #define PWM_0_RIS_INTCNTLOAD 0x00000002 // Counter=Load Interrupt Status #define PWM_0_RIS_INTCNTZERO 0x00000001 // Counter=0 Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_ISC register. // //***************************************************************************** #define PWM_0_ISC_INTCMPBD 0x00000020 // Comparator B Down Interrupt #define PWM_0_ISC_INTCMPBU 0x00000010 // Comparator B Up Interrupt #define PWM_0_ISC_INTCMPAD 0x00000008 // Comparator A Down Interrupt #define PWM_0_ISC_INTCMPAU 0x00000004 // Comparator A Up Interrupt #define PWM_0_ISC_INTCNTLOAD 0x00000002 // Counter=Load Interrupt #define PWM_0_ISC_INTCNTZERO 0x00000001 // Counter=0 Interrupt //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_LOAD register. // //***************************************************************************** #define PWM_0_LOAD_M 0x0000FFFF // Counter Load Value #define PWM_0_LOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_COUNT register. // //***************************************************************************** #define PWM_0_COUNT_M 0x0000FFFF // Counter Value #define PWM_0_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_CMPA register. // //***************************************************************************** #define PWM_0_CMPA_M 0x0000FFFF // Comparator A Value #define PWM_0_CMPA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_CMPB register. // //***************************************************************************** #define PWM_0_CMPB_M 0x0000FFFF // Comparator B Value #define PWM_0_CMPB_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_GENA register. // //***************************************************************************** #define PWM_0_GENA_ACTCMPBD_M 0x00000C00 // Action for Comparator B Down #define PWM_0_GENA_ACTCMPBD_NONE \ 0x00000000 // Do nothing #define PWM_0_GENA_ACTCMPBD_INV 0x00000400 // Invert pwmA #define PWM_0_GENA_ACTCMPBD_ZERO \ 0x00000800 // Drive pwmA Low #define PWM_0_GENA_ACTCMPBD_ONE 0x00000C00 // Drive pwmA High #define PWM_0_GENA_ACTCMPBU_M 0x00000300 // Action for Comparator B Up #define PWM_0_GENA_ACTCMPBU_NONE \ 0x00000000 // Do nothing #define PWM_0_GENA_ACTCMPBU_INV 0x00000100 // Invert pwmA #define PWM_0_GENA_ACTCMPBU_ZERO \ 0x00000200 // Drive pwmA Low #define PWM_0_GENA_ACTCMPBU_ONE 0x00000300 // Drive pwmA High #define PWM_0_GENA_ACTCMPAD_M 0x000000C0 // Action for Comparator A Down #define PWM_0_GENA_ACTCMPAD_NONE \ 0x00000000 // Do nothing #define PWM_0_GENA_ACTCMPAD_INV 0x00000040 // Invert pwmA #define PWM_0_GENA_ACTCMPAD_ZERO \ 0x00000080 // Drive pwmA Low #define PWM_0_GENA_ACTCMPAD_ONE 0x000000C0 // Drive pwmA High #define PWM_0_GENA_ACTCMPAU_M 0x00000030 // Action for Comparator A Up #define PWM_0_GENA_ACTCMPAU_NONE \ 0x00000000 // Do nothing #define PWM_0_GENA_ACTCMPAU_INV 0x00000010 // Invert pwmA #define PWM_0_GENA_ACTCMPAU_ZERO \ 0x00000020 // Drive pwmA Low #define PWM_0_GENA_ACTCMPAU_ONE 0x00000030 // Drive pwmA High #define PWM_0_GENA_ACTLOAD_M 0x0000000C // Action for Counter=LOAD #define PWM_0_GENA_ACTLOAD_NONE 0x00000000 // Do nothing #define PWM_0_GENA_ACTLOAD_INV 0x00000004 // Invert pwmA #define PWM_0_GENA_ACTLOAD_ZERO 0x00000008 // Drive pwmA Low #define PWM_0_GENA_ACTLOAD_ONE 0x0000000C // Drive pwmA High #define PWM_0_GENA_ACTZERO_M 0x00000003 // Action for Counter=0 #define PWM_0_GENA_ACTZERO_NONE 0x00000000 // Do nothing #define PWM_0_GENA_ACTZERO_INV 0x00000001 // Invert pwmA #define PWM_0_GENA_ACTZERO_ZERO 0x00000002 // Drive pwmA Low #define PWM_0_GENA_ACTZERO_ONE 0x00000003 // Drive pwmA High //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_GENB register. // //***************************************************************************** #define PWM_0_GENB_ACTCMPBD_M 0x00000C00 // Action for Comparator B Down #define PWM_0_GENB_ACTCMPBD_NONE \ 0x00000000 // Do nothing #define PWM_0_GENB_ACTCMPBD_INV 0x00000400 // Invert pwmB #define PWM_0_GENB_ACTCMPBD_ZERO \ 0x00000800 // Drive pwmB Low #define PWM_0_GENB_ACTCMPBD_ONE 0x00000C00 // Drive pwmB High #define PWM_0_GENB_ACTCMPBU_M 0x00000300 // Action for Comparator B Up #define PWM_0_GENB_ACTCMPBU_NONE \ 0x00000000 // Do nothing #define PWM_0_GENB_ACTCMPBU_INV 0x00000100 // Invert pwmB #define PWM_0_GENB_ACTCMPBU_ZERO \ 0x00000200 // Drive pwmB Low #define PWM_0_GENB_ACTCMPBU_ONE 0x00000300 // Drive pwmB High #define PWM_0_GENB_ACTCMPAD_M 0x000000C0 // Action for Comparator A Down #define PWM_0_GENB_ACTCMPAD_NONE \ 0x00000000 // Do nothing #define PWM_0_GENB_ACTCMPAD_INV 0x00000040 // Invert pwmB #define PWM_0_GENB_ACTCMPAD_ZERO \ 0x00000080 // Drive pwmB Low #define PWM_0_GENB_ACTCMPAD_ONE 0x000000C0 // Drive pwmB High #define PWM_0_GENB_ACTCMPAU_M 0x00000030 // Action for Comparator A Up #define PWM_0_GENB_ACTCMPAU_NONE \ 0x00000000 // Do nothing #define PWM_0_GENB_ACTCMPAU_INV 0x00000010 // Invert pwmB #define PWM_0_GENB_ACTCMPAU_ZERO \ 0x00000020 // Drive pwmB Low #define PWM_0_GENB_ACTCMPAU_ONE 0x00000030 // Drive pwmB High #define PWM_0_GENB_ACTLOAD_M 0x0000000C // Action for Counter=LOAD #define PWM_0_GENB_ACTLOAD_NONE 0x00000000 // Do nothing #define PWM_0_GENB_ACTLOAD_INV 0x00000004 // Invert pwmB #define PWM_0_GENB_ACTLOAD_ZERO 0x00000008 // Drive pwmB Low #define PWM_0_GENB_ACTLOAD_ONE 0x0000000C // Drive pwmB High #define PWM_0_GENB_ACTZERO_M 0x00000003 // Action for Counter=0 #define PWM_0_GENB_ACTZERO_NONE 0x00000000 // Do nothing #define PWM_0_GENB_ACTZERO_INV 0x00000001 // Invert pwmB #define PWM_0_GENB_ACTZERO_ZERO 0x00000002 // Drive pwmB Low #define PWM_0_GENB_ACTZERO_ONE 0x00000003 // Drive pwmB High //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_DBCTL register. // //***************************************************************************** #define PWM_0_DBCTL_ENABLE 0x00000001 // Dead-Band Generator Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_DBRISE register. // //***************************************************************************** #define PWM_0_DBRISE_DELAY_M 0x00000FFF // Dead-Band Rise Delay #define PWM_0_DBRISE_DELAY_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_DBFALL register. // //***************************************************************************** #define PWM_0_DBFALL_DELAY_M 0x00000FFF // Dead-Band Fall Delay #define PWM_0_DBFALL_DELAY_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_FLTSRC0 // register. // //***************************************************************************** #define PWM_0_FLTSRC0_FAULT3 0x00000008 // Fault3 Input #define PWM_0_FLTSRC0_FAULT2 0x00000004 // Fault2 Input #define PWM_0_FLTSRC0_FAULT1 0x00000002 // Fault1 Input #define PWM_0_FLTSRC0_FAULT0 0x00000001 // Fault0 Input //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_FLTSRC1 // register. // //***************************************************************************** #define PWM_0_FLTSRC1_DCMP7 0x00000080 // Digital Comparator 7 #define PWM_0_FLTSRC1_DCMP6 0x00000040 // Digital Comparator 6 #define PWM_0_FLTSRC1_DCMP5 0x00000020 // Digital Comparator 5 #define PWM_0_FLTSRC1_DCMP4 0x00000010 // Digital Comparator 4 #define PWM_0_FLTSRC1_DCMP3 0x00000008 // Digital Comparator 3 #define PWM_0_FLTSRC1_DCMP2 0x00000004 // Digital Comparator 2 #define PWM_0_FLTSRC1_DCMP1 0x00000002 // Digital Comparator 1 #define PWM_0_FLTSRC1_DCMP0 0x00000001 // Digital Comparator 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_MINFLTPER // register. // //***************************************************************************** #define PWM_0_MINFLTPER_M 0x0000FFFF // Minimum Fault Period #define PWM_0_MINFLTPER_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_CTL register. // //***************************************************************************** #define PWM_1_CTL_LATCH 0x00040000 // Latch Fault Input #define PWM_1_CTL_MINFLTPER 0x00020000 // Minimum Fault Period #define PWM_1_CTL_FLTSRC 0x00010000 // Fault Condition Source #define PWM_1_CTL_DBFALLUPD_M 0x0000C000 // PWMnDBFALL Update Mode #define PWM_1_CTL_DBFALLUPD_I 0x00000000 // Immediate #define PWM_1_CTL_DBFALLUPD_LS 0x00008000 // Locally Synchronized #define PWM_1_CTL_DBFALLUPD_GS 0x0000C000 // Globally Synchronized #define PWM_1_CTL_DBRISEUPD_M 0x00003000 // PWMnDBRISE Update Mode #define PWM_1_CTL_DBRISEUPD_I 0x00000000 // Immediate #define PWM_1_CTL_DBRISEUPD_LS 0x00002000 // Locally Synchronized #define PWM_1_CTL_DBRISEUPD_GS 0x00003000 // Globally Synchronized #define PWM_1_CTL_DBCTLUPD_M 0x00000C00 // PWMnDBCTL Update Mode #define PWM_1_CTL_DBCTLUPD_I 0x00000000 // Immediate #define PWM_1_CTL_DBCTLUPD_LS 0x00000800 // Locally Synchronized #define PWM_1_CTL_DBCTLUPD_GS 0x00000C00 // Globally Synchronized #define PWM_1_CTL_GENBUPD_M 0x00000300 // PWMnGENB Update Mode #define PWM_1_CTL_GENBUPD_I 0x00000000 // Immediate #define PWM_1_CTL_GENBUPD_LS 0x00000200 // Locally Synchronized #define PWM_1_CTL_GENBUPD_GS 0x00000300 // Globally Synchronized #define PWM_1_CTL_GENAUPD_M 0x000000C0 // PWMnGENA Update Mode #define PWM_1_CTL_GENAUPD_I 0x00000000 // Immediate #define PWM_1_CTL_GENAUPD_LS 0x00000080 // Locally Synchronized #define PWM_1_CTL_GENAUPD_GS 0x000000C0 // Globally Synchronized #define PWM_1_CTL_CMPBUPD 0x00000020 // Comparator B Update Mode #define PWM_1_CTL_CMPAUPD 0x00000010 // Comparator A Update Mode #define PWM_1_CTL_LOADUPD 0x00000008 // Load Register Update Mode #define PWM_1_CTL_DEBUG 0x00000004 // Debug Mode #define PWM_1_CTL_MODE 0x00000002 // Counter Mode #define PWM_1_CTL_ENABLE 0x00000001 // PWM Block Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_INTEN register. // //***************************************************************************** #define PWM_1_INTEN_TRCMPBD 0x00002000 // Trigger for Counter=PWMnCMPB // Down #define PWM_1_INTEN_TRCMPBU 0x00001000 // Trigger for Counter=PWMnCMPB Up #define PWM_1_INTEN_TRCMPAD 0x00000800 // Trigger for Counter=PWMnCMPA // Down #define PWM_1_INTEN_TRCMPAU 0x00000400 // Trigger for Counter=PWMnCMPA Up #define PWM_1_INTEN_TRCNTLOAD 0x00000200 // Trigger for Counter=PWMnLOAD #define PWM_1_INTEN_TRCNTZERO 0x00000100 // Trigger for Counter=0 #define PWM_1_INTEN_INTCMPBD 0x00000020 // Interrupt for Counter=PWMnCMPB // Down #define PWM_1_INTEN_INTCMPBU 0x00000010 // Interrupt for Counter=PWMnCMPB // Up #define PWM_1_INTEN_INTCMPAD 0x00000008 // Interrupt for Counter=PWMnCMPA // Down #define PWM_1_INTEN_INTCMPAU 0x00000004 // Interrupt for Counter=PWMnCMPA // Up #define PWM_1_INTEN_INTCNTLOAD 0x00000002 // Interrupt for Counter=PWMnLOAD #define PWM_1_INTEN_INTCNTZERO 0x00000001 // Interrupt for Counter=0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_RIS register. // //***************************************************************************** #define PWM_1_RIS_INTCMPBD 0x00000020 // Comparator B Down Interrupt // Status #define PWM_1_RIS_INTCMPBU 0x00000010 // Comparator B Up Interrupt Status #define PWM_1_RIS_INTCMPAD 0x00000008 // Comparator A Down Interrupt // Status #define PWM_1_RIS_INTCMPAU 0x00000004 // Comparator A Up Interrupt Status #define PWM_1_RIS_INTCNTLOAD 0x00000002 // Counter=Load Interrupt Status #define PWM_1_RIS_INTCNTZERO 0x00000001 // Counter=0 Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_ISC register. // //***************************************************************************** #define PWM_1_ISC_INTCMPBD 0x00000020 // Comparator B Down Interrupt #define PWM_1_ISC_INTCMPBU 0x00000010 // Comparator B Up Interrupt #define PWM_1_ISC_INTCMPAD 0x00000008 // Comparator A Down Interrupt #define PWM_1_ISC_INTCMPAU 0x00000004 // Comparator A Up Interrupt #define PWM_1_ISC_INTCNTLOAD 0x00000002 // Counter=Load Interrupt #define PWM_1_ISC_INTCNTZERO 0x00000001 // Counter=0 Interrupt //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_LOAD register. // //***************************************************************************** #define PWM_1_LOAD_LOAD_M 0x0000FFFF // Counter Load Value #define PWM_1_LOAD_LOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_COUNT register. // //***************************************************************************** #define PWM_1_COUNT_COUNT_M 0x0000FFFF // Counter Value #define PWM_1_COUNT_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_CMPA register. // //***************************************************************************** #define PWM_1_CMPA_COMPA_M 0x0000FFFF // Comparator A Value #define PWM_1_CMPA_COMPA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_CMPB register. // //***************************************************************************** #define PWM_1_CMPB_COMPB_M 0x0000FFFF // Comparator B Value #define PWM_1_CMPB_COMPB_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_GENA register. // //***************************************************************************** #define PWM_1_GENA_ACTCMPBD_M 0x00000C00 // Action for Comparator B Down #define PWM_1_GENA_ACTCMPBD_NONE \ 0x00000000 // Do nothing #define PWM_1_GENA_ACTCMPBD_INV 0x00000400 // Invert pwmA #define PWM_1_GENA_ACTCMPBD_ZERO \ 0x00000800 // Drive pwmA Low #define PWM_1_GENA_ACTCMPBD_ONE 0x00000C00 // Drive pwmA High #define PWM_1_GENA_ACTCMPBU_M 0x00000300 // Action for Comparator B Up #define PWM_1_GENA_ACTCMPBU_NONE \ 0x00000000 // Do nothing #define PWM_1_GENA_ACTCMPBU_INV 0x00000100 // Invert pwmA #define PWM_1_GENA_ACTCMPBU_ZERO \ 0x00000200 // Drive pwmA Low #define PWM_1_GENA_ACTCMPBU_ONE 0x00000300 // Drive pwmA High #define PWM_1_GENA_ACTCMPAD_M 0x000000C0 // Action for Comparator A Down #define PWM_1_GENA_ACTCMPAD_NONE \ 0x00000000 // Do nothing #define PWM_1_GENA_ACTCMPAD_INV 0x00000040 // Invert pwmA #define PWM_1_GENA_ACTCMPAD_ZERO \ 0x00000080 // Drive pwmA Low #define PWM_1_GENA_ACTCMPAD_ONE 0x000000C0 // Drive pwmA High #define PWM_1_GENA_ACTCMPAU_M 0x00000030 // Action for Comparator A Up #define PWM_1_GENA_ACTCMPAU_NONE \ 0x00000000 // Do nothing #define PWM_1_GENA_ACTCMPAU_INV 0x00000010 // Invert pwmA #define PWM_1_GENA_ACTCMPAU_ZERO \ 0x00000020 // Drive pwmA Low #define PWM_1_GENA_ACTCMPAU_ONE 0x00000030 // Drive pwmA High #define PWM_1_GENA_ACTLOAD_M 0x0000000C // Action for Counter=LOAD #define PWM_1_GENA_ACTLOAD_NONE 0x00000000 // Do nothing #define PWM_1_GENA_ACTLOAD_INV 0x00000004 // Invert pwmA #define PWM_1_GENA_ACTLOAD_ZERO 0x00000008 // Drive pwmA Low #define PWM_1_GENA_ACTLOAD_ONE 0x0000000C // Drive pwmA High #define PWM_1_GENA_ACTZERO_M 0x00000003 // Action for Counter=0 #define PWM_1_GENA_ACTZERO_NONE 0x00000000 // Do nothing #define PWM_1_GENA_ACTZERO_INV 0x00000001 // Invert pwmA #define PWM_1_GENA_ACTZERO_ZERO 0x00000002 // Drive pwmA Low #define PWM_1_GENA_ACTZERO_ONE 0x00000003 // Drive pwmA High //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_GENB register. // //***************************************************************************** #define PWM_1_GENB_ACTCMPBD_M 0x00000C00 // Action for Comparator B Down #define PWM_1_GENB_ACTCMPBD_NONE \ 0x00000000 // Do nothing #define PWM_1_GENB_ACTCMPBD_INV 0x00000400 // Invert pwmB #define PWM_1_GENB_ACTCMPBD_ZERO \ 0x00000800 // Drive pwmB Low #define PWM_1_GENB_ACTCMPBD_ONE 0x00000C00 // Drive pwmB High #define PWM_1_GENB_ACTCMPBU_M 0x00000300 // Action for Comparator B Up #define PWM_1_GENB_ACTCMPBU_NONE \ 0x00000000 // Do nothing #define PWM_1_GENB_ACTCMPBU_INV 0x00000100 // Invert pwmB #define PWM_1_GENB_ACTCMPBU_ZERO \ 0x00000200 // Drive pwmB Low #define PWM_1_GENB_ACTCMPBU_ONE 0x00000300 // Drive pwmB High #define PWM_1_GENB_ACTCMPAD_M 0x000000C0 // Action for Comparator A Down #define PWM_1_GENB_ACTCMPAD_NONE \ 0x00000000 // Do nothing #define PWM_1_GENB_ACTCMPAD_INV 0x00000040 // Invert pwmB #define PWM_1_GENB_ACTCMPAD_ZERO \ 0x00000080 // Drive pwmB Low #define PWM_1_GENB_ACTCMPAD_ONE 0x000000C0 // Drive pwmB High #define PWM_1_GENB_ACTCMPAU_M 0x00000030 // Action for Comparator A Up #define PWM_1_GENB_ACTCMPAU_NONE \ 0x00000000 // Do nothing #define PWM_1_GENB_ACTCMPAU_INV 0x00000010 // Invert pwmB #define PWM_1_GENB_ACTCMPAU_ZERO \ 0x00000020 // Drive pwmB Low #define PWM_1_GENB_ACTCMPAU_ONE 0x00000030 // Drive pwmB High #define PWM_1_GENB_ACTLOAD_M 0x0000000C // Action for Counter=LOAD #define PWM_1_GENB_ACTLOAD_NONE 0x00000000 // Do nothing #define PWM_1_GENB_ACTLOAD_INV 0x00000004 // Invert pwmB #define PWM_1_GENB_ACTLOAD_ZERO 0x00000008 // Drive pwmB Low #define PWM_1_GENB_ACTLOAD_ONE 0x0000000C // Drive pwmB High #define PWM_1_GENB_ACTZERO_M 0x00000003 // Action for Counter=0 #define PWM_1_GENB_ACTZERO_NONE 0x00000000 // Do nothing #define PWM_1_GENB_ACTZERO_INV 0x00000001 // Invert pwmB #define PWM_1_GENB_ACTZERO_ZERO 0x00000002 // Drive pwmB Low #define PWM_1_GENB_ACTZERO_ONE 0x00000003 // Drive pwmB High //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_DBCTL register. // //***************************************************************************** #define PWM_1_DBCTL_ENABLE 0x00000001 // Dead-Band Generator Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_DBRISE register. // //***************************************************************************** #define PWM_1_DBRISE_RISEDELAY_M \ 0x00000FFF // Dead-Band Rise Delay #define PWM_1_DBRISE_RISEDELAY_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_DBFALL register. // //***************************************************************************** #define PWM_1_DBFALL_FALLDELAY_M \ 0x00000FFF // Dead-Band Fall Delay #define PWM_1_DBFALL_FALLDELAY_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_FLTSRC0 // register. // //***************************************************************************** #define PWM_1_FLTSRC0_FAULT3 0x00000008 // Fault3 Input #define PWM_1_FLTSRC0_FAULT2 0x00000004 // Fault2 Input #define PWM_1_FLTSRC0_FAULT1 0x00000002 // Fault1 Input #define PWM_1_FLTSRC0_FAULT0 0x00000001 // Fault0 Input //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_FLTSRC1 // register. // //***************************************************************************** #define PWM_1_FLTSRC1_DCMP7 0x00000080 // Digital Comparator 7 #define PWM_1_FLTSRC1_DCMP6 0x00000040 // Digital Comparator 6 #define PWM_1_FLTSRC1_DCMP5 0x00000020 // Digital Comparator 5 #define PWM_1_FLTSRC1_DCMP4 0x00000010 // Digital Comparator 4 #define PWM_1_FLTSRC1_DCMP3 0x00000008 // Digital Comparator 3 #define PWM_1_FLTSRC1_DCMP2 0x00000004 // Digital Comparator 2 #define PWM_1_FLTSRC1_DCMP1 0x00000002 // Digital Comparator 1 #define PWM_1_FLTSRC1_DCMP0 0x00000001 // Digital Comparator 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_MINFLTPER // register. // //***************************************************************************** #define PWM_1_MINFLTPER_MFP_M 0x0000FFFF // Minimum Fault Period #define PWM_1_MINFLTPER_MFP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_CTL register. // //***************************************************************************** #define PWM_2_CTL_LATCH 0x00040000 // Latch Fault Input #define PWM_2_CTL_MINFLTPER 0x00020000 // Minimum Fault Period #define PWM_2_CTL_FLTSRC 0x00010000 // Fault Condition Source #define PWM_2_CTL_DBFALLUPD_M 0x0000C000 // PWMnDBFALL Update Mode #define PWM_2_CTL_DBFALLUPD_I 0x00000000 // Immediate #define PWM_2_CTL_DBFALLUPD_LS 0x00008000 // Locally Synchronized #define PWM_2_CTL_DBFALLUPD_GS 0x0000C000 // Globally Synchronized #define PWM_2_CTL_DBRISEUPD_M 0x00003000 // PWMnDBRISE Update Mode #define PWM_2_CTL_DBRISEUPD_I 0x00000000 // Immediate #define PWM_2_CTL_DBRISEUPD_LS 0x00002000 // Locally Synchronized #define PWM_2_CTL_DBRISEUPD_GS 0x00003000 // Globally Synchronized #define PWM_2_CTL_DBCTLUPD_M 0x00000C00 // PWMnDBCTL Update Mode #define PWM_2_CTL_DBCTLUPD_I 0x00000000 // Immediate #define PWM_2_CTL_DBCTLUPD_LS 0x00000800 // Locally Synchronized #define PWM_2_CTL_DBCTLUPD_GS 0x00000C00 // Globally Synchronized #define PWM_2_CTL_GENBUPD_M 0x00000300 // PWMnGENB Update Mode #define PWM_2_CTL_GENBUPD_I 0x00000000 // Immediate #define PWM_2_CTL_GENBUPD_LS 0x00000200 // Locally Synchronized #define PWM_2_CTL_GENBUPD_GS 0x00000300 // Globally Synchronized #define PWM_2_CTL_GENAUPD_M 0x000000C0 // PWMnGENA Update Mode #define PWM_2_CTL_GENAUPD_I 0x00000000 // Immediate #define PWM_2_CTL_GENAUPD_LS 0x00000080 // Locally Synchronized #define PWM_2_CTL_GENAUPD_GS 0x000000C0 // Globally Synchronized #define PWM_2_CTL_CMPBUPD 0x00000020 // Comparator B Update Mode #define PWM_2_CTL_CMPAUPD 0x00000010 // Comparator A Update Mode #define PWM_2_CTL_LOADUPD 0x00000008 // Load Register Update Mode #define PWM_2_CTL_DEBUG 0x00000004 // Debug Mode #define PWM_2_CTL_MODE 0x00000002 // Counter Mode #define PWM_2_CTL_ENABLE 0x00000001 // PWM Block Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_INTEN register. // //***************************************************************************** #define PWM_2_INTEN_TRCMPBD 0x00002000 // Trigger for Counter=PWMnCMPB // Down #define PWM_2_INTEN_TRCMPBU 0x00001000 // Trigger for Counter=PWMnCMPB Up #define PWM_2_INTEN_TRCMPAD 0x00000800 // Trigger for Counter=PWMnCMPA // Down #define PWM_2_INTEN_TRCMPAU 0x00000400 // Trigger for Counter=PWMnCMPA Up #define PWM_2_INTEN_TRCNTLOAD 0x00000200 // Trigger for Counter=PWMnLOAD #define PWM_2_INTEN_TRCNTZERO 0x00000100 // Trigger for Counter=0 #define PWM_2_INTEN_INTCMPBD 0x00000020 // Interrupt for Counter=PWMnCMPB // Down #define PWM_2_INTEN_INTCMPBU 0x00000010 // Interrupt for Counter=PWMnCMPB // Up #define PWM_2_INTEN_INTCMPAD 0x00000008 // Interrupt for Counter=PWMnCMPA // Down #define PWM_2_INTEN_INTCMPAU 0x00000004 // Interrupt for Counter=PWMnCMPA // Up #define PWM_2_INTEN_INTCNTLOAD 0x00000002 // Interrupt for Counter=PWMnLOAD #define PWM_2_INTEN_INTCNTZERO 0x00000001 // Interrupt for Counter=0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_RIS register. // //***************************************************************************** #define PWM_2_RIS_INTCMPBD 0x00000020 // Comparator B Down Interrupt // Status #define PWM_2_RIS_INTCMPBU 0x00000010 // Comparator B Up Interrupt Status #define PWM_2_RIS_INTCMPAD 0x00000008 // Comparator A Down Interrupt // Status #define PWM_2_RIS_INTCMPAU 0x00000004 // Comparator A Up Interrupt Status #define PWM_2_RIS_INTCNTLOAD 0x00000002 // Counter=Load Interrupt Status #define PWM_2_RIS_INTCNTZERO 0x00000001 // Counter=0 Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_ISC register. // //***************************************************************************** #define PWM_2_ISC_INTCMPBD 0x00000020 // Comparator B Down Interrupt #define PWM_2_ISC_INTCMPBU 0x00000010 // Comparator B Up Interrupt #define PWM_2_ISC_INTCMPAD 0x00000008 // Comparator A Down Interrupt #define PWM_2_ISC_INTCMPAU 0x00000004 // Comparator A Up Interrupt #define PWM_2_ISC_INTCNTLOAD 0x00000002 // Counter=Load Interrupt #define PWM_2_ISC_INTCNTZERO 0x00000001 // Counter=0 Interrupt //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_LOAD register. // //***************************************************************************** #define PWM_2_LOAD_LOAD_M 0x0000FFFF // Counter Load Value #define PWM_2_LOAD_LOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_COUNT register. // //***************************************************************************** #define PWM_2_COUNT_COUNT_M 0x0000FFFF // Counter Value #define PWM_2_COUNT_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_CMPA register. // //***************************************************************************** #define PWM_2_CMPA_COMPA_M 0x0000FFFF // Comparator A Value #define PWM_2_CMPA_COMPA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_CMPB register. // //***************************************************************************** #define PWM_2_CMPB_COMPB_M 0x0000FFFF // Comparator B Value #define PWM_2_CMPB_COMPB_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_GENA register. // //***************************************************************************** #define PWM_2_GENA_ACTCMPBD_M 0x00000C00 // Action for Comparator B Down #define PWM_2_GENA_ACTCMPBD_NONE \ 0x00000000 // Do nothing #define PWM_2_GENA_ACTCMPBD_INV 0x00000400 // Invert pwmA #define PWM_2_GENA_ACTCMPBD_ZERO \ 0x00000800 // Drive pwmA Low #define PWM_2_GENA_ACTCMPBD_ONE 0x00000C00 // Drive pwmA High #define PWM_2_GENA_ACTCMPBU_M 0x00000300 // Action for Comparator B Up #define PWM_2_GENA_ACTCMPBU_NONE \ 0x00000000 // Do nothing #define PWM_2_GENA_ACTCMPBU_INV 0x00000100 // Invert pwmA #define PWM_2_GENA_ACTCMPBU_ZERO \ 0x00000200 // Drive pwmA Low #define PWM_2_GENA_ACTCMPBU_ONE 0x00000300 // Drive pwmA High #define PWM_2_GENA_ACTCMPAD_M 0x000000C0 // Action for Comparator A Down #define PWM_2_GENA_ACTCMPAD_NONE \ 0x00000000 // Do nothing #define PWM_2_GENA_ACTCMPAD_INV 0x00000040 // Invert pwmA #define PWM_2_GENA_ACTCMPAD_ZERO \ 0x00000080 // Drive pwmA Low #define PWM_2_GENA_ACTCMPAD_ONE 0x000000C0 // Drive pwmA High #define PWM_2_GENA_ACTCMPAU_M 0x00000030 // Action for Comparator A Up #define PWM_2_GENA_ACTCMPAU_NONE \ 0x00000000 // Do nothing #define PWM_2_GENA_ACTCMPAU_INV 0x00000010 // Invert pwmA #define PWM_2_GENA_ACTCMPAU_ZERO \ 0x00000020 // Drive pwmA Low #define PWM_2_GENA_ACTCMPAU_ONE 0x00000030 // Drive pwmA High #define PWM_2_GENA_ACTLOAD_M 0x0000000C // Action for Counter=LOAD #define PWM_2_GENA_ACTLOAD_NONE 0x00000000 // Do nothing #define PWM_2_GENA_ACTLOAD_INV 0x00000004 // Invert pwmA #define PWM_2_GENA_ACTLOAD_ZERO 0x00000008 // Drive pwmA Low #define PWM_2_GENA_ACTLOAD_ONE 0x0000000C // Drive pwmA High #define PWM_2_GENA_ACTZERO_M 0x00000003 // Action for Counter=0 #define PWM_2_GENA_ACTZERO_NONE 0x00000000 // Do nothing #define PWM_2_GENA_ACTZERO_INV 0x00000001 // Invert pwmA #define PWM_2_GENA_ACTZERO_ZERO 0x00000002 // Drive pwmA Low #define PWM_2_GENA_ACTZERO_ONE 0x00000003 // Drive pwmA High //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_GENB register. // //***************************************************************************** #define PWM_2_GENB_ACTCMPBD_M 0x00000C00 // Action for Comparator B Down #define PWM_2_GENB_ACTCMPBD_NONE \ 0x00000000 // Do nothing #define PWM_2_GENB_ACTCMPBD_INV 0x00000400 // Invert pwmB #define PWM_2_GENB_ACTCMPBD_ZERO \ 0x00000800 // Drive pwmB Low #define PWM_2_GENB_ACTCMPBD_ONE 0x00000C00 // Drive pwmB High #define PWM_2_GENB_ACTCMPBU_M 0x00000300 // Action for Comparator B Up #define PWM_2_GENB_ACTCMPBU_NONE \ 0x00000000 // Do nothing #define PWM_2_GENB_ACTCMPBU_INV 0x00000100 // Invert pwmB #define PWM_2_GENB_ACTCMPBU_ZERO \ 0x00000200 // Drive pwmB Low #define PWM_2_GENB_ACTCMPBU_ONE 0x00000300 // Drive pwmB High #define PWM_2_GENB_ACTCMPAD_M 0x000000C0 // Action for Comparator A Down #define PWM_2_GENB_ACTCMPAD_NONE \ 0x00000000 // Do nothing #define PWM_2_GENB_ACTCMPAD_INV 0x00000040 // Invert pwmB #define PWM_2_GENB_ACTCMPAD_ZERO \ 0x00000080 // Drive pwmB Low #define PWM_2_GENB_ACTCMPAD_ONE 0x000000C0 // Drive pwmB High #define PWM_2_GENB_ACTCMPAU_M 0x00000030 // Action for Comparator A Up #define PWM_2_GENB_ACTCMPAU_NONE \ 0x00000000 // Do nothing #define PWM_2_GENB_ACTCMPAU_INV 0x00000010 // Invert pwmB #define PWM_2_GENB_ACTCMPAU_ZERO \ 0x00000020 // Drive pwmB Low #define PWM_2_GENB_ACTCMPAU_ONE 0x00000030 // Drive pwmB High #define PWM_2_GENB_ACTLOAD_M 0x0000000C // Action for Counter=LOAD #define PWM_2_GENB_ACTLOAD_NONE 0x00000000 // Do nothing #define PWM_2_GENB_ACTLOAD_INV 0x00000004 // Invert pwmB #define PWM_2_GENB_ACTLOAD_ZERO 0x00000008 // Drive pwmB Low #define PWM_2_GENB_ACTLOAD_ONE 0x0000000C // Drive pwmB High #define PWM_2_GENB_ACTZERO_M 0x00000003 // Action for Counter=0 #define PWM_2_GENB_ACTZERO_NONE 0x00000000 // Do nothing #define PWM_2_GENB_ACTZERO_INV 0x00000001 // Invert pwmB #define PWM_2_GENB_ACTZERO_ZERO 0x00000002 // Drive pwmB Low #define PWM_2_GENB_ACTZERO_ONE 0x00000003 // Drive pwmB High //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_DBCTL register. // //***************************************************************************** #define PWM_2_DBCTL_ENABLE 0x00000001 // Dead-Band Generator Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_DBRISE register. // //***************************************************************************** #define PWM_2_DBRISE_RISEDELAY_M \ 0x00000FFF // Dead-Band Rise Delay #define PWM_2_DBRISE_RISEDELAY_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_DBFALL register. // //***************************************************************************** #define PWM_2_DBFALL_FALLDELAY_M \ 0x00000FFF // Dead-Band Fall Delay #define PWM_2_DBFALL_FALLDELAY_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_FLTSRC0 // register. // //***************************************************************************** #define PWM_2_FLTSRC0_FAULT3 0x00000008 // Fault3 Input #define PWM_2_FLTSRC0_FAULT2 0x00000004 // Fault2 Input #define PWM_2_FLTSRC0_FAULT1 0x00000002 // Fault1 Input #define PWM_2_FLTSRC0_FAULT0 0x00000001 // Fault0 Input //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_FLTSRC1 // register. // //***************************************************************************** #define PWM_2_FLTSRC1_DCMP7 0x00000080 // Digital Comparator 7 #define PWM_2_FLTSRC1_DCMP6 0x00000040 // Digital Comparator 6 #define PWM_2_FLTSRC1_DCMP5 0x00000020 // Digital Comparator 5 #define PWM_2_FLTSRC1_DCMP4 0x00000010 // Digital Comparator 4 #define PWM_2_FLTSRC1_DCMP3 0x00000008 // Digital Comparator 3 #define PWM_2_FLTSRC1_DCMP2 0x00000004 // Digital Comparator 2 #define PWM_2_FLTSRC1_DCMP1 0x00000002 // Digital Comparator 1 #define PWM_2_FLTSRC1_DCMP0 0x00000001 // Digital Comparator 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_MINFLTPER // register. // //***************************************************************************** #define PWM_2_MINFLTPER_MFP_M 0x0000FFFF // Minimum Fault Period #define PWM_2_MINFLTPER_MFP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_CTL register. // //***************************************************************************** #define PWM_3_CTL_LATCH 0x00040000 // Latch Fault Input #define PWM_3_CTL_MINFLTPER 0x00020000 // Minimum Fault Period #define PWM_3_CTL_FLTSRC 0x00010000 // Fault Condition Source #define PWM_3_CTL_DBFALLUPD_M 0x0000C000 // PWMnDBFALL Update Mode #define PWM_3_CTL_DBFALLUPD_I 0x00000000 // Immediate #define PWM_3_CTL_DBFALLUPD_LS 0x00008000 // Locally Synchronized #define PWM_3_CTL_DBFALLUPD_GS 0x0000C000 // Globally Synchronized #define PWM_3_CTL_DBRISEUPD_M 0x00003000 // PWMnDBRISE Update Mode #define PWM_3_CTL_DBRISEUPD_I 0x00000000 // Immediate #define PWM_3_CTL_DBRISEUPD_LS 0x00002000 // Locally Synchronized #define PWM_3_CTL_DBRISEUPD_GS 0x00003000 // Globally Synchronized #define PWM_3_CTL_DBCTLUPD_M 0x00000C00 // PWMnDBCTL Update Mode #define PWM_3_CTL_DBCTLUPD_I 0x00000000 // Immediate #define PWM_3_CTL_DBCTLUPD_LS 0x00000800 // Locally Synchronized #define PWM_3_CTL_DBCTLUPD_GS 0x00000C00 // Globally Synchronized #define PWM_3_CTL_GENBUPD_M 0x00000300 // PWMnGENB Update Mode #define PWM_3_CTL_GENBUPD_I 0x00000000 // Immediate #define PWM_3_CTL_GENBUPD_LS 0x00000200 // Locally Synchronized #define PWM_3_CTL_GENBUPD_GS 0x00000300 // Globally Synchronized #define PWM_3_CTL_GENAUPD_M 0x000000C0 // PWMnGENA Update Mode #define PWM_3_CTL_GENAUPD_I 0x00000000 // Immediate #define PWM_3_CTL_GENAUPD_LS 0x00000080 // Locally Synchronized #define PWM_3_CTL_GENAUPD_GS 0x000000C0 // Globally Synchronized #define PWM_3_CTL_CMPBUPD 0x00000020 // Comparator B Update Mode #define PWM_3_CTL_CMPAUPD 0x00000010 // Comparator A Update Mode #define PWM_3_CTL_LOADUPD 0x00000008 // Load Register Update Mode #define PWM_3_CTL_DEBUG 0x00000004 // Debug Mode #define PWM_3_CTL_MODE 0x00000002 // Counter Mode #define PWM_3_CTL_ENABLE 0x00000001 // PWM Block Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_INTEN register. // //***************************************************************************** #define PWM_3_INTEN_TRCMPBD 0x00002000 // Trigger for Counter=PWMnCMPB // Down #define PWM_3_INTEN_TRCMPBU 0x00001000 // Trigger for Counter=PWMnCMPB Up #define PWM_3_INTEN_TRCMPAD 0x00000800 // Trigger for Counter=PWMnCMPA // Down #define PWM_3_INTEN_TRCMPAU 0x00000400 // Trigger for Counter=PWMnCMPA Up #define PWM_3_INTEN_TRCNTLOAD 0x00000200 // Trigger for Counter=PWMnLOAD #define PWM_3_INTEN_TRCNTZERO 0x00000100 // Trigger for Counter=0 #define PWM_3_INTEN_INTCMPBD 0x00000020 // Interrupt for Counter=PWMnCMPB // Down #define PWM_3_INTEN_INTCMPBU 0x00000010 // Interrupt for Counter=PWMnCMPB // Up #define PWM_3_INTEN_INTCMPAD 0x00000008 // Interrupt for Counter=PWMnCMPA // Down #define PWM_3_INTEN_INTCMPAU 0x00000004 // Interrupt for Counter=PWMnCMPA // Up #define PWM_3_INTEN_INTCNTLOAD 0x00000002 // Interrupt for Counter=PWMnLOAD #define PWM_3_INTEN_INTCNTZERO 0x00000001 // Interrupt for Counter=0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_RIS register. // //***************************************************************************** #define PWM_3_RIS_INTCMPBD 0x00000020 // Comparator B Down Interrupt // Status #define PWM_3_RIS_INTCMPBU 0x00000010 // Comparator B Up Interrupt Status #define PWM_3_RIS_INTCMPAD 0x00000008 // Comparator A Down Interrupt // Status #define PWM_3_RIS_INTCMPAU 0x00000004 // Comparator A Up Interrupt Status #define PWM_3_RIS_INTCNTLOAD 0x00000002 // Counter=Load Interrupt Status #define PWM_3_RIS_INTCNTZERO 0x00000001 // Counter=0 Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_ISC register. // //***************************************************************************** #define PWM_3_ISC_INTCMPBD 0x00000020 // Comparator B Down Interrupt #define PWM_3_ISC_INTCMPBU 0x00000010 // Comparator B Up Interrupt #define PWM_3_ISC_INTCMPAD 0x00000008 // Comparator A Down Interrupt #define PWM_3_ISC_INTCMPAU 0x00000004 // Comparator A Up Interrupt #define PWM_3_ISC_INTCNTLOAD 0x00000002 // Counter=Load Interrupt #define PWM_3_ISC_INTCNTZERO 0x00000001 // Counter=0 Interrupt //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_LOAD register. // //***************************************************************************** #define PWM_3_LOAD_LOAD_M 0x0000FFFF // Counter Load Value #define PWM_3_LOAD_LOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_COUNT register. // //***************************************************************************** #define PWM_3_COUNT_COUNT_M 0x0000FFFF // Counter Value #define PWM_3_COUNT_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_CMPA register. // //***************************************************************************** #define PWM_3_CMPA_COMPA_M 0x0000FFFF // Comparator A Value #define PWM_3_CMPA_COMPA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_CMPB register. // //***************************************************************************** #define PWM_3_CMPB_COMPB_M 0x0000FFFF // Comparator B Value #define PWM_3_CMPB_COMPB_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_GENA register. // //***************************************************************************** #define PWM_3_GENA_ACTCMPBD_M 0x00000C00 // Action for Comparator B Down #define PWM_3_GENA_ACTCMPBD_NONE \ 0x00000000 // Do nothing #define PWM_3_GENA_ACTCMPBD_INV 0x00000400 // Invert pwmA #define PWM_3_GENA_ACTCMPBD_ZERO \ 0x00000800 // Drive pwmA Low #define PWM_3_GENA_ACTCMPBD_ONE 0x00000C00 // Drive pwmA High #define PWM_3_GENA_ACTCMPBU_M 0x00000300 // Action for Comparator B Up #define PWM_3_GENA_ACTCMPBU_NONE \ 0x00000000 // Do nothing #define PWM_3_GENA_ACTCMPBU_INV 0x00000100 // Invert pwmA #define PWM_3_GENA_ACTCMPBU_ZERO \ 0x00000200 // Drive pwmA Low #define PWM_3_GENA_ACTCMPBU_ONE 0x00000300 // Drive pwmA High #define PWM_3_GENA_ACTCMPAD_M 0x000000C0 // Action for Comparator A Down #define PWM_3_GENA_ACTCMPAD_NONE \ 0x00000000 // Do nothing #define PWM_3_GENA_ACTCMPAD_INV 0x00000040 // Invert pwmA #define PWM_3_GENA_ACTCMPAD_ZERO \ 0x00000080 // Drive pwmA Low #define PWM_3_GENA_ACTCMPAD_ONE 0x000000C0 // Drive pwmA High #define PWM_3_GENA_ACTCMPAU_M 0x00000030 // Action for Comparator A Up #define PWM_3_GENA_ACTCMPAU_NONE \ 0x00000000 // Do nothing #define PWM_3_GENA_ACTCMPAU_INV 0x00000010 // Invert pwmA #define PWM_3_GENA_ACTCMPAU_ZERO \ 0x00000020 // Drive pwmA Low #define PWM_3_GENA_ACTCMPAU_ONE 0x00000030 // Drive pwmA High #define PWM_3_GENA_ACTLOAD_M 0x0000000C // Action for Counter=LOAD #define PWM_3_GENA_ACTLOAD_NONE 0x00000000 // Do nothing #define PWM_3_GENA_ACTLOAD_INV 0x00000004 // Invert pwmA #define PWM_3_GENA_ACTLOAD_ZERO 0x00000008 // Drive pwmA Low #define PWM_3_GENA_ACTLOAD_ONE 0x0000000C // Drive pwmA High #define PWM_3_GENA_ACTZERO_M 0x00000003 // Action for Counter=0 #define PWM_3_GENA_ACTZERO_NONE 0x00000000 // Do nothing #define PWM_3_GENA_ACTZERO_INV 0x00000001 // Invert pwmA #define PWM_3_GENA_ACTZERO_ZERO 0x00000002 // Drive pwmA Low #define PWM_3_GENA_ACTZERO_ONE 0x00000003 // Drive pwmA High //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_GENB register. // //***************************************************************************** #define PWM_3_GENB_ACTCMPBD_M 0x00000C00 // Action for Comparator B Down #define PWM_3_GENB_ACTCMPBD_NONE \ 0x00000000 // Do nothing #define PWM_3_GENB_ACTCMPBD_INV 0x00000400 // Invert pwmB #define PWM_3_GENB_ACTCMPBD_ZERO \ 0x00000800 // Drive pwmB Low #define PWM_3_GENB_ACTCMPBD_ONE 0x00000C00 // Drive pwmB High #define PWM_3_GENB_ACTCMPBU_M 0x00000300 // Action for Comparator B Up #define PWM_3_GENB_ACTCMPBU_NONE \ 0x00000000 // Do nothing #define PWM_3_GENB_ACTCMPBU_INV 0x00000100 // Invert pwmB #define PWM_3_GENB_ACTCMPBU_ZERO \ 0x00000200 // Drive pwmB Low #define PWM_3_GENB_ACTCMPBU_ONE 0x00000300 // Drive pwmB High #define PWM_3_GENB_ACTCMPAD_M 0x000000C0 // Action for Comparator A Down #define PWM_3_GENB_ACTCMPAD_NONE \ 0x00000000 // Do nothing #define PWM_3_GENB_ACTCMPAD_INV 0x00000040 // Invert pwmB #define PWM_3_GENB_ACTCMPAD_ZERO \ 0x00000080 // Drive pwmB Low #define PWM_3_GENB_ACTCMPAD_ONE 0x000000C0 // Drive pwmB High #define PWM_3_GENB_ACTCMPAU_M 0x00000030 // Action for Comparator A Up #define PWM_3_GENB_ACTCMPAU_NONE \ 0x00000000 // Do nothing #define PWM_3_GENB_ACTCMPAU_INV 0x00000010 // Invert pwmB #define PWM_3_GENB_ACTCMPAU_ZERO \ 0x00000020 // Drive pwmB Low #define PWM_3_GENB_ACTCMPAU_ONE 0x00000030 // Drive pwmB High #define PWM_3_GENB_ACTLOAD_M 0x0000000C // Action for Counter=LOAD #define PWM_3_GENB_ACTLOAD_NONE 0x00000000 // Do nothing #define PWM_3_GENB_ACTLOAD_INV 0x00000004 // Invert pwmB #define PWM_3_GENB_ACTLOAD_ZERO 0x00000008 // Drive pwmB Low #define PWM_3_GENB_ACTLOAD_ONE 0x0000000C // Drive pwmB High #define PWM_3_GENB_ACTZERO_M 0x00000003 // Action for Counter=0 #define PWM_3_GENB_ACTZERO_NONE 0x00000000 // Do nothing #define PWM_3_GENB_ACTZERO_INV 0x00000001 // Invert pwmB #define PWM_3_GENB_ACTZERO_ZERO 0x00000002 // Drive pwmB Low #define PWM_3_GENB_ACTZERO_ONE 0x00000003 // Drive pwmB High //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_DBCTL register. // //***************************************************************************** #define PWM_3_DBCTL_ENABLE 0x00000001 // Dead-Band Generator Enable //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_DBRISE register. // //***************************************************************************** #define PWM_3_DBRISE_RISEDELAY_M \ 0x00000FFF // Dead-Band Rise Delay #define PWM_3_DBRISE_RISEDELAY_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_DBFALL register. // //***************************************************************************** #define PWM_3_DBFALL_FALLDELAY_M \ 0x00000FFF // Dead-Band Fall Delay #define PWM_3_DBFALL_FALLDELAY_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_FLTSRC0 // register. // //***************************************************************************** #define PWM_3_FLTSRC0_FAULT3 0x00000008 // Fault3 Input #define PWM_3_FLTSRC0_FAULT2 0x00000004 // Fault2 Input #define PWM_3_FLTSRC0_FAULT1 0x00000002 // Fault1 Input #define PWM_3_FLTSRC0_FAULT0 0x00000001 // Fault0 Input //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_FLTSRC1 // register. // //***************************************************************************** #define PWM_3_FLTSRC1_DCMP7 0x00000080 // Digital Comparator 7 #define PWM_3_FLTSRC1_DCMP6 0x00000040 // Digital Comparator 6 #define PWM_3_FLTSRC1_DCMP5 0x00000020 // Digital Comparator 5 #define PWM_3_FLTSRC1_DCMP4 0x00000010 // Digital Comparator 4 #define PWM_3_FLTSRC1_DCMP3 0x00000008 // Digital Comparator 3 #define PWM_3_FLTSRC1_DCMP2 0x00000004 // Digital Comparator 2 #define PWM_3_FLTSRC1_DCMP1 0x00000002 // Digital Comparator 1 #define PWM_3_FLTSRC1_DCMP0 0x00000001 // Digital Comparator 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_MINFLTPER // register. // //***************************************************************************** #define PWM_3_MINFLTPER_MFP_M 0x0000FFFF // Minimum Fault Period #define PWM_3_MINFLTPER_MFP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_FLTSEN register. // //***************************************************************************** #define PWM_0_FLTSEN_FAULT3 0x00000008 // Fault3 Sense #define PWM_0_FLTSEN_FAULT2 0x00000004 // Fault2 Sense #define PWM_0_FLTSEN_FAULT1 0x00000002 // Fault1 Sense #define PWM_0_FLTSEN_FAULT0 0x00000001 // Fault0 Sense //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_FLTSTAT0 // register. // //***************************************************************************** #define PWM_0_FLTSTAT0_FAULT3 0x00000008 // Fault Input 3 #define PWM_0_FLTSTAT0_FAULT2 0x00000004 // Fault Input 2 #define PWM_0_FLTSTAT0_FAULT1 0x00000002 // Fault Input 1 #define PWM_0_FLTSTAT0_FAULT0 0x00000001 // Fault Input 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_0_FLTSTAT1 // register. // //***************************************************************************** #define PWM_0_FLTSTAT1_DCMP7 0x00000080 // Digital Comparator 7 Trigger #define PWM_0_FLTSTAT1_DCMP6 0x00000040 // Digital Comparator 6 Trigger #define PWM_0_FLTSTAT1_DCMP5 0x00000020 // Digital Comparator 5 Trigger #define PWM_0_FLTSTAT1_DCMP4 0x00000010 // Digital Comparator 4 Trigger #define PWM_0_FLTSTAT1_DCMP3 0x00000008 // Digital Comparator 3 Trigger #define PWM_0_FLTSTAT1_DCMP2 0x00000004 // Digital Comparator 2 Trigger #define PWM_0_FLTSTAT1_DCMP1 0x00000002 // Digital Comparator 1 Trigger #define PWM_0_FLTSTAT1_DCMP0 0x00000001 // Digital Comparator 0 Trigger //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_FLTSEN register. // //***************************************************************************** #define PWM_1_FLTSEN_FAULT3 0x00000008 // Fault3 Sense #define PWM_1_FLTSEN_FAULT2 0x00000004 // Fault2 Sense #define PWM_1_FLTSEN_FAULT1 0x00000002 // Fault1 Sense #define PWM_1_FLTSEN_FAULT0 0x00000001 // Fault0 Sense //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_FLTSTAT0 // register. // //***************************************************************************** #define PWM_1_FLTSTAT0_FAULT3 0x00000008 // Fault Input 3 #define PWM_1_FLTSTAT0_FAULT2 0x00000004 // Fault Input 2 #define PWM_1_FLTSTAT0_FAULT1 0x00000002 // Fault Input 1 #define PWM_1_FLTSTAT0_FAULT0 0x00000001 // Fault Input 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_1_FLTSTAT1 // register. // //***************************************************************************** #define PWM_1_FLTSTAT1_DCMP7 0x00000080 // Digital Comparator 7 Trigger #define PWM_1_FLTSTAT1_DCMP6 0x00000040 // Digital Comparator 6 Trigger #define PWM_1_FLTSTAT1_DCMP5 0x00000020 // Digital Comparator 5 Trigger #define PWM_1_FLTSTAT1_DCMP4 0x00000010 // Digital Comparator 4 Trigger #define PWM_1_FLTSTAT1_DCMP3 0x00000008 // Digital Comparator 3 Trigger #define PWM_1_FLTSTAT1_DCMP2 0x00000004 // Digital Comparator 2 Trigger #define PWM_1_FLTSTAT1_DCMP1 0x00000002 // Digital Comparator 1 Trigger #define PWM_1_FLTSTAT1_DCMP0 0x00000001 // Digital Comparator 0 Trigger //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_FLTSEN register. // //***************************************************************************** #define PWM_2_FLTSEN_FAULT3 0x00000008 // Fault3 Sense #define PWM_2_FLTSEN_FAULT2 0x00000004 // Fault2 Sense #define PWM_2_FLTSEN_FAULT1 0x00000002 // Fault1 Sense #define PWM_2_FLTSEN_FAULT0 0x00000001 // Fault0 Sense //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_FLTSTAT0 // register. // //***************************************************************************** #define PWM_2_FLTSTAT0_FAULT3 0x00000008 // Fault Input 3 #define PWM_2_FLTSTAT0_FAULT2 0x00000004 // Fault Input 2 #define PWM_2_FLTSTAT0_FAULT1 0x00000002 // Fault Input 1 #define PWM_2_FLTSTAT0_FAULT0 0x00000001 // Fault Input 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_2_FLTSTAT1 // register. // //***************************************************************************** #define PWM_2_FLTSTAT1_DCMP7 0x00000080 // Digital Comparator 7 Trigger #define PWM_2_FLTSTAT1_DCMP6 0x00000040 // Digital Comparator 6 Trigger #define PWM_2_FLTSTAT1_DCMP5 0x00000020 // Digital Comparator 5 Trigger #define PWM_2_FLTSTAT1_DCMP4 0x00000010 // Digital Comparator 4 Trigger #define PWM_2_FLTSTAT1_DCMP3 0x00000008 // Digital Comparator 3 Trigger #define PWM_2_FLTSTAT1_DCMP2 0x00000004 // Digital Comparator 2 Trigger #define PWM_2_FLTSTAT1_DCMP1 0x00000002 // Digital Comparator 1 Trigger #define PWM_2_FLTSTAT1_DCMP0 0x00000001 // Digital Comparator 0 Trigger //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_FLTSEN register. // //***************************************************************************** #define PWM_3_FLTSEN_FAULT3 0x00000008 // Fault3 Sense #define PWM_3_FLTSEN_FAULT2 0x00000004 // Fault2 Sense #define PWM_3_FLTSEN_FAULT1 0x00000002 // Fault1 Sense #define PWM_3_FLTSEN_FAULT0 0x00000001 // Fault0 Sense //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_FLTSTAT0 // register. // //***************************************************************************** #define PWM_3_FLTSTAT0_FAULT3 0x00000008 // Fault Input 3 #define PWM_3_FLTSTAT0_FAULT2 0x00000004 // Fault Input 2 #define PWM_3_FLTSTAT0_FAULT1 0x00000002 // Fault Input 1 #define PWM_3_FLTSTAT0_FAULT0 0x00000001 // Fault Input 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_3_FLTSTAT1 // register. // //***************************************************************************** #define PWM_3_FLTSTAT1_DCMP7 0x00000080 // Digital Comparator 7 Trigger #define PWM_3_FLTSTAT1_DCMP6 0x00000040 // Digital Comparator 6 Trigger #define PWM_3_FLTSTAT1_DCMP5 0x00000020 // Digital Comparator 5 Trigger #define PWM_3_FLTSTAT1_DCMP4 0x00000010 // Digital Comparator 4 Trigger #define PWM_3_FLTSTAT1_DCMP3 0x00000008 // Digital Comparator 3 Trigger #define PWM_3_FLTSTAT1_DCMP2 0x00000004 // Digital Comparator 2 Trigger #define PWM_3_FLTSTAT1_DCMP1 0x00000002 // Digital Comparator 1 Trigger #define PWM_3_FLTSTAT1_DCMP0 0x00000001 // Digital Comparator 0 Trigger //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_PP register. // //***************************************************************************** #define PWM_PP_ONE 0x00000400 // One-Shot Mode #define PWM_PP_EFAULT 0x00000200 // Extended Fault #define PWM_PP_ESYNC 0x00000100 // Extended Synchronization #define PWM_PP_FCNT_M 0x000000F0 // Fault Inputs (per PWM unit) #define PWM_PP_GCNT_M 0x0000000F // Generators #define PWM_PP_FCNT_S 4 #define PWM_PP_GCNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the PWM_O_CC register. // //***************************************************************************** #define PWM_CC_USEPWM 0x00000100 // Use PWM Clock Divisor #define PWM_CC_PWMDIV_M 0x00000007 // PWM Clock Divider #define PWM_CC_PWMDIV_2 0x00000000 // /2 #define PWM_CC_PWMDIV_4 0x00000001 // /4 #define PWM_CC_PWMDIV_8 0x00000002 // /8 #define PWM_CC_PWMDIV_16 0x00000003 // /16 #define PWM_CC_PWMDIV_32 0x00000004 // /32 #define PWM_CC_PWMDIV_64 0x00000005 // /64 //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_CTL register. // //***************************************************************************** #define QEI_CTL_FILTCNT_M 0x000F0000 // Input Filter Prescale Count #define QEI_CTL_FILTEN 0x00002000 // Enable Input Filter #define QEI_CTL_STALLEN 0x00001000 // Stall QEI #define QEI_CTL_INVI 0x00000800 // Invert Index Pulse #define QEI_CTL_INVB 0x00000400 // Invert PhB #define QEI_CTL_INVA 0x00000200 // Invert PhA #define QEI_CTL_VELDIV_M 0x000001C0 // Predivide Velocity #define QEI_CTL_VELDIV_1 0x00000000 // QEI clock /1 #define QEI_CTL_VELDIV_2 0x00000040 // QEI clock /2 #define QEI_CTL_VELDIV_4 0x00000080 // QEI clock /4 #define QEI_CTL_VELDIV_8 0x000000C0 // QEI clock /8 #define QEI_CTL_VELDIV_16 0x00000100 // QEI clock /16 #define QEI_CTL_VELDIV_32 0x00000140 // QEI clock /32 #define QEI_CTL_VELDIV_64 0x00000180 // QEI clock /64 #define QEI_CTL_VELDIV_128 0x000001C0 // QEI clock /128 #define QEI_CTL_VELEN 0x00000020 // Capture Velocity #define QEI_CTL_RESMODE 0x00000010 // Reset Mode #define QEI_CTL_CAPMODE 0x00000008 // Capture Mode #define QEI_CTL_SIGMODE 0x00000004 // Signal Mode #define QEI_CTL_SWAP 0x00000002 // Swap Signals #define QEI_CTL_ENABLE 0x00000001 // Enable QEI #define QEI_CTL_FILTCNT_S 16 //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_STAT register. // //***************************************************************************** #define QEI_STAT_DIRECTION 0x00000002 // Direction of Rotation #define QEI_STAT_ERROR 0x00000001 // Error Detected //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_POS register. // //***************************************************************************** #define QEI_POS_M 0xFFFFFFFF // Current Position Integrator // Value #define QEI_POS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_MAXPOS register. // //***************************************************************************** #define QEI_MAXPOS_M 0xFFFFFFFF // Maximum Position Integrator // Value #define QEI_MAXPOS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_LOAD register. // //***************************************************************************** #define QEI_LOAD_M 0xFFFFFFFF // Velocity Timer Load Value #define QEI_LOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_TIME register. // //***************************************************************************** #define QEI_TIME_M 0xFFFFFFFF // Velocity Timer Current Value #define QEI_TIME_S 0 //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_COUNT register. // //***************************************************************************** #define QEI_COUNT_M 0xFFFFFFFF // Velocity Pulse Count #define QEI_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_SPEED register. // //***************************************************************************** #define QEI_SPEED_M 0xFFFFFFFF // Velocity #define QEI_SPEED_S 0 //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_INTEN register. // //***************************************************************************** #define QEI_INTEN_ERROR 0x00000008 // Phase Error Interrupt Enable #define QEI_INTEN_DIR 0x00000004 // Direction Change Interrupt // Enable #define QEI_INTEN_TIMER 0x00000002 // Timer Expires Interrupt Enable #define QEI_INTEN_INDEX 0x00000001 // Index Pulse Detected Interrupt // Enable //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_RIS register. // //***************************************************************************** #define QEI_RIS_ERROR 0x00000008 // Phase Error Detected #define QEI_RIS_DIR 0x00000004 // Direction Change Detected #define QEI_RIS_TIMER 0x00000002 // Velocity Timer Expired #define QEI_RIS_INDEX 0x00000001 // Index Pulse Asserted //***************************************************************************** // // The following are defines for the bit fields in the QEI_O_ISC register. // //***************************************************************************** #define QEI_ISC_ERROR 0x00000008 // Phase Error Interrupt #define QEI_ISC_DIR 0x00000004 // Direction Change Interrupt #define QEI_ISC_TIMER 0x00000002 // Velocity Timer Expired Interrupt #define QEI_ISC_INDEX 0x00000001 // Index Pulse Interrupt //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_CFG register. // //***************************************************************************** #define TIMER_CFG_M 0x00000007 // GPTM Configuration #define TIMER_CFG_32_BIT_TIMER 0x00000000 // For a 16/32-bit timer, this // value selects the 32-bit timer // configuration #define TIMER_CFG_32_BIT_RTC 0x00000001 // For a 16/32-bit timer, this // value selects the 32-bit // real-time clock (RTC) counter // configuration #define TIMER_CFG_16_BIT 0x00000004 // For a 16/32-bit timer, this // value selects the 16-bit timer // configuration //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TAMR register. // //***************************************************************************** #define TIMER_TAMR_TCACT_M 0x0000E000 // Timer Compare Action Select #define TIMER_TAMR_TCACT_NONE 0x00000000 // Disable compare operations #define TIMER_TAMR_TCACT_TOGGLE 0x00002000 // Toggle State on Time-Out #define TIMER_TAMR_TCACT_CLRTO 0x00004000 // Clear CCP on Time-Out #define TIMER_TAMR_TCACT_SETTO 0x00006000 // Set CCP on Time-Out #define TIMER_TAMR_TCACT_SETTOGTO \ 0x00008000 // Set CCP immediately and toggle // on Time-Out #define TIMER_TAMR_TCACT_CLRTOGTO \ 0x0000A000 // Clear CCP immediately and toggle // on Time-Out #define TIMER_TAMR_TCACT_SETCLRTO \ 0x0000C000 // Set CCP immediately and clear on // Time-Out #define TIMER_TAMR_TCACT_CLRSETTO \ 0x0000E000 // Clear CCP immediately and set on // Time-Out #define TIMER_TAMR_TACINTD 0x00001000 // One-shot/Periodic Interrupt // Disable #define TIMER_TAMR_TAPLO 0x00000800 // GPTM Timer A PWM Legacy // Operation #define TIMER_TAMR_TAMRSU 0x00000400 // GPTM Timer A Match Register // Update #define TIMER_TAMR_TAPWMIE 0x00000200 // GPTM Timer A PWM Interrupt // Enable #define TIMER_TAMR_TAILD 0x00000100 // GPTM Timer A Interval Load Write #define TIMER_TAMR_TASNAPS 0x00000080 // GPTM Timer A Snap-Shot Mode #define TIMER_TAMR_TAWOT 0x00000040 // GPTM Timer A Wait-on-Trigger #define TIMER_TAMR_TAMIE 0x00000020 // GPTM Timer A Match Interrupt // Enable #define TIMER_TAMR_TACDIR 0x00000010 // GPTM Timer A Count Direction #define TIMER_TAMR_TAAMS 0x00000008 // GPTM Timer A Alternate Mode // Select #define TIMER_TAMR_TACMR 0x00000004 // GPTM Timer A Capture Mode #define TIMER_TAMR_TAMR_M 0x00000003 // GPTM Timer A Mode #define TIMER_TAMR_TAMR_1_SHOT 0x00000001 // One-Shot Timer mode #define TIMER_TAMR_TAMR_PERIOD 0x00000002 // Periodic Timer mode #define TIMER_TAMR_TAMR_CAP 0x00000003 // Capture mode //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TBMR register. // //***************************************************************************** #define TIMER_TBMR_TCACT_M 0x0000E000 // Timer Compare Action Select #define TIMER_TBMR_TCACT_NONE 0x00000000 // Disable compare operations #define TIMER_TBMR_TCACT_TOGGLE 0x00002000 // Toggle State on Time-Out #define TIMER_TBMR_TCACT_CLRTO 0x00004000 // Clear CCP on Time-Out #define TIMER_TBMR_TCACT_SETTO 0x00006000 // Set CCP on Time-Out #define TIMER_TBMR_TCACT_SETTOGTO \ 0x00008000 // Set CCP immediately and toggle // on Time-Out #define TIMER_TBMR_TCACT_CLRTOGTO \ 0x0000A000 // Clear CCP immediately and toggle // on Time-Out #define TIMER_TBMR_TCACT_SETCLRTO \ 0x0000C000 // Set CCP immediately and clear on // Time-Out #define TIMER_TBMR_TCACT_CLRSETTO \ 0x0000E000 // Clear CCP immediately and set on // Time-Out #define TIMER_TBMR_TBCINTD 0x00001000 // One-Shot/Periodic Interrupt // Disable #define TIMER_TBMR_TBPLO 0x00000800 // GPTM Timer B PWM Legacy // Operation #define TIMER_TBMR_TBMRSU 0x00000400 // GPTM Timer B Match Register // Update #define TIMER_TBMR_TBPWMIE 0x00000200 // GPTM Timer B PWM Interrupt // Enable #define TIMER_TBMR_TBILD 0x00000100 // GPTM Timer B Interval Load Write #define TIMER_TBMR_TBSNAPS 0x00000080 // GPTM Timer B Snap-Shot Mode #define TIMER_TBMR_TBWOT 0x00000040 // GPTM Timer B Wait-on-Trigger #define TIMER_TBMR_TBMIE 0x00000020 // GPTM Timer B Match Interrupt // Enable #define TIMER_TBMR_TBCDIR 0x00000010 // GPTM Timer B Count Direction #define TIMER_TBMR_TBAMS 0x00000008 // GPTM Timer B Alternate Mode // Select #define TIMER_TBMR_TBCMR 0x00000004 // GPTM Timer B Capture Mode #define TIMER_TBMR_TBMR_M 0x00000003 // GPTM Timer B Mode #define TIMER_TBMR_TBMR_1_SHOT 0x00000001 // One-Shot Timer mode #define TIMER_TBMR_TBMR_PERIOD 0x00000002 // Periodic Timer mode #define TIMER_TBMR_TBMR_CAP 0x00000003 // Capture mode //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_CTL register. // //***************************************************************************** #define TIMER_CTL_TBPWML 0x00004000 // GPTM Timer B PWM Output Level #define TIMER_CTL_TBOTE 0x00002000 // GPTM Timer B Output Trigger // Enable #define TIMER_CTL_TBEVENT_M 0x00000C00 // GPTM Timer B Event Mode #define TIMER_CTL_TBEVENT_POS 0x00000000 // Positive edge #define TIMER_CTL_TBEVENT_NEG 0x00000400 // Negative edge #define TIMER_CTL_TBEVENT_BOTH 0x00000C00 // Both edges #define TIMER_CTL_TBSTALL 0x00000200 // GPTM Timer B Stall Enable #define TIMER_CTL_TBEN 0x00000100 // GPTM Timer B Enable #define TIMER_CTL_TAPWML 0x00000040 // GPTM Timer A PWM Output Level #define TIMER_CTL_TAOTE 0x00000020 // GPTM Timer A Output Trigger // Enable #define TIMER_CTL_RTCEN 0x00000010 // GPTM RTC Stall Enable #define TIMER_CTL_TAEVENT_M 0x0000000C // GPTM Timer A Event Mode #define TIMER_CTL_TAEVENT_POS 0x00000000 // Positive edge #define TIMER_CTL_TAEVENT_NEG 0x00000004 // Negative edge #define TIMER_CTL_TAEVENT_BOTH 0x0000000C // Both edges #define TIMER_CTL_TASTALL 0x00000002 // GPTM Timer A Stall Enable #define TIMER_CTL_TAEN 0x00000001 // GPTM Timer A Enable //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_SYNC register. // //***************************************************************************** #define TIMER_SYNC_SYNCT7_M 0x0000C000 // Synchronize GPTM Timer 7 #define TIMER_SYNC_SYNCT7_NONE 0x00000000 // GPT7 is not affected #define TIMER_SYNC_SYNCT7_TA 0x00004000 // A timeout event for Timer A of // GPTM7 is triggered #define TIMER_SYNC_SYNCT7_TB 0x00008000 // A timeout event for Timer B of // GPTM7 is triggered #define TIMER_SYNC_SYNCT7_TATB 0x0000C000 // A timeout event for both Timer A // and Timer B of GPTM7 is // triggered #define TIMER_SYNC_SYNCT6_M 0x00003000 // Synchronize GPTM Timer 6 #define TIMER_SYNC_SYNCT6_NONE 0x00000000 // GPTM6 is not affected #define TIMER_SYNC_SYNCT6_TA 0x00001000 // A timeout event for Timer A of // GPTM6 is triggered #define TIMER_SYNC_SYNCT6_TB 0x00002000 // A timeout event for Timer B of // GPTM6 is triggered #define TIMER_SYNC_SYNCT6_TATB 0x00003000 // A timeout event for both Timer A // and Timer B of GPTM6 is // triggered #define TIMER_SYNC_SYNCT5_M 0x00000C00 // Synchronize GPTM Timer 5 #define TIMER_SYNC_SYNCT5_NONE 0x00000000 // GPTM5 is not affected #define TIMER_SYNC_SYNCT5_TA 0x00000400 // A timeout event for Timer A of // GPTM5 is triggered #define TIMER_SYNC_SYNCT5_TB 0x00000800 // A timeout event for Timer B of // GPTM5 is triggered #define TIMER_SYNC_SYNCT5_TATB 0x00000C00 // A timeout event for both Timer A // and Timer B of GPTM5 is // triggered #define TIMER_SYNC_SYNCT4_M 0x00000300 // Synchronize GPTM Timer 4 #define TIMER_SYNC_SYNCT4_NONE 0x00000000 // GPTM4 is not affected #define TIMER_SYNC_SYNCT4_TA 0x00000100 // A timeout event for Timer A of // GPTM4 is triggered #define TIMER_SYNC_SYNCT4_TB 0x00000200 // A timeout event for Timer B of // GPTM4 is triggered #define TIMER_SYNC_SYNCT4_TATB 0x00000300 // A timeout event for both Timer A // and Timer B of GPTM4 is // triggered #define TIMER_SYNC_SYNCT3_M 0x000000C0 // Synchronize GPTM Timer 3 #define TIMER_SYNC_SYNCT3_NONE 0x00000000 // GPTM3 is not affected #define TIMER_SYNC_SYNCT3_TA 0x00000040 // A timeout event for Timer A of // GPTM3 is triggered #define TIMER_SYNC_SYNCT3_TB 0x00000080 // A timeout event for Timer B of // GPTM3 is triggered #define TIMER_SYNC_SYNCT3_TATB 0x000000C0 // A timeout event for both Timer A // and Timer B of GPTM3 is // triggered #define TIMER_SYNC_SYNCT2_M 0x00000030 // Synchronize GPTM Timer 2 #define TIMER_SYNC_SYNCT2_NONE 0x00000000 // GPTM2 is not affected #define TIMER_SYNC_SYNCT2_TA 0x00000010 // A timeout event for Timer A of // GPTM2 is triggered #define TIMER_SYNC_SYNCT2_TB 0x00000020 // A timeout event for Timer B of // GPTM2 is triggered #define TIMER_SYNC_SYNCT2_TATB 0x00000030 // A timeout event for both Timer A // and Timer B of GPTM2 is // triggered #define TIMER_SYNC_SYNCT1_M 0x0000000C // Synchronize GPTM Timer 1 #define TIMER_SYNC_SYNCT1_NONE 0x00000000 // GPTM1 is not affected #define TIMER_SYNC_SYNCT1_TA 0x00000004 // A timeout event for Timer A of // GPTM1 is triggered #define TIMER_SYNC_SYNCT1_TB 0x00000008 // A timeout event for Timer B of // GPTM1 is triggered #define TIMER_SYNC_SYNCT1_TATB 0x0000000C // A timeout event for both Timer A // and Timer B of GPTM1 is // triggered #define TIMER_SYNC_SYNCT0_M 0x00000003 // Synchronize GPTM Timer 0 #define TIMER_SYNC_SYNCT0_NONE 0x00000000 // GPTM0 is not affected #define TIMER_SYNC_SYNCT0_TA 0x00000001 // A timeout event for Timer A of // GPTM0 is triggered #define TIMER_SYNC_SYNCT0_TB 0x00000002 // A timeout event for Timer B of // GPTM0 is triggered #define TIMER_SYNC_SYNCT0_TATB 0x00000003 // A timeout event for both Timer A // and Timer B of GPTM0 is // triggered //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_IMR register. // //***************************************************************************** #define TIMER_IMR_DMABIM 0x00002000 // GPTM Timer B DMA Done Interrupt // Mask #define TIMER_IMR_TBMIM 0x00000800 // GPTM Timer B Match Interrupt // Mask #define TIMER_IMR_CBEIM 0x00000400 // GPTM Timer B Capture Mode Event // Interrupt Mask #define TIMER_IMR_CBMIM 0x00000200 // GPTM Timer B Capture Mode Match // Interrupt Mask #define TIMER_IMR_TBTOIM 0x00000100 // GPTM Timer B Time-Out Interrupt // Mask #define TIMER_IMR_DMAAIM 0x00000020 // GPTM Timer A DMA Done Interrupt // Mask #define TIMER_IMR_TAMIM 0x00000010 // GPTM Timer A Match Interrupt // Mask #define TIMER_IMR_RTCIM 0x00000008 // GPTM RTC Interrupt Mask #define TIMER_IMR_CAEIM 0x00000004 // GPTM Timer A Capture Mode Event // Interrupt Mask #define TIMER_IMR_CAMIM 0x00000002 // GPTM Timer A Capture Mode Match // Interrupt Mask #define TIMER_IMR_TATOIM 0x00000001 // GPTM Timer A Time-Out Interrupt // Mask //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_RIS register. // //***************************************************************************** #define TIMER_RIS_DMABRIS 0x00002000 // GPTM Timer B DMA Done Raw // Interrupt Status #define TIMER_RIS_TBMRIS 0x00000800 // GPTM Timer B Match Raw Interrupt #define TIMER_RIS_CBERIS 0x00000400 // GPTM Timer B Capture Mode Event // Raw Interrupt #define TIMER_RIS_CBMRIS 0x00000200 // GPTM Timer B Capture Mode Match // Raw Interrupt #define TIMER_RIS_TBTORIS 0x00000100 // GPTM Timer B Time-Out Raw // Interrupt #define TIMER_RIS_DMAARIS 0x00000020 // GPTM Timer A DMA Done Raw // Interrupt Status #define TIMER_RIS_TAMRIS 0x00000010 // GPTM Timer A Match Raw Interrupt #define TIMER_RIS_RTCRIS 0x00000008 // GPTM RTC Raw Interrupt #define TIMER_RIS_CAERIS 0x00000004 // GPTM Timer A Capture Mode Event // Raw Interrupt #define TIMER_RIS_CAMRIS 0x00000002 // GPTM Timer A Capture Mode Match // Raw Interrupt #define TIMER_RIS_TATORIS 0x00000001 // GPTM Timer A Time-Out Raw // Interrupt //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_MIS register. // //***************************************************************************** #define TIMER_MIS_DMABMIS 0x00002000 // GPTM Timer B DMA Done Masked // Interrupt #define TIMER_MIS_TBMMIS 0x00000800 // GPTM Timer B Match Masked // Interrupt #define TIMER_MIS_CBEMIS 0x00000400 // GPTM Timer B Capture Mode Event // Masked Interrupt #define TIMER_MIS_CBMMIS 0x00000200 // GPTM Timer B Capture Mode Match // Masked Interrupt #define TIMER_MIS_TBTOMIS 0x00000100 // GPTM Timer B Time-Out Masked // Interrupt #define TIMER_MIS_DMAAMIS 0x00000020 // GPTM Timer A DMA Done Masked // Interrupt #define TIMER_MIS_TAMMIS 0x00000010 // GPTM Timer A Match Masked // Interrupt #define TIMER_MIS_RTCMIS 0x00000008 // GPTM RTC Masked Interrupt #define TIMER_MIS_CAEMIS 0x00000004 // GPTM Timer A Capture Mode Event // Masked Interrupt #define TIMER_MIS_CAMMIS 0x00000002 // GPTM Timer A Capture Mode Match // Masked Interrupt #define TIMER_MIS_TATOMIS 0x00000001 // GPTM Timer A Time-Out Masked // Interrupt //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_ICR register. // //***************************************************************************** #define TIMER_ICR_DMABINT 0x00002000 // GPTM Timer B DMA Done Interrupt // Clear #define TIMER_ICR_TBMCINT 0x00000800 // GPTM Timer B Match Interrupt // Clear #define TIMER_ICR_CBECINT 0x00000400 // GPTM Timer B Capture Mode Event // Interrupt Clear #define TIMER_ICR_CBMCINT 0x00000200 // GPTM Timer B Capture Mode Match // Interrupt Clear #define TIMER_ICR_TBTOCINT 0x00000100 // GPTM Timer B Time-Out Interrupt // Clear #define TIMER_ICR_DMAAINT 0x00000020 // GPTM Timer A DMA Done Interrupt // Clear #define TIMER_ICR_TAMCINT 0x00000010 // GPTM Timer A Match Interrupt // Clear #define TIMER_ICR_RTCCINT 0x00000008 // GPTM RTC Interrupt Clear #define TIMER_ICR_CAECINT 0x00000004 // GPTM Timer A Capture Mode Event // Interrupt Clear #define TIMER_ICR_CAMCINT 0x00000002 // GPTM Timer A Capture Mode Match // Interrupt Clear #define TIMER_ICR_TATOCINT 0x00000001 // GPTM Timer A Time-Out Raw // Interrupt //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TAILR register. // //***************************************************************************** #define TIMER_TAILR_M 0xFFFFFFFF // GPTM Timer A Interval Load // Register #define TIMER_TAILR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TBILR register. // //***************************************************************************** #define TIMER_TBILR_M 0xFFFFFFFF // GPTM Timer B Interval Load // Register #define TIMER_TBILR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TAMATCHR // register. // //***************************************************************************** #define TIMER_TAMATCHR_TAMR_M 0xFFFFFFFF // GPTM Timer A Match Register #define TIMER_TAMATCHR_TAMR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TBMATCHR // register. // //***************************************************************************** #define TIMER_TBMATCHR_TBMR_M 0xFFFFFFFF // GPTM Timer B Match Register #define TIMER_TBMATCHR_TBMR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TAPR register. // //***************************************************************************** #define TIMER_TAPR_TAPSR_M 0x000000FF // GPTM Timer A Prescale #define TIMER_TAPR_TAPSR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TBPR register. // //***************************************************************************** #define TIMER_TBPR_TBPSR_M 0x000000FF // GPTM Timer B Prescale #define TIMER_TBPR_TBPSR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TAPMR register. // //***************************************************************************** #define TIMER_TAPMR_TAPSMR_M 0x000000FF // GPTM TimerA Prescale Match #define TIMER_TAPMR_TAPSMR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TBPMR register. // //***************************************************************************** #define TIMER_TBPMR_TBPSMR_M 0x000000FF // GPTM TimerB Prescale Match #define TIMER_TBPMR_TBPSMR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TAR register. // //***************************************************************************** #define TIMER_TAR_M 0xFFFFFFFF // GPTM Timer A Register #define TIMER_TAR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TBR register. // //***************************************************************************** #define TIMER_TBR_M 0xFFFFFFFF // GPTM Timer B Register #define TIMER_TBR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TAV register. // //***************************************************************************** #define TIMER_TAV_M 0xFFFFFFFF // GPTM Timer A Value #define TIMER_TAV_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TBV register. // //***************************************************************************** #define TIMER_TBV_M 0xFFFFFFFF // GPTM Timer B Value #define TIMER_TBV_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_RTCPD register. // //***************************************************************************** #define TIMER_RTCPD_RTCPD_M 0x0000FFFF // RTC Predivide Counter Value #define TIMER_RTCPD_RTCPD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TAPS register. // //***************************************************************************** #define TIMER_TAPS_PSS_M 0x0000FFFF // GPTM Timer A Prescaler Snapshot #define TIMER_TAPS_PSS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_TBPS register. // //***************************************************************************** #define TIMER_TBPS_PSS_M 0x0000FFFF // GPTM Timer A Prescaler Value #define TIMER_TBPS_PSS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_DMAEV register. // //***************************************************************************** #define TIMER_DMAEV_TBMDMAEN 0x00000800 // GPTM B Mode Match Event DMA // Trigger Enable #define TIMER_DMAEV_CBEDMAEN 0x00000400 // GPTM B Capture Event DMA Trigger // Enable #define TIMER_DMAEV_CBMDMAEN 0x00000200 // GPTM B Capture Match Event DMA // Trigger Enable #define TIMER_DMAEV_TBTODMAEN 0x00000100 // GPTM B Time-Out Event DMA // Trigger Enable #define TIMER_DMAEV_TAMDMAEN 0x00000010 // GPTM A Mode Match Event DMA // Trigger Enable #define TIMER_DMAEV_RTCDMAEN 0x00000008 // GPTM A RTC Match Event DMA // Trigger Enable #define TIMER_DMAEV_CAEDMAEN 0x00000004 // GPTM A Capture Event DMA Trigger // Enable #define TIMER_DMAEV_CAMDMAEN 0x00000002 // GPTM A Capture Match Event DMA // Trigger Enable #define TIMER_DMAEV_TATODMAEN 0x00000001 // GPTM A Time-Out Event DMA // Trigger Enable //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_ADCEV register. // //***************************************************************************** #define TIMER_ADCEV_TBMADCEN 0x00000800 // GPTM B Mode Match Event ADC // Trigger Enable #define TIMER_ADCEV_CBEADCEN 0x00000400 // GPTM B Capture Event ADC Trigger // Enable #define TIMER_ADCEV_CBMADCEN 0x00000200 // GPTM B Capture Match Event ADC // Trigger Enable #define TIMER_ADCEV_TBTOADCEN 0x00000100 // GPTM B Time-Out Event ADC // Trigger Enable #define TIMER_ADCEV_TAMADCEN 0x00000010 // GPTM A Mode Match Event ADC // Trigger Enable #define TIMER_ADCEV_RTCADCEN 0x00000008 // GPTM RTC Match Event ADC Trigger // Enable #define TIMER_ADCEV_CAEADCEN 0x00000004 // GPTM A Capture Event ADC Trigger // Enable #define TIMER_ADCEV_CAMADCEN 0x00000002 // GPTM A Capture Match Event ADC // Trigger Enable #define TIMER_ADCEV_TATOADCEN 0x00000001 // GPTM A Time-Out Event ADC // Trigger Enable //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_PP register. // //***************************************************************************** #define TIMER_PP_ALTCLK 0x00000040 // Alternate Clock Source #define TIMER_PP_SYNCCNT 0x00000020 // Synchronize Start #define TIMER_PP_CHAIN 0x00000010 // Chain with Other Timers #define TIMER_PP_SIZE_M 0x0000000F // Count Size #define TIMER_PP_SIZE_16 0x00000000 // Timer A and Timer B counters are // 16 bits each with an 8-bit // prescale counter #define TIMER_PP_SIZE_32 0x00000001 // Timer A and Timer B counters are // 32 bits each with a 16-bit // prescale counter //***************************************************************************** // // The following are defines for the bit fields in the TIMER_O_CC register. // //***************************************************************************** #define TIMER_CC_ALTCLK 0x00000001 // Alternate Clock Source //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_ACTSS register. // //***************************************************************************** #define ADC_ACTSS_BUSY 0x00010000 // ADC Busy #define ADC_ACTSS_ADEN3 0x00000800 // ADC SS3 DMA Enable #define ADC_ACTSS_ADEN2 0x00000400 // ADC SS2 DMA Enable #define ADC_ACTSS_ADEN1 0x00000200 // ADC SS1 DMA Enable #define ADC_ACTSS_ADEN0 0x00000100 // ADC SS1 DMA Enable #define ADC_ACTSS_ASEN3 0x00000008 // ADC SS3 Enable #define ADC_ACTSS_ASEN2 0x00000004 // ADC SS2 Enable #define ADC_ACTSS_ASEN1 0x00000002 // ADC SS1 Enable #define ADC_ACTSS_ASEN0 0x00000001 // ADC SS0 Enable //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_RIS register. // //***************************************************************************** #define ADC_RIS_INRDC 0x00010000 // Digital Comparator Raw Interrupt // Status #define ADC_RIS_DMAINR3 0x00000800 // SS3 DMA Raw Interrupt Status #define ADC_RIS_DMAINR2 0x00000400 // SS2 DMA Raw Interrupt Status #define ADC_RIS_DMAINR1 0x00000200 // SS1 DMA Raw Interrupt Status #define ADC_RIS_DMAINR0 0x00000100 // SS0 DMA Raw Interrupt Status #define ADC_RIS_INR3 0x00000008 // SS3 Raw Interrupt Status #define ADC_RIS_INR2 0x00000004 // SS2 Raw Interrupt Status #define ADC_RIS_INR1 0x00000002 // SS1 Raw Interrupt Status #define ADC_RIS_INR0 0x00000001 // SS0 Raw Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_IM register. // //***************************************************************************** #define ADC_IM_DCONSS3 0x00080000 // Digital Comparator Interrupt on // SS3 #define ADC_IM_DCONSS2 0x00040000 // Digital Comparator Interrupt on // SS2 #define ADC_IM_DCONSS1 0x00020000 // Digital Comparator Interrupt on // SS1 #define ADC_IM_DCONSS0 0x00010000 // Digital Comparator Interrupt on // SS0 #define ADC_IM_DMAMASK3 0x00000800 // SS3 DMA Interrupt Mask #define ADC_IM_DMAMASK2 0x00000400 // SS2 DMA Interrupt Mask #define ADC_IM_DMAMASK1 0x00000200 // SS1 DMA Interrupt Mask #define ADC_IM_DMAMASK0 0x00000100 // SS0 DMA Interrupt Mask #define ADC_IM_MASK3 0x00000008 // SS3 Interrupt Mask #define ADC_IM_MASK2 0x00000004 // SS2 Interrupt Mask #define ADC_IM_MASK1 0x00000002 // SS1 Interrupt Mask #define ADC_IM_MASK0 0x00000001 // SS0 Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_ISC register. // //***************************************************************************** #define ADC_ISC_DCINSS3 0x00080000 // Digital Comparator Interrupt // Status on SS3 #define ADC_ISC_DCINSS2 0x00040000 // Digital Comparator Interrupt // Status on SS2 #define ADC_ISC_DCINSS1 0x00020000 // Digital Comparator Interrupt // Status on SS1 #define ADC_ISC_DCINSS0 0x00010000 // Digital Comparator Interrupt // Status on SS0 #define ADC_ISC_DMAIN3 0x00000800 // SS3 DMA Interrupt Status and // Clear #define ADC_ISC_DMAIN2 0x00000400 // SS2 DMA Interrupt Status and // Clear #define ADC_ISC_DMAIN1 0x00000200 // SS1 DMA Interrupt Status and // Clear #define ADC_ISC_DMAIN0 0x00000100 // SS0 DMA Interrupt Status and // Clear #define ADC_ISC_IN3 0x00000008 // SS3 Interrupt Status and Clear #define ADC_ISC_IN2 0x00000004 // SS2 Interrupt Status and Clear #define ADC_ISC_IN1 0x00000002 // SS1 Interrupt Status and Clear #define ADC_ISC_IN0 0x00000001 // SS0 Interrupt Status and Clear //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_OSTAT register. // //***************************************************************************** #define ADC_OSTAT_OV3 0x00000008 // SS3 FIFO Overflow #define ADC_OSTAT_OV2 0x00000004 // SS2 FIFO Overflow #define ADC_OSTAT_OV1 0x00000002 // SS1 FIFO Overflow #define ADC_OSTAT_OV0 0x00000001 // SS0 FIFO Overflow //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_EMUX register. // //***************************************************************************** #define ADC_EMUX_EM3_M 0x0000F000 // SS3 Trigger Select #define ADC_EMUX_EM3_PROCESSOR 0x00000000 // Processor (default) #define ADC_EMUX_EM3_COMP0 0x00001000 // Analog Comparator 0 #define ADC_EMUX_EM3_COMP1 0x00002000 // Analog Comparator 1 #define ADC_EMUX_EM3_COMP2 0x00003000 // Analog Comparator 2 #define ADC_EMUX_EM3_EXTERNAL 0x00004000 // External (GPIO Pins) #define ADC_EMUX_EM3_TIMER 0x00005000 // Timer #define ADC_EMUX_EM3_PWM0 0x00006000 // PWM generator 0 #define ADC_EMUX_EM3_PWM1 0x00007000 // PWM generator 1 #define ADC_EMUX_EM3_PWM2 0x00008000 // PWM generator 2 #define ADC_EMUX_EM3_PWM3 0x00009000 // PWM generator 3 #define ADC_EMUX_EM3_NEVER 0x0000E000 // Never Trigger #define ADC_EMUX_EM3_ALWAYS 0x0000F000 // Always (continuously sample) #define ADC_EMUX_EM2_M 0x00000F00 // SS2 Trigger Select #define ADC_EMUX_EM2_PROCESSOR 0x00000000 // Processor (default) #define ADC_EMUX_EM2_COMP0 0x00000100 // Analog Comparator 0 #define ADC_EMUX_EM2_COMP1 0x00000200 // Analog Comparator 1 #define ADC_EMUX_EM2_COMP2 0x00000300 // Analog Comparator 2 #define ADC_EMUX_EM2_EXTERNAL 0x00000400 // External (GPIO Pins) #define ADC_EMUX_EM2_TIMER 0x00000500 // Timer #define ADC_EMUX_EM2_PWM0 0x00000600 // PWM generator 0 #define ADC_EMUX_EM2_PWM1 0x00000700 // PWM generator 1 #define ADC_EMUX_EM2_PWM2 0x00000800 // PWM generator 2 #define ADC_EMUX_EM2_PWM3 0x00000900 // PWM generator 3 #define ADC_EMUX_EM2_NEVER 0x00000E00 // Never Trigger #define ADC_EMUX_EM2_ALWAYS 0x00000F00 // Always (continuously sample) #define ADC_EMUX_EM1_M 0x000000F0 // SS1 Trigger Select #define ADC_EMUX_EM1_PROCESSOR 0x00000000 // Processor (default) #define ADC_EMUX_EM1_COMP0 0x00000010 // Analog Comparator 0 #define ADC_EMUX_EM1_COMP1 0x00000020 // Analog Comparator 1 #define ADC_EMUX_EM1_COMP2 0x00000030 // Analog Comparator 2 #define ADC_EMUX_EM1_EXTERNAL 0x00000040 // External (GPIO Pins) #define ADC_EMUX_EM1_TIMER 0x00000050 // Timer #define ADC_EMUX_EM1_PWM0 0x00000060 // PWM generator 0 #define ADC_EMUX_EM1_PWM1 0x00000070 // PWM generator 1 #define ADC_EMUX_EM1_PWM2 0x00000080 // PWM generator 2 #define ADC_EMUX_EM1_PWM3 0x00000090 // PWM generator 3 #define ADC_EMUX_EM1_NEVER 0x000000E0 // Never Trigger #define ADC_EMUX_EM1_ALWAYS 0x000000F0 // Always (continuously sample) #define ADC_EMUX_EM0_M 0x0000000F // SS0 Trigger Select #define ADC_EMUX_EM0_PROCESSOR 0x00000000 // Processor (default) #define ADC_EMUX_EM0_COMP0 0x00000001 // Analog Comparator 0 #define ADC_EMUX_EM0_COMP1 0x00000002 // Analog Comparator 1 #define ADC_EMUX_EM0_COMP2 0x00000003 // Analog Comparator 2 #define ADC_EMUX_EM0_EXTERNAL 0x00000004 // External (GPIO Pins) #define ADC_EMUX_EM0_TIMER 0x00000005 // Timer #define ADC_EMUX_EM0_PWM0 0x00000006 // PWM generator 0 #define ADC_EMUX_EM0_PWM1 0x00000007 // PWM generator 1 #define ADC_EMUX_EM0_PWM2 0x00000008 // PWM generator 2 #define ADC_EMUX_EM0_PWM3 0x00000009 // PWM generator 3 #define ADC_EMUX_EM0_NEVER 0x0000000E // Never Trigger #define ADC_EMUX_EM0_ALWAYS 0x0000000F // Always (continuously sample) //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_USTAT register. // //***************************************************************************** #define ADC_USTAT_UV3 0x00000008 // SS3 FIFO Underflow #define ADC_USTAT_UV2 0x00000004 // SS2 FIFO Underflow #define ADC_USTAT_UV1 0x00000002 // SS1 FIFO Underflow #define ADC_USTAT_UV0 0x00000001 // SS0 FIFO Underflow //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_TSSEL register. // //***************************************************************************** #define ADC_TSSEL_PS3_M 0x30000000 // Generator 3 PWM Module Trigger // Select #define ADC_TSSEL_PS3_0 0x00000000 // Use Generator 3 (and its // trigger) in PWM module 0 #define ADC_TSSEL_PS2_M 0x00300000 // Generator 2 PWM Module Trigger // Select #define ADC_TSSEL_PS2_0 0x00000000 // Use Generator 2 (and its // trigger) in PWM module 0 #define ADC_TSSEL_PS1_M 0x00003000 // Generator 1 PWM Module Trigger // Select #define ADC_TSSEL_PS1_0 0x00000000 // Use Generator 1 (and its // trigger) in PWM module 0 #define ADC_TSSEL_PS0_M 0x00000030 // Generator 0 PWM Module Trigger // Select #define ADC_TSSEL_PS0_0 0x00000000 // Use Generator 0 (and its // trigger) in PWM module 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSPRI register. // //***************************************************************************** #define ADC_SSPRI_SS3_M 0x00003000 // SS3 Priority #define ADC_SSPRI_SS2_M 0x00000300 // SS2 Priority #define ADC_SSPRI_SS1_M 0x00000030 // SS1 Priority #define ADC_SSPRI_SS0_M 0x00000003 // SS0 Priority //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SPC register. // //***************************************************************************** #define ADC_SPC_PHASE_M 0x0000000F // Phase Difference #define ADC_SPC_PHASE_0 0x00000000 // ADC sample lags by 0.0 #define ADC_SPC_PHASE_22_5 0x00000001 // ADC sample lags by 22.5 #define ADC_SPC_PHASE_45 0x00000002 // ADC sample lags by 45.0 #define ADC_SPC_PHASE_67_5 0x00000003 // ADC sample lags by 67.5 #define ADC_SPC_PHASE_90 0x00000004 // ADC sample lags by 90.0 #define ADC_SPC_PHASE_112_5 0x00000005 // ADC sample lags by 112.5 #define ADC_SPC_PHASE_135 0x00000006 // ADC sample lags by 135.0 #define ADC_SPC_PHASE_157_5 0x00000007 // ADC sample lags by 157.5 #define ADC_SPC_PHASE_180 0x00000008 // ADC sample lags by 180.0 #define ADC_SPC_PHASE_202_5 0x00000009 // ADC sample lags by 202.5 #define ADC_SPC_PHASE_225 0x0000000A // ADC sample lags by 225.0 #define ADC_SPC_PHASE_247_5 0x0000000B // ADC sample lags by 247.5 #define ADC_SPC_PHASE_270 0x0000000C // ADC sample lags by 270.0 #define ADC_SPC_PHASE_292_5 0x0000000D // ADC sample lags by 292.5 #define ADC_SPC_PHASE_315 0x0000000E // ADC sample lags by 315.0 #define ADC_SPC_PHASE_337_5 0x0000000F // ADC sample lags by 337.5 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_PSSI register. // //***************************************************************************** #define ADC_PSSI_GSYNC 0x80000000 // Global Synchronize #define ADC_PSSI_SYNCWAIT 0x08000000 // Synchronize Wait #define ADC_PSSI_SS3 0x00000008 // SS3 Initiate #define ADC_PSSI_SS2 0x00000004 // SS2 Initiate #define ADC_PSSI_SS1 0x00000002 // SS1 Initiate #define ADC_PSSI_SS0 0x00000001 // SS0 Initiate //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SAC register. // //***************************************************************************** #define ADC_SAC_AVG_M 0x00000007 // Hardware Averaging Control #define ADC_SAC_AVG_OFF 0x00000000 // No hardware oversampling #define ADC_SAC_AVG_2X 0x00000001 // 2x hardware oversampling #define ADC_SAC_AVG_4X 0x00000002 // 4x hardware oversampling #define ADC_SAC_AVG_8X 0x00000003 // 8x hardware oversampling #define ADC_SAC_AVG_16X 0x00000004 // 16x hardware oversampling #define ADC_SAC_AVG_32X 0x00000005 // 32x hardware oversampling #define ADC_SAC_AVG_64X 0x00000006 // 64x hardware oversampling //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCISC register. // //***************************************************************************** #define ADC_DCISC_DCINT7 0x00000080 // Digital Comparator 7 Interrupt // Status and Clear #define ADC_DCISC_DCINT6 0x00000040 // Digital Comparator 6 Interrupt // Status and Clear #define ADC_DCISC_DCINT5 0x00000020 // Digital Comparator 5 Interrupt // Status and Clear #define ADC_DCISC_DCINT4 0x00000010 // Digital Comparator 4 Interrupt // Status and Clear #define ADC_DCISC_DCINT3 0x00000008 // Digital Comparator 3 Interrupt // Status and Clear #define ADC_DCISC_DCINT2 0x00000004 // Digital Comparator 2 Interrupt // Status and Clear #define ADC_DCISC_DCINT1 0x00000002 // Digital Comparator 1 Interrupt // Status and Clear #define ADC_DCISC_DCINT0 0x00000001 // Digital Comparator 0 Interrupt // Status and Clear //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_CTL register. // //***************************************************************************** #define ADC_CTL_VREF_M 0x00000001 // Voltage Reference Select #define ADC_CTL_VREF_INTERNAL 0x00000000 // VDDA and GNDA are the voltage // references #define ADC_CTL_VREF_EXT_3V 0x00000001 // The external VREFA+ and VREFA- // inputs are the voltage // references //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSMUX0 register. // //***************************************************************************** #define ADC_SSMUX0_MUX7_M 0xF0000000 // 8th Sample Input Select #define ADC_SSMUX0_MUX6_M 0x0F000000 // 7th Sample Input Select #define ADC_SSMUX0_MUX5_M 0x00F00000 // 6th Sample Input Select #define ADC_SSMUX0_MUX4_M 0x000F0000 // 5th Sample Input Select #define ADC_SSMUX0_MUX3_M 0x0000F000 // 4th Sample Input Select #define ADC_SSMUX0_MUX2_M 0x00000F00 // 3rd Sample Input Select #define ADC_SSMUX0_MUX1_M 0x000000F0 // 2nd Sample Input Select #define ADC_SSMUX0_MUX0_M 0x0000000F // 1st Sample Input Select #define ADC_SSMUX0_MUX7_S 28 #define ADC_SSMUX0_MUX6_S 24 #define ADC_SSMUX0_MUX5_S 20 #define ADC_SSMUX0_MUX4_S 16 #define ADC_SSMUX0_MUX3_S 12 #define ADC_SSMUX0_MUX2_S 8 #define ADC_SSMUX0_MUX1_S 4 #define ADC_SSMUX0_MUX0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSCTL0 register. // //***************************************************************************** #define ADC_SSCTL0_TS7 0x80000000 // 8th Sample Temp Sensor Select #define ADC_SSCTL0_IE7 0x40000000 // 8th Sample Interrupt Enable #define ADC_SSCTL0_END7 0x20000000 // 8th Sample is End of Sequence #define ADC_SSCTL0_D7 0x10000000 // 8th Sample Differential Input // Select #define ADC_SSCTL0_TS6 0x08000000 // 7th Sample Temp Sensor Select #define ADC_SSCTL0_IE6 0x04000000 // 7th Sample Interrupt Enable #define ADC_SSCTL0_END6 0x02000000 // 7th Sample is End of Sequence #define ADC_SSCTL0_D6 0x01000000 // 7th Sample Differential Input // Select #define ADC_SSCTL0_TS5 0x00800000 // 6th Sample Temp Sensor Select #define ADC_SSCTL0_IE5 0x00400000 // 6th Sample Interrupt Enable #define ADC_SSCTL0_END5 0x00200000 // 6th Sample is End of Sequence #define ADC_SSCTL0_D5 0x00100000 // 6th Sample Differential Input // Select #define ADC_SSCTL0_TS4 0x00080000 // 5th Sample Temp Sensor Select #define ADC_SSCTL0_IE4 0x00040000 // 5th Sample Interrupt Enable #define ADC_SSCTL0_END4 0x00020000 // 5th Sample is End of Sequence #define ADC_SSCTL0_D4 0x00010000 // 5th Sample Differential Input // Select #define ADC_SSCTL0_TS3 0x00008000 // 4th Sample Temp Sensor Select #define ADC_SSCTL0_IE3 0x00004000 // 4th Sample Interrupt Enable #define ADC_SSCTL0_END3 0x00002000 // 4th Sample is End of Sequence #define ADC_SSCTL0_D3 0x00001000 // 4th Sample Differential Input // Select #define ADC_SSCTL0_TS2 0x00000800 // 3rd Sample Temp Sensor Select #define ADC_SSCTL0_IE2 0x00000400 // 3rd Sample Interrupt Enable #define ADC_SSCTL0_END2 0x00000200 // 3rd Sample is End of Sequence #define ADC_SSCTL0_D2 0x00000100 // 3rd Sample Differential Input // Select #define ADC_SSCTL0_TS1 0x00000080 // 2nd Sample Temp Sensor Select #define ADC_SSCTL0_IE1 0x00000040 // 2nd Sample Interrupt Enable #define ADC_SSCTL0_END1 0x00000020 // 2nd Sample is End of Sequence #define ADC_SSCTL0_D1 0x00000010 // 2nd Sample Differential Input // Select #define ADC_SSCTL0_TS0 0x00000008 // 1st Sample Temp Sensor Select #define ADC_SSCTL0_IE0 0x00000004 // 1st Sample Interrupt Enable #define ADC_SSCTL0_END0 0x00000002 // 1st Sample is End of Sequence #define ADC_SSCTL0_D0 0x00000001 // 1st Sample Differential Input // Select //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSFIFO0 register. // //***************************************************************************** #define ADC_SSFIFO0_DATA_M 0x00000FFF // Conversion Result Data #define ADC_SSFIFO0_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSFSTAT0 register. // //***************************************************************************** #define ADC_SSFSTAT0_FULL 0x00001000 // FIFO Full #define ADC_SSFSTAT0_EMPTY 0x00000100 // FIFO Empty #define ADC_SSFSTAT0_HPTR_M 0x000000F0 // FIFO Head Pointer #define ADC_SSFSTAT0_TPTR_M 0x0000000F // FIFO Tail Pointer #define ADC_SSFSTAT0_HPTR_S 4 #define ADC_SSFSTAT0_TPTR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSOP0 register. // //***************************************************************************** #define ADC_SSOP0_S7DCOP 0x10000000 // Sample 7 Digital Comparator // Operation #define ADC_SSOP0_S6DCOP 0x01000000 // Sample 6 Digital Comparator // Operation #define ADC_SSOP0_S5DCOP 0x00100000 // Sample 5 Digital Comparator // Operation #define ADC_SSOP0_S4DCOP 0x00010000 // Sample 4 Digital Comparator // Operation #define ADC_SSOP0_S3DCOP 0x00001000 // Sample 3 Digital Comparator // Operation #define ADC_SSOP0_S2DCOP 0x00000100 // Sample 2 Digital Comparator // Operation #define ADC_SSOP0_S1DCOP 0x00000010 // Sample 1 Digital Comparator // Operation #define ADC_SSOP0_S0DCOP 0x00000001 // Sample 0 Digital Comparator // Operation //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSDC0 register. // //***************************************************************************** #define ADC_SSDC0_S7DCSEL_M 0xF0000000 // Sample 7 Digital Comparator // Select #define ADC_SSDC0_S6DCSEL_M 0x0F000000 // Sample 6 Digital Comparator // Select #define ADC_SSDC0_S5DCSEL_M 0x00F00000 // Sample 5 Digital Comparator // Select #define ADC_SSDC0_S4DCSEL_M 0x000F0000 // Sample 4 Digital Comparator // Select #define ADC_SSDC0_S3DCSEL_M 0x0000F000 // Sample 3 Digital Comparator // Select #define ADC_SSDC0_S2DCSEL_M 0x00000F00 // Sample 2 Digital Comparator // Select #define ADC_SSDC0_S1DCSEL_M 0x000000F0 // Sample 1 Digital Comparator // Select #define ADC_SSDC0_S0DCSEL_M 0x0000000F // Sample 0 Digital Comparator // Select #define ADC_SSDC0_S6DCSEL_S 24 #define ADC_SSDC0_S5DCSEL_S 20 #define ADC_SSDC0_S4DCSEL_S 16 #define ADC_SSDC0_S3DCSEL_S 12 #define ADC_SSDC0_S2DCSEL_S 8 #define ADC_SSDC0_S1DCSEL_S 4 #define ADC_SSDC0_S0DCSEL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSEMUX0 register. // //***************************************************************************** #define ADC_SSEMUX0_EMUX7 0x10000000 // 8th Sample Input Select (Upper // Bit) #define ADC_SSEMUX0_EMUX6 0x01000000 // 7th Sample Input Select (Upper // Bit) #define ADC_SSEMUX0_EMUX5 0x00100000 // 6th Sample Input Select (Upper // Bit) #define ADC_SSEMUX0_EMUX4 0x00010000 // 5th Sample Input Select (Upper // Bit) #define ADC_SSEMUX0_EMUX3 0x00001000 // 4th Sample Input Select (Upper // Bit) #define ADC_SSEMUX0_EMUX2 0x00000100 // 3rd Sample Input Select (Upper // Bit) #define ADC_SSEMUX0_EMUX1 0x00000010 // 2th Sample Input Select (Upper // Bit) #define ADC_SSEMUX0_EMUX0 0x00000001 // 1st Sample Input Select (Upper // Bit) //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSTSH0 register. // //***************************************************************************** #define ADC_SSTSH0_TSH7_M 0xF0000000 // 8th Sample and Hold Period // Select #define ADC_SSTSH0_TSH6_M 0x0F000000 // 7th Sample and Hold Period // Select #define ADC_SSTSH0_TSH5_M 0x00F00000 // 6th Sample and Hold Period // Select #define ADC_SSTSH0_TSH4_M 0x000F0000 // 5th Sample and Hold Period // Select #define ADC_SSTSH0_TSH3_M 0x0000F000 // 4th Sample and Hold Period // Select #define ADC_SSTSH0_TSH2_M 0x00000F00 // 3rd Sample and Hold Period // Select #define ADC_SSTSH0_TSH1_M 0x000000F0 // 2nd Sample and Hold Period // Select #define ADC_SSTSH0_TSH0_M 0x0000000F // 1st Sample and Hold Period // Select #define ADC_SSTSH0_TSH7_S 28 #define ADC_SSTSH0_TSH6_S 24 #define ADC_SSTSH0_TSH5_S 20 #define ADC_SSTSH0_TSH4_S 16 #define ADC_SSTSH0_TSH3_S 12 #define ADC_SSTSH0_TSH2_S 8 #define ADC_SSTSH0_TSH1_S 4 #define ADC_SSTSH0_TSH0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSMUX1 register. // //***************************************************************************** #define ADC_SSMUX1_MUX3_M 0x0000F000 // 4th Sample Input Select #define ADC_SSMUX1_MUX2_M 0x00000F00 // 3rd Sample Input Select #define ADC_SSMUX1_MUX1_M 0x000000F0 // 2nd Sample Input Select #define ADC_SSMUX1_MUX0_M 0x0000000F // 1st Sample Input Select #define ADC_SSMUX1_MUX3_S 12 #define ADC_SSMUX1_MUX2_S 8 #define ADC_SSMUX1_MUX1_S 4 #define ADC_SSMUX1_MUX0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSCTL1 register. // //***************************************************************************** #define ADC_SSCTL1_TS3 0x00008000 // 4th Sample Temp Sensor Select #define ADC_SSCTL1_IE3 0x00004000 // 4th Sample Interrupt Enable #define ADC_SSCTL1_END3 0x00002000 // 4th Sample is End of Sequence #define ADC_SSCTL1_D3 0x00001000 // 4th Sample Differential Input // Select #define ADC_SSCTL1_TS2 0x00000800 // 3rd Sample Temp Sensor Select #define ADC_SSCTL1_IE2 0x00000400 // 3rd Sample Interrupt Enable #define ADC_SSCTL1_END2 0x00000200 // 3rd Sample is End of Sequence #define ADC_SSCTL1_D2 0x00000100 // 3rd Sample Differential Input // Select #define ADC_SSCTL1_TS1 0x00000080 // 2nd Sample Temp Sensor Select #define ADC_SSCTL1_IE1 0x00000040 // 2nd Sample Interrupt Enable #define ADC_SSCTL1_END1 0x00000020 // 2nd Sample is End of Sequence #define ADC_SSCTL1_D1 0x00000010 // 2nd Sample Differential Input // Select #define ADC_SSCTL1_TS0 0x00000008 // 1st Sample Temp Sensor Select #define ADC_SSCTL1_IE0 0x00000004 // 1st Sample Interrupt Enable #define ADC_SSCTL1_END0 0x00000002 // 1st Sample is End of Sequence #define ADC_SSCTL1_D0 0x00000001 // 1st Sample Differential Input // Select //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSFIFO1 register. // //***************************************************************************** #define ADC_SSFIFO1_DATA_M 0x00000FFF // Conversion Result Data #define ADC_SSFIFO1_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSFSTAT1 register. // //***************************************************************************** #define ADC_SSFSTAT1_FULL 0x00001000 // FIFO Full #define ADC_SSFSTAT1_EMPTY 0x00000100 // FIFO Empty #define ADC_SSFSTAT1_HPTR_M 0x000000F0 // FIFO Head Pointer #define ADC_SSFSTAT1_TPTR_M 0x0000000F // FIFO Tail Pointer #define ADC_SSFSTAT1_HPTR_S 4 #define ADC_SSFSTAT1_TPTR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSOP1 register. // //***************************************************************************** #define ADC_SSOP1_S3DCOP 0x00001000 // Sample 3 Digital Comparator // Operation #define ADC_SSOP1_S2DCOP 0x00000100 // Sample 2 Digital Comparator // Operation #define ADC_SSOP1_S1DCOP 0x00000010 // Sample 1 Digital Comparator // Operation #define ADC_SSOP1_S0DCOP 0x00000001 // Sample 0 Digital Comparator // Operation //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSDC1 register. // //***************************************************************************** #define ADC_SSDC1_S3DCSEL_M 0x0000F000 // Sample 3 Digital Comparator // Select #define ADC_SSDC1_S2DCSEL_M 0x00000F00 // Sample 2 Digital Comparator // Select #define ADC_SSDC1_S1DCSEL_M 0x000000F0 // Sample 1 Digital Comparator // Select #define ADC_SSDC1_S0DCSEL_M 0x0000000F // Sample 0 Digital Comparator // Select #define ADC_SSDC1_S2DCSEL_S 8 #define ADC_SSDC1_S1DCSEL_S 4 #define ADC_SSDC1_S0DCSEL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSEMUX1 register. // //***************************************************************************** #define ADC_SSEMUX1_EMUX3 0x00001000 // 4th Sample Input Select (Upper // Bit) #define ADC_SSEMUX1_EMUX2 0x00000100 // 3rd Sample Input Select (Upper // Bit) #define ADC_SSEMUX1_EMUX1 0x00000010 // 2th Sample Input Select (Upper // Bit) #define ADC_SSEMUX1_EMUX0 0x00000001 // 1st Sample Input Select (Upper // Bit) //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSTSH1 register. // //***************************************************************************** #define ADC_SSTSH1_TSH3_M 0x0000F000 // 4th Sample and Hold Period // Select #define ADC_SSTSH1_TSH2_M 0x00000F00 // 3rd Sample and Hold Period // Select #define ADC_SSTSH1_TSH1_M 0x000000F0 // 2nd Sample and Hold Period // Select #define ADC_SSTSH1_TSH0_M 0x0000000F // 1st Sample and Hold Period // Select #define ADC_SSTSH1_TSH3_S 12 #define ADC_SSTSH1_TSH2_S 8 #define ADC_SSTSH1_TSH1_S 4 #define ADC_SSTSH1_TSH0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSMUX2 register. // //***************************************************************************** #define ADC_SSMUX2_MUX3_M 0x0000F000 // 4th Sample Input Select #define ADC_SSMUX2_MUX2_M 0x00000F00 // 3rd Sample Input Select #define ADC_SSMUX2_MUX1_M 0x000000F0 // 2nd Sample Input Select #define ADC_SSMUX2_MUX0_M 0x0000000F // 1st Sample Input Select #define ADC_SSMUX2_MUX3_S 12 #define ADC_SSMUX2_MUX2_S 8 #define ADC_SSMUX2_MUX1_S 4 #define ADC_SSMUX2_MUX0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSCTL2 register. // //***************************************************************************** #define ADC_SSCTL2_TS3 0x00008000 // 4th Sample Temp Sensor Select #define ADC_SSCTL2_IE3 0x00004000 // 4th Sample Interrupt Enable #define ADC_SSCTL2_END3 0x00002000 // 4th Sample is End of Sequence #define ADC_SSCTL2_D3 0x00001000 // 4th Sample Differential Input // Select #define ADC_SSCTL2_TS2 0x00000800 // 3rd Sample Temp Sensor Select #define ADC_SSCTL2_IE2 0x00000400 // 3rd Sample Interrupt Enable #define ADC_SSCTL2_END2 0x00000200 // 3rd Sample is End of Sequence #define ADC_SSCTL2_D2 0x00000100 // 3rd Sample Differential Input // Select #define ADC_SSCTL2_TS1 0x00000080 // 2nd Sample Temp Sensor Select #define ADC_SSCTL2_IE1 0x00000040 // 2nd Sample Interrupt Enable #define ADC_SSCTL2_END1 0x00000020 // 2nd Sample is End of Sequence #define ADC_SSCTL2_D1 0x00000010 // 2nd Sample Differential Input // Select #define ADC_SSCTL2_TS0 0x00000008 // 1st Sample Temp Sensor Select #define ADC_SSCTL2_IE0 0x00000004 // 1st Sample Interrupt Enable #define ADC_SSCTL2_END0 0x00000002 // 1st Sample is End of Sequence #define ADC_SSCTL2_D0 0x00000001 // 1st Sample Differential Input // Select //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSFIFO2 register. // //***************************************************************************** #define ADC_SSFIFO2_DATA_M 0x00000FFF // Conversion Result Data #define ADC_SSFIFO2_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSFSTAT2 register. // //***************************************************************************** #define ADC_SSFSTAT2_FULL 0x00001000 // FIFO Full #define ADC_SSFSTAT2_EMPTY 0x00000100 // FIFO Empty #define ADC_SSFSTAT2_HPTR_M 0x000000F0 // FIFO Head Pointer #define ADC_SSFSTAT2_TPTR_M 0x0000000F // FIFO Tail Pointer #define ADC_SSFSTAT2_HPTR_S 4 #define ADC_SSFSTAT2_TPTR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSOP2 register. // //***************************************************************************** #define ADC_SSOP2_S3DCOP 0x00001000 // Sample 3 Digital Comparator // Operation #define ADC_SSOP2_S2DCOP 0x00000100 // Sample 2 Digital Comparator // Operation #define ADC_SSOP2_S1DCOP 0x00000010 // Sample 1 Digital Comparator // Operation #define ADC_SSOP2_S0DCOP 0x00000001 // Sample 0 Digital Comparator // Operation //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSDC2 register. // //***************************************************************************** #define ADC_SSDC2_S3DCSEL_M 0x0000F000 // Sample 3 Digital Comparator // Select #define ADC_SSDC2_S2DCSEL_M 0x00000F00 // Sample 2 Digital Comparator // Select #define ADC_SSDC2_S1DCSEL_M 0x000000F0 // Sample 1 Digital Comparator // Select #define ADC_SSDC2_S0DCSEL_M 0x0000000F // Sample 0 Digital Comparator // Select #define ADC_SSDC2_S2DCSEL_S 8 #define ADC_SSDC2_S1DCSEL_S 4 #define ADC_SSDC2_S0DCSEL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSEMUX2 register. // //***************************************************************************** #define ADC_SSEMUX2_EMUX3 0x00001000 // 4th Sample Input Select (Upper // Bit) #define ADC_SSEMUX2_EMUX2 0x00000100 // 3rd Sample Input Select (Upper // Bit) #define ADC_SSEMUX2_EMUX1 0x00000010 // 2th Sample Input Select (Upper // Bit) #define ADC_SSEMUX2_EMUX0 0x00000001 // 1st Sample Input Select (Upper // Bit) //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSTSH2 register. // //***************************************************************************** #define ADC_SSTSH2_TSH3_M 0x0000F000 // 4th Sample and Hold Period // Select #define ADC_SSTSH2_TSH2_M 0x00000F00 // 3rd Sample and Hold Period // Select #define ADC_SSTSH2_TSH1_M 0x000000F0 // 2nd Sample and Hold Period // Select #define ADC_SSTSH2_TSH0_M 0x0000000F // 1st Sample and Hold Period // Select #define ADC_SSTSH2_TSH3_S 12 #define ADC_SSTSH2_TSH2_S 8 #define ADC_SSTSH2_TSH1_S 4 #define ADC_SSTSH2_TSH0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSMUX3 register. // //***************************************************************************** #define ADC_SSMUX3_MUX0_M 0x0000000F // 1st Sample Input Select #define ADC_SSMUX3_MUX0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSCTL3 register. // //***************************************************************************** #define ADC_SSCTL3_TS0 0x00000008 // 1st Sample Temp Sensor Select #define ADC_SSCTL3_IE0 0x00000004 // Sample Interrupt Enable #define ADC_SSCTL3_END0 0x00000002 // End of Sequence #define ADC_SSCTL3_D0 0x00000001 // Sample Differential Input Select //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSFIFO3 register. // //***************************************************************************** #define ADC_SSFIFO3_DATA_M 0x00000FFF // Conversion Result Data #define ADC_SSFIFO3_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSFSTAT3 register. // //***************************************************************************** #define ADC_SSFSTAT3_FULL 0x00001000 // FIFO Full #define ADC_SSFSTAT3_EMPTY 0x00000100 // FIFO Empty #define ADC_SSFSTAT3_HPTR_M 0x000000F0 // FIFO Head Pointer #define ADC_SSFSTAT3_TPTR_M 0x0000000F // FIFO Tail Pointer #define ADC_SSFSTAT3_HPTR_S 4 #define ADC_SSFSTAT3_TPTR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSOP3 register. // //***************************************************************************** #define ADC_SSOP3_S0DCOP 0x00000001 // Sample 0 Digital Comparator // Operation //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSDC3 register. // //***************************************************************************** #define ADC_SSDC3_S0DCSEL_M 0x0000000F // Sample 0 Digital Comparator // Select //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSEMUX3 register. // //***************************************************************************** #define ADC_SSEMUX3_EMUX0 0x00000001 // 1st Sample Input Select (Upper // Bit) //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_SSTSH3 register. // //***************************************************************************** #define ADC_SSTSH3_TSH0_M 0x0000000F // 1st Sample and Hold Period // Select #define ADC_SSTSH3_TSH0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCRIC register. // //***************************************************************************** #define ADC_DCRIC_DCTRIG7 0x00800000 // Digital Comparator Trigger 7 #define ADC_DCRIC_DCTRIG6 0x00400000 // Digital Comparator Trigger 6 #define ADC_DCRIC_DCTRIG5 0x00200000 // Digital Comparator Trigger 5 #define ADC_DCRIC_DCTRIG4 0x00100000 // Digital Comparator Trigger 4 #define ADC_DCRIC_DCTRIG3 0x00080000 // Digital Comparator Trigger 3 #define ADC_DCRIC_DCTRIG2 0x00040000 // Digital Comparator Trigger 2 #define ADC_DCRIC_DCTRIG1 0x00020000 // Digital Comparator Trigger 1 #define ADC_DCRIC_DCTRIG0 0x00010000 // Digital Comparator Trigger 0 #define ADC_DCRIC_DCINT7 0x00000080 // Digital Comparator Interrupt 7 #define ADC_DCRIC_DCINT6 0x00000040 // Digital Comparator Interrupt 6 #define ADC_DCRIC_DCINT5 0x00000020 // Digital Comparator Interrupt 5 #define ADC_DCRIC_DCINT4 0x00000010 // Digital Comparator Interrupt 4 #define ADC_DCRIC_DCINT3 0x00000008 // Digital Comparator Interrupt 3 #define ADC_DCRIC_DCINT2 0x00000004 // Digital Comparator Interrupt 2 #define ADC_DCRIC_DCINT1 0x00000002 // Digital Comparator Interrupt 1 #define ADC_DCRIC_DCINT0 0x00000001 // Digital Comparator Interrupt 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCTL0 register. // //***************************************************************************** #define ADC_DCCTL0_CTE 0x00001000 // Comparison Trigger Enable #define ADC_DCCTL0_CTC_M 0x00000C00 // Comparison Trigger Condition #define ADC_DCCTL0_CTC_LOW 0x00000000 // Low Band #define ADC_DCCTL0_CTC_MID 0x00000400 // Mid Band #define ADC_DCCTL0_CTC_HIGH 0x00000C00 // High Band #define ADC_DCCTL0_CTM_M 0x00000300 // Comparison Trigger Mode #define ADC_DCCTL0_CTM_ALWAYS 0x00000000 // Always #define ADC_DCCTL0_CTM_ONCE 0x00000100 // Once #define ADC_DCCTL0_CTM_HALWAYS 0x00000200 // Hysteresis Always #define ADC_DCCTL0_CTM_HONCE 0x00000300 // Hysteresis Once #define ADC_DCCTL0_CIE 0x00000010 // Comparison Interrupt Enable #define ADC_DCCTL0_CIC_M 0x0000000C // Comparison Interrupt Condition #define ADC_DCCTL0_CIC_LOW 0x00000000 // Low Band #define ADC_DCCTL0_CIC_MID 0x00000004 // Mid Band #define ADC_DCCTL0_CIC_HIGH 0x0000000C // High Band #define ADC_DCCTL0_CIM_M 0x00000003 // Comparison Interrupt Mode #define ADC_DCCTL0_CIM_ALWAYS 0x00000000 // Always #define ADC_DCCTL0_CIM_ONCE 0x00000001 // Once #define ADC_DCCTL0_CIM_HALWAYS 0x00000002 // Hysteresis Always #define ADC_DCCTL0_CIM_HONCE 0x00000003 // Hysteresis Once //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCTL1 register. // //***************************************************************************** #define ADC_DCCTL1_CTE 0x00001000 // Comparison Trigger Enable #define ADC_DCCTL1_CTC_M 0x00000C00 // Comparison Trigger Condition #define ADC_DCCTL1_CTC_LOW 0x00000000 // Low Band #define ADC_DCCTL1_CTC_MID 0x00000400 // Mid Band #define ADC_DCCTL1_CTC_HIGH 0x00000C00 // High Band #define ADC_DCCTL1_CTM_M 0x00000300 // Comparison Trigger Mode #define ADC_DCCTL1_CTM_ALWAYS 0x00000000 // Always #define ADC_DCCTL1_CTM_ONCE 0x00000100 // Once #define ADC_DCCTL1_CTM_HALWAYS 0x00000200 // Hysteresis Always #define ADC_DCCTL1_CTM_HONCE 0x00000300 // Hysteresis Once #define ADC_DCCTL1_CIE 0x00000010 // Comparison Interrupt Enable #define ADC_DCCTL1_CIC_M 0x0000000C // Comparison Interrupt Condition #define ADC_DCCTL1_CIC_LOW 0x00000000 // Low Band #define ADC_DCCTL1_CIC_MID 0x00000004 // Mid Band #define ADC_DCCTL1_CIC_HIGH 0x0000000C // High Band #define ADC_DCCTL1_CIM_M 0x00000003 // Comparison Interrupt Mode #define ADC_DCCTL1_CIM_ALWAYS 0x00000000 // Always #define ADC_DCCTL1_CIM_ONCE 0x00000001 // Once #define ADC_DCCTL1_CIM_HALWAYS 0x00000002 // Hysteresis Always #define ADC_DCCTL1_CIM_HONCE 0x00000003 // Hysteresis Once //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCTL2 register. // //***************************************************************************** #define ADC_DCCTL2_CTE 0x00001000 // Comparison Trigger Enable #define ADC_DCCTL2_CTC_M 0x00000C00 // Comparison Trigger Condition #define ADC_DCCTL2_CTC_LOW 0x00000000 // Low Band #define ADC_DCCTL2_CTC_MID 0x00000400 // Mid Band #define ADC_DCCTL2_CTC_HIGH 0x00000C00 // High Band #define ADC_DCCTL2_CTM_M 0x00000300 // Comparison Trigger Mode #define ADC_DCCTL2_CTM_ALWAYS 0x00000000 // Always #define ADC_DCCTL2_CTM_ONCE 0x00000100 // Once #define ADC_DCCTL2_CTM_HALWAYS 0x00000200 // Hysteresis Always #define ADC_DCCTL2_CTM_HONCE 0x00000300 // Hysteresis Once #define ADC_DCCTL2_CIE 0x00000010 // Comparison Interrupt Enable #define ADC_DCCTL2_CIC_M 0x0000000C // Comparison Interrupt Condition #define ADC_DCCTL2_CIC_LOW 0x00000000 // Low Band #define ADC_DCCTL2_CIC_MID 0x00000004 // Mid Band #define ADC_DCCTL2_CIC_HIGH 0x0000000C // High Band #define ADC_DCCTL2_CIM_M 0x00000003 // Comparison Interrupt Mode #define ADC_DCCTL2_CIM_ALWAYS 0x00000000 // Always #define ADC_DCCTL2_CIM_ONCE 0x00000001 // Once #define ADC_DCCTL2_CIM_HALWAYS 0x00000002 // Hysteresis Always #define ADC_DCCTL2_CIM_HONCE 0x00000003 // Hysteresis Once //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCTL3 register. // //***************************************************************************** #define ADC_DCCTL3_CTE 0x00001000 // Comparison Trigger Enable #define ADC_DCCTL3_CTC_M 0x00000C00 // Comparison Trigger Condition #define ADC_DCCTL3_CTC_LOW 0x00000000 // Low Band #define ADC_DCCTL3_CTC_MID 0x00000400 // Mid Band #define ADC_DCCTL3_CTC_HIGH 0x00000C00 // High Band #define ADC_DCCTL3_CTM_M 0x00000300 // Comparison Trigger Mode #define ADC_DCCTL3_CTM_ALWAYS 0x00000000 // Always #define ADC_DCCTL3_CTM_ONCE 0x00000100 // Once #define ADC_DCCTL3_CTM_HALWAYS 0x00000200 // Hysteresis Always #define ADC_DCCTL3_CTM_HONCE 0x00000300 // Hysteresis Once #define ADC_DCCTL3_CIE 0x00000010 // Comparison Interrupt Enable #define ADC_DCCTL3_CIC_M 0x0000000C // Comparison Interrupt Condition #define ADC_DCCTL3_CIC_LOW 0x00000000 // Low Band #define ADC_DCCTL3_CIC_MID 0x00000004 // Mid Band #define ADC_DCCTL3_CIC_HIGH 0x0000000C // High Band #define ADC_DCCTL3_CIM_M 0x00000003 // Comparison Interrupt Mode #define ADC_DCCTL3_CIM_ALWAYS 0x00000000 // Always #define ADC_DCCTL3_CIM_ONCE 0x00000001 // Once #define ADC_DCCTL3_CIM_HALWAYS 0x00000002 // Hysteresis Always #define ADC_DCCTL3_CIM_HONCE 0x00000003 // Hysteresis Once //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCTL4 register. // //***************************************************************************** #define ADC_DCCTL4_CTE 0x00001000 // Comparison Trigger Enable #define ADC_DCCTL4_CTC_M 0x00000C00 // Comparison Trigger Condition #define ADC_DCCTL4_CTC_LOW 0x00000000 // Low Band #define ADC_DCCTL4_CTC_MID 0x00000400 // Mid Band #define ADC_DCCTL4_CTC_HIGH 0x00000C00 // High Band #define ADC_DCCTL4_CTM_M 0x00000300 // Comparison Trigger Mode #define ADC_DCCTL4_CTM_ALWAYS 0x00000000 // Always #define ADC_DCCTL4_CTM_ONCE 0x00000100 // Once #define ADC_DCCTL4_CTM_HALWAYS 0x00000200 // Hysteresis Always #define ADC_DCCTL4_CTM_HONCE 0x00000300 // Hysteresis Once #define ADC_DCCTL4_CIE 0x00000010 // Comparison Interrupt Enable #define ADC_DCCTL4_CIC_M 0x0000000C // Comparison Interrupt Condition #define ADC_DCCTL4_CIC_LOW 0x00000000 // Low Band #define ADC_DCCTL4_CIC_MID 0x00000004 // Mid Band #define ADC_DCCTL4_CIC_HIGH 0x0000000C // High Band #define ADC_DCCTL4_CIM_M 0x00000003 // Comparison Interrupt Mode #define ADC_DCCTL4_CIM_ALWAYS 0x00000000 // Always #define ADC_DCCTL4_CIM_ONCE 0x00000001 // Once #define ADC_DCCTL4_CIM_HALWAYS 0x00000002 // Hysteresis Always #define ADC_DCCTL4_CIM_HONCE 0x00000003 // Hysteresis Once //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCTL5 register. // //***************************************************************************** #define ADC_DCCTL5_CTE 0x00001000 // Comparison Trigger Enable #define ADC_DCCTL5_CTC_M 0x00000C00 // Comparison Trigger Condition #define ADC_DCCTL5_CTC_LOW 0x00000000 // Low Band #define ADC_DCCTL5_CTC_MID 0x00000400 // Mid Band #define ADC_DCCTL5_CTC_HIGH 0x00000C00 // High Band #define ADC_DCCTL5_CTM_M 0x00000300 // Comparison Trigger Mode #define ADC_DCCTL5_CTM_ALWAYS 0x00000000 // Always #define ADC_DCCTL5_CTM_ONCE 0x00000100 // Once #define ADC_DCCTL5_CTM_HALWAYS 0x00000200 // Hysteresis Always #define ADC_DCCTL5_CTM_HONCE 0x00000300 // Hysteresis Once #define ADC_DCCTL5_CIE 0x00000010 // Comparison Interrupt Enable #define ADC_DCCTL5_CIC_M 0x0000000C // Comparison Interrupt Condition #define ADC_DCCTL5_CIC_LOW 0x00000000 // Low Band #define ADC_DCCTL5_CIC_MID 0x00000004 // Mid Band #define ADC_DCCTL5_CIC_HIGH 0x0000000C // High Band #define ADC_DCCTL5_CIM_M 0x00000003 // Comparison Interrupt Mode #define ADC_DCCTL5_CIM_ALWAYS 0x00000000 // Always #define ADC_DCCTL5_CIM_ONCE 0x00000001 // Once #define ADC_DCCTL5_CIM_HALWAYS 0x00000002 // Hysteresis Always #define ADC_DCCTL5_CIM_HONCE 0x00000003 // Hysteresis Once //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCTL6 register. // //***************************************************************************** #define ADC_DCCTL6_CTE 0x00001000 // Comparison Trigger Enable #define ADC_DCCTL6_CTC_M 0x00000C00 // Comparison Trigger Condition #define ADC_DCCTL6_CTC_LOW 0x00000000 // Low Band #define ADC_DCCTL6_CTC_MID 0x00000400 // Mid Band #define ADC_DCCTL6_CTC_HIGH 0x00000C00 // High Band #define ADC_DCCTL6_CTM_M 0x00000300 // Comparison Trigger Mode #define ADC_DCCTL6_CTM_ALWAYS 0x00000000 // Always #define ADC_DCCTL6_CTM_ONCE 0x00000100 // Once #define ADC_DCCTL6_CTM_HALWAYS 0x00000200 // Hysteresis Always #define ADC_DCCTL6_CTM_HONCE 0x00000300 // Hysteresis Once #define ADC_DCCTL6_CIE 0x00000010 // Comparison Interrupt Enable #define ADC_DCCTL6_CIC_M 0x0000000C // Comparison Interrupt Condition #define ADC_DCCTL6_CIC_LOW 0x00000000 // Low Band #define ADC_DCCTL6_CIC_MID 0x00000004 // Mid Band #define ADC_DCCTL6_CIC_HIGH 0x0000000C // High Band #define ADC_DCCTL6_CIM_M 0x00000003 // Comparison Interrupt Mode #define ADC_DCCTL6_CIM_ALWAYS 0x00000000 // Always #define ADC_DCCTL6_CIM_ONCE 0x00000001 // Once #define ADC_DCCTL6_CIM_HALWAYS 0x00000002 // Hysteresis Always #define ADC_DCCTL6_CIM_HONCE 0x00000003 // Hysteresis Once //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCTL7 register. // //***************************************************************************** #define ADC_DCCTL7_CTE 0x00001000 // Comparison Trigger Enable #define ADC_DCCTL7_CTC_M 0x00000C00 // Comparison Trigger Condition #define ADC_DCCTL7_CTC_LOW 0x00000000 // Low Band #define ADC_DCCTL7_CTC_MID 0x00000400 // Mid Band #define ADC_DCCTL7_CTC_HIGH 0x00000C00 // High Band #define ADC_DCCTL7_CTM_M 0x00000300 // Comparison Trigger Mode #define ADC_DCCTL7_CTM_ALWAYS 0x00000000 // Always #define ADC_DCCTL7_CTM_ONCE 0x00000100 // Once #define ADC_DCCTL7_CTM_HALWAYS 0x00000200 // Hysteresis Always #define ADC_DCCTL7_CTM_HONCE 0x00000300 // Hysteresis Once #define ADC_DCCTL7_CIE 0x00000010 // Comparison Interrupt Enable #define ADC_DCCTL7_CIC_M 0x0000000C // Comparison Interrupt Condition #define ADC_DCCTL7_CIC_LOW 0x00000000 // Low Band #define ADC_DCCTL7_CIC_MID 0x00000004 // Mid Band #define ADC_DCCTL7_CIC_HIGH 0x0000000C // High Band #define ADC_DCCTL7_CIM_M 0x00000003 // Comparison Interrupt Mode #define ADC_DCCTL7_CIM_ALWAYS 0x00000000 // Always #define ADC_DCCTL7_CIM_ONCE 0x00000001 // Once #define ADC_DCCTL7_CIM_HALWAYS 0x00000002 // Hysteresis Always #define ADC_DCCTL7_CIM_HONCE 0x00000003 // Hysteresis Once //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCMP0 register. // //***************************************************************************** #define ADC_DCCMP0_COMP1_M 0x0FFF0000 // Compare 1 #define ADC_DCCMP0_COMP0_M 0x00000FFF // Compare 0 #define ADC_DCCMP0_COMP1_S 16 #define ADC_DCCMP0_COMP0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCMP1 register. // //***************************************************************************** #define ADC_DCCMP1_COMP1_M 0x0FFF0000 // Compare 1 #define ADC_DCCMP1_COMP0_M 0x00000FFF // Compare 0 #define ADC_DCCMP1_COMP1_S 16 #define ADC_DCCMP1_COMP0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCMP2 register. // //***************************************************************************** #define ADC_DCCMP2_COMP1_M 0x0FFF0000 // Compare 1 #define ADC_DCCMP2_COMP0_M 0x00000FFF // Compare 0 #define ADC_DCCMP2_COMP1_S 16 #define ADC_DCCMP2_COMP0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCMP3 register. // //***************************************************************************** #define ADC_DCCMP3_COMP1_M 0x0FFF0000 // Compare 1 #define ADC_DCCMP3_COMP0_M 0x00000FFF // Compare 0 #define ADC_DCCMP3_COMP1_S 16 #define ADC_DCCMP3_COMP0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCMP4 register. // //***************************************************************************** #define ADC_DCCMP4_COMP1_M 0x0FFF0000 // Compare 1 #define ADC_DCCMP4_COMP0_M 0x00000FFF // Compare 0 #define ADC_DCCMP4_COMP1_S 16 #define ADC_DCCMP4_COMP0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCMP5 register. // //***************************************************************************** #define ADC_DCCMP5_COMP1_M 0x0FFF0000 // Compare 1 #define ADC_DCCMP5_COMP0_M 0x00000FFF // Compare 0 #define ADC_DCCMP5_COMP1_S 16 #define ADC_DCCMP5_COMP0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCMP6 register. // //***************************************************************************** #define ADC_DCCMP6_COMP1_M 0x0FFF0000 // Compare 1 #define ADC_DCCMP6_COMP0_M 0x00000FFF // Compare 0 #define ADC_DCCMP6_COMP1_S 16 #define ADC_DCCMP6_COMP0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_DCCMP7 register. // //***************************************************************************** #define ADC_DCCMP7_COMP1_M 0x0FFF0000 // Compare 1 #define ADC_DCCMP7_COMP0_M 0x00000FFF // Compare 0 #define ADC_DCCMP7_COMP1_S 16 #define ADC_DCCMP7_COMP0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_PP register. // //***************************************************************************** #define ADC_PP_APSHT 0x01000000 // Application-Programmable // Sample-and-Hold Time #define ADC_PP_TS 0x00800000 // Temperature Sensor #define ADC_PP_RSL_M 0x007C0000 // Resolution #define ADC_PP_TYPE_M 0x00030000 // ADC Architecture #define ADC_PP_TYPE_SAR 0x00000000 // SAR #define ADC_PP_DC_M 0x0000FC00 // Digital Comparator Count #define ADC_PP_CH_M 0x000003F0 // ADC Channel Count #define ADC_PP_MCR_M 0x0000000F // Maximum Conversion Rate #define ADC_PP_MCR_FULL 0x00000007 // Full conversion rate (FCONV) as // defined by TADC and NSH #define ADC_PP_RSL_S 18 #define ADC_PP_DC_S 10 #define ADC_PP_CH_S 4 //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_PC register. // //***************************************************************************** #define ADC_PC_MCR_M 0x0000000F // Conversion Rate #define ADC_PC_MCR_1_8 0x00000001 // Eighth conversion rate. After a // conversion completes, the logic // pauses for 112 TADC periods // before starting the next // conversion #define ADC_PC_MCR_1_4 0x00000003 // Quarter conversion rate. After a // conversion completes, the logic // pauses for 48 TADC periods // before starting the next // conversion #define ADC_PC_MCR_1_2 0x00000005 // Half conversion rate. After a // conversion completes, the logic // pauses for 16 TADC periods // before starting the next // conversion #define ADC_PC_MCR_FULL 0x00000007 // Full conversion rate (FCONV) as // defined by TADC and NSH //***************************************************************************** // // The following are defines for the bit fields in the ADC_O_CC register. // //***************************************************************************** #define ADC_CC_CLKDIV_M 0x000003F0 // PLL VCO Clock Divisor #define ADC_CC_CS_M 0x0000000F // ADC Clock Source #define ADC_CC_CS_SYSPLL 0x00000000 // PLL VCO divided by CLKDIV #define ADC_CC_CS_PIOSC 0x00000001 // PIOSC #define ADC_CC_CS_MOSC 0x00000002 // MOSC #define ADC_CC_CLKDIV_S 4 //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACMIS register. // //***************************************************************************** #define COMP_ACMIS_IN2 0x00000004 // Comparator 2 Masked Interrupt // Status #define COMP_ACMIS_IN1 0x00000002 // Comparator 1 Masked Interrupt // Status #define COMP_ACMIS_IN0 0x00000001 // Comparator 0 Masked Interrupt // Status //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACRIS register. // //***************************************************************************** #define COMP_ACRIS_IN2 0x00000004 // Comparator 2 Interrupt Status #define COMP_ACRIS_IN1 0x00000002 // Comparator 1 Interrupt Status #define COMP_ACRIS_IN0 0x00000001 // Comparator 0 Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACINTEN register. // //***************************************************************************** #define COMP_ACINTEN_IN2 0x00000004 // Comparator 2 Interrupt Enable #define COMP_ACINTEN_IN1 0x00000002 // Comparator 1 Interrupt Enable #define COMP_ACINTEN_IN0 0x00000001 // Comparator 0 Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACREFCTL // register. // //***************************************************************************** #define COMP_ACREFCTL_EN 0x00000200 // Resistor Ladder Enable #define COMP_ACREFCTL_RNG 0x00000100 // Resistor Ladder Range #define COMP_ACREFCTL_VREF_M 0x0000000F // Resistor Ladder Voltage Ref #define COMP_ACREFCTL_VREF_S 0 //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACSTAT0 register. // //***************************************************************************** #define COMP_ACSTAT0_OVAL 0x00000002 // Comparator Output Value //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACCTL0 register. // //***************************************************************************** #define COMP_ACCTL0_TOEN 0x00000800 // Trigger Output Enable #define COMP_ACCTL0_ASRCP_M 0x00000600 // Analog Source Positive #define COMP_ACCTL0_ASRCP_PIN 0x00000000 // Pin value of Cn+ #define COMP_ACCTL0_ASRCP_PIN0 0x00000200 // Pin value of C0+ #define COMP_ACCTL0_ASRCP_REF 0x00000400 // Internal voltage reference #define COMP_ACCTL0_TSLVAL 0x00000080 // Trigger Sense Level Value #define COMP_ACCTL0_TSEN_M 0x00000060 // Trigger Sense #define COMP_ACCTL0_TSEN_LEVEL 0x00000000 // Level sense, see TSLVAL #define COMP_ACCTL0_TSEN_FALL 0x00000020 // Falling edge #define COMP_ACCTL0_TSEN_RISE 0x00000040 // Rising edge #define COMP_ACCTL0_TSEN_BOTH 0x00000060 // Either edge #define COMP_ACCTL0_ISLVAL 0x00000010 // Interrupt Sense Level Value #define COMP_ACCTL0_ISEN_M 0x0000000C // Interrupt Sense #define COMP_ACCTL0_ISEN_LEVEL 0x00000000 // Level sense, see ISLVAL #define COMP_ACCTL0_ISEN_FALL 0x00000004 // Falling edge #define COMP_ACCTL0_ISEN_RISE 0x00000008 // Rising edge #define COMP_ACCTL0_ISEN_BOTH 0x0000000C // Either edge #define COMP_ACCTL0_CINV 0x00000002 // Comparator Output Invert //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACSTAT1 register. // //***************************************************************************** #define COMP_ACSTAT1_OVAL 0x00000002 // Comparator Output Value //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACCTL1 register. // //***************************************************************************** #define COMP_ACCTL1_TOEN 0x00000800 // Trigger Output Enable #define COMP_ACCTL1_ASRCP_M 0x00000600 // Analog Source Positive #define COMP_ACCTL1_ASRCP_PIN 0x00000000 // Pin value of Cn+ #define COMP_ACCTL1_ASRCP_PIN0 0x00000200 // Pin value of C0+ #define COMP_ACCTL1_ASRCP_REF 0x00000400 // Internal voltage reference #define COMP_ACCTL1_TSLVAL 0x00000080 // Trigger Sense Level Value #define COMP_ACCTL1_TSEN_M 0x00000060 // Trigger Sense #define COMP_ACCTL1_TSEN_LEVEL 0x00000000 // Level sense, see TSLVAL #define COMP_ACCTL1_TSEN_FALL 0x00000020 // Falling edge #define COMP_ACCTL1_TSEN_RISE 0x00000040 // Rising edge #define COMP_ACCTL1_TSEN_BOTH 0x00000060 // Either edge #define COMP_ACCTL1_ISLVAL 0x00000010 // Interrupt Sense Level Value #define COMP_ACCTL1_ISEN_M 0x0000000C // Interrupt Sense #define COMP_ACCTL1_ISEN_LEVEL 0x00000000 // Level sense, see ISLVAL #define COMP_ACCTL1_ISEN_FALL 0x00000004 // Falling edge #define COMP_ACCTL1_ISEN_RISE 0x00000008 // Rising edge #define COMP_ACCTL1_ISEN_BOTH 0x0000000C // Either edge #define COMP_ACCTL1_CINV 0x00000002 // Comparator Output Invert //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACSTAT2 register. // //***************************************************************************** #define COMP_ACSTAT2_OVAL 0x00000002 // Comparator Output Value //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_ACCTL2 register. // //***************************************************************************** #define COMP_ACCTL2_TOEN 0x00000800 // Trigger Output Enable #define COMP_ACCTL2_ASRCP_M 0x00000600 // Analog Source Positive #define COMP_ACCTL2_ASRCP_PIN 0x00000000 // Pin value of Cn+ #define COMP_ACCTL2_ASRCP_PIN0 0x00000200 // Pin value of C0+ #define COMP_ACCTL2_ASRCP_REF 0x00000400 // Internal voltage reference #define COMP_ACCTL2_TSLVAL 0x00000080 // Trigger Sense Level Value #define COMP_ACCTL2_TSEN_M 0x00000060 // Trigger Sense #define COMP_ACCTL2_TSEN_LEVEL 0x00000000 // Level sense, see TSLVAL #define COMP_ACCTL2_TSEN_FALL 0x00000020 // Falling edge #define COMP_ACCTL2_TSEN_RISE 0x00000040 // Rising edge #define COMP_ACCTL2_TSEN_BOTH 0x00000060 // Either edge #define COMP_ACCTL2_ISLVAL 0x00000010 // Interrupt Sense Level Value #define COMP_ACCTL2_ISEN_M 0x0000000C // Interrupt Sense #define COMP_ACCTL2_ISEN_LEVEL 0x00000000 // Level sense, see ISLVAL #define COMP_ACCTL2_ISEN_FALL 0x00000004 // Falling edge #define COMP_ACCTL2_ISEN_RISE 0x00000008 // Rising edge #define COMP_ACCTL2_ISEN_BOTH 0x0000000C // Either edge #define COMP_ACCTL2_CINV 0x00000002 // Comparator Output Invert //***************************************************************************** // // The following are defines for the bit fields in the COMP_O_PP register. // //***************************************************************************** #define COMP_PP_C2O 0x00040000 // Comparator Output 2 Present #define COMP_PP_C1O 0x00020000 // Comparator Output 1 Present #define COMP_PP_C0O 0x00010000 // Comparator Output 0 Present #define COMP_PP_CMP2 0x00000004 // Comparator 2 Present #define COMP_PP_CMP1 0x00000002 // Comparator 1 Present #define COMP_PP_CMP0 0x00000001 // Comparator 0 Present //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_CTL register. // //***************************************************************************** #define CAN_CTL_TEST 0x00000080 // Test Mode Enable #define CAN_CTL_CCE 0x00000040 // Configuration Change Enable #define CAN_CTL_DAR 0x00000020 // Disable Automatic-Retransmission #define CAN_CTL_EIE 0x00000008 // Error Interrupt Enable #define CAN_CTL_SIE 0x00000004 // Status Interrupt Enable #define CAN_CTL_IE 0x00000002 // CAN Interrupt Enable #define CAN_CTL_INIT 0x00000001 // Initialization //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_STS register. // //***************************************************************************** #define CAN_STS_BOFF 0x00000080 // Bus-Off Status #define CAN_STS_EWARN 0x00000040 // Warning Status #define CAN_STS_EPASS 0x00000020 // Error Passive #define CAN_STS_RXOK 0x00000010 // Received a Message Successfully #define CAN_STS_TXOK 0x00000008 // Transmitted a Message // Successfully #define CAN_STS_LEC_M 0x00000007 // Last Error Code #define CAN_STS_LEC_NONE 0x00000000 // No Error #define CAN_STS_LEC_STUFF 0x00000001 // Stuff Error #define CAN_STS_LEC_FORM 0x00000002 // Format Error #define CAN_STS_LEC_ACK 0x00000003 // ACK Error #define CAN_STS_LEC_BIT1 0x00000004 // Bit 1 Error #define CAN_STS_LEC_BIT0 0x00000005 // Bit 0 Error #define CAN_STS_LEC_CRC 0x00000006 // CRC Error #define CAN_STS_LEC_NOEVENT 0x00000007 // No Event //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_ERR register. // //***************************************************************************** #define CAN_ERR_RP 0x00008000 // Received Error Passive #define CAN_ERR_REC_M 0x00007F00 // Receive Error Counter #define CAN_ERR_TEC_M 0x000000FF // Transmit Error Counter #define CAN_ERR_REC_S 8 #define CAN_ERR_TEC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_BIT register. // //***************************************************************************** #define CAN_BIT_TSEG2_M 0x00007000 // Time Segment after Sample Point #define CAN_BIT_TSEG1_M 0x00000F00 // Time Segment Before Sample Point #define CAN_BIT_SJW_M 0x000000C0 // (Re)Synchronization Jump Width #define CAN_BIT_BRP_M 0x0000003F // Baud Rate Prescaler #define CAN_BIT_TSEG2_S 12 #define CAN_BIT_TSEG1_S 8 #define CAN_BIT_SJW_S 6 #define CAN_BIT_BRP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_INT register. // //***************************************************************************** #define CAN_INT_INTID_M 0x0000FFFF // Interrupt Identifier #define CAN_INT_INTID_NONE 0x00000000 // No interrupt pending #define CAN_INT_INTID_STATUS 0x00008000 // Status Interrupt //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_TST register. // //***************************************************************************** #define CAN_TST_RX 0x00000080 // Receive Observation #define CAN_TST_TX_M 0x00000060 // Transmit Control #define CAN_TST_TX_CANCTL 0x00000000 // CAN Module Control #define CAN_TST_TX_SAMPLE 0x00000020 // Sample Point #define CAN_TST_TX_DOMINANT 0x00000040 // Driven Low #define CAN_TST_TX_RECESSIVE 0x00000060 // Driven High #define CAN_TST_LBACK 0x00000010 // Loopback Mode #define CAN_TST_SILENT 0x00000008 // Silent Mode #define CAN_TST_BASIC 0x00000004 // Basic Mode //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_BRPE register. // //***************************************************************************** #define CAN_BRPE_BRPE_M 0x0000000F // Baud Rate Prescaler Extension #define CAN_BRPE_BRPE_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1CRQ register. // //***************************************************************************** #define CAN_IF1CRQ_BUSY 0x00008000 // Busy Flag #define CAN_IF1CRQ_MNUM_M 0x0000003F // Message Number #define CAN_IF1CRQ_MNUM_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1CMSK register. // //***************************************************************************** #define CAN_IF1CMSK_WRNRD 0x00000080 // Write, Not Read #define CAN_IF1CMSK_MASK 0x00000040 // Access Mask Bits #define CAN_IF1CMSK_ARB 0x00000020 // Access Arbitration Bits #define CAN_IF1CMSK_CONTROL 0x00000010 // Access Control Bits #define CAN_IF1CMSK_CLRINTPND 0x00000008 // Clear Interrupt Pending Bit #define CAN_IF1CMSK_NEWDAT 0x00000004 // Access New Data #define CAN_IF1CMSK_TXRQST 0x00000004 // Access Transmission Request #define CAN_IF1CMSK_DATAA 0x00000002 // Access Data Byte 0 to 3 #define CAN_IF1CMSK_DATAB 0x00000001 // Access Data Byte 4 to 7 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1MSK1 register. // //***************************************************************************** #define CAN_IF1MSK1_IDMSK_M 0x0000FFFF // Identifier Mask #define CAN_IF1MSK1_IDMSK_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1MSK2 register. // //***************************************************************************** #define CAN_IF1MSK2_MXTD 0x00008000 // Mask Extended Identifier #define CAN_IF1MSK2_MDIR 0x00004000 // Mask Message Direction #define CAN_IF1MSK2_IDMSK_M 0x00001FFF // Identifier Mask #define CAN_IF1MSK2_IDMSK_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1ARB1 register. // //***************************************************************************** #define CAN_IF1ARB1_ID_M 0x0000FFFF // Message Identifier #define CAN_IF1ARB1_ID_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1ARB2 register. // //***************************************************************************** #define CAN_IF1ARB2_MSGVAL 0x00008000 // Message Valid #define CAN_IF1ARB2_XTD 0x00004000 // Extended Identifier #define CAN_IF1ARB2_DIR 0x00002000 // Message Direction #define CAN_IF1ARB2_ID_M 0x00001FFF // Message Identifier #define CAN_IF1ARB2_ID_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1MCTL register. // //***************************************************************************** #define CAN_IF1MCTL_NEWDAT 0x00008000 // New Data #define CAN_IF1MCTL_MSGLST 0x00004000 // Message Lost #define CAN_IF1MCTL_INTPND 0x00002000 // Interrupt Pending #define CAN_IF1MCTL_UMASK 0x00001000 // Use Acceptance Mask #define CAN_IF1MCTL_TXIE 0x00000800 // Transmit Interrupt Enable #define CAN_IF1MCTL_RXIE 0x00000400 // Receive Interrupt Enable #define CAN_IF1MCTL_RMTEN 0x00000200 // Remote Enable #define CAN_IF1MCTL_TXRQST 0x00000100 // Transmit Request #define CAN_IF1MCTL_EOB 0x00000080 // End of Buffer #define CAN_IF1MCTL_DLC_M 0x0000000F // Data Length Code #define CAN_IF1MCTL_DLC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1DA1 register. // //***************************************************************************** #define CAN_IF1DA1_DATA_M 0x0000FFFF // Data #define CAN_IF1DA1_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1DA2 register. // //***************************************************************************** #define CAN_IF1DA2_DATA_M 0x0000FFFF // Data #define CAN_IF1DA2_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1DB1 register. // //***************************************************************************** #define CAN_IF1DB1_DATA_M 0x0000FFFF // Data #define CAN_IF1DB1_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF1DB2 register. // //***************************************************************************** #define CAN_IF1DB2_DATA_M 0x0000FFFF // Data #define CAN_IF1DB2_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2CRQ register. // //***************************************************************************** #define CAN_IF2CRQ_BUSY 0x00008000 // Busy Flag #define CAN_IF2CRQ_MNUM_M 0x0000003F // Message Number #define CAN_IF2CRQ_MNUM_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2CMSK register. // //***************************************************************************** #define CAN_IF2CMSK_WRNRD 0x00000080 // Write, Not Read #define CAN_IF2CMSK_MASK 0x00000040 // Access Mask Bits #define CAN_IF2CMSK_ARB 0x00000020 // Access Arbitration Bits #define CAN_IF2CMSK_CONTROL 0x00000010 // Access Control Bits #define CAN_IF2CMSK_CLRINTPND 0x00000008 // Clear Interrupt Pending Bit #define CAN_IF2CMSK_NEWDAT 0x00000004 // Access New Data #define CAN_IF2CMSK_TXRQST 0x00000004 // Access Transmission Request #define CAN_IF2CMSK_DATAA 0x00000002 // Access Data Byte 0 to 3 #define CAN_IF2CMSK_DATAB 0x00000001 // Access Data Byte 4 to 7 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2MSK1 register. // //***************************************************************************** #define CAN_IF2MSK1_IDMSK_M 0x0000FFFF // Identifier Mask #define CAN_IF2MSK1_IDMSK_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2MSK2 register. // //***************************************************************************** #define CAN_IF2MSK2_MXTD 0x00008000 // Mask Extended Identifier #define CAN_IF2MSK2_MDIR 0x00004000 // Mask Message Direction #define CAN_IF2MSK2_IDMSK_M 0x00001FFF // Identifier Mask #define CAN_IF2MSK2_IDMSK_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2ARB1 register. // //***************************************************************************** #define CAN_IF2ARB1_ID_M 0x0000FFFF // Message Identifier #define CAN_IF2ARB1_ID_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2ARB2 register. // //***************************************************************************** #define CAN_IF2ARB2_MSGVAL 0x00008000 // Message Valid #define CAN_IF2ARB2_XTD 0x00004000 // Extended Identifier #define CAN_IF2ARB2_DIR 0x00002000 // Message Direction #define CAN_IF2ARB2_ID_M 0x00001FFF // Message Identifier #define CAN_IF2ARB2_ID_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2MCTL register. // //***************************************************************************** #define CAN_IF2MCTL_NEWDAT 0x00008000 // New Data #define CAN_IF2MCTL_MSGLST 0x00004000 // Message Lost #define CAN_IF2MCTL_INTPND 0x00002000 // Interrupt Pending #define CAN_IF2MCTL_UMASK 0x00001000 // Use Acceptance Mask #define CAN_IF2MCTL_TXIE 0x00000800 // Transmit Interrupt Enable #define CAN_IF2MCTL_RXIE 0x00000400 // Receive Interrupt Enable #define CAN_IF2MCTL_RMTEN 0x00000200 // Remote Enable #define CAN_IF2MCTL_TXRQST 0x00000100 // Transmit Request #define CAN_IF2MCTL_EOB 0x00000080 // End of Buffer #define CAN_IF2MCTL_DLC_M 0x0000000F // Data Length Code #define CAN_IF2MCTL_DLC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2DA1 register. // //***************************************************************************** #define CAN_IF2DA1_DATA_M 0x0000FFFF // Data #define CAN_IF2DA1_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2DA2 register. // //***************************************************************************** #define CAN_IF2DA2_DATA_M 0x0000FFFF // Data #define CAN_IF2DA2_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2DB1 register. // //***************************************************************************** #define CAN_IF2DB1_DATA_M 0x0000FFFF // Data #define CAN_IF2DB1_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_IF2DB2 register. // //***************************************************************************** #define CAN_IF2DB2_DATA_M 0x0000FFFF // Data #define CAN_IF2DB2_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_TXRQ1 register. // //***************************************************************************** #define CAN_TXRQ1_TXRQST_M 0x0000FFFF // Transmission Request Bits #define CAN_TXRQ1_TXRQST_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_TXRQ2 register. // //***************************************************************************** #define CAN_TXRQ2_TXRQST_M 0x0000FFFF // Transmission Request Bits #define CAN_TXRQ2_TXRQST_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_NWDA1 register. // //***************************************************************************** #define CAN_NWDA1_NEWDAT_M 0x0000FFFF // New Data Bits #define CAN_NWDA1_NEWDAT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_NWDA2 register. // //***************************************************************************** #define CAN_NWDA2_NEWDAT_M 0x0000FFFF // New Data Bits #define CAN_NWDA2_NEWDAT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_MSG1INT register. // //***************************************************************************** #define CAN_MSG1INT_INTPND_M 0x0000FFFF // Interrupt Pending Bits #define CAN_MSG1INT_INTPND_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_MSG2INT register. // //***************************************************************************** #define CAN_MSG2INT_INTPND_M 0x0000FFFF // Interrupt Pending Bits #define CAN_MSG2INT_INTPND_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_MSG1VAL register. // //***************************************************************************** #define CAN_MSG1VAL_MSGVAL_M 0x0000FFFF // Message Valid Bits #define CAN_MSG1VAL_MSGVAL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CAN_O_MSG2VAL register. // //***************************************************************************** #define CAN_MSG2VAL_MSGVAL_M 0x0000FFFF // Message Valid Bits #define CAN_MSG2VAL_MSGVAL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FADDR register. // //***************************************************************************** #define USB_FADDR_M 0x0000007F // Function Address #define USB_FADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_POWER register. // //***************************************************************************** #define USB_POWER_ISOUP 0x00000080 // Isochronous Update #define USB_POWER_SOFTCONN 0x00000040 // Soft Connect/Disconnect #define USB_POWER_HSENAB 0x00000020 // High Speed Enable #define USB_POWER_HSMODE 0x00000010 // High Speed Enable #define USB_POWER_RESET 0x00000008 // RESET Signaling #define USB_POWER_RESUME 0x00000004 // RESUME Signaling #define USB_POWER_SUSPEND 0x00000002 // SUSPEND Mode #define USB_POWER_PWRDNPHY 0x00000001 // Power Down PHY //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXIS register. // //***************************************************************************** #define USB_TXIS_EP7 0x00000080 // TX Endpoint 7 Interrupt #define USB_TXIS_EP6 0x00000040 // TX Endpoint 6 Interrupt #define USB_TXIS_EP5 0x00000020 // TX Endpoint 5 Interrupt #define USB_TXIS_EP4 0x00000010 // TX Endpoint 4 Interrupt #define USB_TXIS_EP3 0x00000008 // TX Endpoint 3 Interrupt #define USB_TXIS_EP2 0x00000004 // TX Endpoint 2 Interrupt #define USB_TXIS_EP1 0x00000002 // TX Endpoint 1 Interrupt #define USB_TXIS_EP0 0x00000001 // TX and RX Endpoint 0 Interrupt //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXIS register. // //***************************************************************************** #define USB_RXIS_EP7 0x00000080 // RX Endpoint 7 Interrupt #define USB_RXIS_EP6 0x00000040 // RX Endpoint 6 Interrupt #define USB_RXIS_EP5 0x00000020 // RX Endpoint 5 Interrupt #define USB_RXIS_EP4 0x00000010 // RX Endpoint 4 Interrupt #define USB_RXIS_EP3 0x00000008 // RX Endpoint 3 Interrupt #define USB_RXIS_EP2 0x00000004 // RX Endpoint 2 Interrupt #define USB_RXIS_EP1 0x00000002 // RX Endpoint 1 Interrupt //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXIE register. // //***************************************************************************** #define USB_TXIE_EP7 0x00000080 // TX Endpoint 7 Interrupt Enable #define USB_TXIE_EP6 0x00000040 // TX Endpoint 6 Interrupt Enable #define USB_TXIE_EP5 0x00000020 // TX Endpoint 5 Interrupt Enable #define USB_TXIE_EP4 0x00000010 // TX Endpoint 4 Interrupt Enable #define USB_TXIE_EP3 0x00000008 // TX Endpoint 3 Interrupt Enable #define USB_TXIE_EP2 0x00000004 // TX Endpoint 2 Interrupt Enable #define USB_TXIE_EP1 0x00000002 // TX Endpoint 1 Interrupt Enable #define USB_TXIE_EP0 0x00000001 // TX and RX Endpoint 0 Interrupt // Enable //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXIE register. // //***************************************************************************** #define USB_RXIE_EP7 0x00000080 // RX Endpoint 7 Interrupt Enable #define USB_RXIE_EP6 0x00000040 // RX Endpoint 6 Interrupt Enable #define USB_RXIE_EP5 0x00000020 // RX Endpoint 5 Interrupt Enable #define USB_RXIE_EP4 0x00000010 // RX Endpoint 4 Interrupt Enable #define USB_RXIE_EP3 0x00000008 // RX Endpoint 3 Interrupt Enable #define USB_RXIE_EP2 0x00000004 // RX Endpoint 2 Interrupt Enable #define USB_RXIE_EP1 0x00000002 // RX Endpoint 1 Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the USB_O_IS register. // //***************************************************************************** #define USB_IS_VBUSERR 0x00000080 // VBUS Error (OTG only) #define USB_IS_SESREQ 0x00000040 // SESSION REQUEST (OTG only) #define USB_IS_DISCON 0x00000020 // Session Disconnect (OTG only) #define USB_IS_CONN 0x00000010 // Session Connect #define USB_IS_SOF 0x00000008 // Start of Frame #define USB_IS_BABBLE 0x00000004 // Babble Detected #define USB_IS_RESET 0x00000004 // RESET Signaling Detected #define USB_IS_RESUME 0x00000002 // RESUME Signaling Detected #define USB_IS_SUSPEND 0x00000001 // SUSPEND Signaling Detected //***************************************************************************** // // The following are defines for the bit fields in the USB_O_IE register. // //***************************************************************************** #define USB_IE_VBUSERR 0x00000080 // Enable VBUS Error Interrupt (OTG // only) #define USB_IE_SESREQ 0x00000040 // Enable Session Request (OTG // only) #define USB_IE_DISCON 0x00000020 // Enable Disconnect Interrupt #define USB_IE_CONN 0x00000010 // Enable Connect Interrupt #define USB_IE_SOF 0x00000008 // Enable Start-of-Frame Interrupt #define USB_IE_BABBLE 0x00000004 // Enable Babble Interrupt #define USB_IE_RESET 0x00000004 // Enable RESET Interrupt #define USB_IE_RESUME 0x00000002 // Enable RESUME Interrupt #define USB_IE_SUSPND 0x00000001 // Enable SUSPEND Interrupt //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FRAME register. // //***************************************************************************** #define USB_FRAME_M 0x000007FF // Frame Number #define USB_FRAME_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_EPIDX register. // //***************************************************************************** #define USB_EPIDX_EPIDX_M 0x0000000F // Endpoint Index #define USB_EPIDX_EPIDX_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TEST register. // //***************************************************************************** #define USB_TEST_FORCEH 0x00000080 // Force Host Mode #define USB_TEST_FIFOACC 0x00000040 // FIFO Access #define USB_TEST_FORCEFS 0x00000020 // Force Full-Speed Mode #define USB_TEST_FORCEHS 0x00000010 // Force High-Speed Mode #define USB_TEST_TESTPKT 0x00000008 // Test Packet Mode Enable #define USB_TEST_TESTK 0x00000004 // Test_K Mode Enable #define USB_TEST_TESTJ 0x00000002 // Test_J Mode Enable #define USB_TEST_TESTSE0NAK 0x00000001 // Test_SE0_NAK Test Mode Enable //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FIFO0 register. // //***************************************************************************** #define USB_FIFO0_EPDATA_M 0xFFFFFFFF // Endpoint Data #define USB_FIFO0_EPDATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FIFO1 register. // //***************************************************************************** #define USB_FIFO1_EPDATA_M 0xFFFFFFFF // Endpoint Data #define USB_FIFO1_EPDATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FIFO2 register. // //***************************************************************************** #define USB_FIFO2_EPDATA_M 0xFFFFFFFF // Endpoint Data #define USB_FIFO2_EPDATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FIFO3 register. // //***************************************************************************** #define USB_FIFO3_EPDATA_M 0xFFFFFFFF // Endpoint Data #define USB_FIFO3_EPDATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FIFO4 register. // //***************************************************************************** #define USB_FIFO4_EPDATA_M 0xFFFFFFFF // Endpoint Data #define USB_FIFO4_EPDATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FIFO5 register. // //***************************************************************************** #define USB_FIFO5_EPDATA_M 0xFFFFFFFF // Endpoint Data #define USB_FIFO5_EPDATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FIFO6 register. // //***************************************************************************** #define USB_FIFO6_EPDATA_M 0xFFFFFFFF // Endpoint Data #define USB_FIFO6_EPDATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FIFO7 register. // //***************************************************************************** #define USB_FIFO7_EPDATA_M 0xFFFFFFFF // Endpoint Data #define USB_FIFO7_EPDATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DEVCTL register. // //***************************************************************************** #define USB_DEVCTL_DEV 0x00000080 // Device Mode (OTG only) #define USB_DEVCTL_FSDEV 0x00000040 // Full-Speed Device Detected #define USB_DEVCTL_LSDEV 0x00000020 // Low-Speed Device Detected #define USB_DEVCTL_VBUS_M 0x00000018 // VBUS Level (OTG only) #define USB_DEVCTL_VBUS_NONE 0x00000000 // Below SessionEnd #define USB_DEVCTL_VBUS_SEND 0x00000008 // Above SessionEnd, below AValid #define USB_DEVCTL_VBUS_AVALID 0x00000010 // Above AValid, below VBUSValid #define USB_DEVCTL_VBUS_VALID 0x00000018 // Above VBUSValid #define USB_DEVCTL_HOST 0x00000004 // Host Mode #define USB_DEVCTL_HOSTREQ 0x00000002 // Host Request (OTG only) #define USB_DEVCTL_SESSION 0x00000001 // Session Start/End (OTG only) //***************************************************************************** // // The following are defines for the bit fields in the USB_O_CCONF register. // //***************************************************************************** #define USB_CCONF_TXEDMA 0x00000002 // TX Early DMA Enable #define USB_CCONF_RXEDMA 0x00000001 // TX Early DMA Enable //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFIFOSZ register. // //***************************************************************************** #define USB_TXFIFOSZ_DPB 0x00000010 // Double Packet Buffer Support #define USB_TXFIFOSZ_SIZE_M 0x0000000F // Max Packet Size #define USB_TXFIFOSZ_SIZE_8 0x00000000 // 8 #define USB_TXFIFOSZ_SIZE_16 0x00000001 // 16 #define USB_TXFIFOSZ_SIZE_32 0x00000002 // 32 #define USB_TXFIFOSZ_SIZE_64 0x00000003 // 64 #define USB_TXFIFOSZ_SIZE_128 0x00000004 // 128 #define USB_TXFIFOSZ_SIZE_256 0x00000005 // 256 #define USB_TXFIFOSZ_SIZE_512 0x00000006 // 512 #define USB_TXFIFOSZ_SIZE_1024 0x00000007 // 1024 #define USB_TXFIFOSZ_SIZE_2048 0x00000008 // 2048 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXFIFOSZ register. // //***************************************************************************** #define USB_RXFIFOSZ_DPB 0x00000010 // Double Packet Buffer Support #define USB_RXFIFOSZ_SIZE_M 0x0000000F // Max Packet Size #define USB_RXFIFOSZ_SIZE_8 0x00000000 // 8 #define USB_RXFIFOSZ_SIZE_16 0x00000001 // 16 #define USB_RXFIFOSZ_SIZE_32 0x00000002 // 32 #define USB_RXFIFOSZ_SIZE_64 0x00000003 // 64 #define USB_RXFIFOSZ_SIZE_128 0x00000004 // 128 #define USB_RXFIFOSZ_SIZE_256 0x00000005 // 256 #define USB_RXFIFOSZ_SIZE_512 0x00000006 // 512 #define USB_RXFIFOSZ_SIZE_1024 0x00000007 // 1024 #define USB_RXFIFOSZ_SIZE_2048 0x00000008 // 2048 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFIFOADD // register. // //***************************************************************************** #define USB_TXFIFOADD_ADDR_M 0x000001FF // Transmit/Receive Start Address #define USB_TXFIFOADD_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXFIFOADD // register. // //***************************************************************************** #define USB_RXFIFOADD_ADDR_M 0x000001FF // Transmit/Receive Start Address #define USB_RXFIFOADD_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_ULPIVBUSCTL // register. // //***************************************************************************** #define USB_ULPIVBUSCTL_USEEXTVBUSIND \ 0x00000002 // Use External VBUS Indicator #define USB_ULPIVBUSCTL_USEEXTVBUS \ 0x00000001 // Use External VBUS //***************************************************************************** // // The following are defines for the bit fields in the USB_O_ULPIREGDATA // register. // //***************************************************************************** #define USB_ULPIREGDATA_REGDATA_M \ 0x000000FF // Register Data #define USB_ULPIREGDATA_REGDATA_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_ULPIREGADDR // register. // //***************************************************************************** #define USB_ULPIREGADDR_ADDR_M 0x000000FF // Register Address #define USB_ULPIREGADDR_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_ULPIREGCTL // register. // //***************************************************************************** #define USB_ULPIREGCTL_RDWR 0x00000004 // Read/Write Control #define USB_ULPIREGCTL_REGCMPLT 0x00000002 // Register Access Complete #define USB_ULPIREGCTL_REGACC 0x00000001 // Initiate Register Access //***************************************************************************** // // The following are defines for the bit fields in the USB_O_EPINFO register. // //***************************************************************************** #define USB_EPINFO_RXEP_M 0x000000F0 // RX Endpoints #define USB_EPINFO_TXEP_M 0x0000000F // TX Endpoints #define USB_EPINFO_RXEP_S 4 #define USB_EPINFO_TXEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RAMINFO register. // //***************************************************************************** #define USB_RAMINFO_DMACHAN_M 0x000000F0 // DMA Channels #define USB_RAMINFO_RAMBITS_M 0x0000000F // RAM Address Bus Width #define USB_RAMINFO_DMACHAN_S 4 #define USB_RAMINFO_RAMBITS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_CONTIM register. // //***************************************************************************** #define USB_CONTIM_WTCON_M 0x000000F0 // Connect Wait #define USB_CONTIM_WTID_M 0x0000000F // Wait ID #define USB_CONTIM_WTCON_S 4 #define USB_CONTIM_WTID_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_VPLEN register. // //***************************************************************************** #define USB_VPLEN_VPLEN_M 0x000000FF // VBUS Pulse Length #define USB_VPLEN_VPLEN_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_HSEOF register. // //***************************************************************************** #define USB_HSEOF_HSEOFG_M 0x000000FF // HIgh-Speed End-of-Frame Gap #define USB_HSEOF_HSEOFG_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_FSEOF register. // //***************************************************************************** #define USB_FSEOF_FSEOFG_M 0x000000FF // Full-Speed End-of-Frame Gap #define USB_FSEOF_FSEOFG_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_LSEOF register. // //***************************************************************************** #define USB_LSEOF_LSEOFG_M 0x000000FF // Low-Speed End-of-Frame Gap #define USB_LSEOF_LSEOFG_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFUNCADDR0 // register. // //***************************************************************************** #define USB_TXFUNCADDR0_ADDR_M 0x0000007F // Device Address #define USB_TXFUNCADDR0_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBADDR0 // register. // //***************************************************************************** #define USB_TXHUBADDR0_ADDR_M 0x0000007F // Hub Address #define USB_TXHUBADDR0_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBPORT0 // register. // //***************************************************************************** #define USB_TXHUBPORT0_PORT_M 0x0000007F // Hub Port #define USB_TXHUBPORT0_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFUNCADDR1 // register. // //***************************************************************************** #define USB_TXFUNCADDR1_ADDR_M 0x0000007F // Device Address #define USB_TXFUNCADDR1_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBADDR1 // register. // //***************************************************************************** #define USB_TXHUBADDR1_ADDR_M 0x0000007F // Hub Address #define USB_TXHUBADDR1_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBPORT1 // register. // //***************************************************************************** #define USB_TXHUBPORT1_PORT_M 0x0000007F // Hub Port #define USB_TXHUBPORT1_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXFUNCADDR1 // register. // //***************************************************************************** #define USB_RXFUNCADDR1_ADDR_M 0x0000007F // Device Address #define USB_RXFUNCADDR1_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBADDR1 // register. // //***************************************************************************** #define USB_RXHUBADDR1_ADDR_M 0x0000007F // Hub Address #define USB_RXHUBADDR1_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBPORT1 // register. // //***************************************************************************** #define USB_RXHUBPORT1_PORT_M 0x0000007F // Hub Port #define USB_RXHUBPORT1_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFUNCADDR2 // register. // //***************************************************************************** #define USB_TXFUNCADDR2_ADDR_M 0x0000007F // Device Address #define USB_TXFUNCADDR2_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBADDR2 // register. // //***************************************************************************** #define USB_TXHUBADDR2_ADDR_M 0x0000007F // Hub Address #define USB_TXHUBADDR2_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBPORT2 // register. // //***************************************************************************** #define USB_TXHUBPORT2_PORT_M 0x0000007F // Hub Port #define USB_TXHUBPORT2_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXFUNCADDR2 // register. // //***************************************************************************** #define USB_RXFUNCADDR2_ADDR_M 0x0000007F // Device Address #define USB_RXFUNCADDR2_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBADDR2 // register. // //***************************************************************************** #define USB_RXHUBADDR2_ADDR_M 0x0000007F // Hub Address #define USB_RXHUBADDR2_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBPORT2 // register. // //***************************************************************************** #define USB_RXHUBPORT2_PORT_M 0x0000007F // Hub Port #define USB_RXHUBPORT2_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFUNCADDR3 // register. // //***************************************************************************** #define USB_TXFUNCADDR3_ADDR_M 0x0000007F // Device Address #define USB_TXFUNCADDR3_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBADDR3 // register. // //***************************************************************************** #define USB_TXHUBADDR3_ADDR_M 0x0000007F // Hub Address #define USB_TXHUBADDR3_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBPORT3 // register. // //***************************************************************************** #define USB_TXHUBPORT3_PORT_M 0x0000007F // Hub Port #define USB_TXHUBPORT3_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXFUNCADDR3 // register. // //***************************************************************************** #define USB_RXFUNCADDR3_ADDR_M 0x0000007F // Device Address #define USB_RXFUNCADDR3_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBADDR3 // register. // //***************************************************************************** #define USB_RXHUBADDR3_ADDR_M 0x0000007F // Hub Address #define USB_RXHUBADDR3_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBPORT3 // register. // //***************************************************************************** #define USB_RXHUBPORT3_PORT_M 0x0000007F // Hub Port #define USB_RXHUBPORT3_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFUNCADDR4 // register. // //***************************************************************************** #define USB_TXFUNCADDR4_ADDR_M 0x0000007F // Device Address #define USB_TXFUNCADDR4_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBADDR4 // register. // //***************************************************************************** #define USB_TXHUBADDR4_ADDR_M 0x0000007F // Hub Address #define USB_TXHUBADDR4_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBPORT4 // register. // //***************************************************************************** #define USB_TXHUBPORT4_PORT_M 0x0000007F // Hub Port #define USB_TXHUBPORT4_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXFUNCADDR4 // register. // //***************************************************************************** #define USB_RXFUNCADDR4_ADDR_M 0x0000007F // Device Address #define USB_RXFUNCADDR4_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBADDR4 // register. // //***************************************************************************** #define USB_RXHUBADDR4_ADDR_M 0x0000007F // Hub Address #define USB_RXHUBADDR4_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBPORT4 // register. // //***************************************************************************** #define USB_RXHUBPORT4_PORT_M 0x0000007F // Hub Port #define USB_RXHUBPORT4_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFUNCADDR5 // register. // //***************************************************************************** #define USB_TXFUNCADDR5_ADDR_M 0x0000007F // Device Address #define USB_TXFUNCADDR5_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBADDR5 // register. // //***************************************************************************** #define USB_TXHUBADDR5_ADDR_M 0x0000007F // Hub Address #define USB_TXHUBADDR5_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBPORT5 // register. // //***************************************************************************** #define USB_TXHUBPORT5_PORT_M 0x0000007F // Hub Port #define USB_TXHUBPORT5_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXFUNCADDR5 // register. // //***************************************************************************** #define USB_RXFUNCADDR5_ADDR_M 0x0000007F // Device Address #define USB_RXFUNCADDR5_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBADDR5 // register. // //***************************************************************************** #define USB_RXHUBADDR5_ADDR_M 0x0000007F // Hub Address #define USB_RXHUBADDR5_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBPORT5 // register. // //***************************************************************************** #define USB_RXHUBPORT5_PORT_M 0x0000007F // Hub Port #define USB_RXHUBPORT5_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFUNCADDR6 // register. // //***************************************************************************** #define USB_TXFUNCADDR6_ADDR_M 0x0000007F // Device Address #define USB_TXFUNCADDR6_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBADDR6 // register. // //***************************************************************************** #define USB_TXHUBADDR6_ADDR_M 0x0000007F // Hub Address #define USB_TXHUBADDR6_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBPORT6 // register. // //***************************************************************************** #define USB_TXHUBPORT6_PORT_M 0x0000007F // Hub Port #define USB_TXHUBPORT6_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXFUNCADDR6 // register. // //***************************************************************************** #define USB_RXFUNCADDR6_ADDR_M 0x0000007F // Device Address #define USB_RXFUNCADDR6_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBADDR6 // register. // //***************************************************************************** #define USB_RXHUBADDR6_ADDR_M 0x0000007F // Hub Address #define USB_RXHUBADDR6_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBPORT6 // register. // //***************************************************************************** #define USB_RXHUBPORT6_PORT_M 0x0000007F // Hub Port #define USB_RXHUBPORT6_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXFUNCADDR7 // register. // //***************************************************************************** #define USB_TXFUNCADDR7_ADDR_M 0x0000007F // Device Address #define USB_TXFUNCADDR7_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBADDR7 // register. // //***************************************************************************** #define USB_TXHUBADDR7_ADDR_M 0x0000007F // Hub Address #define USB_TXHUBADDR7_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXHUBPORT7 // register. // //***************************************************************************** #define USB_TXHUBPORT7_PORT_M 0x0000007F // Hub Port #define USB_TXHUBPORT7_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXFUNCADDR7 // register. // //***************************************************************************** #define USB_RXFUNCADDR7_ADDR_M 0x0000007F // Device Address #define USB_RXFUNCADDR7_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBADDR7 // register. // //***************************************************************************** #define USB_RXHUBADDR7_ADDR_M 0x0000007F // Hub Address #define USB_RXHUBADDR7_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXHUBPORT7 // register. // //***************************************************************************** #define USB_RXHUBPORT7_PORT_M 0x0000007F // Hub Port #define USB_RXHUBPORT7_PORT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_CSRL0 register. // //***************************************************************************** #define USB_CSRL0_NAKTO 0x00000080 // NAK Timeout #define USB_CSRL0_SETENDC 0x00000080 // Setup End Clear #define USB_CSRL0_STATUS 0x00000040 // STATUS Packet #define USB_CSRL0_RXRDYC 0x00000040 // RXRDY Clear #define USB_CSRL0_REQPKT 0x00000020 // Request Packet #define USB_CSRL0_STALL 0x00000020 // Send Stall #define USB_CSRL0_SETEND 0x00000010 // Setup End #define USB_CSRL0_ERROR 0x00000010 // Error #define USB_CSRL0_DATAEND 0x00000008 // Data End #define USB_CSRL0_SETUP 0x00000008 // Setup Packet #define USB_CSRL0_STALLED 0x00000004 // Endpoint Stalled #define USB_CSRL0_TXRDY 0x00000002 // Transmit Packet Ready #define USB_CSRL0_RXRDY 0x00000001 // Receive Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_CSRH0 register. // //***************************************************************************** #define USB_CSRH0_DISPING 0x00000008 // PING Disable #define USB_CSRH0_DTWE 0x00000004 // Data Toggle Write Enable #define USB_CSRH0_DT 0x00000002 // Data Toggle #define USB_CSRH0_FLUSH 0x00000001 // Flush FIFO //***************************************************************************** // // The following are defines for the bit fields in the USB_O_COUNT0 register. // //***************************************************************************** #define USB_COUNT0_COUNT_M 0x0000007F // FIFO Count #define USB_COUNT0_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TYPE0 register. // //***************************************************************************** #define USB_TYPE0_SPEED_M 0x000000C0 // Operating Speed #define USB_TYPE0_SPEED_HIGH 0x00000040 // High #define USB_TYPE0_SPEED_FULL 0x00000080 // Full #define USB_TYPE0_SPEED_LOW 0x000000C0 // Low //***************************************************************************** // // The following are defines for the bit fields in the USB_O_NAKLMT register. // //***************************************************************************** #define USB_NAKLMT_NAKLMT_M 0x0000001F // EP0 NAK Limit #define USB_NAKLMT_NAKLMT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXMAXP1 register. // //***************************************************************************** #define USB_TXMAXP1_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_TXMAXP1_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRL1 register. // //***************************************************************************** #define USB_TXCSRL1_NAKTO 0x00000080 // NAK Timeout #define USB_TXCSRL1_CLRDT 0x00000040 // Clear Data Toggle #define USB_TXCSRL1_STALLED 0x00000020 // Endpoint Stalled #define USB_TXCSRL1_STALL 0x00000010 // Send STALL #define USB_TXCSRL1_SETUP 0x00000010 // Setup Packet #define USB_TXCSRL1_FLUSH 0x00000008 // Flush FIFO #define USB_TXCSRL1_ERROR 0x00000004 // Error #define USB_TXCSRL1_UNDRN 0x00000004 // Underrun #define USB_TXCSRL1_FIFONE 0x00000002 // FIFO Not Empty #define USB_TXCSRL1_TXRDY 0x00000001 // Transmit Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRH1 register. // //***************************************************************************** #define USB_TXCSRH1_AUTOSET 0x00000080 // Auto Set #define USB_TXCSRH1_ISO 0x00000040 // Isochronous Transfers #define USB_TXCSRH1_MODE 0x00000020 // Mode #define USB_TXCSRH1_DMAEN 0x00000010 // DMA Request Enable #define USB_TXCSRH1_FDT 0x00000008 // Force Data Toggle #define USB_TXCSRH1_DMAMOD 0x00000004 // DMA Request Mode #define USB_TXCSRH1_DTWE 0x00000002 // Data Toggle Write Enable #define USB_TXCSRH1_DT 0x00000001 // Data Toggle //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXMAXP1 register. // //***************************************************************************** #define USB_RXMAXP1_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_RXMAXP1_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRL1 register. // //***************************************************************************** #define USB_RXCSRL1_CLRDT 0x00000080 // Clear Data Toggle #define USB_RXCSRL1_STALLED 0x00000040 // Endpoint Stalled #define USB_RXCSRL1_STALL 0x00000020 // Send STALL #define USB_RXCSRL1_REQPKT 0x00000020 // Request Packet #define USB_RXCSRL1_FLUSH 0x00000010 // Flush FIFO #define USB_RXCSRL1_DATAERR 0x00000008 // Data Error #define USB_RXCSRL1_NAKTO 0x00000008 // NAK Timeout #define USB_RXCSRL1_OVER 0x00000004 // Overrun #define USB_RXCSRL1_ERROR 0x00000004 // Error #define USB_RXCSRL1_FULL 0x00000002 // FIFO Full #define USB_RXCSRL1_RXRDY 0x00000001 // Receive Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRH1 register. // //***************************************************************************** #define USB_RXCSRH1_AUTOCL 0x00000080 // Auto Clear #define USB_RXCSRH1_AUTORQ 0x00000040 // Auto Request #define USB_RXCSRH1_ISO 0x00000040 // Isochronous Transfers #define USB_RXCSRH1_DMAEN 0x00000020 // DMA Request Enable #define USB_RXCSRH1_DISNYET 0x00000010 // Disable NYET #define USB_RXCSRH1_PIDERR 0x00000010 // PID Error #define USB_RXCSRH1_DMAMOD 0x00000008 // DMA Request Mode #define USB_RXCSRH1_DTWE 0x00000004 // Data Toggle Write Enable #define USB_RXCSRH1_DT 0x00000002 // Data Toggle #define USB_RXCSRH1_INCOMPRX 0x00000001 // Incomplete RX Transmission // Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCOUNT1 register. // //***************************************************************************** #define USB_RXCOUNT1_COUNT_M 0x00001FFF // Receive Packet Count #define USB_RXCOUNT1_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXTYPE1 register. // //***************************************************************************** #define USB_TXTYPE1_SPEED_M 0x000000C0 // Operating Speed #define USB_TXTYPE1_SPEED_DFLT 0x00000000 // Default #define USB_TXTYPE1_SPEED_HIGH 0x00000040 // High #define USB_TXTYPE1_SPEED_FULL 0x00000080 // Full #define USB_TXTYPE1_SPEED_LOW 0x000000C0 // Low #define USB_TXTYPE1_PROTO_M 0x00000030 // Protocol #define USB_TXTYPE1_PROTO_CTRL 0x00000000 // Control #define USB_TXTYPE1_PROTO_ISOC 0x00000010 // Isochronous #define USB_TXTYPE1_PROTO_BULK 0x00000020 // Bulk #define USB_TXTYPE1_PROTO_INT 0x00000030 // Interrupt #define USB_TXTYPE1_TEP_M 0x0000000F // Target Endpoint Number #define USB_TXTYPE1_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXINTERVAL1 // register. // //***************************************************************************** #define USB_TXINTERVAL1_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_TXINTERVAL1_TXPOLL_M \ 0x000000FF // TX Polling #define USB_TXINTERVAL1_TXPOLL_S \ 0 #define USB_TXINTERVAL1_NAKLMT_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXTYPE1 register. // //***************************************************************************** #define USB_RXTYPE1_SPEED_M 0x000000C0 // Operating Speed #define USB_RXTYPE1_SPEED_DFLT 0x00000000 // Default #define USB_RXTYPE1_SPEED_HIGH 0x00000040 // High #define USB_RXTYPE1_SPEED_FULL 0x00000080 // Full #define USB_RXTYPE1_SPEED_LOW 0x000000C0 // Low #define USB_RXTYPE1_PROTO_M 0x00000030 // Protocol #define USB_RXTYPE1_PROTO_CTRL 0x00000000 // Control #define USB_RXTYPE1_PROTO_ISOC 0x00000010 // Isochronous #define USB_RXTYPE1_PROTO_BULK 0x00000020 // Bulk #define USB_RXTYPE1_PROTO_INT 0x00000030 // Interrupt #define USB_RXTYPE1_TEP_M 0x0000000F // Target Endpoint Number #define USB_RXTYPE1_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXINTERVAL1 // register. // //***************************************************************************** #define USB_RXINTERVAL1_TXPOLL_M \ 0x000000FF // RX Polling #define USB_RXINTERVAL1_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_RXINTERVAL1_TXPOLL_S \ 0 #define USB_RXINTERVAL1_NAKLMT_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXMAXP2 register. // //***************************************************************************** #define USB_TXMAXP2_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_TXMAXP2_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRL2 register. // //***************************************************************************** #define USB_TXCSRL2_NAKTO 0x00000080 // NAK Timeout #define USB_TXCSRL2_CLRDT 0x00000040 // Clear Data Toggle #define USB_TXCSRL2_STALLED 0x00000020 // Endpoint Stalled #define USB_TXCSRL2_SETUP 0x00000010 // Setup Packet #define USB_TXCSRL2_STALL 0x00000010 // Send STALL #define USB_TXCSRL2_FLUSH 0x00000008 // Flush FIFO #define USB_TXCSRL2_ERROR 0x00000004 // Error #define USB_TXCSRL2_UNDRN 0x00000004 // Underrun #define USB_TXCSRL2_FIFONE 0x00000002 // FIFO Not Empty #define USB_TXCSRL2_TXRDY 0x00000001 // Transmit Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRH2 register. // //***************************************************************************** #define USB_TXCSRH2_AUTOSET 0x00000080 // Auto Set #define USB_TXCSRH2_ISO 0x00000040 // Isochronous Transfers #define USB_TXCSRH2_MODE 0x00000020 // Mode #define USB_TXCSRH2_DMAEN 0x00000010 // DMA Request Enable #define USB_TXCSRH2_FDT 0x00000008 // Force Data Toggle #define USB_TXCSRH2_DMAMOD 0x00000004 // DMA Request Mode #define USB_TXCSRH2_DTWE 0x00000002 // Data Toggle Write Enable #define USB_TXCSRH2_DT 0x00000001 // Data Toggle //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXMAXP2 register. // //***************************************************************************** #define USB_RXMAXP2_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_RXMAXP2_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRL2 register. // //***************************************************************************** #define USB_RXCSRL2_CLRDT 0x00000080 // Clear Data Toggle #define USB_RXCSRL2_STALLED 0x00000040 // Endpoint Stalled #define USB_RXCSRL2_REQPKT 0x00000020 // Request Packet #define USB_RXCSRL2_STALL 0x00000020 // Send STALL #define USB_RXCSRL2_FLUSH 0x00000010 // Flush FIFO #define USB_RXCSRL2_DATAERR 0x00000008 // Data Error #define USB_RXCSRL2_NAKTO 0x00000008 // NAK Timeout #define USB_RXCSRL2_ERROR 0x00000004 // Error #define USB_RXCSRL2_OVER 0x00000004 // Overrun #define USB_RXCSRL2_FULL 0x00000002 // FIFO Full #define USB_RXCSRL2_RXRDY 0x00000001 // Receive Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRH2 register. // //***************************************************************************** #define USB_RXCSRH2_AUTOCL 0x00000080 // Auto Clear #define USB_RXCSRH2_AUTORQ 0x00000040 // Auto Request #define USB_RXCSRH2_ISO 0x00000040 // Isochronous Transfers #define USB_RXCSRH2_DMAEN 0x00000020 // DMA Request Enable #define USB_RXCSRH2_DISNYET 0x00000010 // Disable NYET #define USB_RXCSRH2_PIDERR 0x00000010 // PID Error #define USB_RXCSRH2_DMAMOD 0x00000008 // DMA Request Mode #define USB_RXCSRH2_DTWE 0x00000004 // Data Toggle Write Enable #define USB_RXCSRH2_DT 0x00000002 // Data Toggle #define USB_RXCSRH2_INCOMPRX 0x00000001 // Incomplete RX Transmission // Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCOUNT2 register. // //***************************************************************************** #define USB_RXCOUNT2_COUNT_M 0x00001FFF // Receive Packet Count #define USB_RXCOUNT2_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXTYPE2 register. // //***************************************************************************** #define USB_TXTYPE2_SPEED_M 0x000000C0 // Operating Speed #define USB_TXTYPE2_SPEED_DFLT 0x00000000 // Default #define USB_TXTYPE2_SPEED_HIGH 0x00000040 // High #define USB_TXTYPE2_SPEED_FULL 0x00000080 // Full #define USB_TXTYPE2_SPEED_LOW 0x000000C0 // Low #define USB_TXTYPE2_PROTO_M 0x00000030 // Protocol #define USB_TXTYPE2_PROTO_CTRL 0x00000000 // Control #define USB_TXTYPE2_PROTO_ISOC 0x00000010 // Isochronous #define USB_TXTYPE2_PROTO_BULK 0x00000020 // Bulk #define USB_TXTYPE2_PROTO_INT 0x00000030 // Interrupt #define USB_TXTYPE2_TEP_M 0x0000000F // Target Endpoint Number #define USB_TXTYPE2_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXINTERVAL2 // register. // //***************************************************************************** #define USB_TXINTERVAL2_TXPOLL_M \ 0x000000FF // TX Polling #define USB_TXINTERVAL2_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_TXINTERVAL2_NAKLMT_S \ 0 #define USB_TXINTERVAL2_TXPOLL_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXTYPE2 register. // //***************************************************************************** #define USB_RXTYPE2_SPEED_M 0x000000C0 // Operating Speed #define USB_RXTYPE2_SPEED_DFLT 0x00000000 // Default #define USB_RXTYPE2_SPEED_HIGH 0x00000040 // High #define USB_RXTYPE2_SPEED_FULL 0x00000080 // Full #define USB_RXTYPE2_SPEED_LOW 0x000000C0 // Low #define USB_RXTYPE2_PROTO_M 0x00000030 // Protocol #define USB_RXTYPE2_PROTO_CTRL 0x00000000 // Control #define USB_RXTYPE2_PROTO_ISOC 0x00000010 // Isochronous #define USB_RXTYPE2_PROTO_BULK 0x00000020 // Bulk #define USB_RXTYPE2_PROTO_INT 0x00000030 // Interrupt #define USB_RXTYPE2_TEP_M 0x0000000F // Target Endpoint Number #define USB_RXTYPE2_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXINTERVAL2 // register. // //***************************************************************************** #define USB_RXINTERVAL2_TXPOLL_M \ 0x000000FF // RX Polling #define USB_RXINTERVAL2_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_RXINTERVAL2_TXPOLL_S \ 0 #define USB_RXINTERVAL2_NAKLMT_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXMAXP3 register. // //***************************************************************************** #define USB_TXMAXP3_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_TXMAXP3_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRL3 register. // //***************************************************************************** #define USB_TXCSRL3_NAKTO 0x00000080 // NAK Timeout #define USB_TXCSRL3_CLRDT 0x00000040 // Clear Data Toggle #define USB_TXCSRL3_STALLED 0x00000020 // Endpoint Stalled #define USB_TXCSRL3_SETUP 0x00000010 // Setup Packet #define USB_TXCSRL3_STALL 0x00000010 // Send STALL #define USB_TXCSRL3_FLUSH 0x00000008 // Flush FIFO #define USB_TXCSRL3_ERROR 0x00000004 // Error #define USB_TXCSRL3_UNDRN 0x00000004 // Underrun #define USB_TXCSRL3_FIFONE 0x00000002 // FIFO Not Empty #define USB_TXCSRL3_TXRDY 0x00000001 // Transmit Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRH3 register. // //***************************************************************************** #define USB_TXCSRH3_AUTOSET 0x00000080 // Auto Set #define USB_TXCSRH3_ISO 0x00000040 // Isochronous Transfers #define USB_TXCSRH3_MODE 0x00000020 // Mode #define USB_TXCSRH3_DMAEN 0x00000010 // DMA Request Enable #define USB_TXCSRH3_FDT 0x00000008 // Force Data Toggle #define USB_TXCSRH3_DMAMOD 0x00000004 // DMA Request Mode #define USB_TXCSRH3_DTWE 0x00000002 // Data Toggle Write Enable #define USB_TXCSRH3_DT 0x00000001 // Data Toggle //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXMAXP3 register. // //***************************************************************************** #define USB_RXMAXP3_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_RXMAXP3_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRL3 register. // //***************************************************************************** #define USB_RXCSRL3_CLRDT 0x00000080 // Clear Data Toggle #define USB_RXCSRL3_STALLED 0x00000040 // Endpoint Stalled #define USB_RXCSRL3_STALL 0x00000020 // Send STALL #define USB_RXCSRL3_REQPKT 0x00000020 // Request Packet #define USB_RXCSRL3_FLUSH 0x00000010 // Flush FIFO #define USB_RXCSRL3_DATAERR 0x00000008 // Data Error #define USB_RXCSRL3_NAKTO 0x00000008 // NAK Timeout #define USB_RXCSRL3_ERROR 0x00000004 // Error #define USB_RXCSRL3_OVER 0x00000004 // Overrun #define USB_RXCSRL3_FULL 0x00000002 // FIFO Full #define USB_RXCSRL3_RXRDY 0x00000001 // Receive Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRH3 register. // //***************************************************************************** #define USB_RXCSRH3_AUTOCL 0x00000080 // Auto Clear #define USB_RXCSRH3_AUTORQ 0x00000040 // Auto Request #define USB_RXCSRH3_ISO 0x00000040 // Isochronous Transfers #define USB_RXCSRH3_DMAEN 0x00000020 // DMA Request Enable #define USB_RXCSRH3_DISNYET 0x00000010 // Disable NYET #define USB_RXCSRH3_PIDERR 0x00000010 // PID Error #define USB_RXCSRH3_DMAMOD 0x00000008 // DMA Request Mode #define USB_RXCSRH3_DTWE 0x00000004 // Data Toggle Write Enable #define USB_RXCSRH3_DT 0x00000002 // Data Toggle #define USB_RXCSRH3_INCOMPRX 0x00000001 // Incomplete RX Transmission // Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCOUNT3 register. // //***************************************************************************** #define USB_RXCOUNT3_COUNT_M 0x00001FFF // Receive Packet Count #define USB_RXCOUNT3_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXTYPE3 register. // //***************************************************************************** #define USB_TXTYPE3_SPEED_M 0x000000C0 // Operating Speed #define USB_TXTYPE3_SPEED_DFLT 0x00000000 // Default #define USB_TXTYPE3_SPEED_HIGH 0x00000040 // High #define USB_TXTYPE3_SPEED_FULL 0x00000080 // Full #define USB_TXTYPE3_SPEED_LOW 0x000000C0 // Low #define USB_TXTYPE3_PROTO_M 0x00000030 // Protocol #define USB_TXTYPE3_PROTO_CTRL 0x00000000 // Control #define USB_TXTYPE3_PROTO_ISOC 0x00000010 // Isochronous #define USB_TXTYPE3_PROTO_BULK 0x00000020 // Bulk #define USB_TXTYPE3_PROTO_INT 0x00000030 // Interrupt #define USB_TXTYPE3_TEP_M 0x0000000F // Target Endpoint Number #define USB_TXTYPE3_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXINTERVAL3 // register. // //***************************************************************************** #define USB_TXINTERVAL3_TXPOLL_M \ 0x000000FF // TX Polling #define USB_TXINTERVAL3_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_TXINTERVAL3_TXPOLL_S \ 0 #define USB_TXINTERVAL3_NAKLMT_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXTYPE3 register. // //***************************************************************************** #define USB_RXTYPE3_SPEED_M 0x000000C0 // Operating Speed #define USB_RXTYPE3_SPEED_DFLT 0x00000000 // Default #define USB_RXTYPE3_SPEED_HIGH 0x00000040 // High #define USB_RXTYPE3_SPEED_FULL 0x00000080 // Full #define USB_RXTYPE3_SPEED_LOW 0x000000C0 // Low #define USB_RXTYPE3_PROTO_M 0x00000030 // Protocol #define USB_RXTYPE3_PROTO_CTRL 0x00000000 // Control #define USB_RXTYPE3_PROTO_ISOC 0x00000010 // Isochronous #define USB_RXTYPE3_PROTO_BULK 0x00000020 // Bulk #define USB_RXTYPE3_PROTO_INT 0x00000030 // Interrupt #define USB_RXTYPE3_TEP_M 0x0000000F // Target Endpoint Number #define USB_RXTYPE3_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXINTERVAL3 // register. // //***************************************************************************** #define USB_RXINTERVAL3_TXPOLL_M \ 0x000000FF // RX Polling #define USB_RXINTERVAL3_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_RXINTERVAL3_TXPOLL_S \ 0 #define USB_RXINTERVAL3_NAKLMT_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXMAXP4 register. // //***************************************************************************** #define USB_TXMAXP4_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_TXMAXP4_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRL4 register. // //***************************************************************************** #define USB_TXCSRL4_NAKTO 0x00000080 // NAK Timeout #define USB_TXCSRL4_CLRDT 0x00000040 // Clear Data Toggle #define USB_TXCSRL4_STALLED 0x00000020 // Endpoint Stalled #define USB_TXCSRL4_SETUP 0x00000010 // Setup Packet #define USB_TXCSRL4_STALL 0x00000010 // Send STALL #define USB_TXCSRL4_FLUSH 0x00000008 // Flush FIFO #define USB_TXCSRL4_ERROR 0x00000004 // Error #define USB_TXCSRL4_UNDRN 0x00000004 // Underrun #define USB_TXCSRL4_FIFONE 0x00000002 // FIFO Not Empty #define USB_TXCSRL4_TXRDY 0x00000001 // Transmit Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRH4 register. // //***************************************************************************** #define USB_TXCSRH4_AUTOSET 0x00000080 // Auto Set #define USB_TXCSRH4_ISO 0x00000040 // Isochronous Transfers #define USB_TXCSRH4_MODE 0x00000020 // Mode #define USB_TXCSRH4_DMAEN 0x00000010 // DMA Request Enable #define USB_TXCSRH4_FDT 0x00000008 // Force Data Toggle #define USB_TXCSRH4_DMAMOD 0x00000004 // DMA Request Mode #define USB_TXCSRH4_DTWE 0x00000002 // Data Toggle Write Enable #define USB_TXCSRH4_DT 0x00000001 // Data Toggle //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXMAXP4 register. // //***************************************************************************** #define USB_RXMAXP4_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_RXMAXP4_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRL4 register. // //***************************************************************************** #define USB_RXCSRL4_CLRDT 0x00000080 // Clear Data Toggle #define USB_RXCSRL4_STALLED 0x00000040 // Endpoint Stalled #define USB_RXCSRL4_STALL 0x00000020 // Send STALL #define USB_RXCSRL4_REQPKT 0x00000020 // Request Packet #define USB_RXCSRL4_FLUSH 0x00000010 // Flush FIFO #define USB_RXCSRL4_NAKTO 0x00000008 // NAK Timeout #define USB_RXCSRL4_DATAERR 0x00000008 // Data Error #define USB_RXCSRL4_OVER 0x00000004 // Overrun #define USB_RXCSRL4_ERROR 0x00000004 // Error #define USB_RXCSRL4_FULL 0x00000002 // FIFO Full #define USB_RXCSRL4_RXRDY 0x00000001 // Receive Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRH4 register. // //***************************************************************************** #define USB_RXCSRH4_AUTOCL 0x00000080 // Auto Clear #define USB_RXCSRH4_AUTORQ 0x00000040 // Auto Request #define USB_RXCSRH4_ISO 0x00000040 // Isochronous Transfers #define USB_RXCSRH4_DMAEN 0x00000020 // DMA Request Enable #define USB_RXCSRH4_DISNYET 0x00000010 // Disable NYET #define USB_RXCSRH4_PIDERR 0x00000010 // PID Error #define USB_RXCSRH4_DMAMOD 0x00000008 // DMA Request Mode #define USB_RXCSRH4_DTWE 0x00000004 // Data Toggle Write Enable #define USB_RXCSRH4_DT 0x00000002 // Data Toggle #define USB_RXCSRH4_INCOMPRX 0x00000001 // Incomplete RX Transmission // Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCOUNT4 register. // //***************************************************************************** #define USB_RXCOUNT4_COUNT_M 0x00001FFF // Receive Packet Count #define USB_RXCOUNT4_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXTYPE4 register. // //***************************************************************************** #define USB_TXTYPE4_SPEED_M 0x000000C0 // Operating Speed #define USB_TXTYPE4_SPEED_DFLT 0x00000000 // Default #define USB_TXTYPE4_SPEED_HIGH 0x00000040 // High #define USB_TXTYPE4_SPEED_FULL 0x00000080 // Full #define USB_TXTYPE4_SPEED_LOW 0x000000C0 // Low #define USB_TXTYPE4_PROTO_M 0x00000030 // Protocol #define USB_TXTYPE4_PROTO_CTRL 0x00000000 // Control #define USB_TXTYPE4_PROTO_ISOC 0x00000010 // Isochronous #define USB_TXTYPE4_PROTO_BULK 0x00000020 // Bulk #define USB_TXTYPE4_PROTO_INT 0x00000030 // Interrupt #define USB_TXTYPE4_TEP_M 0x0000000F // Target Endpoint Number #define USB_TXTYPE4_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXINTERVAL4 // register. // //***************************************************************************** #define USB_TXINTERVAL4_TXPOLL_M \ 0x000000FF // TX Polling #define USB_TXINTERVAL4_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_TXINTERVAL4_NAKLMT_S \ 0 #define USB_TXINTERVAL4_TXPOLL_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXTYPE4 register. // //***************************************************************************** #define USB_RXTYPE4_SPEED_M 0x000000C0 // Operating Speed #define USB_RXTYPE4_SPEED_DFLT 0x00000000 // Default #define USB_RXTYPE4_SPEED_HIGH 0x00000040 // High #define USB_RXTYPE4_SPEED_FULL 0x00000080 // Full #define USB_RXTYPE4_SPEED_LOW 0x000000C0 // Low #define USB_RXTYPE4_PROTO_M 0x00000030 // Protocol #define USB_RXTYPE4_PROTO_CTRL 0x00000000 // Control #define USB_RXTYPE4_PROTO_ISOC 0x00000010 // Isochronous #define USB_RXTYPE4_PROTO_BULK 0x00000020 // Bulk #define USB_RXTYPE4_PROTO_INT 0x00000030 // Interrupt #define USB_RXTYPE4_TEP_M 0x0000000F // Target Endpoint Number #define USB_RXTYPE4_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXINTERVAL4 // register. // //***************************************************************************** #define USB_RXINTERVAL4_TXPOLL_M \ 0x000000FF // RX Polling #define USB_RXINTERVAL4_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_RXINTERVAL4_NAKLMT_S \ 0 #define USB_RXINTERVAL4_TXPOLL_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXMAXP5 register. // //***************************************************************************** #define USB_TXMAXP5_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_TXMAXP5_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRL5 register. // //***************************************************************************** #define USB_TXCSRL5_NAKTO 0x00000080 // NAK Timeout #define USB_TXCSRL5_CLRDT 0x00000040 // Clear Data Toggle #define USB_TXCSRL5_STALLED 0x00000020 // Endpoint Stalled #define USB_TXCSRL5_SETUP 0x00000010 // Setup Packet #define USB_TXCSRL5_STALL 0x00000010 // Send STALL #define USB_TXCSRL5_FLUSH 0x00000008 // Flush FIFO #define USB_TXCSRL5_ERROR 0x00000004 // Error #define USB_TXCSRL5_UNDRN 0x00000004 // Underrun #define USB_TXCSRL5_FIFONE 0x00000002 // FIFO Not Empty #define USB_TXCSRL5_TXRDY 0x00000001 // Transmit Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRH5 register. // //***************************************************************************** #define USB_TXCSRH5_AUTOSET 0x00000080 // Auto Set #define USB_TXCSRH5_ISO 0x00000040 // Isochronous Transfers #define USB_TXCSRH5_MODE 0x00000020 // Mode #define USB_TXCSRH5_DMAEN 0x00000010 // DMA Request Enable #define USB_TXCSRH5_FDT 0x00000008 // Force Data Toggle #define USB_TXCSRH5_DMAMOD 0x00000004 // DMA Request Mode #define USB_TXCSRH5_DTWE 0x00000002 // Data Toggle Write Enable #define USB_TXCSRH5_DT 0x00000001 // Data Toggle //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXMAXP5 register. // //***************************************************************************** #define USB_RXMAXP5_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_RXMAXP5_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRL5 register. // //***************************************************************************** #define USB_RXCSRL5_CLRDT 0x00000080 // Clear Data Toggle #define USB_RXCSRL5_STALLED 0x00000040 // Endpoint Stalled #define USB_RXCSRL5_STALL 0x00000020 // Send STALL #define USB_RXCSRL5_REQPKT 0x00000020 // Request Packet #define USB_RXCSRL5_FLUSH 0x00000010 // Flush FIFO #define USB_RXCSRL5_NAKTO 0x00000008 // NAK Timeout #define USB_RXCSRL5_DATAERR 0x00000008 // Data Error #define USB_RXCSRL5_ERROR 0x00000004 // Error #define USB_RXCSRL5_OVER 0x00000004 // Overrun #define USB_RXCSRL5_FULL 0x00000002 // FIFO Full #define USB_RXCSRL5_RXRDY 0x00000001 // Receive Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRH5 register. // //***************************************************************************** #define USB_RXCSRH5_AUTOCL 0x00000080 // Auto Clear #define USB_RXCSRH5_AUTORQ 0x00000040 // Auto Request #define USB_RXCSRH5_ISO 0x00000040 // Isochronous Transfers #define USB_RXCSRH5_DMAEN 0x00000020 // DMA Request Enable #define USB_RXCSRH5_DISNYET 0x00000010 // Disable NYET #define USB_RXCSRH5_PIDERR 0x00000010 // PID Error #define USB_RXCSRH5_DMAMOD 0x00000008 // DMA Request Mode #define USB_RXCSRH5_DTWE 0x00000004 // Data Toggle Write Enable #define USB_RXCSRH5_DT 0x00000002 // Data Toggle #define USB_RXCSRH5_INCOMPRX 0x00000001 // Incomplete RX Transmission // Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCOUNT5 register. // //***************************************************************************** #define USB_RXCOUNT5_COUNT_M 0x00001FFF // Receive Packet Count #define USB_RXCOUNT5_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXTYPE5 register. // //***************************************************************************** #define USB_TXTYPE5_SPEED_M 0x000000C0 // Operating Speed #define USB_TXTYPE5_SPEED_DFLT 0x00000000 // Default #define USB_TXTYPE5_SPEED_HIGH 0x00000040 // High #define USB_TXTYPE5_SPEED_FULL 0x00000080 // Full #define USB_TXTYPE5_SPEED_LOW 0x000000C0 // Low #define USB_TXTYPE5_PROTO_M 0x00000030 // Protocol #define USB_TXTYPE5_PROTO_CTRL 0x00000000 // Control #define USB_TXTYPE5_PROTO_ISOC 0x00000010 // Isochronous #define USB_TXTYPE5_PROTO_BULK 0x00000020 // Bulk #define USB_TXTYPE5_PROTO_INT 0x00000030 // Interrupt #define USB_TXTYPE5_TEP_M 0x0000000F // Target Endpoint Number #define USB_TXTYPE5_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXINTERVAL5 // register. // //***************************************************************************** #define USB_TXINTERVAL5_TXPOLL_M \ 0x000000FF // TX Polling #define USB_TXINTERVAL5_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_TXINTERVAL5_NAKLMT_S \ 0 #define USB_TXINTERVAL5_TXPOLL_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXTYPE5 register. // //***************************************************************************** #define USB_RXTYPE5_SPEED_M 0x000000C0 // Operating Speed #define USB_RXTYPE5_SPEED_DFLT 0x00000000 // Default #define USB_RXTYPE5_SPEED_HIGH 0x00000040 // High #define USB_RXTYPE5_SPEED_FULL 0x00000080 // Full #define USB_RXTYPE5_SPEED_LOW 0x000000C0 // Low #define USB_RXTYPE5_PROTO_M 0x00000030 // Protocol #define USB_RXTYPE5_PROTO_CTRL 0x00000000 // Control #define USB_RXTYPE5_PROTO_ISOC 0x00000010 // Isochronous #define USB_RXTYPE5_PROTO_BULK 0x00000020 // Bulk #define USB_RXTYPE5_PROTO_INT 0x00000030 // Interrupt #define USB_RXTYPE5_TEP_M 0x0000000F // Target Endpoint Number #define USB_RXTYPE5_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXINTERVAL5 // register. // //***************************************************************************** #define USB_RXINTERVAL5_TXPOLL_M \ 0x000000FF // RX Polling #define USB_RXINTERVAL5_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_RXINTERVAL5_TXPOLL_S \ 0 #define USB_RXINTERVAL5_NAKLMT_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXMAXP6 register. // //***************************************************************************** #define USB_TXMAXP6_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_TXMAXP6_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRL6 register. // //***************************************************************************** #define USB_TXCSRL6_NAKTO 0x00000080 // NAK Timeout #define USB_TXCSRL6_CLRDT 0x00000040 // Clear Data Toggle #define USB_TXCSRL6_STALLED 0x00000020 // Endpoint Stalled #define USB_TXCSRL6_STALL 0x00000010 // Send STALL #define USB_TXCSRL6_SETUP 0x00000010 // Setup Packet #define USB_TXCSRL6_FLUSH 0x00000008 // Flush FIFO #define USB_TXCSRL6_ERROR 0x00000004 // Error #define USB_TXCSRL6_UNDRN 0x00000004 // Underrun #define USB_TXCSRL6_FIFONE 0x00000002 // FIFO Not Empty #define USB_TXCSRL6_TXRDY 0x00000001 // Transmit Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRH6 register. // //***************************************************************************** #define USB_TXCSRH6_AUTOSET 0x00000080 // Auto Set #define USB_TXCSRH6_ISO 0x00000040 // Isochronous Transfers #define USB_TXCSRH6_MODE 0x00000020 // Mode #define USB_TXCSRH6_DMAEN 0x00000010 // DMA Request Enable #define USB_TXCSRH6_FDT 0x00000008 // Force Data Toggle #define USB_TXCSRH6_DMAMOD 0x00000004 // DMA Request Mode #define USB_TXCSRH6_DTWE 0x00000002 // Data Toggle Write Enable #define USB_TXCSRH6_DT 0x00000001 // Data Toggle //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXMAXP6 register. // //***************************************************************************** #define USB_RXMAXP6_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_RXMAXP6_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRL6 register. // //***************************************************************************** #define USB_RXCSRL6_CLRDT 0x00000080 // Clear Data Toggle #define USB_RXCSRL6_STALLED 0x00000040 // Endpoint Stalled #define USB_RXCSRL6_REQPKT 0x00000020 // Request Packet #define USB_RXCSRL6_STALL 0x00000020 // Send STALL #define USB_RXCSRL6_FLUSH 0x00000010 // Flush FIFO #define USB_RXCSRL6_NAKTO 0x00000008 // NAK Timeout #define USB_RXCSRL6_DATAERR 0x00000008 // Data Error #define USB_RXCSRL6_ERROR 0x00000004 // Error #define USB_RXCSRL6_OVER 0x00000004 // Overrun #define USB_RXCSRL6_FULL 0x00000002 // FIFO Full #define USB_RXCSRL6_RXRDY 0x00000001 // Receive Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRH6 register. // //***************************************************************************** #define USB_RXCSRH6_AUTOCL 0x00000080 // Auto Clear #define USB_RXCSRH6_AUTORQ 0x00000040 // Auto Request #define USB_RXCSRH6_ISO 0x00000040 // Isochronous Transfers #define USB_RXCSRH6_DMAEN 0x00000020 // DMA Request Enable #define USB_RXCSRH6_DISNYET 0x00000010 // Disable NYET #define USB_RXCSRH6_PIDERR 0x00000010 // PID Error #define USB_RXCSRH6_DMAMOD 0x00000008 // DMA Request Mode #define USB_RXCSRH6_DTWE 0x00000004 // Data Toggle Write Enable #define USB_RXCSRH6_DT 0x00000002 // Data Toggle #define USB_RXCSRH6_INCOMPRX 0x00000001 // Incomplete RX Transmission // Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCOUNT6 register. // //***************************************************************************** #define USB_RXCOUNT6_COUNT_M 0x00001FFF // Receive Packet Count #define USB_RXCOUNT6_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXTYPE6 register. // //***************************************************************************** #define USB_TXTYPE6_SPEED_M 0x000000C0 // Operating Speed #define USB_TXTYPE6_SPEED_DFLT 0x00000000 // Default #define USB_TXTYPE6_SPEED_HIGH 0x00000040 // High #define USB_TXTYPE6_SPEED_FULL 0x00000080 // Full #define USB_TXTYPE6_SPEED_LOW 0x000000C0 // Low #define USB_TXTYPE6_PROTO_M 0x00000030 // Protocol #define USB_TXTYPE6_PROTO_CTRL 0x00000000 // Control #define USB_TXTYPE6_PROTO_ISOC 0x00000010 // Isochronous #define USB_TXTYPE6_PROTO_BULK 0x00000020 // Bulk #define USB_TXTYPE6_PROTO_INT 0x00000030 // Interrupt #define USB_TXTYPE6_TEP_M 0x0000000F // Target Endpoint Number #define USB_TXTYPE6_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXINTERVAL6 // register. // //***************************************************************************** #define USB_TXINTERVAL6_TXPOLL_M \ 0x000000FF // TX Polling #define USB_TXINTERVAL6_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_TXINTERVAL6_TXPOLL_S \ 0 #define USB_TXINTERVAL6_NAKLMT_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXTYPE6 register. // //***************************************************************************** #define USB_RXTYPE6_SPEED_M 0x000000C0 // Operating Speed #define USB_RXTYPE6_SPEED_DFLT 0x00000000 // Default #define USB_RXTYPE6_SPEED_HIGH 0x00000040 // High #define USB_RXTYPE6_SPEED_FULL 0x00000080 // Full #define USB_RXTYPE6_SPEED_LOW 0x000000C0 // Low #define USB_RXTYPE6_PROTO_M 0x00000030 // Protocol #define USB_RXTYPE6_PROTO_CTRL 0x00000000 // Control #define USB_RXTYPE6_PROTO_ISOC 0x00000010 // Isochronous #define USB_RXTYPE6_PROTO_BULK 0x00000020 // Bulk #define USB_RXTYPE6_PROTO_INT 0x00000030 // Interrupt #define USB_RXTYPE6_TEP_M 0x0000000F // Target Endpoint Number #define USB_RXTYPE6_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXINTERVAL6 // register. // //***************************************************************************** #define USB_RXINTERVAL6_TXPOLL_M \ 0x000000FF // RX Polling #define USB_RXINTERVAL6_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_RXINTERVAL6_NAKLMT_S \ 0 #define USB_RXINTERVAL6_TXPOLL_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXMAXP7 register. // //***************************************************************************** #define USB_TXMAXP7_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_TXMAXP7_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRL7 register. // //***************************************************************************** #define USB_TXCSRL7_NAKTO 0x00000080 // NAK Timeout #define USB_TXCSRL7_CLRDT 0x00000040 // Clear Data Toggle #define USB_TXCSRL7_STALLED 0x00000020 // Endpoint Stalled #define USB_TXCSRL7_STALL 0x00000010 // Send STALL #define USB_TXCSRL7_SETUP 0x00000010 // Setup Packet #define USB_TXCSRL7_FLUSH 0x00000008 // Flush FIFO #define USB_TXCSRL7_ERROR 0x00000004 // Error #define USB_TXCSRL7_UNDRN 0x00000004 // Underrun #define USB_TXCSRL7_FIFONE 0x00000002 // FIFO Not Empty #define USB_TXCSRL7_TXRDY 0x00000001 // Transmit Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXCSRH7 register. // //***************************************************************************** #define USB_TXCSRH7_AUTOSET 0x00000080 // Auto Set #define USB_TXCSRH7_ISO 0x00000040 // Isochronous Transfers #define USB_TXCSRH7_MODE 0x00000020 // Mode #define USB_TXCSRH7_DMAEN 0x00000010 // DMA Request Enable #define USB_TXCSRH7_FDT 0x00000008 // Force Data Toggle #define USB_TXCSRH7_DMAMOD 0x00000004 // DMA Request Mode #define USB_TXCSRH7_DTWE 0x00000002 // Data Toggle Write Enable #define USB_TXCSRH7_DT 0x00000001 // Data Toggle //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXMAXP7 register. // //***************************************************************************** #define USB_RXMAXP7_MAXLOAD_M 0x000007FF // Maximum Payload #define USB_RXMAXP7_MAXLOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRL7 register. // //***************************************************************************** #define USB_RXCSRL7_CLRDT 0x00000080 // Clear Data Toggle #define USB_RXCSRL7_STALLED 0x00000040 // Endpoint Stalled #define USB_RXCSRL7_REQPKT 0x00000020 // Request Packet #define USB_RXCSRL7_STALL 0x00000020 // Send STALL #define USB_RXCSRL7_FLUSH 0x00000010 // Flush FIFO #define USB_RXCSRL7_DATAERR 0x00000008 // Data Error #define USB_RXCSRL7_NAKTO 0x00000008 // NAK Timeout #define USB_RXCSRL7_ERROR 0x00000004 // Error #define USB_RXCSRL7_OVER 0x00000004 // Overrun #define USB_RXCSRL7_FULL 0x00000002 // FIFO Full #define USB_RXCSRL7_RXRDY 0x00000001 // Receive Packet Ready //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCSRH7 register. // //***************************************************************************** #define USB_RXCSRH7_AUTOCL 0x00000080 // Auto Clear #define USB_RXCSRH7_ISO 0x00000040 // Isochronous Transfers #define USB_RXCSRH7_AUTORQ 0x00000040 // Auto Request #define USB_RXCSRH7_DMAEN 0x00000020 // DMA Request Enable #define USB_RXCSRH7_PIDERR 0x00000010 // PID Error #define USB_RXCSRH7_DISNYET 0x00000010 // Disable NYET #define USB_RXCSRH7_DMAMOD 0x00000008 // DMA Request Mode #define USB_RXCSRH7_DTWE 0x00000004 // Data Toggle Write Enable #define USB_RXCSRH7_DT 0x00000002 // Data Toggle #define USB_RXCSRH7_INCOMPRX 0x00000001 // Incomplete RX Transmission // Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXCOUNT7 register. // //***************************************************************************** #define USB_RXCOUNT7_COUNT_M 0x00001FFF // Receive Packet Count #define USB_RXCOUNT7_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXTYPE7 register. // //***************************************************************************** #define USB_TXTYPE7_SPEED_M 0x000000C0 // Operating Speed #define USB_TXTYPE7_SPEED_DFLT 0x00000000 // Default #define USB_TXTYPE7_SPEED_HIGH 0x00000040 // High #define USB_TXTYPE7_SPEED_FULL 0x00000080 // Full #define USB_TXTYPE7_SPEED_LOW 0x000000C0 // Low #define USB_TXTYPE7_PROTO_M 0x00000030 // Protocol #define USB_TXTYPE7_PROTO_CTRL 0x00000000 // Control #define USB_TXTYPE7_PROTO_ISOC 0x00000010 // Isochronous #define USB_TXTYPE7_PROTO_BULK 0x00000020 // Bulk #define USB_TXTYPE7_PROTO_INT 0x00000030 // Interrupt #define USB_TXTYPE7_TEP_M 0x0000000F // Target Endpoint Number #define USB_TXTYPE7_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXINTERVAL7 // register. // //***************************************************************************** #define USB_TXINTERVAL7_TXPOLL_M \ 0x000000FF // TX Polling #define USB_TXINTERVAL7_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_TXINTERVAL7_NAKLMT_S \ 0 #define USB_TXINTERVAL7_TXPOLL_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXTYPE7 register. // //***************************************************************************** #define USB_RXTYPE7_SPEED_M 0x000000C0 // Operating Speed #define USB_RXTYPE7_SPEED_DFLT 0x00000000 // Default #define USB_RXTYPE7_SPEED_HIGH 0x00000040 // High #define USB_RXTYPE7_SPEED_FULL 0x00000080 // Full #define USB_RXTYPE7_SPEED_LOW 0x000000C0 // Low #define USB_RXTYPE7_PROTO_M 0x00000030 // Protocol #define USB_RXTYPE7_PROTO_CTRL 0x00000000 // Control #define USB_RXTYPE7_PROTO_ISOC 0x00000010 // Isochronous #define USB_RXTYPE7_PROTO_BULK 0x00000020 // Bulk #define USB_RXTYPE7_PROTO_INT 0x00000030 // Interrupt #define USB_RXTYPE7_TEP_M 0x0000000F // Target Endpoint Number #define USB_RXTYPE7_TEP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXINTERVAL7 // register. // //***************************************************************************** #define USB_RXINTERVAL7_TXPOLL_M \ 0x000000FF // RX Polling #define USB_RXINTERVAL7_NAKLMT_M \ 0x000000FF // NAK Limit #define USB_RXINTERVAL7_NAKLMT_S \ 0 #define USB_RXINTERVAL7_TXPOLL_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMAINTR register. // //***************************************************************************** #define USB_DMAINTR_CH7 0x00000080 // Channel 7 DMA Interrupt #define USB_DMAINTR_CH6 0x00000040 // Channel 6 DMA Interrupt #define USB_DMAINTR_CH5 0x00000020 // Channel 5 DMA Interrupt #define USB_DMAINTR_CH4 0x00000010 // Channel 4 DMA Interrupt #define USB_DMAINTR_CH3 0x00000008 // Channel 3 DMA Interrupt #define USB_DMAINTR_CH2 0x00000004 // Channel 2 DMA Interrupt #define USB_DMAINTR_CH1 0x00000002 // Channel 1 DMA Interrupt #define USB_DMAINTR_CH0 0x00000001 // Channel 0 DMA Interrupt //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACTL0 register. // //***************************************************************************** #define USB_DMACTL0_BRSTM_M 0x00000600 // Burst Mode #define USB_DMACTL0_BRSTM_ANY 0x00000000 // Bursts of unspecified length #define USB_DMACTL0_BRSTM_INC4 0x00000200 // INCR4 or unspecified length #define USB_DMACTL0_BRSTM_INC8 0x00000400 // INCR8, INCR4 or unspecified // length #define USB_DMACTL0_BRSTM_INC16 0x00000600 // INCR16, INCR8, INCR4 or // unspecified length #define USB_DMACTL0_ERR 0x00000100 // Bus Error Bit #define USB_DMACTL0_EP_M 0x000000F0 // Endpoint number #define USB_DMACTL0_IE 0x00000008 // DMA Interrupt Enable #define USB_DMACTL0_MODE 0x00000004 // DMA Transfer Mode #define USB_DMACTL0_DIR 0x00000002 // DMA Direction #define USB_DMACTL0_ENABLE 0x00000001 // DMA Transfer Enable #define USB_DMACTL0_EP_S 4 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMAADDR0 register. // //***************************************************************************** #define USB_DMAADDR0_ADDR_M 0xFFFFFFFC // DMA Address #define USB_DMAADDR0_ADDR_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACOUNT0 // register. // //***************************************************************************** #define USB_DMACOUNT0_COUNT_M 0xFFFFFFFC // DMA Count #define USB_DMACOUNT0_COUNT_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACTL1 register. // //***************************************************************************** #define USB_DMACTL1_BRSTM_M 0x00000600 // Burst Mode #define USB_DMACTL1_BRSTM_ANY 0x00000000 // Bursts of unspecified length #define USB_DMACTL1_BRSTM_INC4 0x00000200 // INCR4 or unspecified length #define USB_DMACTL1_BRSTM_INC8 0x00000400 // INCR8, INCR4 or unspecified // length #define USB_DMACTL1_BRSTM_INC16 0x00000600 // INCR16, INCR8, INCR4 or // unspecified length #define USB_DMACTL1_ERR 0x00000100 // Bus Error Bit #define USB_DMACTL1_EP_M 0x000000F0 // Endpoint number #define USB_DMACTL1_IE 0x00000008 // DMA Interrupt Enable #define USB_DMACTL1_MODE 0x00000004 // DMA Transfer Mode #define USB_DMACTL1_DIR 0x00000002 // DMA Direction #define USB_DMACTL1_ENABLE 0x00000001 // DMA Transfer Enable #define USB_DMACTL1_EP_S 4 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMAADDR1 register. // //***************************************************************************** #define USB_DMAADDR1_ADDR_M 0xFFFFFFFC // DMA Address #define USB_DMAADDR1_ADDR_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACOUNT1 // register. // //***************************************************************************** #define USB_DMACOUNT1_COUNT_M 0xFFFFFFFC // DMA Count #define USB_DMACOUNT1_COUNT_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACTL2 register. // //***************************************************************************** #define USB_DMACTL2_BRSTM_M 0x00000600 // Burst Mode #define USB_DMACTL2_BRSTM_ANY 0x00000000 // Bursts of unspecified length #define USB_DMACTL2_BRSTM_INC4 0x00000200 // INCR4 or unspecified length #define USB_DMACTL2_BRSTM_INC8 0x00000400 // INCR8, INCR4 or unspecified // length #define USB_DMACTL2_BRSTM_INC16 0x00000600 // INCR16, INCR8, INCR4 or // unspecified length #define USB_DMACTL2_ERR 0x00000100 // Bus Error Bit #define USB_DMACTL2_EP_M 0x000000F0 // Endpoint number #define USB_DMACTL2_IE 0x00000008 // DMA Interrupt Enable #define USB_DMACTL2_MODE 0x00000004 // DMA Transfer Mode #define USB_DMACTL2_DIR 0x00000002 // DMA Direction #define USB_DMACTL2_ENABLE 0x00000001 // DMA Transfer Enable #define USB_DMACTL2_EP_S 4 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMAADDR2 register. // //***************************************************************************** #define USB_DMAADDR2_ADDR_M 0xFFFFFFFC // DMA Address #define USB_DMAADDR2_ADDR_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACOUNT2 // register. // //***************************************************************************** #define USB_DMACOUNT2_COUNT_M 0xFFFFFFFC // DMA Count #define USB_DMACOUNT2_COUNT_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACTL3 register. // //***************************************************************************** #define USB_DMACTL3_BRSTM_M 0x00000600 // Burst Mode #define USB_DMACTL3_BRSTM_ANY 0x00000000 // Bursts of unspecified length #define USB_DMACTL3_BRSTM_INC4 0x00000200 // INCR4 or unspecified length #define USB_DMACTL3_BRSTM_INC8 0x00000400 // INCR8, INCR4 or unspecified // length #define USB_DMACTL3_BRSTM_INC16 0x00000600 // INCR16, INCR8, INCR4 or // unspecified length #define USB_DMACTL3_ERR 0x00000100 // Bus Error Bit #define USB_DMACTL3_EP_M 0x000000F0 // Endpoint number #define USB_DMACTL3_IE 0x00000008 // DMA Interrupt Enable #define USB_DMACTL3_MODE 0x00000004 // DMA Transfer Mode #define USB_DMACTL3_DIR 0x00000002 // DMA Direction #define USB_DMACTL3_ENABLE 0x00000001 // DMA Transfer Enable #define USB_DMACTL3_EP_S 4 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMAADDR3 register. // //***************************************************************************** #define USB_DMAADDR3_ADDR_M 0xFFFFFFFC // DMA Address #define USB_DMAADDR3_ADDR_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACOUNT3 // register. // //***************************************************************************** #define USB_DMACOUNT3_COUNT_M 0xFFFFFFFC // DMA Count #define USB_DMACOUNT3_COUNT_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACTL4 register. // //***************************************************************************** #define USB_DMACTL4_BRSTM_M 0x00000600 // Burst Mode #define USB_DMACTL4_BRSTM_ANY 0x00000000 // Bursts of unspecified length #define USB_DMACTL4_BRSTM_INC4 0x00000200 // INCR4 or unspecified length #define USB_DMACTL4_BRSTM_INC8 0x00000400 // INCR8, INCR4 or unspecified // length #define USB_DMACTL4_BRSTM_INC16 0x00000600 // INCR16, INCR8, INCR4 or // unspecified length #define USB_DMACTL4_ERR 0x00000100 // Bus Error Bit #define USB_DMACTL4_EP_M 0x000000F0 // Endpoint number #define USB_DMACTL4_IE 0x00000008 // DMA Interrupt Enable #define USB_DMACTL4_MODE 0x00000004 // DMA Transfer Mode #define USB_DMACTL4_DIR 0x00000002 // DMA Direction #define USB_DMACTL4_ENABLE 0x00000001 // DMA Transfer Enable #define USB_DMACTL4_EP_S 4 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMAADDR4 register. // //***************************************************************************** #define USB_DMAADDR4_ADDR_M 0xFFFFFFFC // DMA Address #define USB_DMAADDR4_ADDR_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACOUNT4 // register. // //***************************************************************************** #define USB_DMACOUNT4_COUNT_M 0xFFFFFFFC // DMA Count #define USB_DMACOUNT4_COUNT_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACTL5 register. // //***************************************************************************** #define USB_DMACTL5_BRSTM_M 0x00000600 // Burst Mode #define USB_DMACTL5_BRSTM_ANY 0x00000000 // Bursts of unspecified length #define USB_DMACTL5_BRSTM_INC4 0x00000200 // INCR4 or unspecified length #define USB_DMACTL5_BRSTM_INC8 0x00000400 // INCR8, INCR4 or unspecified // length #define USB_DMACTL5_BRSTM_INC16 0x00000600 // INCR16, INCR8, INCR4 or // unspecified length #define USB_DMACTL5_ERR 0x00000100 // Bus Error Bit #define USB_DMACTL5_EP_M 0x000000F0 // Endpoint number #define USB_DMACTL5_IE 0x00000008 // DMA Interrupt Enable #define USB_DMACTL5_MODE 0x00000004 // DMA Transfer Mode #define USB_DMACTL5_DIR 0x00000002 // DMA Direction #define USB_DMACTL5_ENABLE 0x00000001 // DMA Transfer Enable #define USB_DMACTL5_EP_S 4 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMAADDR5 register. // //***************************************************************************** #define USB_DMAADDR5_ADDR_M 0xFFFFFFFC // DMA Address #define USB_DMAADDR5_ADDR_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACOUNT5 // register. // //***************************************************************************** #define USB_DMACOUNT5_COUNT_M 0xFFFFFFFC // DMA Count #define USB_DMACOUNT5_COUNT_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACTL6 register. // //***************************************************************************** #define USB_DMACTL6_BRSTM_M 0x00000600 // Burst Mode #define USB_DMACTL6_BRSTM_ANY 0x00000000 // Bursts of unspecified length #define USB_DMACTL6_BRSTM_INC4 0x00000200 // INCR4 or unspecified length #define USB_DMACTL6_BRSTM_INC8 0x00000400 // INCR8, INCR4 or unspecified // length #define USB_DMACTL6_BRSTM_INC16 0x00000600 // INCR16, INCR8, INCR4 or // unspecified length #define USB_DMACTL6_ERR 0x00000100 // Bus Error Bit #define USB_DMACTL6_EP_M 0x000000F0 // Endpoint number #define USB_DMACTL6_IE 0x00000008 // DMA Interrupt Enable #define USB_DMACTL6_MODE 0x00000004 // DMA Transfer Mode #define USB_DMACTL6_DIR 0x00000002 // DMA Direction #define USB_DMACTL6_ENABLE 0x00000001 // DMA Transfer Enable #define USB_DMACTL6_EP_S 4 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMAADDR6 register. // //***************************************************************************** #define USB_DMAADDR6_ADDR_M 0xFFFFFFFC // DMA Address #define USB_DMAADDR6_ADDR_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACOUNT6 // register. // //***************************************************************************** #define USB_DMACOUNT6_COUNT_M 0xFFFFFFFC // DMA Count #define USB_DMACOUNT6_COUNT_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACTL7 register. // //***************************************************************************** #define USB_DMACTL7_BRSTM_M 0x00000600 // Burst Mode #define USB_DMACTL7_BRSTM_ANY 0x00000000 // Bursts of unspecified length #define USB_DMACTL7_BRSTM_INC4 0x00000200 // INCR4 or unspecified length #define USB_DMACTL7_BRSTM_INC8 0x00000400 // INCR8, INCR4 or unspecified // length #define USB_DMACTL7_BRSTM_INC16 0x00000600 // INCR16, INCR8, INCR4 or // unspecified length #define USB_DMACTL7_ERR 0x00000100 // Bus Error Bit #define USB_DMACTL7_EP_M 0x000000F0 // Endpoint number #define USB_DMACTL7_IE 0x00000008 // DMA Interrupt Enable #define USB_DMACTL7_MODE 0x00000004 // DMA Transfer Mode #define USB_DMACTL7_DIR 0x00000002 // DMA Direction #define USB_DMACTL7_ENABLE 0x00000001 // DMA Transfer Enable #define USB_DMACTL7_EP_S 4 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMAADDR7 register. // //***************************************************************************** #define USB_DMAADDR7_ADDR_M 0xFFFFFFFC // DMA Address #define USB_DMAADDR7_ADDR_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DMACOUNT7 // register. // //***************************************************************************** #define USB_DMACOUNT7_COUNT_M 0xFFFFFFFC // DMA Count #define USB_DMACOUNT7_COUNT_S 2 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RQPKTCOUNT1 // register. // //***************************************************************************** #define USB_RQPKTCOUNT1_M 0x0000FFFF // Block Transfer Packet Count #define USB_RQPKTCOUNT1_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RQPKTCOUNT2 // register. // //***************************************************************************** #define USB_RQPKTCOUNT2_M 0x0000FFFF // Block Transfer Packet Count #define USB_RQPKTCOUNT2_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RQPKTCOUNT3 // register. // //***************************************************************************** #define USB_RQPKTCOUNT3_M 0x0000FFFF // Block Transfer Packet Count #define USB_RQPKTCOUNT3_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RQPKTCOUNT4 // register. // //***************************************************************************** #define USB_RQPKTCOUNT4_COUNT_M 0x0000FFFF // Block Transfer Packet Count #define USB_RQPKTCOUNT4_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RQPKTCOUNT5 // register. // //***************************************************************************** #define USB_RQPKTCOUNT5_COUNT_M 0x0000FFFF // Block Transfer Packet Count #define USB_RQPKTCOUNT5_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RQPKTCOUNT6 // register. // //***************************************************************************** #define USB_RQPKTCOUNT6_COUNT_M 0x0000FFFF // Block Transfer Packet Count #define USB_RQPKTCOUNT6_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RQPKTCOUNT7 // register. // //***************************************************************************** #define USB_RQPKTCOUNT7_COUNT_M 0x0000FFFF // Block Transfer Packet Count #define USB_RQPKTCOUNT7_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_RXDPKTBUFDIS // register. // //***************************************************************************** #define USB_RXDPKTBUFDIS_EP7 0x00000080 // EP7 RX Double-Packet Buffer // Disable #define USB_RXDPKTBUFDIS_EP6 0x00000040 // EP6 RX Double-Packet Buffer // Disable #define USB_RXDPKTBUFDIS_EP5 0x00000020 // EP5 RX Double-Packet Buffer // Disable #define USB_RXDPKTBUFDIS_EP4 0x00000010 // EP4 RX Double-Packet Buffer // Disable #define USB_RXDPKTBUFDIS_EP3 0x00000008 // EP3 RX Double-Packet Buffer // Disable #define USB_RXDPKTBUFDIS_EP2 0x00000004 // EP2 RX Double-Packet Buffer // Disable #define USB_RXDPKTBUFDIS_EP1 0x00000002 // EP1 RX Double-Packet Buffer // Disable //***************************************************************************** // // The following are defines for the bit fields in the USB_O_TXDPKTBUFDIS // register. // //***************************************************************************** #define USB_TXDPKTBUFDIS_EP7 0x00000080 // EP7 TX Double-Packet Buffer // Disable #define USB_TXDPKTBUFDIS_EP6 0x00000040 // EP6 TX Double-Packet Buffer // Disable #define USB_TXDPKTBUFDIS_EP5 0x00000020 // EP5 TX Double-Packet Buffer // Disable #define USB_TXDPKTBUFDIS_EP4 0x00000010 // EP4 TX Double-Packet Buffer // Disable #define USB_TXDPKTBUFDIS_EP3 0x00000008 // EP3 TX Double-Packet Buffer // Disable #define USB_TXDPKTBUFDIS_EP2 0x00000004 // EP2 TX Double-Packet Buffer // Disable #define USB_TXDPKTBUFDIS_EP1 0x00000002 // EP1 TX Double-Packet Buffer // Disable //***************************************************************************** // // The following are defines for the bit fields in the USB_O_CTO register. // //***************************************************************************** #define USB_CTO_CCTV_M 0x0000FFFF // Configurable Chirp Timeout Value #define USB_CTO_CCTV_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_HHSRTN register. // //***************************************************************************** #define USB_HHSRTN_HHSRTN_M 0x0000FFFF // HIgh Speed to UTM Operating // Delay #define USB_HHSRTN_HHSRTN_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_HSBT register. // //***************************************************************************** #define USB_HSBT_HSBT_M 0x0000000F // High Speed Timeout Adder #define USB_HSBT_HSBT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_LPMATTR register. // //***************************************************************************** #define USB_LPMATTR_ENDPT_M 0x0000F000 // Endpoint #define USB_LPMATTR_RMTWAK 0x00000100 // Remote Wake #define USB_LPMATTR_HIRD_M 0x000000F0 // Host Initiated Resume Duration #define USB_LPMATTR_LS_M 0x0000000F // Link State #define USB_LPMATTR_LS_L1 0x00000001 // Sleep State (L1) #define USB_LPMATTR_ENDPT_S 12 #define USB_LPMATTR_HIRD_S 4 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_LPMCNTRL register. // //***************************************************************************** #define USB_LPMCNTRL_NAK 0x00000010 // LPM NAK #define USB_LPMCNTRL_EN_M 0x0000000C // LPM Enable #define USB_LPMCNTRL_EN_NONE 0x00000000 // LPM and Extended transactions // are not supported. In this case, // the USB does not respond to LPM // transactions and LPM // transactions cause a timeout #define USB_LPMCNTRL_EN_EXT 0x00000004 // LPM is not supported but // extended transactions are // supported. In this case, the USB // does respond to an LPM // transaction with a STALL #define USB_LPMCNTRL_EN_LPMEXT 0x0000000C // The USB supports LPM extended // transactions. In this case, the // USB responds with a NYET or an // ACK as determined by the value // of TXLPM and other conditions #define USB_LPMCNTRL_RES 0x00000002 // LPM Resume #define USB_LPMCNTRL_TXLPM 0x00000001 // Transmit LPM Transaction Enable //***************************************************************************** // // The following are defines for the bit fields in the USB_O_LPMIM register. // //***************************************************************************** #define USB_LPMIM_ERR 0x00000020 // LPM Error Interrupt Mask #define USB_LPMIM_RES 0x00000010 // LPM Resume Interrupt Mask #define USB_LPMIM_NC 0x00000008 // LPM NC Interrupt Mask #define USB_LPMIM_ACK 0x00000004 // LPM ACK Interrupt Mask #define USB_LPMIM_NY 0x00000002 // LPM NY Interrupt Mask #define USB_LPMIM_STALL 0x00000001 // LPM STALL Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the USB_O_LPMRIS register. // //***************************************************************************** #define USB_LPMRIS_ERR 0x00000020 // LPM Interrupt Status #define USB_LPMRIS_RES 0x00000010 // LPM Resume Interrupt Status #define USB_LPMRIS_NC 0x00000008 // LPM NC Interrupt Status #define USB_LPMRIS_ACK 0x00000004 // LPM ACK Interrupt Status #define USB_LPMRIS_NY 0x00000002 // LPM NY Interrupt Status #define USB_LPMRIS_LPMST 0x00000001 // LPM STALL Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_LPMFADDR register. // //***************************************************************************** #define USB_LPMFADDR_ADDR_M 0x0000007F // LPM Function Address #define USB_LPMFADDR_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_EPC register. // //***************************************************************************** #define USB_EPC_PFLTACT_M 0x00000300 // Power Fault Action #define USB_EPC_PFLTACT_UNCHG 0x00000000 // Unchanged #define USB_EPC_PFLTACT_TRIS 0x00000100 // Tristate #define USB_EPC_PFLTACT_LOW 0x00000200 // Low #define USB_EPC_PFLTACT_HIGH 0x00000300 // High #define USB_EPC_PFLTAEN 0x00000040 // Power Fault Action Enable #define USB_EPC_PFLTSEN_HIGH 0x00000020 // Power Fault Sense #define USB_EPC_PFLTEN 0x00000010 // Power Fault Input Enable #define USB_EPC_EPENDE 0x00000004 // EPEN Drive Enable #define USB_EPC_EPEN_M 0x00000003 // External Power Supply Enable // Configuration #define USB_EPC_EPEN_LOW 0x00000000 // Power Enable Active Low #define USB_EPC_EPEN_HIGH 0x00000001 // Power Enable Active High #define USB_EPC_EPEN_VBLOW 0x00000002 // Power Enable High if VBUS Low // (OTG only) #define USB_EPC_EPEN_VBHIGH 0x00000003 // Power Enable High if VBUS High // (OTG only) //***************************************************************************** // // The following are defines for the bit fields in the USB_O_EPCRIS register. // //***************************************************************************** #define USB_EPCRIS_PF 0x00000001 // USB Power Fault Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_EPCIM register. // //***************************************************************************** #define USB_EPCIM_PF 0x00000001 // USB Power Fault Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the USB_O_EPCISC register. // //***************************************************************************** #define USB_EPCISC_PF 0x00000001 // USB Power Fault Interrupt Status // and Clear //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DRRIS register. // //***************************************************************************** #define USB_DRRIS_RESUME 0x00000001 // RESUME Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DRIM register. // //***************************************************************************** #define USB_DRIM_RESUME 0x00000001 // RESUME Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the USB_O_DRISC register. // //***************************************************************************** #define USB_DRISC_RESUME 0x00000001 // RESUME Interrupt Status and // Clear //***************************************************************************** // // The following are defines for the bit fields in the USB_O_GPCS register. // //***************************************************************************** #define USB_GPCS_DEVMOD_M 0x00000007 // Device Mode #define USB_GPCS_DEVMOD_OTG 0x00000000 // Use USB0VBUS and USB0ID pin #define USB_GPCS_DEVMOD_HOST 0x00000002 // Force USB0VBUS and USB0ID low #define USB_GPCS_DEVMOD_DEV 0x00000003 // Force USB0VBUS and USB0ID high #define USB_GPCS_DEVMOD_HOSTVBUS \ 0x00000004 // Use USB0VBUS and force USB0ID // low #define USB_GPCS_DEVMOD_DEVVBUS 0x00000005 // Use USB0VBUS and force USB0ID // high //***************************************************************************** // // The following are defines for the bit fields in the USB_O_VDC register. // //***************************************************************************** #define USB_VDC_VBDEN 0x00000001 // VBUS Droop Enable //***************************************************************************** // // The following are defines for the bit fields in the USB_O_VDCRIS register. // //***************************************************************************** #define USB_VDCRIS_VD 0x00000001 // VBUS Droop Raw Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the USB_O_VDCIM register. // //***************************************************************************** #define USB_VDCIM_VD 0x00000001 // VBUS Droop Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the USB_O_VDCISC register. // //***************************************************************************** #define USB_VDCISC_VD 0x00000001 // VBUS Droop Interrupt Status and // Clear //***************************************************************************** // // The following are defines for the bit fields in the USB_O_PP register. // //***************************************************************************** #define USB_PP_ECNT_M 0x0000FF00 // Endpoint Count #define USB_PP_USB_M 0x000000C0 // USB Capability #define USB_PP_USB_DEVICE 0x00000040 // DEVICE #define USB_PP_USB_HOSTDEVICE 0x00000080 // HOST #define USB_PP_USB_OTG 0x000000C0 // OTG #define USB_PP_ULPI 0x00000020 // ULPI Present #define USB_PP_PHY 0x00000010 // PHY Present #define USB_PP_TYPE_M 0x0000000F // Controller Type #define USB_PP_TYPE_0 0x00000000 // The first-generation USB // controller #define USB_PP_TYPE_1 0x00000001 // Second-generation USB // controller.The controller // implemented in post Icestorm // devices that use the 3.0 version // of the Mentor controller #define USB_PP_ECNT_S 8 //***************************************************************************** // // The following are defines for the bit fields in the USB_O_PC register. // //***************************************************************************** #define USB_PC_ULPIEN 0x00010000 // ULPI Enable //***************************************************************************** // // The following are defines for the bit fields in the USB_O_CC register. // //***************************************************************************** #define USB_CC_CLKEN 0x00000200 // USB Clock Enable #define USB_CC_CSD 0x00000100 // Clock Source/Direction #define USB_CC_CLKDIV_M 0x0000000F // PLL Clock Divisor #define USB_CC_CLKDIV_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EESIZE register. // //***************************************************************************** #define EEPROM_EESIZE_BLKCNT_M 0x07FF0000 // Number of 16-Word Blocks #define EEPROM_EESIZE_WORDCNT_M 0x0000FFFF // Number of 32-Bit Words #define EEPROM_EESIZE_BLKCNT_S 16 #define EEPROM_EESIZE_WORDCNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEBLOCK register. // //***************************************************************************** #define EEPROM_EEBLOCK_BLOCK_M 0x0000FFFF // Current Block #define EEPROM_EEBLOCK_BLOCK_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEOFFSET // register. // //***************************************************************************** #define EEPROM_EEOFFSET_OFFSET_M \ 0x0000000F // Current Address Offset #define EEPROM_EEOFFSET_OFFSET_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EERDWR register. // //***************************************************************************** #define EEPROM_EERDWR_VALUE_M 0xFFFFFFFF // EEPROM Read or Write Data #define EEPROM_EERDWR_VALUE_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EERDWRINC // register. // //***************************************************************************** #define EEPROM_EERDWRINC_VALUE_M \ 0xFFFFFFFF // EEPROM Read or Write Data with // Increment #define EEPROM_EERDWRINC_VALUE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEDONE register. // //***************************************************************************** #define EEPROM_EEDONE_WRBUSY 0x00000020 // Write Busy #define EEPROM_EEDONE_NOPERM 0x00000010 // Write Without Permission #define EEPROM_EEDONE_WKCOPY 0x00000008 // Working on a Copy #define EEPROM_EEDONE_WKERASE 0x00000004 // Working on an Erase #define EEPROM_EEDONE_WORKING 0x00000001 // EEPROM Working //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EESUPP register. // //***************************************************************************** #define EEPROM_EESUPP_PRETRY 0x00000008 // Programming Must Be Retried #define EEPROM_EESUPP_ERETRY 0x00000004 // Erase Must Be Retried //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEUNLOCK // register. // //***************************************************************************** #define EEPROM_EEUNLOCK_UNLOCK_M \ 0xFFFFFFFF // EEPROM Unlock //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEPROT register. // //***************************************************************************** #define EEPROM_EEPROT_ACC 0x00000008 // Access Control #define EEPROM_EEPROT_PROT_M 0x00000007 // Protection Control #define EEPROM_EEPROT_PROT_RWNPW \ 0x00000000 // This setting is the default. If // there is no password, the block // is not protected and is readable // and writable #define EEPROM_EEPROT_PROT_RWPW 0x00000001 // If there is a password, the // block is readable or writable // only when unlocked #define EEPROM_EEPROT_PROT_RONPW \ 0x00000002 // If there is no password, the // block is readable, not writable //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEPASS0 register. // //***************************************************************************** #define EEPROM_EEPASS0_PASS_M 0xFFFFFFFF // Password #define EEPROM_EEPASS0_PASS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEPASS1 register. // //***************************************************************************** #define EEPROM_EEPASS1_PASS_M 0xFFFFFFFF // Password #define EEPROM_EEPASS1_PASS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEPASS2 register. // //***************************************************************************** #define EEPROM_EEPASS2_PASS_M 0xFFFFFFFF // Password #define EEPROM_EEPASS2_PASS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEINT register. // //***************************************************************************** #define EEPROM_EEINT_INT 0x00000001 // Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEHIDE0 register. // //***************************************************************************** #define EEPROM_EEHIDE0_HN_M 0xFFFFFFFE // Hide Block //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEHIDE1 register. // //***************************************************************************** #define EEPROM_EEHIDE1_HN_M 0xFFFFFFFF // Hide Block //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEHIDE2 register. // //***************************************************************************** #define EEPROM_EEHIDE2_HN_M 0xFFFFFFFF // Hide Block //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_EEDBGME register. // //***************************************************************************** #define EEPROM_EEDBGME_KEY_M 0xFFFF0000 // Erase Key #define EEPROM_EEDBGME_ME 0x00000001 // Mass Erase #define EEPROM_EEDBGME_KEY_S 16 //***************************************************************************** // // The following are defines for the bit fields in the EEPROM_PP register. // //***************************************************************************** #define EEPROM_PP_SIZE_M 0x0000FFFF // EEPROM Size #define EEPROM_PP_SIZE_64 0x00000000 // 64 bytes of EEPROM #define EEPROM_PP_SIZE_128 0x00000001 // 128 bytes of EEPROM #define EEPROM_PP_SIZE_256 0x00000003 // 256 bytes of EEPROM #define EEPROM_PP_SIZE_512 0x00000007 // 512 bytes of EEPROM #define EEPROM_PP_SIZE_1K 0x0000000F // 1 KB of EEPROM #define EEPROM_PP_SIZE_2K 0x0000001F // 2 KB of EEPROM #define EEPROM_PP_SIZE_3K 0x0000003F // 3 KB of EEPROM #define EEPROM_PP_SIZE_4K 0x0000007F // 4 KB of EEPROM #define EEPROM_PP_SIZE_5K 0x000000FF // 5 KB of EEPROM #define EEPROM_PP_SIZE_6K 0x000001FF // 6 KB of EEPROM //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_CFG register. // //***************************************************************************** #define EPI_CFG_INTDIV 0x00000100 // Integer Clock Divider Enable #define EPI_CFG_BLKEN 0x00000010 // Block Enable #define EPI_CFG_MODE_M 0x0000000F // Mode Select #define EPI_CFG_MODE_NONE 0x00000000 // General Purpose #define EPI_CFG_MODE_SDRAM 0x00000001 // SDRAM #define EPI_CFG_MODE_HB8 0x00000002 // 8-Bit Host-Bus (HB8) #define EPI_CFG_MODE_HB16 0x00000003 // 16-Bit Host-Bus (HB16) //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_BAUD register. // //***************************************************************************** #define EPI_BAUD_COUNT1_M 0xFFFF0000 // Baud Rate Counter 1 #define EPI_BAUD_COUNT0_M 0x0000FFFF // Baud Rate Counter 0 #define EPI_BAUD_COUNT1_S 16 #define EPI_BAUD_COUNT0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_BAUD2 register. // //***************************************************************************** #define EPI_BAUD2_COUNT1_M 0xFFFF0000 // CS3n Baud Rate Counter 1 #define EPI_BAUD2_COUNT0_M 0x0000FFFF // CS2n Baud Rate Counter 0 #define EPI_BAUD2_COUNT1_S 16 #define EPI_BAUD2_COUNT0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB16CFG register. // //***************************************************************************** #define EPI_HB16CFG_CLKGATE 0x80000000 // Clock Gated #define EPI_HB16CFG_CLKGATEI 0x40000000 // Clock Gated Idle #define EPI_HB16CFG_CLKINV 0x20000000 // Invert Output Clock Enable #define EPI_HB16CFG_RDYEN 0x10000000 // Input Ready Enable #define EPI_HB16CFG_IRDYINV 0x08000000 // Input Ready Invert #define EPI_HB16CFG_XFFEN 0x00800000 // External FIFO FULL Enable #define EPI_HB16CFG_XFEEN 0x00400000 // External FIFO EMPTY Enable #define EPI_HB16CFG_WRHIGH 0x00200000 // WRITE Strobe Polarity #define EPI_HB16CFG_RDHIGH 0x00100000 // READ Strobe Polarity #define EPI_HB16CFG_ALEHIGH 0x00080000 // ALE Strobe Polarity #define EPI_HB16CFG_WRCRE 0x00040000 // PSRAM Configuration Register // Write #define EPI_HB16CFG_RDCRE 0x00020000 // PSRAM Configuration Register // Read #define EPI_HB16CFG_BURST 0x00010000 // Burst Mode #define EPI_HB16CFG_MAXWAIT_M 0x0000FF00 // Maximum Wait #define EPI_HB16CFG_WRWS_M 0x000000C0 // Write Wait States #define EPI_HB16CFG_WRWS_2 0x00000000 // Active WRn is 2 EPI clocks #define EPI_HB16CFG_WRWS_4 0x00000040 // Active WRn is 4 EPI clocks #define EPI_HB16CFG_WRWS_6 0x00000080 // Active WRn is 6 EPI clocks #define EPI_HB16CFG_WRWS_8 0x000000C0 // Active WRn is 8 EPI clocks #define EPI_HB16CFG_RDWS_M 0x00000030 // Read Wait States #define EPI_HB16CFG_RDWS_2 0x00000000 // Active RDn is 2 EPI clocks #define EPI_HB16CFG_RDWS_4 0x00000010 // Active RDn is 4 EPI clocks #define EPI_HB16CFG_RDWS_6 0x00000020 // Active RDn is 6 EPI clocks #define EPI_HB16CFG_RDWS_8 0x00000030 // Active RDn is 8 EPI clocks #define EPI_HB16CFG_BSEL 0x00000004 // Byte Select Configuration #define EPI_HB16CFG_MODE_M 0x00000003 // Host Bus Sub-Mode #define EPI_HB16CFG_MODE_ADMUX 0x00000000 // ADMUX - AD[15:0] #define EPI_HB16CFG_MODE_ADNMUX 0x00000001 // ADNONMUX - D[15:0] #define EPI_HB16CFG_MODE_SRAM 0x00000002 // Continuous Read - D[15:0] #define EPI_HB16CFG_MODE_XFIFO 0x00000003 // XFIFO - D[15:0] #define EPI_HB16CFG_MAXWAIT_S 8 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_GPCFG register. // //***************************************************************************** #define EPI_GPCFG_CLKPIN 0x80000000 // Clock Pin #define EPI_GPCFG_CLKGATE 0x40000000 // Clock Gated #define EPI_GPCFG_FRM50 0x04000000 // 50/50 Frame #define EPI_GPCFG_FRMCNT_M 0x03C00000 // Frame Count #define EPI_GPCFG_WR2CYC 0x00080000 // 2-Cycle Writes #define EPI_GPCFG_ASIZE_M 0x00000030 // Address Bus Size #define EPI_GPCFG_ASIZE_NONE 0x00000000 // No address #define EPI_GPCFG_ASIZE_4BIT 0x00000010 // Up to 4 bits wide #define EPI_GPCFG_ASIZE_12BIT 0x00000020 // Up to 12 bits wide. This size // cannot be used with 24-bit data #define EPI_GPCFG_ASIZE_20BIT 0x00000030 // Up to 20 bits wide. This size // cannot be used with data sizes // other than 8 #define EPI_GPCFG_DSIZE_M 0x00000003 // Size of Data Bus #define EPI_GPCFG_DSIZE_4BIT 0x00000000 // 8 Bits Wide (EPI0S0 to EPI0S7) #define EPI_GPCFG_DSIZE_16BIT 0x00000001 // 16 Bits Wide (EPI0S0 to EPI0S15) #define EPI_GPCFG_DSIZE_24BIT 0x00000002 // 24 Bits Wide (EPI0S0 to EPI0S23) #define EPI_GPCFG_DSIZE_32BIT 0x00000003 // 32 Bits Wide (EPI0S0 to EPI0S31) #define EPI_GPCFG_FRMCNT_S 22 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_SDRAMCFG register. // //***************************************************************************** #define EPI_SDRAMCFG_FREQ_M 0xC0000000 // EPI Frequency Range #define EPI_SDRAMCFG_FREQ_NONE 0x00000000 // 0 - 15 MHz #define EPI_SDRAMCFG_FREQ_15MHZ 0x40000000 // 15 - 30 MHz #define EPI_SDRAMCFG_FREQ_30MHZ 0x80000000 // 30 - 50 MHz #define EPI_SDRAMCFG_RFSH_M 0x07FF0000 // Refresh Counter #define EPI_SDRAMCFG_SLEEP 0x00000200 // Sleep Mode #define EPI_SDRAMCFG_SIZE_M 0x00000003 // Size of SDRAM #define EPI_SDRAMCFG_SIZE_8MB 0x00000000 // 64 megabits (8MB) #define EPI_SDRAMCFG_SIZE_16MB 0x00000001 // 128 megabits (16MB) #define EPI_SDRAMCFG_SIZE_32MB 0x00000002 // 256 megabits (32MB) #define EPI_SDRAMCFG_SIZE_64MB 0x00000003 // 512 megabits (64MB) #define EPI_SDRAMCFG_RFSH_S 16 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB8CFG register. // //***************************************************************************** #define EPI_HB8CFG_CLKGATE 0x80000000 // Clock Gated #define EPI_HB8CFG_CLKGATEI 0x40000000 // Clock Gated when Idle #define EPI_HB8CFG_CLKINV 0x20000000 // Invert Output Clock Enable #define EPI_HB8CFG_RDYEN 0x10000000 // Input Ready Enable #define EPI_HB8CFG_IRDYINV 0x08000000 // Input Ready Invert #define EPI_HB8CFG_XFFEN 0x00800000 // External FIFO FULL Enable #define EPI_HB8CFG_XFEEN 0x00400000 // External FIFO EMPTY Enable #define EPI_HB8CFG_WRHIGH 0x00200000 // WRITE Strobe Polarity #define EPI_HB8CFG_RDHIGH 0x00100000 // READ Strobe Polarity #define EPI_HB8CFG_ALEHIGH 0x00080000 // ALE Strobe Polarity #define EPI_HB8CFG_MAXWAIT_M 0x0000FF00 // Maximum Wait #define EPI_HB8CFG_WRWS_M 0x000000C0 // Write Wait States #define EPI_HB8CFG_WRWS_2 0x00000000 // Active WRn is 2 EPI clocks #define EPI_HB8CFG_WRWS_4 0x00000040 // Active WRn is 4 EPI clocks #define EPI_HB8CFG_WRWS_6 0x00000080 // Active WRn is 6 EPI clocks #define EPI_HB8CFG_WRWS_8 0x000000C0 // Active WRn is 8 EPI clocks #define EPI_HB8CFG_RDWS_M 0x00000030 // Read Wait States #define EPI_HB8CFG_RDWS_2 0x00000000 // Active RDn is 2 EPI clocks #define EPI_HB8CFG_RDWS_4 0x00000010 // Active RDn is 4 EPI clocks #define EPI_HB8CFG_RDWS_6 0x00000020 // Active RDn is 6 EPI clocks #define EPI_HB8CFG_RDWS_8 0x00000030 // Active RDn is 8 EPI clocks #define EPI_HB8CFG_MODE_M 0x00000003 // Host Bus Sub-Mode #define EPI_HB8CFG_MODE_MUX 0x00000000 // ADMUX - AD[7:0] #define EPI_HB8CFG_MODE_NMUX 0x00000001 // ADNONMUX - D[7:0] #define EPI_HB8CFG_MODE_SRAM 0x00000002 // Continuous Read - D[7:0] #define EPI_HB8CFG_MODE_FIFO 0x00000003 // XFIFO - D[7:0] #define EPI_HB8CFG_MAXWAIT_S 8 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB8CFG2 register. // //***************************************************************************** #define EPI_HB8CFG2_CSCFGEXT 0x08000000 // Chip Select Extended // Configuration #define EPI_HB8CFG2_CSBAUD 0x04000000 // Chip Select Baud Rate and // Multiple Sub-Mode Configuration // enable #define EPI_HB8CFG2_CSCFG_M 0x03000000 // Chip Select Configuration #define EPI_HB8CFG2_CSCFG_ALE 0x00000000 // ALE Configuration #define EPI_HB8CFG2_CSCFG_CS 0x01000000 // CSn Configuration #define EPI_HB8CFG2_CSCFG_DCS 0x02000000 // Dual CSn Configuration #define EPI_HB8CFG2_CSCFG_ADCS 0x03000000 // ALE with Dual CSn Configuration #define EPI_HB8CFG2_WRHIGH 0x00200000 // CS1n WRITE Strobe Polarity #define EPI_HB8CFG2_RDHIGH 0x00100000 // CS1n READ Strobe Polarity #define EPI_HB8CFG2_ALEHIGH 0x00080000 // CS1n ALE Strobe Polarity #define EPI_HB8CFG2_WRWS_M 0x000000C0 // CS1n Write Wait States #define EPI_HB8CFG2_WRWS_2 0x00000000 // Active WRn is 2 EPI clocks #define EPI_HB8CFG2_WRWS_4 0x00000040 // Active WRn is 4 EPI clocks #define EPI_HB8CFG2_WRWS_6 0x00000080 // Active WRn is 6 EPI clocks #define EPI_HB8CFG2_WRWS_8 0x000000C0 // Active WRn is 8 EPI clocks #define EPI_HB8CFG2_RDWS_M 0x00000030 // CS1n Read Wait States #define EPI_HB8CFG2_RDWS_2 0x00000000 // Active RDn is 2 EPI clocks #define EPI_HB8CFG2_RDWS_4 0x00000010 // Active RDn is 4 EPI clocks #define EPI_HB8CFG2_RDWS_6 0x00000020 // Active RDn is 6 EPI clocks #define EPI_HB8CFG2_RDWS_8 0x00000030 // Active RDn is 8 EPI clocks #define EPI_HB8CFG2_MODE_M 0x00000003 // CS1n Host Bus Sub-Mode #define EPI_HB8CFG2_MODE_ADMUX 0x00000000 // ADMUX - AD[7:0] #define EPI_HB8CFG2_MODE_AD 0x00000001 // ADNONMUX - D[7:0] //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB16CFG2 register. // //***************************************************************************** #define EPI_HB16CFG2_CSCFGEXT 0x08000000 // Chip Select Extended // Configuration #define EPI_HB16CFG2_CSBAUD 0x04000000 // Chip Select Baud Rate and // Multiple Sub-Mode Configuration // enable #define EPI_HB16CFG2_CSCFG_M 0x03000000 // Chip Select Configuration #define EPI_HB16CFG2_CSCFG_ALE 0x00000000 // ALE Configuration #define EPI_HB16CFG2_CSCFG_CS 0x01000000 // CSn Configuration #define EPI_HB16CFG2_CSCFG_DCS 0x02000000 // Dual CSn Configuration #define EPI_HB16CFG2_CSCFG_ADCS 0x03000000 // ALE with Dual CSn Configuration #define EPI_HB16CFG2_WRHIGH 0x00200000 // CS1n WRITE Strobe Polarity #define EPI_HB16CFG2_RDHIGH 0x00100000 // CS1n READ Strobe Polarity #define EPI_HB16CFG2_ALEHIGH 0x00080000 // CS1n ALE Strobe Polarity #define EPI_HB16CFG2_WRCRE 0x00040000 // CS1n PSRAM Configuration // Register Write #define EPI_HB16CFG2_RDCRE 0x00020000 // CS1n PSRAM Configuration // Register Read #define EPI_HB16CFG2_BURST 0x00010000 // CS1n Burst Mode #define EPI_HB16CFG2_WRWS_M 0x000000C0 // CS1n Write Wait States #define EPI_HB16CFG2_WRWS_2 0x00000000 // Active WRn is 2 EPI clocks #define EPI_HB16CFG2_WRWS_4 0x00000040 // Active WRn is 4 EPI clocks #define EPI_HB16CFG2_WRWS_6 0x00000080 // Active WRn is 6 EPI clocks #define EPI_HB16CFG2_WRWS_8 0x000000C0 // Active WRn is 8 EPI clocks #define EPI_HB16CFG2_RDWS_M 0x00000030 // CS1n Read Wait States #define EPI_HB16CFG2_RDWS_2 0x00000000 // Active RDn is 2 EPI clocks #define EPI_HB16CFG2_RDWS_4 0x00000010 // Active RDn is 4 EPI clocks #define EPI_HB16CFG2_RDWS_6 0x00000020 // Active RDn is 6 EPI clocks #define EPI_HB16CFG2_RDWS_8 0x00000030 // Active RDn is 8 EPI clocks #define EPI_HB16CFG2_MODE_M 0x00000003 // CS1n Host Bus Sub-Mode #define EPI_HB16CFG2_MODE_ADMUX 0x00000000 // ADMUX - AD[15:0] #define EPI_HB16CFG2_MODE_AD 0x00000001 // ADNONMUX - D[15:0] //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_ADDRMAP register. // //***************************************************************************** #define EPI_ADDRMAP_ECSZ_M 0x00000C00 // External Code Size #define EPI_ADDRMAP_ECSZ_256B 0x00000000 // 256 bytes; lower address range: // 0x00 to 0xFF #define EPI_ADDRMAP_ECSZ_64KB 0x00000400 // 64 KB; lower address range: // 0x0000 to 0xFFFF #define EPI_ADDRMAP_ECSZ_16MB 0x00000800 // 16 MB; lower address range: // 0x00.0000 to 0xFF.FFFF #define EPI_ADDRMAP_ECSZ_256MB 0x00000C00 // 256MB; lower address range: // 0x000.0000 to 0x0FFF.FFFF #define EPI_ADDRMAP_ECADR_M 0x00000300 // External Code Address #define EPI_ADDRMAP_ECADR_NONE 0x00000000 // Not mapped #define EPI_ADDRMAP_ECADR_1000 0x00000100 // At 0x1000.0000 #define EPI_ADDRMAP_EPSZ_M 0x000000C0 // External Peripheral Size #define EPI_ADDRMAP_EPSZ_256B 0x00000000 // 256 bytes; lower address range: // 0x00 to 0xFF #define EPI_ADDRMAP_EPSZ_64KB 0x00000040 // 64 KB; lower address range: // 0x0000 to 0xFFFF #define EPI_ADDRMAP_EPSZ_16MB 0x00000080 // 16 MB; lower address range: // 0x00.0000 to 0xFF.FFFF #define EPI_ADDRMAP_EPSZ_256MB 0x000000C0 // 256 MB; lower address range: // 0x000.0000 to 0xFFF.FFFF #define EPI_ADDRMAP_EPADR_M 0x00000030 // External Peripheral Address #define EPI_ADDRMAP_EPADR_NONE 0x00000000 // Not mapped #define EPI_ADDRMAP_EPADR_A000 0x00000010 // At 0xA000.0000 #define EPI_ADDRMAP_EPADR_C000 0x00000020 // At 0xC000.0000 #define EPI_ADDRMAP_EPADR_HBQS 0x00000030 // Only to be used with Host Bus // quad chip select. In quad chip // select mode, CS2n maps to // 0xA000.0000 and CS3n maps to // 0xC000.0000 #define EPI_ADDRMAP_ERSZ_M 0x0000000C // External RAM Size #define EPI_ADDRMAP_ERSZ_256B 0x00000000 // 256 bytes; lower address range: // 0x00 to 0xFF #define EPI_ADDRMAP_ERSZ_64KB 0x00000004 // 64 KB; lower address range: // 0x0000 to 0xFFFF #define EPI_ADDRMAP_ERSZ_16MB 0x00000008 // 16 MB; lower address range: // 0x00.0000 to 0xFF.FFFF #define EPI_ADDRMAP_ERSZ_256MB 0x0000000C // 256 MB; lower address range: // 0x000.0000 to 0xFFF.FFFF #define EPI_ADDRMAP_ERADR_M 0x00000003 // External RAM Address #define EPI_ADDRMAP_ERADR_NONE 0x00000000 // Not mapped #define EPI_ADDRMAP_ERADR_6000 0x00000001 // At 0x6000.0000 #define EPI_ADDRMAP_ERADR_8000 0x00000002 // At 0x8000.0000 #define EPI_ADDRMAP_ERADR_HBQS 0x00000003 // Only to be used with Host Bus // quad chip select. In quad chip // select mode, CS0n maps to // 0x6000.0000 and CS1n maps to // 0x8000.0000 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_RSIZE0 register. // //***************************************************************************** #define EPI_RSIZE0_SIZE_M 0x00000003 // Current Size #define EPI_RSIZE0_SIZE_8BIT 0x00000001 // Byte (8 bits) #define EPI_RSIZE0_SIZE_16BIT 0x00000002 // Half-word (16 bits) #define EPI_RSIZE0_SIZE_32BIT 0x00000003 // Word (32 bits) //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_RADDR0 register. // //***************************************************************************** #define EPI_RADDR0_ADDR_M 0xFFFFFFFF // Current Address #define EPI_RADDR0_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_RPSTD0 register. // //***************************************************************************** #define EPI_RPSTD0_POSTCNT_M 0x00001FFF // Post Count #define EPI_RPSTD0_POSTCNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_RSIZE1 register. // //***************************************************************************** #define EPI_RSIZE1_SIZE_M 0x00000003 // Current Size #define EPI_RSIZE1_SIZE_8BIT 0x00000001 // Byte (8 bits) #define EPI_RSIZE1_SIZE_16BIT 0x00000002 // Half-word (16 bits) #define EPI_RSIZE1_SIZE_32BIT 0x00000003 // Word (32 bits) //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_RADDR1 register. // //***************************************************************************** #define EPI_RADDR1_ADDR_M 0xFFFFFFFF // Current Address #define EPI_RADDR1_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_RPSTD1 register. // //***************************************************************************** #define EPI_RPSTD1_POSTCNT_M 0x00001FFF // Post Count #define EPI_RPSTD1_POSTCNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_STAT register. // //***************************************************************************** #define EPI_STAT_XFFULL 0x00000100 // External FIFO Full #define EPI_STAT_XFEMPTY 0x00000080 // External FIFO Empty #define EPI_STAT_INITSEQ 0x00000040 // Initialization Sequence #define EPI_STAT_WBUSY 0x00000020 // Write Busy #define EPI_STAT_NBRBUSY 0x00000010 // Non-Blocking Read Busy #define EPI_STAT_ACTIVE 0x00000001 // Register Active //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_RFIFOCNT register. // //***************************************************************************** #define EPI_RFIFOCNT_COUNT_M 0x0000000F // FIFO Count #define EPI_RFIFOCNT_COUNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_READFIFO0 // register. // //***************************************************************************** #define EPI_READFIFO0_DATA_M 0xFFFFFFFF // Reads Data #define EPI_READFIFO0_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_READFIFO1 // register. // //***************************************************************************** #define EPI_READFIFO1_DATA_M 0xFFFFFFFF // Reads Data #define EPI_READFIFO1_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_READFIFO2 // register. // //***************************************************************************** #define EPI_READFIFO2_DATA_M 0xFFFFFFFF // Reads Data #define EPI_READFIFO2_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_READFIFO3 // register. // //***************************************************************************** #define EPI_READFIFO3_DATA_M 0xFFFFFFFF // Reads Data #define EPI_READFIFO3_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_READFIFO4 // register. // //***************************************************************************** #define EPI_READFIFO4_DATA_M 0xFFFFFFFF // Reads Data #define EPI_READFIFO4_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_READFIFO5 // register. // //***************************************************************************** #define EPI_READFIFO5_DATA_M 0xFFFFFFFF // Reads Data #define EPI_READFIFO5_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_READFIFO6 // register. // //***************************************************************************** #define EPI_READFIFO6_DATA_M 0xFFFFFFFF // Reads Data #define EPI_READFIFO6_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_READFIFO7 // register. // //***************************************************************************** #define EPI_READFIFO7_DATA_M 0xFFFFFFFF // Reads Data #define EPI_READFIFO7_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_FIFOLVL register. // //***************************************************************************** #define EPI_FIFOLVL_WFERR 0x00020000 // Write Full Error #define EPI_FIFOLVL_RSERR 0x00010000 // Read Stall Error #define EPI_FIFOLVL_WRFIFO_M 0x00000070 // Write FIFO #define EPI_FIFOLVL_WRFIFO_EMPT 0x00000000 // Interrupt is triggered while // WRFIFO is empty. #define EPI_FIFOLVL_WRFIFO_2 0x00000020 // Interrupt is triggered until // there are only two slots // available. Thus, trigger is // deasserted when there are two // WRFIFO entries present. This // configuration is optimized for // bursts of 2 #define EPI_FIFOLVL_WRFIFO_1 0x00000030 // Interrupt is triggered until // there is one WRFIFO entry // available. This configuration // expects only single writes #define EPI_FIFOLVL_WRFIFO_NFULL \ 0x00000040 // Trigger interrupt when WRFIFO is // not full, meaning trigger will // continue to assert until there // are four entries in the WRFIFO #define EPI_FIFOLVL_RDFIFO_M 0x00000007 // Read FIFO #define EPI_FIFOLVL_RDFIFO_1 0x00000001 // Trigger when there are 1 or more // entries in the NBRFIFO #define EPI_FIFOLVL_RDFIFO_2 0x00000002 // Trigger when there are 2 or more // entries in the NBRFIFO #define EPI_FIFOLVL_RDFIFO_4 0x00000003 // Trigger when there are 4 or more // entries in the NBRFIFO #define EPI_FIFOLVL_RDFIFO_6 0x00000004 // Trigger when there are 6 or more // entries in the NBRFIFO #define EPI_FIFOLVL_RDFIFO_7 0x00000005 // Trigger when there are 7 or more // entries in the NBRFIFO #define EPI_FIFOLVL_RDFIFO_8 0x00000006 // Trigger when there are 8 entries // in the NBRFIFO //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_WFIFOCNT register. // //***************************************************************************** #define EPI_WFIFOCNT_WTAV_M 0x00000007 // Available Write Transactions #define EPI_WFIFOCNT_WTAV_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_DMATXCNT register. // //***************************************************************************** #define EPI_DMATXCNT_TXCNT_M 0x0000FFFF // DMA Count #define EPI_DMATXCNT_TXCNT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_IM register. // //***************************************************************************** #define EPI_IM_DMAWRIM 0x00000010 // Write uDMA Interrupt Mask #define EPI_IM_DMARDIM 0x00000008 // Read uDMA Interrupt Mask #define EPI_IM_WRIM 0x00000004 // Write FIFO Empty Interrupt Mask #define EPI_IM_RDIM 0x00000002 // Read FIFO Full Interrupt Mask #define EPI_IM_ERRIM 0x00000001 // Error Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_RIS register. // //***************************************************************************** #define EPI_RIS_DMAWRRIS 0x00000010 // Write uDMA Raw Interrupt Status #define EPI_RIS_DMARDRIS 0x00000008 // Read uDMA Raw Interrupt Status #define EPI_RIS_WRRIS 0x00000004 // Write Raw Interrupt Status #define EPI_RIS_RDRIS 0x00000002 // Read Raw Interrupt Status #define EPI_RIS_ERRRIS 0x00000001 // Error Raw Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_MIS register. // //***************************************************************************** #define EPI_MIS_DMAWRMIS 0x00000010 // Write uDMA Masked Interrupt // Status #define EPI_MIS_DMARDMIS 0x00000008 // Read uDMA Masked Interrupt // Status #define EPI_MIS_WRMIS 0x00000004 // Write Masked Interrupt Status #define EPI_MIS_RDMIS 0x00000002 // Read Masked Interrupt Status #define EPI_MIS_ERRMIS 0x00000001 // Error Masked Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_EISC register. // //***************************************************************************** #define EPI_EISC_DMAWRIC 0x00000010 // Write uDMA Interrupt Clear #define EPI_EISC_DMARDIC 0x00000008 // Read uDMA Interrupt Clear #define EPI_EISC_WTFULL 0x00000004 // Write FIFO Full Error #define EPI_EISC_RSTALL 0x00000002 // Read Stalled Error #define EPI_EISC_TOUT 0x00000001 // Timeout Error //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB8CFG3 register. // //***************************************************************************** #define EPI_HB8CFG3_WRHIGH 0x00200000 // CS2n WRITE Strobe Polarity #define EPI_HB8CFG3_RDHIGH 0x00100000 // CS2n READ Strobe Polarity #define EPI_HB8CFG3_ALEHIGH 0x00080000 // CS2n ALE Strobe Polarity #define EPI_HB8CFG3_WRWS_M 0x000000C0 // CS2n Write Wait States #define EPI_HB8CFG3_WRWS_2 0x00000000 // Active WRn is 2 EPI clocks #define EPI_HB8CFG3_WRWS_4 0x00000040 // Active WRn is 4 EPI clocks #define EPI_HB8CFG3_WRWS_6 0x00000080 // Active WRn is 6 EPI clocks #define EPI_HB8CFG3_WRWS_8 0x000000C0 // Active WRn is 8 EPI clocks #define EPI_HB8CFG3_RDWS_M 0x00000030 // CS2n Read Wait States #define EPI_HB8CFG3_RDWS_2 0x00000000 // Active RDn is 2 EPI clocks #define EPI_HB8CFG3_RDWS_4 0x00000010 // Active RDn is 4 EPI clocks #define EPI_HB8CFG3_RDWS_6 0x00000020 // Active RDn is 6 EPI clocks #define EPI_HB8CFG3_RDWS_8 0x00000030 // Active RDn is 8 EPI clocks #define EPI_HB8CFG3_MODE_M 0x00000003 // CS2n Host Bus Sub-Mode #define EPI_HB8CFG3_MODE_ADMUX 0x00000000 // ADMUX - AD[7:0] #define EPI_HB8CFG3_MODE_AD 0x00000001 // ADNONMUX - D[7:0] //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB16CFG3 register. // //***************************************************************************** #define EPI_HB16CFG3_WRHIGH 0x00200000 // CS2n WRITE Strobe Polarity #define EPI_HB16CFG3_RDHIGH 0x00100000 // CS2n READ Strobe Polarity #define EPI_HB16CFG3_ALEHIGH 0x00080000 // CS2n ALE Strobe Polarity #define EPI_HB16CFG3_WRCRE 0x00040000 // CS2n PSRAM Configuration // Register Write #define EPI_HB16CFG3_RDCRE 0x00020000 // CS2n PSRAM Configuration // Register Read #define EPI_HB16CFG3_BURST 0x00010000 // CS2n Burst Mode #define EPI_HB16CFG3_WRWS_M 0x000000C0 // CS2n Write Wait States #define EPI_HB16CFG3_WRWS_2 0x00000000 // Active WRn is 2 EPI clocks #define EPI_HB16CFG3_WRWS_4 0x00000040 // Active WRn is 4 EPI clocks #define EPI_HB16CFG3_WRWS_6 0x00000080 // Active WRn is 6 EPI clocks #define EPI_HB16CFG3_WRWS_8 0x000000C0 // Active WRn is 8 EPI clocks #define EPI_HB16CFG3_RDWS_M 0x00000030 // CS2n Read Wait States #define EPI_HB16CFG3_RDWS_2 0x00000000 // Active RDn is 2 EPI clocks #define EPI_HB16CFG3_RDWS_4 0x00000010 // Active RDn is 4 EPI clocks #define EPI_HB16CFG3_RDWS_6 0x00000020 // Active RDn is 6 EPI clocks #define EPI_HB16CFG3_RDWS_8 0x00000030 // Active RDn is 8 EPI clocks #define EPI_HB16CFG3_MODE_M 0x00000003 // CS2n Host Bus Sub-Mode #define EPI_HB16CFG3_MODE_ADMUX 0x00000000 // ADMUX - AD[15:0] #define EPI_HB16CFG3_MODE_AD 0x00000001 // ADNONMUX - D[15:0] //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB16CFG4 register. // //***************************************************************************** #define EPI_HB16CFG4_WRHIGH 0x00200000 // CS3n WRITE Strobe Polarity #define EPI_HB16CFG4_RDHIGH 0x00100000 // CS3n READ Strobe Polarity #define EPI_HB16CFG4_ALEHIGH 0x00080000 // CS3n ALE Strobe Polarity #define EPI_HB16CFG4_WRCRE 0x00040000 // CS3n PSRAM Configuration // Register Write #define EPI_HB16CFG4_RDCRE 0x00020000 // CS3n PSRAM Configuration // Register Read #define EPI_HB16CFG4_BURST 0x00010000 // CS3n Burst Mode #define EPI_HB16CFG4_WRWS_M 0x000000C0 // CS3n Write Wait States #define EPI_HB16CFG4_WRWS_2 0x00000000 // Active WRn is 2 EPI clocks #define EPI_HB16CFG4_WRWS_4 0x00000040 // Active WRn is 4 EPI clocks #define EPI_HB16CFG4_WRWS_6 0x00000080 // Active WRn is 6 EPI clocks #define EPI_HB16CFG4_WRWS_8 0x000000C0 // Active WRn is 8 EPI clocks #define EPI_HB16CFG4_RDWS_M 0x00000030 // CS3n Read Wait States #define EPI_HB16CFG4_RDWS_2 0x00000000 // Active RDn is 2 EPI clocks #define EPI_HB16CFG4_RDWS_4 0x00000010 // Active RDn is 4 EPI clocks #define EPI_HB16CFG4_RDWS_6 0x00000020 // Active RDn is 6 EPI clocks #define EPI_HB16CFG4_RDWS_8 0x00000030 // Active RDn is 8 EPI clocks #define EPI_HB16CFG4_MODE_M 0x00000003 // CS3n Host Bus Sub-Mode #define EPI_HB16CFG4_MODE_ADMUX 0x00000000 // ADMUX - AD[15:0] #define EPI_HB16CFG4_MODE_AD 0x00000001 // ADNONMUX - D[15:0] //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB8CFG4 register. // //***************************************************************************** #define EPI_HB8CFG4_WRHIGH 0x00200000 // CS3n WRITE Strobe Polarity #define EPI_HB8CFG4_RDHIGH 0x00100000 // CS2n READ Strobe Polarity #define EPI_HB8CFG4_ALEHIGH 0x00080000 // CS3n ALE Strobe Polarity #define EPI_HB8CFG4_WRWS_M 0x000000C0 // CS3n Write Wait States #define EPI_HB8CFG4_WRWS_2 0x00000000 // Active WRn is 2 EPI clocks #define EPI_HB8CFG4_WRWS_4 0x00000040 // Active WRn is 4 EPI clocks #define EPI_HB8CFG4_WRWS_6 0x00000080 // Active WRn is 6 EPI clocks #define EPI_HB8CFG4_WRWS_8 0x000000C0 // Active WRn is 8 EPI clocks #define EPI_HB8CFG4_RDWS_M 0x00000030 // CS3n Read Wait States #define EPI_HB8CFG4_RDWS_2 0x00000000 // Active RDn is 2 EPI clocks #define EPI_HB8CFG4_RDWS_4 0x00000010 // Active RDn is 4 EPI clocks #define EPI_HB8CFG4_RDWS_6 0x00000020 // Active RDn is 6 EPI clocks #define EPI_HB8CFG4_RDWS_8 0x00000030 // Active RDn is 8 EPI clocks #define EPI_HB8CFG4_MODE_M 0x00000003 // CS3n Host Bus Sub-Mode #define EPI_HB8CFG4_MODE_ADMUX 0x00000000 // ADMUX - AD[7:0] #define EPI_HB8CFG4_MODE_AD 0x00000001 // ADNONMUX - D[7:0] //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB8TIME register. // //***************************************************************************** #define EPI_HB8TIME_IRDYDLY_M 0x03000000 // CS0n Input Ready Delay #define EPI_HB8TIME_CAPWIDTH_M 0x00003000 // CS0n Inter-transfer Capture // Width #define EPI_HB8TIME_WRWSM 0x00000010 // Write Wait State Minus One #define EPI_HB8TIME_RDWSM 0x00000001 // Read Wait State Minus One #define EPI_HB8TIME_IRDYDLY_S 24 #define EPI_HB8TIME_CAPWIDTH_S 12 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB16TIME register. // //***************************************************************************** #define EPI_HB16TIME_IRDYDLY_M 0x03000000 // CS0n Input Ready Delay #define EPI_HB16TIME_PSRAMSZ_M 0x00070000 // PSRAM Row Size #define EPI_HB16TIME_PSRAMSZ_0 0x00000000 // No row size limitation #define EPI_HB16TIME_PSRAMSZ_128B \ 0x00010000 // 128 B #define EPI_HB16TIME_PSRAMSZ_256B \ 0x00020000 // 256 B #define EPI_HB16TIME_PSRAMSZ_512B \ 0x00030000 // 512 B #define EPI_HB16TIME_PSRAMSZ_1KB \ 0x00040000 // 1024 B #define EPI_HB16TIME_PSRAMSZ_2KB \ 0x00050000 // 2048 B #define EPI_HB16TIME_PSRAMSZ_4KB \ 0x00060000 // 4096 B #define EPI_HB16TIME_PSRAMSZ_8KB \ 0x00070000 // 8192 B #define EPI_HB16TIME_CAPWIDTH_M 0x00003000 // CS0n Inter-transfer Capture // Width #define EPI_HB16TIME_WRWSM 0x00000010 // Write Wait State Minus One #define EPI_HB16TIME_RDWSM 0x00000001 // Read Wait State Minus One #define EPI_HB16TIME_IRDYDLY_S 24 #define EPI_HB16TIME_CAPWIDTH_S 12 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB8TIME2 register. // //***************************************************************************** #define EPI_HB8TIME2_IRDYDLY_M 0x03000000 // CS1n Input Ready Delay #define EPI_HB8TIME2_CAPWIDTH_M 0x00003000 // CS1n Inter-transfer Capture // Width #define EPI_HB8TIME2_WRWSM 0x00000010 // CS1n Write Wait State Minus One #define EPI_HB8TIME2_RDWSM 0x00000001 // CS1n Read Wait State Minus One #define EPI_HB8TIME2_IRDYDLY_S 24 #define EPI_HB8TIME2_CAPWIDTH_S 12 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB16TIME2 // register. // //***************************************************************************** #define EPI_HB16TIME2_IRDYDLY_M 0x03000000 // CS1n Input Ready Delay #define EPI_HB16TIME2_PSRAMSZ_M 0x00070000 // PSRAM Row Size #define EPI_HB16TIME2_PSRAMSZ_0 0x00000000 // No row size limitation #define EPI_HB16TIME2_PSRAMSZ_128B \ 0x00010000 // 128 B #define EPI_HB16TIME2_PSRAMSZ_256B \ 0x00020000 // 256 B #define EPI_HB16TIME2_PSRAMSZ_512B \ 0x00030000 // 512 B #define EPI_HB16TIME2_PSRAMSZ_1KB \ 0x00040000 // 1024 B #define EPI_HB16TIME2_PSRAMSZ_2KB \ 0x00050000 // 2048 B #define EPI_HB16TIME2_PSRAMSZ_4KB \ 0x00060000 // 4096 B #define EPI_HB16TIME2_PSRAMSZ_8KB \ 0x00070000 // 8192 B #define EPI_HB16TIME2_CAPWIDTH_M \ 0x00003000 // CS1n Inter-transfer Capture // Width #define EPI_HB16TIME2_WRWSM 0x00000010 // CS1n Write Wait State Minus One #define EPI_HB16TIME2_RDWSM 0x00000001 // CS1n Read Wait State Minus One #define EPI_HB16TIME2_IRDYDLY_S 24 #define EPI_HB16TIME2_CAPWIDTH_S \ 12 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB16TIME3 // register. // //***************************************************************************** #define EPI_HB16TIME3_IRDYDLY_M 0x03000000 // CS2n Input Ready Delay #define EPI_HB16TIME3_PSRAMSZ_M 0x00070000 // PSRAM Row Size #define EPI_HB16TIME3_PSRAMSZ_0 0x00000000 // No row size limitation #define EPI_HB16TIME3_PSRAMSZ_128B \ 0x00010000 // 128 B #define EPI_HB16TIME3_PSRAMSZ_256B \ 0x00020000 // 256 B #define EPI_HB16TIME3_PSRAMSZ_512B \ 0x00030000 // 512 B #define EPI_HB16TIME3_PSRAMSZ_1KB \ 0x00040000 // 1024 B #define EPI_HB16TIME3_PSRAMSZ_2KB \ 0x00050000 // 2048 B #define EPI_HB16TIME3_PSRAMSZ_4KB \ 0x00060000 // 4096 B #define EPI_HB16TIME3_PSRAMSZ_8KB \ 0x00070000 // 8192 B #define EPI_HB16TIME3_CAPWIDTH_M \ 0x00003000 // CS2n Inter-transfer Capture // Width #define EPI_HB16TIME3_WRWSM 0x00000010 // CS2n Write Wait State Minus One #define EPI_HB16TIME3_RDWSM 0x00000001 // CS2n Read Wait State Minus One #define EPI_HB16TIME3_IRDYDLY_S 24 #define EPI_HB16TIME3_CAPWIDTH_S \ 12 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB8TIME3 register. // //***************************************************************************** #define EPI_HB8TIME3_IRDYDLY_M 0x03000000 // CS2n Input Ready Delay #define EPI_HB8TIME3_CAPWIDTH_M 0x00003000 // CS2n Inter-transfer Capture // Width #define EPI_HB8TIME3_WRWSM 0x00000010 // CS2n Write Wait State Minus One #define EPI_HB8TIME3_RDWSM 0x00000001 // CS2n Read Wait State Minus One #define EPI_HB8TIME3_IRDYDLY_S 24 #define EPI_HB8TIME3_CAPWIDTH_S 12 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB8TIME4 register. // //***************************************************************************** #define EPI_HB8TIME4_IRDYDLY_M 0x03000000 // CS3n Input Ready Delay #define EPI_HB8TIME4_CAPWIDTH_M 0x00003000 // CS3n Inter-transfer Capture // Width #define EPI_HB8TIME4_WRWSM 0x00000010 // CS3n Write Wait State Minus One #define EPI_HB8TIME4_RDWSM 0x00000001 // CS3n Read Wait State Minus One #define EPI_HB8TIME4_IRDYDLY_S 24 #define EPI_HB8TIME4_CAPWIDTH_S 12 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HB16TIME4 // register. // //***************************************************************************** #define EPI_HB16TIME4_IRDYDLY_M 0x03000000 // CS3n Input Ready Delay #define EPI_HB16TIME4_PSRAMSZ_M 0x00070000 // PSRAM Row Size #define EPI_HB16TIME4_PSRAMSZ_0 0x00000000 // No row size limitation #define EPI_HB16TIME4_PSRAMSZ_128B \ 0x00010000 // 128 B #define EPI_HB16TIME4_PSRAMSZ_256B \ 0x00020000 // 256 B #define EPI_HB16TIME4_PSRAMSZ_512B \ 0x00030000 // 512 B #define EPI_HB16TIME4_PSRAMSZ_1KB \ 0x00040000 // 1024 B #define EPI_HB16TIME4_PSRAMSZ_2KB \ 0x00050000 // 2048 B #define EPI_HB16TIME4_PSRAMSZ_4KB \ 0x00060000 // 4096 B #define EPI_HB16TIME4_PSRAMSZ_8KB \ 0x00070000 // 8192 B #define EPI_HB16TIME4_CAPWIDTH_M \ 0x00003000 // CS3n Inter-transfer Capture // Width #define EPI_HB16TIME4_WRWSM 0x00000010 // CS3n Write Wait State Minus One #define EPI_HB16TIME4_RDWSM 0x00000001 // CS3n Read Wait State Minus One #define EPI_HB16TIME4_IRDYDLY_S 24 #define EPI_HB16TIME4_CAPWIDTH_S \ 12 //***************************************************************************** // // The following are defines for the bit fields in the EPI_O_HBPSRAM register. // //***************************************************************************** #define EPI_HBPSRAM_CR_M 0x001FFFFF // PSRAM Config Register #define EPI_HBPSRAM_CR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSEXC_RIS register. // //***************************************************************************** #define SYSEXC_RIS_FPIXCRIS 0x00000020 // Floating-Point Inexact Exception // Raw Interrupt Status #define SYSEXC_RIS_FPOFCRIS 0x00000010 // Floating-Point Overflow // Exception Raw Interrupt Status #define SYSEXC_RIS_FPUFCRIS 0x00000008 // Floating-Point Underflow // Exception Raw Interrupt Status #define SYSEXC_RIS_FPIOCRIS 0x00000004 // Floating-Point Invalid Operation // Raw Interrupt Status #define SYSEXC_RIS_FPDZCRIS 0x00000002 // Floating-Point Divide By 0 // Exception Raw Interrupt Status #define SYSEXC_RIS_FPIDCRIS 0x00000001 // Floating-Point Input Denormal // Exception Raw Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the SYSEXC_IM register. // //***************************************************************************** #define SYSEXC_IM_FPIXCIM 0x00000020 // Floating-Point Inexact Exception // Interrupt Mask #define SYSEXC_IM_FPOFCIM 0x00000010 // Floating-Point Overflow // Exception Interrupt Mask #define SYSEXC_IM_FPUFCIM 0x00000008 // Floating-Point Underflow // Exception Interrupt Mask #define SYSEXC_IM_FPIOCIM 0x00000004 // Floating-Point Invalid Operation // Interrupt Mask #define SYSEXC_IM_FPDZCIM 0x00000002 // Floating-Point Divide By 0 // Exception Interrupt Mask #define SYSEXC_IM_FPIDCIM 0x00000001 // Floating-Point Input Denormal // Exception Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the SYSEXC_MIS register. // //***************************************************************************** #define SYSEXC_MIS_FPIXCMIS 0x00000020 // Floating-Point Inexact Exception // Masked Interrupt Status #define SYSEXC_MIS_FPOFCMIS 0x00000010 // Floating-Point Overflow // Exception Masked Interrupt // Status #define SYSEXC_MIS_FPUFCMIS 0x00000008 // Floating-Point Underflow // Exception Masked Interrupt // Status #define SYSEXC_MIS_FPIOCMIS 0x00000004 // Floating-Point Invalid Operation // Masked Interrupt Status #define SYSEXC_MIS_FPDZCMIS 0x00000002 // Floating-Point Divide By 0 // Exception Masked Interrupt // Status #define SYSEXC_MIS_FPIDCMIS 0x00000001 // Floating-Point Input Denormal // Exception Masked Interrupt // Status //***************************************************************************** // // The following are defines for the bit fields in the SYSEXC_IC register. // //***************************************************************************** #define SYSEXC_IC_FPIXCIC 0x00000020 // Floating-Point Inexact Exception // Interrupt Clear #define SYSEXC_IC_FPOFCIC 0x00000010 // Floating-Point Overflow // Exception Interrupt Clear #define SYSEXC_IC_FPUFCIC 0x00000008 // Floating-Point Underflow // Exception Interrupt Clear #define SYSEXC_IC_FPIOCIC 0x00000004 // Floating-Point Invalid Operation // Interrupt Clear #define SYSEXC_IC_FPDZCIC 0x00000002 // Floating-Point Divide By 0 // Exception Interrupt Clear #define SYSEXC_IC_FPIDCIC 0x00000001 // Floating-Point Input Denormal // Exception Interrupt Clear //***************************************************************************** // // The following are defines for the bit fields in the HIB_RTCC register. // //***************************************************************************** #define HIB_RTCC_M 0xFFFFFFFF // RTC Counter #define HIB_RTCC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_RTCM0 register. // //***************************************************************************** #define HIB_RTCM0_M 0xFFFFFFFF // RTC Match 0 #define HIB_RTCM0_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_RTCLD register. // //***************************************************************************** #define HIB_RTCLD_M 0xFFFFFFFF // RTC Load #define HIB_RTCLD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_CTL register. // //***************************************************************************** #define HIB_CTL_WRC 0x80000000 // Write Complete/Capable #define HIB_CTL_RETCLR 0x40000000 // GPIO Retention/Clear #define HIB_CTL_OSCSEL 0x00080000 // Oscillator Select #define HIB_CTL_OSCDRV 0x00020000 // Oscillator Drive Capability #define HIB_CTL_OSCBYP 0x00010000 // Oscillator Bypass #define HIB_CTL_VBATSEL_M 0x00006000 // Select for Low-Battery // Comparator #define HIB_CTL_VBATSEL_1_9V 0x00000000 // 1.9 Volts #define HIB_CTL_VBATSEL_2_1V 0x00002000 // 2.1 Volts (default) #define HIB_CTL_VBATSEL_2_3V 0x00004000 // 2.3 Volts #define HIB_CTL_VBATSEL_2_5V 0x00006000 // 2.5 Volts #define HIB_CTL_BATCHK 0x00000400 // Check Battery Status #define HIB_CTL_BATWKEN 0x00000200 // Wake on Low Battery #define HIB_CTL_VDD3ON 0x00000100 // VDD Powered #define HIB_CTL_VABORT 0x00000080 // Power Cut Abort Enable #define HIB_CTL_CLK32EN 0x00000040 // Clocking Enable #define HIB_CTL_PINWEN 0x00000010 // External Wake Pin Enable #define HIB_CTL_RTCWEN 0x00000008 // RTC Wake-up Enable #define HIB_CTL_HIBREQ 0x00000002 // Hibernation Request #define HIB_CTL_RTCEN 0x00000001 // RTC Timer Enable //***************************************************************************** // // The following are defines for the bit fields in the HIB_IM register. // //***************************************************************************** #define HIB_IM_VDDFAIL 0x00000080 // VDD Fail Interrupt Mask #define HIB_IM_RSTWK 0x00000040 // Reset Pad I/O Wake-Up Interrupt // Mask #define HIB_IM_PADIOWK 0x00000020 // Pad I/O Wake-Up Interrupt Mask #define HIB_IM_WC 0x00000010 // External Write Complete/Capable // Interrupt Mask #define HIB_IM_EXTW 0x00000008 // External Wake-Up Interrupt Mask #define HIB_IM_LOWBAT 0x00000004 // Low Battery Voltage Interrupt // Mask #define HIB_IM_RTCALT0 0x00000001 // RTC Alert 0 Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the HIB_RIS register. // //***************************************************************************** #define HIB_RIS_VDDFAIL 0x00000080 // VDD Fail Raw Interrupt Status #define HIB_RIS_RSTWK 0x00000040 // Reset Pad I/O Wake-Up Raw // Interrupt Status #define HIB_RIS_PADIOWK 0x00000020 // Pad I/O Wake-Up Raw Interrupt // Status #define HIB_RIS_WC 0x00000010 // Write Complete/Capable Raw // Interrupt Status #define HIB_RIS_EXTW 0x00000008 // External Wake-Up Raw Interrupt // Status #define HIB_RIS_LOWBAT 0x00000004 // Low Battery Voltage Raw // Interrupt Status #define HIB_RIS_RTCALT0 0x00000001 // RTC Alert 0 Raw Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the HIB_MIS register. // //***************************************************************************** #define HIB_MIS_VDDFAIL 0x00000080 // VDD Fail Interrupt Mask #define HIB_MIS_RSTWK 0x00000040 // Reset Pad I/O Wake-Up Interrupt // Mask #define HIB_MIS_PADIOWK 0x00000020 // Pad I/O Wake-Up Interrupt Mask #define HIB_MIS_WC 0x00000010 // Write Complete/Capable Masked // Interrupt Status #define HIB_MIS_EXTW 0x00000008 // External Wake-Up Masked // Interrupt Status #define HIB_MIS_LOWBAT 0x00000004 // Low Battery Voltage Masked // Interrupt Status #define HIB_MIS_RTCALT0 0x00000001 // RTC Alert 0 Masked Interrupt // Status //***************************************************************************** // // The following are defines for the bit fields in the HIB_IC register. // //***************************************************************************** #define HIB_IC_VDDFAIL 0x00000080 // VDD Fail Interrupt Clear #define HIB_IC_RSTWK 0x00000040 // Reset Pad I/O Wake-Up Interrupt // Clear #define HIB_IC_PADIOWK 0x00000020 // Pad I/O Wake-Up Interrupt Clear #define HIB_IC_WC 0x00000010 // Write Complete/Capable Interrupt // Clear #define HIB_IC_EXTW 0x00000008 // External Wake-Up Interrupt Clear #define HIB_IC_LOWBAT 0x00000004 // Low Battery Voltage Interrupt // Clear #define HIB_IC_RTCALT0 0x00000001 // RTC Alert0 Masked Interrupt // Clear //***************************************************************************** // // The following are defines for the bit fields in the HIB_RTCT register. // //***************************************************************************** #define HIB_RTCT_TRIM_M 0x0000FFFF // RTC Trim Value #define HIB_RTCT_TRIM_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_RTCSS register. // //***************************************************************************** #define HIB_RTCSS_RTCSSM_M 0x7FFF0000 // RTC Sub Seconds Match #define HIB_RTCSS_RTCSSC_M 0x00007FFF // RTC Sub Seconds Count #define HIB_RTCSS_RTCSSM_S 16 #define HIB_RTCSS_RTCSSC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_IO register. // //***************************************************************************** #define HIB_IO_IOWRC 0x80000000 // I/O Write Complete #define HIB_IO_WURSTEN 0x00000010 // Reset Wake Source Enable #define HIB_IO_WUUNLK 0x00000001 // I/O Wake Pad Configuration // Enable //***************************************************************************** // // The following are defines for the bit fields in the HIB_DATA register. // //***************************************************************************** #define HIB_DATA_RTD_M 0xFFFFFFFF // Hibernation Module NV Data #define HIB_DATA_RTD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_CALCTL register. // //***************************************************************************** #define HIB_CALCTL_CAL24 0x00000004 // Calendar Mode #define HIB_CALCTL_CALEN 0x00000001 // RTC Calendar/Counter Mode Select //***************************************************************************** // // The following are defines for the bit fields in the HIB_CAL0 register. // //***************************************************************************** #define HIB_CAL0_VALID 0x80000000 // Valid Calendar Load #define HIB_CAL0_AMPM 0x00400000 // AM/PM Designation #define HIB_CAL0_HR_M 0x001F0000 // Hours #define HIB_CAL0_MIN_M 0x00003F00 // Minutes #define HIB_CAL0_SEC_M 0x0000003F // Seconds #define HIB_CAL0_HR_S 16 #define HIB_CAL0_MIN_S 8 #define HIB_CAL0_SEC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_CAL1 register. // //***************************************************************************** #define HIB_CAL1_VALID 0x80000000 // Valid Calendar Load #define HIB_CAL1_DOW_M 0x07000000 // Day of Week #define HIB_CAL1_YEAR_M 0x007F0000 // Year Value #define HIB_CAL1_MON_M 0x00000F00 // Month #define HIB_CAL1_DOM_M 0x0000001F // Day of Month #define HIB_CAL1_DOW_S 24 #define HIB_CAL1_YEAR_S 16 #define HIB_CAL1_MON_S 8 #define HIB_CAL1_DOM_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_CALLD0 register. // //***************************************************************************** #define HIB_CALLD0_AMPM 0x00400000 // AM/PM Designation #define HIB_CALLD0_HR_M 0x001F0000 // Hours #define HIB_CALLD0_MIN_M 0x00003F00 // Minutes #define HIB_CALLD0_SEC_M 0x0000003F // Seconds #define HIB_CALLD0_HR_S 16 #define HIB_CALLD0_MIN_S 8 #define HIB_CALLD0_SEC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_CALLD1 register. // //***************************************************************************** #define HIB_CALLD1_DOW_M 0x07000000 // Day of Week #define HIB_CALLD1_YEAR_M 0x007F0000 // Year Value #define HIB_CALLD1_MON_M 0x00000F00 // Month #define HIB_CALLD1_DOM_M 0x0000001F // Day of Month #define HIB_CALLD1_DOW_S 24 #define HIB_CALLD1_YEAR_S 16 #define HIB_CALLD1_MON_S 8 #define HIB_CALLD1_DOM_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_CALM0 register. // //***************************************************************************** #define HIB_CALM0_AMPM 0x00400000 // AM/PM Designation #define HIB_CALM0_HR_M 0x001F0000 // Hours #define HIB_CALM0_MIN_M 0x00003F00 // Minutes #define HIB_CALM0_SEC_M 0x0000003F // Seconds #define HIB_CALM0_HR_S 16 #define HIB_CALM0_MIN_S 8 #define HIB_CALM0_SEC_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_CALM1 register. // //***************************************************************************** #define HIB_CALM1_DOM_M 0x0000001F // Day of Month #define HIB_CALM1_DOM_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_LOCK register. // //***************************************************************************** #define HIB_LOCK_HIBLOCK_M 0xFFFFFFFF // HIbernate Lock #define HIB_LOCK_HIBLOCK_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPCTL register. // //***************************************************************************** #define HIB_TPCTL_WAKE 0x00000800 // Wake from Hibernate on a Tamper // Event #define HIB_TPCTL_MEMCLR_M 0x00000300 // HIB Memory Clear on Tamper Event #define HIB_TPCTL_MEMCLR_NONE 0x00000000 // Do not Clear HIB memory on // tamper event #define HIB_TPCTL_MEMCLR_LOW32 0x00000100 // Clear Lower 32 Bytes of HIB // memory on tamper event #define HIB_TPCTL_MEMCLR_HIGH32 0x00000200 // Clear upper 32 Bytes of HIB // memory on tamper event #define HIB_TPCTL_MEMCLR_ALL 0x00000300 // Clear all HIB memory on tamper // event #define HIB_TPCTL_TPCLR 0x00000010 // Tamper Event Clear #define HIB_TPCTL_TPEN 0x00000001 // Tamper Module Enable //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPSTAT register. // //***************************************************************************** #define HIB_TPSTAT_STATE_M 0x0000000C // Tamper Module Status #define HIB_TPSTAT_STATE_DISABLED \ 0x00000000 // Tamper disabled #define HIB_TPSTAT_STATE_CONFIGED \ 0x00000004 // Tamper configured #define HIB_TPSTAT_STATE_ERROR 0x00000008 // Tamper pin event occurred #define HIB_TPSTAT_XOSCST 0x00000002 // External Oscillator Status #define HIB_TPSTAT_XOSCFAIL 0x00000001 // External Oscillator Failure //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPIO register. // //***************************************************************************** #define HIB_TPIO_GFLTR3 0x08000000 // TMPR3 Glitch Filtering #define HIB_TPIO_PUEN3 0x04000000 // TMPR3 Internal Weak Pull-up // Enable #define HIB_TPIO_LEV3 0x02000000 // TMPR3 Trigger Level #define HIB_TPIO_EN3 0x01000000 // TMPR3 Enable #define HIB_TPIO_GFLTR2 0x00080000 // TMPR2 Glitch Filtering #define HIB_TPIO_PUEN2 0x00040000 // TMPR2 Internal Weak Pull-up // Enable #define HIB_TPIO_LEV2 0x00020000 // TMPR2 Trigger Level #define HIB_TPIO_EN2 0x00010000 // TMPR2 Enable #define HIB_TPIO_GFLTR1 0x00000800 // TMPR1 Glitch Filtering #define HIB_TPIO_PUEN1 0x00000400 // TMPR1 Internal Weak Pull-up // Enable #define HIB_TPIO_LEV1 0x00000200 // TMPR1 Trigger Level #define HIB_TPIO_EN1 0x00000100 // TMPR1Enable #define HIB_TPIO_GFLTR0 0x00000008 // TMPR0 Glitch Filtering #define HIB_TPIO_PUEN0 0x00000004 // TMPR0 Internal Weak Pull-up // Enable #define HIB_TPIO_LEV0 0x00000002 // TMPR0 Trigger Level #define HIB_TPIO_EN0 0x00000001 // TMPR0 Enable //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPLOG0 register. // //***************************************************************************** #define HIB_TPLOG0_TIME_M 0xFFFFFFFF // Tamper Log Calendar Information #define HIB_TPLOG0_TIME_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPLOG1 register. // //***************************************************************************** #define HIB_TPLOG1_XOSC 0x00010000 // Status of external 32 #define HIB_TPLOG1_TRIG3 0x00000008 // Status of TMPR[3] Trigger #define HIB_TPLOG1_TRIG2 0x00000004 // Status of TMPR[2] Trigger #define HIB_TPLOG1_TRIG1 0x00000002 // Status of TMPR[1] Trigger #define HIB_TPLOG1_TRIG0 0x00000001 // Status of TMPR[0] Trigger //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPLOG2 register. // //***************************************************************************** #define HIB_TPLOG2_TIME_M 0xFFFFFFFF // Tamper Log Calendar Information #define HIB_TPLOG2_TIME_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPLOG3 register. // //***************************************************************************** #define HIB_TPLOG3_XOSC 0x00010000 // Status of external 32 #define HIB_TPLOG3_TRIG3 0x00000008 // Status of TMPR[3] Trigger #define HIB_TPLOG3_TRIG2 0x00000004 // Status of TMPR[2] Trigger #define HIB_TPLOG3_TRIG1 0x00000002 // Status of TMPR[1] Trigger #define HIB_TPLOG3_TRIG0 0x00000001 // Status of TMPR[0] Trigger //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPLOG4 register. // //***************************************************************************** #define HIB_TPLOG4_TIME_M 0xFFFFFFFF // Tamper Log Calendar Information #define HIB_TPLOG4_TIME_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPLOG5 register. // //***************************************************************************** #define HIB_TPLOG5_XOSC 0x00010000 // Status of external 32 #define HIB_TPLOG5_TRIG3 0x00000008 // Status of TMPR[3] Trigger #define HIB_TPLOG5_TRIG2 0x00000004 // Status of TMPR[2] Trigger #define HIB_TPLOG5_TRIG1 0x00000002 // Status of TMPR[1] Trigger #define HIB_TPLOG5_TRIG0 0x00000001 // Status of TMPR[0] Trigger //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPLOG6 register. // //***************************************************************************** #define HIB_TPLOG6_TIME_M 0xFFFFFFFF // Tamper Log Calendar Information #define HIB_TPLOG6_TIME_S 0 //***************************************************************************** // // The following are defines for the bit fields in the HIB_TPLOG7 register. // //***************************************************************************** #define HIB_TPLOG7_XOSC 0x00010000 // Status of external 32 #define HIB_TPLOG7_TRIG3 0x00000008 // Status of TMPR[3] Trigger #define HIB_TPLOG7_TRIG2 0x00000004 // Status of TMPR[2] Trigger #define HIB_TPLOG7_TRIG1 0x00000002 // Status of TMPR[1] Trigger #define HIB_TPLOG7_TRIG0 0x00000001 // Status of TMPR[0] Trigger //***************************************************************************** // // The following are defines for the bit fields in the HIB_PP register. // //***************************************************************************** #define HIB_PP_TAMPER 0x00000002 // Tamper Pin Presence #define HIB_PP_WAKENC 0x00000001 // Wake Pin Presence //***************************************************************************** // // The following are defines for the bit fields in the HIB_CC register. // //***************************************************************************** #define HIB_CC_SYSCLKEN 0x00000001 // RTCOSC to System Clock Enable //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMA register. // //***************************************************************************** #define FLASH_FMA_OFFSET_M 0x000FFFFF // Address Offset #define FLASH_FMA_OFFSET_S 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMD register. // //***************************************************************************** #define FLASH_FMD_DATA_M 0xFFFFFFFF // Data Value #define FLASH_FMD_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMC register. // //***************************************************************************** #define FLASH_FMC_WRKEY 0xA4420000 // FLASH write key #define FLASH_FMC_COMT 0x00000008 // Commit Register Value #define FLASH_FMC_MERASE 0x00000004 // Mass Erase Flash Memory #define FLASH_FMC_ERASE 0x00000002 // Erase a Page of Flash Memory #define FLASH_FMC_WRITE 0x00000001 // Write a Word into Flash Memory //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FCRIS register. // //***************************************************************************** #define FLASH_FCRIS_PROGRIS 0x00002000 // Program Verify Error Raw // Interrupt Status #define FLASH_FCRIS_ERRIS 0x00000800 // Erase Verify Error Raw Interrupt // Status #define FLASH_FCRIS_INVDRIS 0x00000400 // Invalid Data Raw Interrupt // Status #define FLASH_FCRIS_VOLTRIS 0x00000200 // Pump Voltage Raw Interrupt // Status #define FLASH_FCRIS_ERIS 0x00000004 // EEPROM Raw Interrupt Status #define FLASH_FCRIS_PRIS 0x00000002 // Programming Raw Interrupt Status #define FLASH_FCRIS_ARIS 0x00000001 // Access Raw Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FCIM register. // //***************************************************************************** #define FLASH_FCIM_PROGMASK 0x00002000 // PROGVER Interrupt Mask #define FLASH_FCIM_ERMASK 0x00000800 // ERVER Interrupt Mask #define FLASH_FCIM_INVDMASK 0x00000400 // Invalid Data Interrupt Mask #define FLASH_FCIM_VOLTMASK 0x00000200 // VOLT Interrupt Mask #define FLASH_FCIM_EMASK 0x00000004 // EEPROM Interrupt Mask #define FLASH_FCIM_PMASK 0x00000002 // Programming Interrupt Mask #define FLASH_FCIM_AMASK 0x00000001 // Access Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FCMISC register. // //***************************************************************************** #define FLASH_FCMISC_PROGMISC 0x00002000 // PROGVER Masked Interrupt Status // and Clear #define FLASH_FCMISC_ERMISC 0x00000800 // ERVER Masked Interrupt Status // and Clear #define FLASH_FCMISC_INVDMISC 0x00000400 // Invalid Data Masked Interrupt // Status and Clear #define FLASH_FCMISC_VOLTMISC 0x00000200 // VOLT Masked Interrupt Status and // Clear #define FLASH_FCMISC_EMISC 0x00000004 // EEPROM Masked Interrupt Status // and Clear #define FLASH_FCMISC_PMISC 0x00000002 // Programming Masked Interrupt // Status and Clear #define FLASH_FCMISC_AMISC 0x00000001 // Access Masked Interrupt Status // and Clear //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMC2 register. // //***************************************************************************** #define FLASH_FMC2_WRBUF 0x00000001 // Buffered Flash Memory Write //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FWBVAL register. // //***************************************************************************** #define FLASH_FWBVAL_FWB_M 0xFFFFFFFF // Flash Memory Write Buffer //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FLPEKEY register. // //***************************************************************************** #define FLASH_FLPEKEY_PEKEY_M 0x0000FFFF // Key Value #define FLASH_FLPEKEY_PEKEY_S 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FWBN register. // //***************************************************************************** #define FLASH_FWBN_DATA_M 0xFFFFFFFF // Data //***************************************************************************** // // The following are defines for the bit fields in the FLASH_PP register. // //***************************************************************************** #define FLASH_PP_PFC 0x40000000 // Prefetch Buffer Mode #define FLASH_PP_FMM 0x20000000 // Flash Mirror Mode #define FLASH_PP_DFA 0x10000000 // DMA Flash Access #define FLASH_PP_EESS_M 0x00780000 // EEPROM Sector Size of the // physical bank #define FLASH_PP_EESS_1KB 0x00000000 // 1 KB #define FLASH_PP_EESS_2KB 0x00080000 // 2 KB #define FLASH_PP_EESS_4KB 0x00100000 // 4 KB #define FLASH_PP_EESS_8KB 0x00180000 // 8 KB #define FLASH_PP_MAINSS_M 0x00070000 // Flash Sector Size of the // physical bank #define FLASH_PP_MAINSS_1KB 0x00000000 // 1 KB #define FLASH_PP_MAINSS_2KB 0x00010000 // 2 KB #define FLASH_PP_MAINSS_4KB 0x00020000 // 4 KB #define FLASH_PP_MAINSS_8KB 0x00030000 // 8 KB #define FLASH_PP_MAINSS_16KB 0x00040000 // 16 KB #define FLASH_PP_SIZE_M 0x0000FFFF // Flash Size #define FLASH_PP_SIZE_1MB 0x000001FF // 1024 KB of Flash //***************************************************************************** // // The following are defines for the bit fields in the FLASH_SSIZE register. // //***************************************************************************** #define FLASH_SSIZE_SIZE_M 0x0000FFFF // SRAM Size #define FLASH_SSIZE_SIZE_256KB 0x000003FF // 256 KB of SRAM //***************************************************************************** // // The following are defines for the bit fields in the FLASH_CONF register. // //***************************************************************************** #define FLASH_CONF_FMME 0x40000000 // Flash Mirror Mode Enable #define FLASH_CONF_SPFE 0x20000000 // Single Prefetch Mode Enable #define FLASH_CONF_CLRTV 0x00100000 // Clear Valid Tags #define FLASH_CONF_FPFON 0x00020000 // Force Prefetch On #define FLASH_CONF_FPFOFF 0x00010000 // Force Prefetch Off //***************************************************************************** // // The following are defines for the bit fields in the FLASH_ROMSWMAP register. // //***************************************************************************** #define FLASH_ROMSWMAP_SW7EN_M 0x0000C000 // ROM SW Region 7 Availability #define FLASH_ROMSWMAP_SW7EN_NOTVIS \ 0x00000000 // Software region not available to // the core #define FLASH_ROMSWMAP_SW7EN_CORE \ 0x00004000 // Region available to core #define FLASH_ROMSWMAP_SW6EN_M 0x00003000 // ROM SW Region 6 Availability #define FLASH_ROMSWMAP_SW6EN_NOTVIS \ 0x00000000 // Software region not available to // the core #define FLASH_ROMSWMAP_SW6EN_CORE \ 0x00001000 // Region available to core #define FLASH_ROMSWMAP_SW5EN_M 0x00000C00 // ROM SW Region 5 Availability #define FLASH_ROMSWMAP_SW5EN_NOTVIS \ 0x00000000 // Software region not available to // the core #define FLASH_ROMSWMAP_SW5EN_CORE \ 0x00000400 // Region available to core #define FLASH_ROMSWMAP_SW4EN_M 0x00000300 // ROM SW Region 4 Availability #define FLASH_ROMSWMAP_SW4EN_NOTVIS \ 0x00000000 // Software region not available to // the core #define FLASH_ROMSWMAP_SW4EN_CORE \ 0x00000100 // Region available to core #define FLASH_ROMSWMAP_SW3EN_M 0x000000C0 // ROM SW Region 3 Availability #define FLASH_ROMSWMAP_SW3EN_NOTVIS \ 0x00000000 // Software region not available to // the core #define FLASH_ROMSWMAP_SW3EN_CORE \ 0x00000040 // Region available to core #define FLASH_ROMSWMAP_SW2EN_M 0x00000030 // ROM SW Region 2 Availability #define FLASH_ROMSWMAP_SW2EN_NOTVIS \ 0x00000000 // Software region not available to // the core #define FLASH_ROMSWMAP_SW2EN_CORE \ 0x00000010 // Region available to core #define FLASH_ROMSWMAP_SW1EN_M 0x0000000C // ROM SW Region 1 Availability #define FLASH_ROMSWMAP_SW1EN_NOTVIS \ 0x00000000 // Software region not available to // the core #define FLASH_ROMSWMAP_SW1EN_CORE \ 0x00000004 // Region available to core #define FLASH_ROMSWMAP_SW0EN_M 0x00000003 // ROM SW Region 0 Availability #define FLASH_ROMSWMAP_SW0EN_NOTVIS \ 0x00000000 // Software region not available to // the core #define FLASH_ROMSWMAP_SW0EN_CORE \ 0x00000001 // Region available to core //***************************************************************************** // // The following are defines for the bit fields in the FLASH_DMASZ register. // //***************************************************************************** #define FLASH_DMASZ_SIZE_M 0x0003FFFF // uDMA-accessible Memory Size #define FLASH_DMASZ_SIZE_S 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_DMAST register. // //***************************************************************************** #define FLASH_DMAST_ADDR_M 0x1FFFF800 // Contains the starting address of // the flash region accessible by // uDMA if the FLASHPP register DFA // bit is set #define FLASH_DMAST_ADDR_S 11 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_RVP register. // //***************************************************************************** #define FLASH_RVP_RV_M 0xFFFFFFFF // Reset Vector Pointer Address #define FLASH_RVP_RV_S 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_BOOTCFG register. // //***************************************************************************** #define FLASH_BOOTCFG_NW 0x80000000 // Not Written #define FLASH_BOOTCFG_PORT_M 0x0000E000 // Boot GPIO Port #define FLASH_BOOTCFG_PORT_A 0x00000000 // Port A #define FLASH_BOOTCFG_PORT_B 0x00002000 // Port B #define FLASH_BOOTCFG_PORT_C 0x00004000 // Port C #define FLASH_BOOTCFG_PORT_D 0x00006000 // Port D #define FLASH_BOOTCFG_PORT_E 0x00008000 // Port E #define FLASH_BOOTCFG_PORT_F 0x0000A000 // Port F #define FLASH_BOOTCFG_PORT_G 0x0000C000 // Port G #define FLASH_BOOTCFG_PORT_H 0x0000E000 // Port H #define FLASH_BOOTCFG_PIN_M 0x00001C00 // Boot GPIO Pin #define FLASH_BOOTCFG_PIN_0 0x00000000 // Pin 0 #define FLASH_BOOTCFG_PIN_1 0x00000400 // Pin 1 #define FLASH_BOOTCFG_PIN_2 0x00000800 // Pin 2 #define FLASH_BOOTCFG_PIN_3 0x00000C00 // Pin 3 #define FLASH_BOOTCFG_PIN_4 0x00001000 // Pin 4 #define FLASH_BOOTCFG_PIN_5 0x00001400 // Pin 5 #define FLASH_BOOTCFG_PIN_6 0x00001800 // Pin 6 #define FLASH_BOOTCFG_PIN_7 0x00001C00 // Pin 7 #define FLASH_BOOTCFG_POL 0x00000200 // Boot GPIO Polarity #define FLASH_BOOTCFG_EN 0x00000100 // Boot GPIO Enable #define FLASH_BOOTCFG_KEY 0x00000010 // KEY Select #define FLASH_BOOTCFG_DBG1 0x00000002 // Debug Control 1 #define FLASH_BOOTCFG_DBG0 0x00000001 // Debug Control 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_USERREG0 register. // //***************************************************************************** #define FLASH_USERREG0_DATA_M 0xFFFFFFFF // User Data #define FLASH_USERREG0_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_USERREG1 register. // //***************************************************************************** #define FLASH_USERREG1_DATA_M 0xFFFFFFFF // User Data #define FLASH_USERREG1_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_USERREG2 register. // //***************************************************************************** #define FLASH_USERREG2_DATA_M 0xFFFFFFFF // User Data #define FLASH_USERREG2_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_USERREG3 register. // //***************************************************************************** #define FLASH_USERREG3_DATA_M 0xFFFFFFFF // User Data #define FLASH_USERREG3_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPRE8 register. // //***************************************************************************** #define FLASH_FMPRE8_READ_ENABLE_M \ 0xFFFFFFFF // Flash Read Enable #define FLASH_FMPRE8_READ_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPRE9 register. // //***************************************************************************** #define FLASH_FMPRE9_READ_ENABLE_M \ 0xFFFFFFFF // Flash Read Enable #define FLASH_FMPRE9_READ_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPRE10 register. // //***************************************************************************** #define FLASH_FMPRE10_READ_ENABLE_M \ 0xFFFFFFFF // Flash Read Enable #define FLASH_FMPRE10_READ_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPRE11 register. // //***************************************************************************** #define FLASH_FMPRE11_READ_ENABLE_M \ 0xFFFFFFFF // Flash Read Enable #define FLASH_FMPRE11_READ_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPRE12 register. // //***************************************************************************** #define FLASH_FMPRE12_READ_ENABLE_M \ 0xFFFFFFFF // Flash Read Enable #define FLASH_FMPRE12_READ_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPRE13 register. // //***************************************************************************** #define FLASH_FMPRE13_READ_ENABLE_M \ 0xFFFFFFFF // Flash Read Enable #define FLASH_FMPRE13_READ_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPRE14 register. // //***************************************************************************** #define FLASH_FMPRE14_READ_ENABLE_M \ 0xFFFFFFFF // Flash Read Enable #define FLASH_FMPRE14_READ_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPRE15 register. // //***************************************************************************** #define FLASH_FMPRE15_READ_ENABLE_M \ 0xFFFFFFFF // Flash Read Enable #define FLASH_FMPRE15_READ_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPPE8 register. // //***************************************************************************** #define FLASH_FMPPE8_PROG_ENABLE_M \ 0xFFFFFFFF // Flash Programming Enable #define FLASH_FMPPE8_PROG_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPPE9 register. // //***************************************************************************** #define FLASH_FMPPE9_PROG_ENABLE_M \ 0xFFFFFFFF // Flash Programming Enable #define FLASH_FMPPE9_PROG_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPPE10 register. // //***************************************************************************** #define FLASH_FMPPE10_PROG_ENABLE_M \ 0xFFFFFFFF // Flash Programming Enable #define FLASH_FMPPE10_PROG_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPPE11 register. // //***************************************************************************** #define FLASH_FMPPE11_PROG_ENABLE_M \ 0xFFFFFFFF // Flash Programming Enable #define FLASH_FMPPE11_PROG_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPPE12 register. // //***************************************************************************** #define FLASH_FMPPE12_PROG_ENABLE_M \ 0xFFFFFFFF // Flash Programming Enable #define FLASH_FMPPE12_PROG_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPPE13 register. // //***************************************************************************** #define FLASH_FMPPE13_PROG_ENABLE_M \ 0xFFFFFFFF // Flash Programming Enable #define FLASH_FMPPE13_PROG_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPPE14 register. // //***************************************************************************** #define FLASH_FMPPE14_PROG_ENABLE_M \ 0xFFFFFFFF // Flash Programming Enable #define FLASH_FMPPE14_PROG_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the FLASH_FMPPE15 register. // //***************************************************************************** #define FLASH_FMPPE15_PROG_ENABLE_M \ 0xFFFFFFFF // Flash Programming Enable #define FLASH_FMPPE15_PROG_ENABLE_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DID0 register. // //***************************************************************************** #define SYSCTL_DID0_VER_M 0x70000000 // DID0 Version #define SYSCTL_DID0_VER_1 0x10000000 // Second version of the DID0 // register format. #define SYSCTL_DID0_CLASS_M 0x00FF0000 // Device Class #define SYSCTL_DID0_CLASS_TM4C129 \ 0x000A0000 // Tiva(TM) TM4C129-class // microcontrollers #define SYSCTL_DID0_MAJ_M 0x0000FF00 // Major Revision #define SYSCTL_DID0_MAJ_REVA 0x00000000 // Revision A (initial device) #define SYSCTL_DID0_MAJ_REVB 0x00000100 // Revision B (first base layer // revision) #define SYSCTL_DID0_MAJ_REVC 0x00000200 // Revision C (second base layer // revision) #define SYSCTL_DID0_MIN_M 0x000000FF // Minor Revision #define SYSCTL_DID0_MIN_0 0x00000000 // Initial device, or a major // revision update #define SYSCTL_DID0_MIN_1 0x00000001 // First metal layer change #define SYSCTL_DID0_MIN_2 0x00000002 // Second metal layer change //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DID1 register. // //***************************************************************************** #define SYSCTL_DID1_VER_M 0xF0000000 // DID1 Version #define SYSCTL_DID1_VER_1 0x10000000 // fury_ib #define SYSCTL_DID1_FAM_M 0x0F000000 // Family #define SYSCTL_DID1_FAM_TIVA 0x00000000 // Tiva family of microcontollers #define SYSCTL_DID1_PRTNO_M 0x00FF0000 // Part Number #define SYSCTL_DID1_PRTNO_TM4C1294NCPDT \ 0x001F0000 // TM4C1294NCPDT #define SYSCTL_DID1_PINCNT_M 0x0000E000 // Package Pin Count #define SYSCTL_DID1_PINCNT_100 0x00004000 // 100-pin LQFP package #define SYSCTL_DID1_PINCNT_64 0x00006000 // 64-pin LQFP package #define SYSCTL_DID1_PINCNT_144 0x00008000 // 144-pin LQFP package #define SYSCTL_DID1_PINCNT_157 0x0000A000 // 157-pin BGA package #define SYSCTL_DID1_PINCNT_128 0x0000C000 // 128-pin TQFP package #define SYSCTL_DID1_TEMP_M 0x000000E0 // Temperature Range #define SYSCTL_DID1_TEMP_C 0x00000000 // Commercial temperature range #define SYSCTL_DID1_TEMP_I 0x00000020 // Industrial temperature range #define SYSCTL_DID1_TEMP_E 0x00000040 // Extended temperature range #define SYSCTL_DID1_PKG_M 0x00000018 // Package Type #define SYSCTL_DID1_PKG_QFP 0x00000008 // QFP package #define SYSCTL_DID1_PKG_BGA 0x00000010 // BGA package #define SYSCTL_DID1_ROHS 0x00000004 // RoHS-Compliance #define SYSCTL_DID1_QUAL_M 0x00000003 // Qualification Status #define SYSCTL_DID1_QUAL_ES 0x00000000 // Engineering Sample (unqualified) #define SYSCTL_DID1_QUAL_PP 0x00000001 // Pilot Production (unqualified) #define SYSCTL_DID1_QUAL_FQ 0x00000002 // Fully Qualified //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PTBOCTL register. // //***************************************************************************** #define SYSCTL_PTBOCTL_VDDA_UBOR_M \ 0x00000300 // VDDA under BOR Event Action #define SYSCTL_PTBOCTL_VDDA_UBOR_NONE \ 0x00000000 // No Action #define SYSCTL_PTBOCTL_VDDA_UBOR_SYSINT \ 0x00000100 // System control interrupt #define SYSCTL_PTBOCTL_VDDA_UBOR_NMI \ 0x00000200 // NMI #define SYSCTL_PTBOCTL_VDDA_UBOR_RST \ 0x00000300 // Reset #define SYSCTL_PTBOCTL_VDD_UBOR_M \ 0x00000003 // VDD (VDDS) under BOR Event // Action #define SYSCTL_PTBOCTL_VDD_UBOR_NONE \ 0x00000000 // No Action #define SYSCTL_PTBOCTL_VDD_UBOR_SYSINT \ 0x00000001 // System control interrupt #define SYSCTL_PTBOCTL_VDD_UBOR_NMI \ 0x00000002 // NMI #define SYSCTL_PTBOCTL_VDD_UBOR_RST \ 0x00000003 // Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RIS register. // //***************************************************************************** #define SYSCTL_RIS_MOSCPUPRIS 0x00000100 // MOSC Power Up Raw Interrupt // Status #define SYSCTL_RIS_PLLLRIS 0x00000040 // PLL Lock Raw Interrupt Status #define SYSCTL_RIS_MOFRIS 0x00000008 // Main Oscillator Failure Raw // Interrupt Status #define SYSCTL_RIS_BORRIS 0x00000002 // Brown-Out Reset Raw Interrupt // Status //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_IMC register. // //***************************************************************************** #define SYSCTL_IMC_MOSCPUPIM 0x00000100 // MOSC Power Up Interrupt Mask #define SYSCTL_IMC_PLLLIM 0x00000040 // PLL Lock Interrupt Mask #define SYSCTL_IMC_MOFIM 0x00000008 // Main Oscillator Failure // Interrupt Mask #define SYSCTL_IMC_BORIM 0x00000002 // Brown-Out Reset Interrupt Mask //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_MISC register. // //***************************************************************************** #define SYSCTL_MISC_MOSCPUPMIS 0x00000100 // MOSC Power Up Masked Interrupt // Status #define SYSCTL_MISC_PLLLMIS 0x00000040 // PLL Lock Masked Interrupt Status #define SYSCTL_MISC_MOFMIS 0x00000008 // Main Oscillator Failure Masked // Interrupt Status #define SYSCTL_MISC_BORMIS 0x00000002 // BOR Masked Interrupt Status //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RESC register. // //***************************************************************************** #define SYSCTL_RESC_MOSCFAIL 0x00010000 // MOSC Failure Reset #define SYSCTL_RESC_HSSR 0x00001000 // HSSR Reset #define SYSCTL_RESC_WDT1 0x00000020 // Watchdog Timer 1 Reset #define SYSCTL_RESC_SW 0x00000010 // Software Reset #define SYSCTL_RESC_WDT0 0x00000008 // Watchdog Timer 0 Reset #define SYSCTL_RESC_BOR 0x00000004 // Brown-Out Reset #define SYSCTL_RESC_POR 0x00000002 // Power-On Reset #define SYSCTL_RESC_EXT 0x00000001 // External Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PWRTC register. // //***************************************************************************** #define SYSCTL_PWRTC_VDDA_UBOR 0x00000010 // VDDA Under BOR Status #define SYSCTL_PWRTC_VDD_UBOR 0x00000001 // VDD Under BOR Status //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_NMIC register. // //***************************************************************************** #define SYSCTL_NMIC_MOSCFAIL 0x00010000 // MOSC Failure NMI #define SYSCTL_NMIC_TAMPER 0x00000200 // Tamper Event NMI #define SYSCTL_NMIC_WDT1 0x00000020 // Watch Dog Timer (WDT) 1 NMI #define SYSCTL_NMIC_WDT0 0x00000008 // Watch Dog Timer (WDT) 0 NMI #define SYSCTL_NMIC_POWER 0x00000004 // Power/Brown Out Event NMI #define SYSCTL_NMIC_EXTERNAL 0x00000001 // External Pin NMI //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_MOSCCTL register. // //***************************************************************************** #define SYSCTL_MOSCCTL_OSCRNG 0x00000010 // Oscillator Range #define SYSCTL_MOSCCTL_PWRDN 0x00000008 // Power Down #define SYSCTL_MOSCCTL_NOXTAL 0x00000004 // No Crystal Connected #define SYSCTL_MOSCCTL_MOSCIM 0x00000002 // MOSC Failure Action #define SYSCTL_MOSCCTL_CVAL 0x00000001 // Clock Validation for MOSC //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RSCLKCFG // register. // //***************************************************************************** #define SYSCTL_RSCLKCFG_MEMTIMU 0x80000000 // Memory Timing Register Update #define SYSCTL_RSCLKCFG_NEWFREQ 0x40000000 // New PLLFREQ Accept #define SYSCTL_RSCLKCFG_ACG 0x20000000 // Auto Clock Gating #define SYSCTL_RSCLKCFG_USEPLL 0x10000000 // Use PLL #define SYSCTL_RSCLKCFG_PLLSRC_M \ 0x0F000000 // PLL Source #define SYSCTL_RSCLKCFG_PLLSRC_PIOSC \ 0x00000000 // PIOSC is PLL input clock source #define SYSCTL_RSCLKCFG_PLLSRC_MOSC \ 0x03000000 // MOSC is the PLL input clock // source #define SYSCTL_RSCLKCFG_OSCSRC_M \ 0x00F00000 // Oscillator Source #define SYSCTL_RSCLKCFG_OSCSRC_PIOSC \ 0x00000000 // PIOSC is oscillator source #define SYSCTL_RSCLKCFG_OSCSRC_LFIOSC \ 0x00200000 // LFIOSC is oscillator source #define SYSCTL_RSCLKCFG_OSCSRC_MOSC \ 0x00300000 // MOSC is oscillator source #define SYSCTL_RSCLKCFG_OSCSRC_RTC \ 0x00400000 // Hibernation Module RTC // Oscillator (RTCOSC) #define SYSCTL_RSCLKCFG_OSYSDIV_M \ 0x000FFC00 // Oscillator System Clock Divisor #define SYSCTL_RSCLKCFG_PSYSDIV_M \ 0x000003FF // PLL System Clock Divisor #define SYSCTL_RSCLKCFG_OSYSDIV_S \ 10 #define SYSCTL_RSCLKCFG_PSYSDIV_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_MEMTIM0 register. // //***************************************************************************** #define SYSCTL_MEMTIM0_EBCHT_M 0x03C00000 // EEPROM Clock High Time #define SYSCTL_MEMTIM0_EBCHT_0_5 \ 0x00000000 // 1/2 system clock period #define SYSCTL_MEMTIM0_EBCHT_1 0x00400000 // 1 system clock period #define SYSCTL_MEMTIM0_EBCHT_1_5 \ 0x00800000 // 1.5 system clock periods #define SYSCTL_MEMTIM0_EBCHT_2 0x00C00000 // 2 system clock periods #define SYSCTL_MEMTIM0_EBCHT_2_5 \ 0x01000000 // 2.5 system clock periods #define SYSCTL_MEMTIM0_EBCHT_3 0x01400000 // 3 system clock periods #define SYSCTL_MEMTIM0_EBCHT_3_5 \ 0x01800000 // 3.5 system clock periods #define SYSCTL_MEMTIM0_EBCHT_4 0x01C00000 // 4 system clock periods #define SYSCTL_MEMTIM0_EBCHT_4_5 \ 0x02000000 // 4.5 system clock periods #define SYSCTL_MEMTIM0_EBCE 0x00200000 // EEPROM Bank Clock Edge #define SYSCTL_MEMTIM0_EWS_M 0x000F0000 // EEPROM Wait States #define SYSCTL_MEMTIM0_FBCHT_M 0x000003C0 // Flash Bank Clock High Time #define SYSCTL_MEMTIM0_FBCHT_0_5 \ 0x00000000 // 1/2 system clock period #define SYSCTL_MEMTIM0_FBCHT_1 0x00000040 // 1 system clock period #define SYSCTL_MEMTIM0_FBCHT_1_5 \ 0x00000080 // 1.5 system clock periods #define SYSCTL_MEMTIM0_FBCHT_2 0x000000C0 // 2 system clock periods #define SYSCTL_MEMTIM0_FBCHT_2_5 \ 0x00000100 // 2.5 system clock periods #define SYSCTL_MEMTIM0_FBCHT_3 0x00000140 // 3 system clock periods #define SYSCTL_MEMTIM0_FBCHT_3_5 \ 0x00000180 // 3.5 system clock periods #define SYSCTL_MEMTIM0_FBCHT_4 0x000001C0 // 4 system clock periods #define SYSCTL_MEMTIM0_FBCHT_4_5 \ 0x00000200 // 4.5 system clock periods #define SYSCTL_MEMTIM0_FBCE 0x00000020 // Flash Bank Clock Edge #define SYSCTL_MEMTIM0_FWS_M 0x0000000F // Flash Wait State #define SYSCTL_MEMTIM0_EWS_S 16 #define SYSCTL_MEMTIM0_FWS_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_ALTCLKCFG // register. // //***************************************************************************** #define SYSCTL_ALTCLKCFG_ALTCLK_M \ 0x0000000F // Alternate Clock Source #define SYSCTL_ALTCLKCFG_ALTCLK_PIOSC \ 0x00000000 // PIOSC #define SYSCTL_ALTCLKCFG_ALTCLK_RTCOSC \ 0x00000003 // Hibernation Module Real-time // clock output (RTCOSC) #define SYSCTL_ALTCLKCFG_ALTCLK_LFIOSC \ 0x00000004 // Low-frequency internal // oscillator (LFIOSC) //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DSCLKCFG // register. // //***************************************************************************** #define SYSCTL_DSCLKCFG_PIOSCPD 0x80000000 // PIOSC Power Down #define SYSCTL_DSCLKCFG_MOSCDPD 0x40000000 // MOSC Disable Power Down #define SYSCTL_DSCLKCFG_DSOSCSRC_M \ 0x00F00000 // Deep Sleep Oscillator Source #define SYSCTL_DSCLKCFG_DSOSCSRC_PIOSC \ 0x00000000 // PIOSC #define SYSCTL_DSCLKCFG_DSOSCSRC_LFIOSC \ 0x00200000 // LFIOSC #define SYSCTL_DSCLKCFG_DSOSCSRC_MOSC \ 0x00300000 // MOSC #define SYSCTL_DSCLKCFG_DSOSCSRC_RTC \ 0x00400000 // Hibernation Module RTCOSC #define SYSCTL_DSCLKCFG_DSSYSDIV_M \ 0x000003FF // Deep Sleep Clock Divisor #define SYSCTL_DSCLKCFG_DSSYSDIV_S \ 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DIVSCLK register. // //***************************************************************************** #define SYSCTL_DIVSCLK_EN 0x80000000 // DIVSCLK Enable #define SYSCTL_DIVSCLK_SRC_M 0x00030000 // Clock Source #define SYSCTL_DIVSCLK_SRC_SYSCLK \ 0x00000000 // System Clock #define SYSCTL_DIVSCLK_SRC_PIOSC \ 0x00010000 // PIOSC #define SYSCTL_DIVSCLK_SRC_MOSC 0x00020000 // MOSC #define SYSCTL_DIVSCLK_DIV_M 0x000000FF // Divisor Value #define SYSCTL_DIVSCLK_DIV_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SYSPROP register. // //***************************************************************************** #define SYSCTL_SYSPROP_FPU 0x00000001 // FPU Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PIOSCCAL // register. // //***************************************************************************** #define SYSCTL_PIOSCCAL_UTEN 0x80000000 // Use User Trim Value #define SYSCTL_PIOSCCAL_CAL 0x00000200 // Start Calibration #define SYSCTL_PIOSCCAL_UPDATE 0x00000100 // Update Trim #define SYSCTL_PIOSCCAL_UT_M 0x0000007F // User Trim Value #define SYSCTL_PIOSCCAL_UT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PIOSCSTAT // register. // //***************************************************************************** #define SYSCTL_PIOSCSTAT_DT_M 0x007F0000 // Default Trim Value #define SYSCTL_PIOSCSTAT_CR_M 0x00000300 // Calibration Result #define SYSCTL_PIOSCSTAT_CRNONE 0x00000000 // Calibration has not been // attempted #define SYSCTL_PIOSCSTAT_CRPASS 0x00000100 // The last calibration operation // completed to meet 1% accuracy #define SYSCTL_PIOSCSTAT_CRFAIL 0x00000200 // The last calibration operation // failed to meet 1% accuracy #define SYSCTL_PIOSCSTAT_CT_M 0x0000007F // Calibration Trim Value #define SYSCTL_PIOSCSTAT_DT_S 16 #define SYSCTL_PIOSCSTAT_CT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PLLFREQ0 // register. // //***************************************************************************** #define SYSCTL_PLLFREQ0_PLLPWR 0x00800000 // PLL Power #define SYSCTL_PLLFREQ0_MFRAC_M 0x000FFC00 // PLL M Fractional Value #define SYSCTL_PLLFREQ0_MINT_M 0x000003FF // PLL M Integer Value #define SYSCTL_PLLFREQ0_MFRAC_S 10 #define SYSCTL_PLLFREQ0_MINT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PLLFREQ1 // register. // //***************************************************************************** #define SYSCTL_PLLFREQ1_Q_M 0x00001F00 // PLL Q Value #define SYSCTL_PLLFREQ1_N_M 0x0000001F // PLL N Value #define SYSCTL_PLLFREQ1_Q_S 8 #define SYSCTL_PLLFREQ1_N_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PLLSTAT register. // //***************************************************************************** #define SYSCTL_PLLSTAT_LOCK 0x00000001 // PLL Lock //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SLPPWRCFG // register. // //***************************************************************************** #define SYSCTL_SLPPWRCFG_FLASHPM_M \ 0x00000030 // Flash Power Modes #define SYSCTL_SLPPWRCFG_FLASHPM_NRM \ 0x00000000 // Active Mode #define SYSCTL_SLPPWRCFG_FLASHPM_SLP \ 0x00000020 // Low Power Mode #define SYSCTL_SLPPWRCFG_SRAMPM_M \ 0x00000003 // SRAM Power Modes #define SYSCTL_SLPPWRCFG_SRAMPM_NRM \ 0x00000000 // Active Mode #define SYSCTL_SLPPWRCFG_SRAMPM_SBY \ 0x00000001 // Standby Mode #define SYSCTL_SLPPWRCFG_SRAMPM_LP \ 0x00000003 // Low Power Mode //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DSLPPWRCFG // register. // //***************************************************************************** #define SYSCTL_DSLPPWRCFG_LDOSM 0x00000200 // LDO Sleep Mode #define SYSCTL_DSLPPWRCFG_TSPD 0x00000100 // Temperature Sense Power Down #define SYSCTL_DSLPPWRCFG_FLASHPM_M \ 0x00000030 // Flash Power Modes #define SYSCTL_DSLPPWRCFG_FLASHPM_NRM \ 0x00000000 // Active Mode #define SYSCTL_DSLPPWRCFG_FLASHPM_SLP \ 0x00000020 // Low Power Mode #define SYSCTL_DSLPPWRCFG_SRAMPM_M \ 0x00000003 // SRAM Power Modes #define SYSCTL_DSLPPWRCFG_SRAMPM_NRM \ 0x00000000 // Active Mode #define SYSCTL_DSLPPWRCFG_SRAMPM_SBY \ 0x00000001 // Standby Mode #define SYSCTL_DSLPPWRCFG_SRAMPM_LP \ 0x00000003 // Low Power Mode //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_NVMSTAT register. // //***************************************************************************** #define SYSCTL_NVMSTAT_FWB 0x00000001 // 32 Word Flash Write Buffer // Available //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_LDOSPCTL // register. // //***************************************************************************** #define SYSCTL_LDOSPCTL_VADJEN 0x80000000 // Voltage Adjust Enable #define SYSCTL_LDOSPCTL_VLDO_M 0x000000FF // LDO Output Voltage #define SYSCTL_LDOSPCTL_VLDO_0_90V \ 0x00000012 // 0.90 V #define SYSCTL_LDOSPCTL_VLDO_0_95V \ 0x00000013 // 0.95 V #define SYSCTL_LDOSPCTL_VLDO_1_00V \ 0x00000014 // 1.00 V #define SYSCTL_LDOSPCTL_VLDO_1_05V \ 0x00000015 // 1.05 V #define SYSCTL_LDOSPCTL_VLDO_1_10V \ 0x00000016 // 1.10 V #define SYSCTL_LDOSPCTL_VLDO_1_15V \ 0x00000017 // 1.15 V #define SYSCTL_LDOSPCTL_VLDO_1_20V \ 0x00000018 // 1.20 V //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_LDODPCTL // register. // //***************************************************************************** #define SYSCTL_LDODPCTL_VADJEN 0x80000000 // Voltage Adjust Enable #define SYSCTL_LDODPCTL_VLDO_M 0x000000FF // LDO Output Voltage #define SYSCTL_LDODPCTL_VLDO_0_90V \ 0x00000012 // 0.90 V #define SYSCTL_LDODPCTL_VLDO_0_95V \ 0x00000013 // 0.95 V #define SYSCTL_LDODPCTL_VLDO_1_00V \ 0x00000014 // 1.00 V #define SYSCTL_LDODPCTL_VLDO_1_05V \ 0x00000015 // 1.05 V #define SYSCTL_LDODPCTL_VLDO_1_10V \ 0x00000016 // 1.10 V #define SYSCTL_LDODPCTL_VLDO_1_15V \ 0x00000017 // 1.15 V #define SYSCTL_LDODPCTL_VLDO_1_20V \ 0x00000018 // 1.20 V #define SYSCTL_LDODPCTL_VLDO_1_25V \ 0x00000019 // 1.25 V #define SYSCTL_LDODPCTL_VLDO_1_30V \ 0x0000001A // 1.30 V #define SYSCTL_LDODPCTL_VLDO_1_35V \ 0x0000001B // 1.35 V //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RESBEHAVCTL // register. // //***************************************************************************** #define SYSCTL_RESBEHAVCTL_WDOG1_M \ 0x000000C0 // Watchdog 1 Reset Operation #define SYSCTL_RESBEHAVCTL_WDOG1_SYSRST \ 0x00000080 // Watchdog 1 issues a system // reset. The application starts // within 10 us #define SYSCTL_RESBEHAVCTL_WDOG1_POR \ 0x000000C0 // Watchdog 1 issues a simulated // POR sequence. Application starts // less than 500 us after // deassertion (Default) #define SYSCTL_RESBEHAVCTL_WDOG0_M \ 0x00000030 // Watchdog 0 Reset Operation #define SYSCTL_RESBEHAVCTL_WDOG0_SYSRST \ 0x00000020 // Watchdog 0 issues a system // reset. The application starts // within 10 us #define SYSCTL_RESBEHAVCTL_WDOG0_POR \ 0x00000030 // Watchdog 0 issues a simulated // POR sequence. Application starts // less than 500 us after // deassertion (Default) #define SYSCTL_RESBEHAVCTL_BOR_M \ 0x0000000C // BOR Reset operation #define SYSCTL_RESBEHAVCTL_BOR_SYSRST \ 0x00000008 // Brown Out Reset issues system // reset. The application starts // within 10 us #define SYSCTL_RESBEHAVCTL_BOR_POR \ 0x0000000C // Brown Out Reset issues a // simulated POR sequence. The // application starts less than 500 // us after deassertion (Default) #define SYSCTL_RESBEHAVCTL_EXTRES_M \ 0x00000003 // External RST Pin Operation #define SYSCTL_RESBEHAVCTL_EXTRES_SYSRST \ 0x00000002 // External RST assertion issues a // system reset. The application // starts within 10 us #define SYSCTL_RESBEHAVCTL_EXTRES_POR \ 0x00000003 // External RST assertion issues a // simulated POR sequence. // Application starts less than 500 // us after deassertion (Default) //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_HSSR register. // //***************************************************************************** #define SYSCTL_HSSR_KEY_M 0xFF000000 // Write Key #define SYSCTL_HSSR_CDOFF_M 0x00FFFFFF // Command Descriptor Pointer #define SYSCTL_HSSR_KEY_S 24 #define SYSCTL_HSSR_CDOFF_S 0 //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_USBPDS register. // //***************************************************************************** #define SYSCTL_USBPDS_MEMSTAT_M 0x0000000C // Memory Array Power Status #define SYSCTL_USBPDS_MEMSTAT_OFF \ 0x00000000 // Array OFF #define SYSCTL_USBPDS_MEMSTAT_RETAIN \ 0x00000004 // SRAM Retention #define SYSCTL_USBPDS_MEMSTAT_ON \ 0x0000000C // Array On #define SYSCTL_USBPDS_PWRSTAT_M 0x00000003 // Power Domain Status #define SYSCTL_USBPDS_PWRSTAT_OFF \ 0x00000000 // OFF #define SYSCTL_USBPDS_PWRSTAT_ON \ 0x00000003 // ON //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_USBMPC register. // //***************************************************************************** #define SYSCTL_USBMPC_PWRCTL_M 0x00000003 // Memory Array Power Control #define SYSCTL_USBMPC_PWRCTL_OFF \ 0x00000000 // Array OFF #define SYSCTL_USBMPC_PWRCTL_RETAIN \ 0x00000001 // SRAM Retention #define SYSCTL_USBMPC_PWRCTL_ON 0x00000003 // Array On //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_EMACPDS register. // //***************************************************************************** #define SYSCTL_EMACPDS_MEMSTAT_M \ 0x0000000C // Memory Array Power Status #define SYSCTL_EMACPDS_MEMSTAT_OFF \ 0x00000000 // Array OFF #define SYSCTL_EMACPDS_MEMSTAT_ON \ 0x0000000C // Array On #define SYSCTL_EMACPDS_PWRSTAT_M \ 0x00000003 // Power Domain Status #define SYSCTL_EMACPDS_PWRSTAT_OFF \ 0x00000000 // OFF #define SYSCTL_EMACPDS_PWRSTAT_ON \ 0x00000003 // ON //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_EMACMPC register. // //***************************************************************************** #define SYSCTL_EMACMPC_PWRCTL_M 0x00000003 // Memory Array Power Control #define SYSCTL_EMACMPC_PWRCTL_OFF \ 0x00000000 // Array OFF #define SYSCTL_EMACMPC_PWRCTL_ON \ 0x00000003 // Array On //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPWD register. // //***************************************************************************** #define SYSCTL_PPWD_P1 0x00000002 // Watchdog Timer 1 Present #define SYSCTL_PPWD_P0 0x00000001 // Watchdog Timer 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPTIMER register. // //***************************************************************************** #define SYSCTL_PPTIMER_P7 0x00000080 // 16/32-Bit General-Purpose Timer // 7 Present #define SYSCTL_PPTIMER_P6 0x00000040 // 16/32-Bit General-Purpose Timer // 6 Present #define SYSCTL_PPTIMER_P5 0x00000020 // 16/32-Bit General-Purpose Timer // 5 Present #define SYSCTL_PPTIMER_P4 0x00000010 // 16/32-Bit General-Purpose Timer // 4 Present #define SYSCTL_PPTIMER_P3 0x00000008 // 16/32-Bit General-Purpose Timer // 3 Present #define SYSCTL_PPTIMER_P2 0x00000004 // 16/32-Bit General-Purpose Timer // 2 Present #define SYSCTL_PPTIMER_P1 0x00000002 // 16/32-Bit General-Purpose Timer // 1 Present #define SYSCTL_PPTIMER_P0 0x00000001 // 16/32-Bit General-Purpose Timer // 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPGPIO register. // //***************************************************************************** #define SYSCTL_PPGPIO_P14 0x00004000 // GPIO Port Q Present #define SYSCTL_PPGPIO_P13 0x00002000 // GPIO Port P Present #define SYSCTL_PPGPIO_P12 0x00001000 // GPIO Port N Present #define SYSCTL_PPGPIO_P11 0x00000800 // GPIO Port M Present #define SYSCTL_PPGPIO_P10 0x00000400 // GPIO Port L Present #define SYSCTL_PPGPIO_P9 0x00000200 // GPIO Port K Present #define SYSCTL_PPGPIO_P8 0x00000100 // GPIO Port J Present #define SYSCTL_PPGPIO_P7 0x00000080 // GPIO Port H Present #define SYSCTL_PPGPIO_P6 0x00000040 // GPIO Port G Present #define SYSCTL_PPGPIO_P5 0x00000020 // GPIO Port F Present #define SYSCTL_PPGPIO_P4 0x00000010 // GPIO Port E Present #define SYSCTL_PPGPIO_P3 0x00000008 // GPIO Port D Present #define SYSCTL_PPGPIO_P2 0x00000004 // GPIO Port C Present #define SYSCTL_PPGPIO_P1 0x00000002 // GPIO Port B Present #define SYSCTL_PPGPIO_P0 0x00000001 // GPIO Port A Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPDMA register. // //***************************************************************************** #define SYSCTL_PPDMA_P0 0x00000001 // uDMA Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPEPI register. // //***************************************************************************** #define SYSCTL_PPEPI_P0 0x00000001 // EPI Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPHIB register. // //***************************************************************************** #define SYSCTL_PPHIB_P0 0x00000001 // Hibernation Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPUART register. // //***************************************************************************** #define SYSCTL_PPUART_P7 0x00000080 // UART Module 7 Present #define SYSCTL_PPUART_P6 0x00000040 // UART Module 6 Present #define SYSCTL_PPUART_P5 0x00000020 // UART Module 5 Present #define SYSCTL_PPUART_P4 0x00000010 // UART Module 4 Present #define SYSCTL_PPUART_P3 0x00000008 // UART Module 3 Present #define SYSCTL_PPUART_P2 0x00000004 // UART Module 2 Present #define SYSCTL_PPUART_P1 0x00000002 // UART Module 1 Present #define SYSCTL_PPUART_P0 0x00000001 // UART Module 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPSSI register. // //***************************************************************************** #define SYSCTL_PPSSI_P3 0x00000008 // SSI Module 3 Present #define SYSCTL_PPSSI_P2 0x00000004 // SSI Module 2 Present #define SYSCTL_PPSSI_P1 0x00000002 // SSI Module 1 Present #define SYSCTL_PPSSI_P0 0x00000001 // SSI Module 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPI2C register. // //***************************************************************************** #define SYSCTL_PPI2C_P9 0x00000200 // I2C Module 9 Present #define SYSCTL_PPI2C_P8 0x00000100 // I2C Module 8 Present #define SYSCTL_PPI2C_P7 0x00000080 // I2C Module 7 Present #define SYSCTL_PPI2C_P6 0x00000040 // I2C Module 6 Present #define SYSCTL_PPI2C_P5 0x00000020 // I2C Module 5 Present #define SYSCTL_PPI2C_P4 0x00000010 // I2C Module 4 Present #define SYSCTL_PPI2C_P3 0x00000008 // I2C Module 3 Present #define SYSCTL_PPI2C_P2 0x00000004 // I2C Module 2 Present #define SYSCTL_PPI2C_P1 0x00000002 // I2C Module 1 Present #define SYSCTL_PPI2C_P0 0x00000001 // I2C Module 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPUSB register. // //***************************************************************************** #define SYSCTL_PPUSB_P0 0x00000001 // USB Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPEPHY register. // //***************************************************************************** #define SYSCTL_PPEPHY_P0 0x00000001 // Ethernet PHY Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPCAN register. // //***************************************************************************** #define SYSCTL_PPCAN_P1 0x00000002 // CAN Module 1 Present #define SYSCTL_PPCAN_P0 0x00000001 // CAN Module 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPADC register. // //***************************************************************************** #define SYSCTL_PPADC_P1 0x00000002 // ADC Module 1 Present #define SYSCTL_PPADC_P0 0x00000001 // ADC Module 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPACMP register. // //***************************************************************************** #define SYSCTL_PPACMP_P0 0x00000001 // Analog Comparator Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPPWM register. // //***************************************************************************** #define SYSCTL_PPPWM_P0 0x00000001 // PWM Module 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPQEI register. // //***************************************************************************** #define SYSCTL_PPQEI_P0 0x00000001 // QEI Module 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPLPC register. // //***************************************************************************** #define SYSCTL_PPLPC_P0 0x00000001 // LPC Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPPECI register. // //***************************************************************************** #define SYSCTL_PPPECI_P0 0x00000001 // PECI Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPFAN register. // //***************************************************************************** #define SYSCTL_PPFAN_P0 0x00000001 // FAN Module 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPEEPROM // register. // //***************************************************************************** #define SYSCTL_PPEEPROM_P0 0x00000001 // EEPROM Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPWTIMER // register. // //***************************************************************************** #define SYSCTL_PPWTIMER_P0 0x00000001 // 32/64-Bit Wide General-Purpose // Timer 0 Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPRTS register. // //***************************************************************************** #define SYSCTL_PPRTS_P0 0x00000001 // RTS Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPCCM register. // //***************************************************************************** #define SYSCTL_PPCCM_P0 0x00000001 // CRC and Cryptographic Modules // Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPLCD register. // //***************************************************************************** #define SYSCTL_PPLCD_P0 0x00000001 // LCD Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPOWIRE register. // //***************************************************************************** #define SYSCTL_PPOWIRE_P0 0x00000001 // 1-Wire Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPEMAC register. // //***************************************************************************** #define SYSCTL_PPEMAC_P0 0x00000001 // Ethernet Controller Module // Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PPHIM register. // //***************************************************************************** #define SYSCTL_PPHIM_P0 0x00000001 // HIM Module Present //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRWD register. // //***************************************************************************** #define SYSCTL_SRWD_R1 0x00000002 // Watchdog Timer 1 Software Reset #define SYSCTL_SRWD_R0 0x00000001 // Watchdog Timer 0 Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRTIMER register. // //***************************************************************************** #define SYSCTL_SRTIMER_R7 0x00000080 // 16/32-Bit General-Purpose Timer // 7 Software Reset #define SYSCTL_SRTIMER_R6 0x00000040 // 16/32-Bit General-Purpose Timer // 6 Software Reset #define SYSCTL_SRTIMER_R5 0x00000020 // 16/32-Bit General-Purpose Timer // 5 Software Reset #define SYSCTL_SRTIMER_R4 0x00000010 // 16/32-Bit General-Purpose Timer // 4 Software Reset #define SYSCTL_SRTIMER_R3 0x00000008 // 16/32-Bit General-Purpose Timer // 3 Software Reset #define SYSCTL_SRTIMER_R2 0x00000004 // 16/32-Bit General-Purpose Timer // 2 Software Reset #define SYSCTL_SRTIMER_R1 0x00000002 // 16/32-Bit General-Purpose Timer // 1 Software Reset #define SYSCTL_SRTIMER_R0 0x00000001 // 16/32-Bit General-Purpose Timer // 0 Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRGPIO register. // //***************************************************************************** #define SYSCTL_SRGPIO_R14 0x00004000 // GPIO Port Q Software Reset #define SYSCTL_SRGPIO_R13 0x00002000 // GPIO Port P Software Reset #define SYSCTL_SRGPIO_R12 0x00001000 // GPIO Port N Software Reset #define SYSCTL_SRGPIO_R11 0x00000800 // GPIO Port M Software Reset #define SYSCTL_SRGPIO_R10 0x00000400 // GPIO Port L Software Reset #define SYSCTL_SRGPIO_R9 0x00000200 // GPIO Port K Software Reset #define SYSCTL_SRGPIO_R8 0x00000100 // GPIO Port J Software Reset #define SYSCTL_SRGPIO_R7 0x00000080 // GPIO Port H Software Reset #define SYSCTL_SRGPIO_R6 0x00000040 // GPIO Port G Software Reset #define SYSCTL_SRGPIO_R5 0x00000020 // GPIO Port F Software Reset #define SYSCTL_SRGPIO_R4 0x00000010 // GPIO Port E Software Reset #define SYSCTL_SRGPIO_R3 0x00000008 // GPIO Port D Software Reset #define SYSCTL_SRGPIO_R2 0x00000004 // GPIO Port C Software Reset #define SYSCTL_SRGPIO_R1 0x00000002 // GPIO Port B Software Reset #define SYSCTL_SRGPIO_R0 0x00000001 // GPIO Port A Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRDMA register. // //***************************************************************************** #define SYSCTL_SRDMA_R0 0x00000001 // uDMA Module Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SREPI register. // //***************************************************************************** #define SYSCTL_SREPI_R0 0x00000001 // EPI Module Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRHIB register. // //***************************************************************************** #define SYSCTL_SRHIB_R0 0x00000001 // Hibernation Module Software // Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRUART register. // //***************************************************************************** #define SYSCTL_SRUART_R7 0x00000080 // UART Module 7 Software Reset #define SYSCTL_SRUART_R6 0x00000040 // UART Module 6 Software Reset #define SYSCTL_SRUART_R5 0x00000020 // UART Module 5 Software Reset #define SYSCTL_SRUART_R4 0x00000010 // UART Module 4 Software Reset #define SYSCTL_SRUART_R3 0x00000008 // UART Module 3 Software Reset #define SYSCTL_SRUART_R2 0x00000004 // UART Module 2 Software Reset #define SYSCTL_SRUART_R1 0x00000002 // UART Module 1 Software Reset #define SYSCTL_SRUART_R0 0x00000001 // UART Module 0 Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRSSI register. // //***************************************************************************** #define SYSCTL_SRSSI_R3 0x00000008 // SSI Module 3 Software Reset #define SYSCTL_SRSSI_R2 0x00000004 // SSI Module 2 Software Reset #define SYSCTL_SRSSI_R1 0x00000002 // SSI Module 1 Software Reset #define SYSCTL_SRSSI_R0 0x00000001 // SSI Module 0 Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRI2C register. // //***************************************************************************** #define SYSCTL_SRI2C_R9 0x00000200 // I2C Module 9 Software Reset #define SYSCTL_SRI2C_R8 0x00000100 // I2C Module 8 Software Reset #define SYSCTL_SRI2C_R7 0x00000080 // I2C Module 7 Software Reset #define SYSCTL_SRI2C_R6 0x00000040 // I2C Module 6 Software Reset #define SYSCTL_SRI2C_R5 0x00000020 // I2C Module 5 Software Reset #define SYSCTL_SRI2C_R4 0x00000010 // I2C Module 4 Software Reset #define SYSCTL_SRI2C_R3 0x00000008 // I2C Module 3 Software Reset #define SYSCTL_SRI2C_R2 0x00000004 // I2C Module 2 Software Reset #define SYSCTL_SRI2C_R1 0x00000002 // I2C Module 1 Software Reset #define SYSCTL_SRI2C_R0 0x00000001 // I2C Module 0 Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRUSB register. // //***************************************************************************** #define SYSCTL_SRUSB_R0 0x00000001 // USB Module Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SREPHY register. // //***************************************************************************** #define SYSCTL_SREPHY_R0 0x00000001 // Ethernet PHY Module Software // Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRCAN register. // //***************************************************************************** #define SYSCTL_SRCAN_R1 0x00000002 // CAN Module 1 Software Reset #define SYSCTL_SRCAN_R0 0x00000001 // CAN Module 0 Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRADC register. // //***************************************************************************** #define SYSCTL_SRADC_R1 0x00000002 // ADC Module 1 Software Reset #define SYSCTL_SRADC_R0 0x00000001 // ADC Module 0 Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRACMP register. // //***************************************************************************** #define SYSCTL_SRACMP_R0 0x00000001 // Analog Comparator Module 0 // Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRPWM register. // //***************************************************************************** #define SYSCTL_SRPWM_R0 0x00000001 // PWM Module 0 Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRQEI register. // //***************************************************************************** #define SYSCTL_SRQEI_R0 0x00000001 // QEI Module 0 Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SREEPROM // register. // //***************************************************************************** #define SYSCTL_SREEPROM_R0 0x00000001 // EEPROM Module Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SRCCM register. // //***************************************************************************** #define SYSCTL_SRCCM_R0 0x00000001 // CRC and Cryptographic Modules // Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SREMAC register. // //***************************************************************************** #define SYSCTL_SREMAC_R0 0x00000001 // Ethernet Controller MAC Module 0 // Software Reset //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCWD register. // //***************************************************************************** #define SYSCTL_RCGCWD_R1 0x00000002 // Watchdog Timer 1 Run Mode Clock // Gating Control #define SYSCTL_RCGCWD_R0 0x00000001 // Watchdog Timer 0 Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCTIMER // register. // //***************************************************************************** #define SYSCTL_RCGCTIMER_R7 0x00000080 // 16/32-Bit General-Purpose Timer // 7 Run Mode Clock Gating Control #define SYSCTL_RCGCTIMER_R6 0x00000040 // 16/32-Bit General-Purpose Timer // 6 Run Mode Clock Gating Control #define SYSCTL_RCGCTIMER_R5 0x00000020 // 16/32-Bit General-Purpose Timer // 5 Run Mode Clock Gating Control #define SYSCTL_RCGCTIMER_R4 0x00000010 // 16/32-Bit General-Purpose Timer // 4 Run Mode Clock Gating Control #define SYSCTL_RCGCTIMER_R3 0x00000008 // 16/32-Bit General-Purpose Timer // 3 Run Mode Clock Gating Control #define SYSCTL_RCGCTIMER_R2 0x00000004 // 16/32-Bit General-Purpose Timer // 2 Run Mode Clock Gating Control #define SYSCTL_RCGCTIMER_R1 0x00000002 // 16/32-Bit General-Purpose Timer // 1 Run Mode Clock Gating Control #define SYSCTL_RCGCTIMER_R0 0x00000001 // 16/32-Bit General-Purpose Timer // 0 Run Mode Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCGPIO // register. // //***************************************************************************** #define SYSCTL_RCGCGPIO_R14 0x00004000 // GPIO Port Q Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R13 0x00002000 // GPIO Port P Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R12 0x00001000 // GPIO Port N Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R11 0x00000800 // GPIO Port M Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R10 0x00000400 // GPIO Port L Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R9 0x00000200 // GPIO Port K Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R8 0x00000100 // GPIO Port J Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R7 0x00000080 // GPIO Port H Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R6 0x00000040 // GPIO Port G Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R5 0x00000020 // GPIO Port F Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R4 0x00000010 // GPIO Port E Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R3 0x00000008 // GPIO Port D Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R2 0x00000004 // GPIO Port C Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R1 0x00000002 // GPIO Port B Run Mode Clock // Gating Control #define SYSCTL_RCGCGPIO_R0 0x00000001 // GPIO Port A Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCDMA register. // //***************************************************************************** #define SYSCTL_RCGCDMA_R0 0x00000001 // uDMA Module Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCEPI register. // //***************************************************************************** #define SYSCTL_RCGCEPI_R0 0x00000001 // EPI Module Run Mode Clock Gating // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCHIB register. // //***************************************************************************** #define SYSCTL_RCGCHIB_R0 0x00000001 // Hibernation Module Run Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCUART // register. // //***************************************************************************** #define SYSCTL_RCGCUART_R7 0x00000080 // UART Module 7 Run Mode Clock // Gating Control #define SYSCTL_RCGCUART_R6 0x00000040 // UART Module 6 Run Mode Clock // Gating Control #define SYSCTL_RCGCUART_R5 0x00000020 // UART Module 5 Run Mode Clock // Gating Control #define SYSCTL_RCGCUART_R4 0x00000010 // UART Module 4 Run Mode Clock // Gating Control #define SYSCTL_RCGCUART_R3 0x00000008 // UART Module 3 Run Mode Clock // Gating Control #define SYSCTL_RCGCUART_R2 0x00000004 // UART Module 2 Run Mode Clock // Gating Control #define SYSCTL_RCGCUART_R1 0x00000002 // UART Module 1 Run Mode Clock // Gating Control #define SYSCTL_RCGCUART_R0 0x00000001 // UART Module 0 Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCSSI register. // //***************************************************************************** #define SYSCTL_RCGCSSI_R3 0x00000008 // SSI Module 3 Run Mode Clock // Gating Control #define SYSCTL_RCGCSSI_R2 0x00000004 // SSI Module 2 Run Mode Clock // Gating Control #define SYSCTL_RCGCSSI_R1 0x00000002 // SSI Module 1 Run Mode Clock // Gating Control #define SYSCTL_RCGCSSI_R0 0x00000001 // SSI Module 0 Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCI2C register. // //***************************************************************************** #define SYSCTL_RCGCI2C_R9 0x00000200 // I2C Module 9 Run Mode Clock // Gating Control #define SYSCTL_RCGCI2C_R8 0x00000100 // I2C Module 8 Run Mode Clock // Gating Control #define SYSCTL_RCGCI2C_R7 0x00000080 // I2C Module 7 Run Mode Clock // Gating Control #define SYSCTL_RCGCI2C_R6 0x00000040 // I2C Module 6 Run Mode Clock // Gating Control #define SYSCTL_RCGCI2C_R5 0x00000020 // I2C Module 5 Run Mode Clock // Gating Control #define SYSCTL_RCGCI2C_R4 0x00000010 // I2C Module 4 Run Mode Clock // Gating Control #define SYSCTL_RCGCI2C_R3 0x00000008 // I2C Module 3 Run Mode Clock // Gating Control #define SYSCTL_RCGCI2C_R2 0x00000004 // I2C Module 2 Run Mode Clock // Gating Control #define SYSCTL_RCGCI2C_R1 0x00000002 // I2C Module 1 Run Mode Clock // Gating Control #define SYSCTL_RCGCI2C_R0 0x00000001 // I2C Module 0 Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCUSB register. // //***************************************************************************** #define SYSCTL_RCGCUSB_R0 0x00000001 // USB Module Run Mode Clock Gating // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCEPHY // register. // //***************************************************************************** #define SYSCTL_RCGCEPHY_R0 0x00000001 // Ethernet PHY Module Run Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCCAN register. // //***************************************************************************** #define SYSCTL_RCGCCAN_R1 0x00000002 // CAN Module 1 Run Mode Clock // Gating Control #define SYSCTL_RCGCCAN_R0 0x00000001 // CAN Module 0 Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCADC register. // //***************************************************************************** #define SYSCTL_RCGCADC_R1 0x00000002 // ADC Module 1 Run Mode Clock // Gating Control #define SYSCTL_RCGCADC_R0 0x00000001 // ADC Module 0 Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCACMP // register. // //***************************************************************************** #define SYSCTL_RCGCACMP_R0 0x00000001 // Analog Comparator Module 0 Run // Mode Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCPWM register. // //***************************************************************************** #define SYSCTL_RCGCPWM_R0 0x00000001 // PWM Module 0 Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCQEI register. // //***************************************************************************** #define SYSCTL_RCGCQEI_R0 0x00000001 // QEI Module 0 Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCEEPROM // register. // //***************************************************************************** #define SYSCTL_RCGCEEPROM_R0 0x00000001 // EEPROM Module Run Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCCCM register. // //***************************************************************************** #define SYSCTL_RCGCCCM_R0 0x00000001 // CRC and Cryptographic Modules // Run Mode Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_RCGCEMAC // register. // //***************************************************************************** #define SYSCTL_RCGCEMAC_R0 0x00000001 // Ethernet MAC Module 0 Run Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCWD register. // //***************************************************************************** #define SYSCTL_SCGCWD_S1 0x00000002 // Watchdog Timer 1 Sleep Mode // Clock Gating Control #define SYSCTL_SCGCWD_S0 0x00000001 // Watchdog Timer 0 Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCTIMER // register. // //***************************************************************************** #define SYSCTL_SCGCTIMER_S7 0x00000080 // 16/32-Bit General-Purpose Timer // 7 Sleep Mode Clock Gating // Control #define SYSCTL_SCGCTIMER_S6 0x00000040 // 16/32-Bit General-Purpose Timer // 6 Sleep Mode Clock Gating // Control #define SYSCTL_SCGCTIMER_S5 0x00000020 // 16/32-Bit General-Purpose Timer // 5 Sleep Mode Clock Gating // Control #define SYSCTL_SCGCTIMER_S4 0x00000010 // 16/32-Bit General-Purpose Timer // 4 Sleep Mode Clock Gating // Control #define SYSCTL_SCGCTIMER_S3 0x00000008 // 16/32-Bit General-Purpose Timer // 3 Sleep Mode Clock Gating // Control #define SYSCTL_SCGCTIMER_S2 0x00000004 // 16/32-Bit General-Purpose Timer // 2 Sleep Mode Clock Gating // Control #define SYSCTL_SCGCTIMER_S1 0x00000002 // 16/32-Bit General-Purpose Timer // 1 Sleep Mode Clock Gating // Control #define SYSCTL_SCGCTIMER_S0 0x00000001 // 16/32-Bit General-Purpose Timer // 0 Sleep Mode Clock Gating // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCGPIO // register. // //***************************************************************************** #define SYSCTL_SCGCGPIO_S14 0x00004000 // GPIO Port Q Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S13 0x00002000 // GPIO Port P Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S12 0x00001000 // GPIO Port N Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S11 0x00000800 // GPIO Port M Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S10 0x00000400 // GPIO Port L Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S9 0x00000200 // GPIO Port K Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S8 0x00000100 // GPIO Port J Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S7 0x00000080 // GPIO Port H Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S6 0x00000040 // GPIO Port G Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S5 0x00000020 // GPIO Port F Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S4 0x00000010 // GPIO Port E Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S3 0x00000008 // GPIO Port D Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S2 0x00000004 // GPIO Port C Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S1 0x00000002 // GPIO Port B Sleep Mode Clock // Gating Control #define SYSCTL_SCGCGPIO_S0 0x00000001 // GPIO Port A Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCDMA register. // //***************************************************************************** #define SYSCTL_SCGCDMA_S0 0x00000001 // uDMA Module Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCEPI register. // //***************************************************************************** #define SYSCTL_SCGCEPI_S0 0x00000001 // EPI Module Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCHIB register. // //***************************************************************************** #define SYSCTL_SCGCHIB_S0 0x00000001 // Hibernation Module Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCUART // register. // //***************************************************************************** #define SYSCTL_SCGCUART_S7 0x00000080 // UART Module 7 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCUART_S6 0x00000040 // UART Module 6 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCUART_S5 0x00000020 // UART Module 5 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCUART_S4 0x00000010 // UART Module 4 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCUART_S3 0x00000008 // UART Module 3 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCUART_S2 0x00000004 // UART Module 2 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCUART_S1 0x00000002 // UART Module 1 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCUART_S0 0x00000001 // UART Module 0 Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCSSI register. // //***************************************************************************** #define SYSCTL_SCGCSSI_S3 0x00000008 // SSI Module 3 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCSSI_S2 0x00000004 // SSI Module 2 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCSSI_S1 0x00000002 // SSI Module 1 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCSSI_S0 0x00000001 // SSI Module 0 Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCI2C register. // //***************************************************************************** #define SYSCTL_SCGCI2C_S9 0x00000200 // I2C Module 9 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCI2C_S8 0x00000100 // I2C Module 8 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCI2C_S7 0x00000080 // I2C Module 7 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCI2C_S6 0x00000040 // I2C Module 6 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCI2C_S5 0x00000020 // I2C Module 5 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCI2C_S4 0x00000010 // I2C Module 4 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCI2C_S3 0x00000008 // I2C Module 3 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCI2C_S2 0x00000004 // I2C Module 2 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCI2C_S1 0x00000002 // I2C Module 1 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCI2C_S0 0x00000001 // I2C Module 0 Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCUSB register. // //***************************************************************************** #define SYSCTL_SCGCUSB_S0 0x00000001 // USB Module Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCEPHY // register. // //***************************************************************************** #define SYSCTL_SCGCEPHY_S0 0x00000001 // PHY Module Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCCAN register. // //***************************************************************************** #define SYSCTL_SCGCCAN_S1 0x00000002 // CAN Module 1 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCCAN_S0 0x00000001 // CAN Module 0 Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCADC register. // //***************************************************************************** #define SYSCTL_SCGCADC_S1 0x00000002 // ADC Module 1 Sleep Mode Clock // Gating Control #define SYSCTL_SCGCADC_S0 0x00000001 // ADC Module 0 Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCACMP // register. // //***************************************************************************** #define SYSCTL_SCGCACMP_S0 0x00000001 // Analog Comparator Module 0 Sleep // Mode Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCPWM register. // //***************************************************************************** #define SYSCTL_SCGCPWM_S0 0x00000001 // PWM Module 0 Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCQEI register. // //***************************************************************************** #define SYSCTL_SCGCQEI_S0 0x00000001 // QEI Module 0 Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCEEPROM // register. // //***************************************************************************** #define SYSCTL_SCGCEEPROM_S0 0x00000001 // EEPROM Module Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCCCM register. // //***************************************************************************** #define SYSCTL_SCGCCCM_S0 0x00000001 // CRC and Cryptographic Modules // Sleep Mode Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_SCGCEMAC // register. // //***************************************************************************** #define SYSCTL_SCGCEMAC_S0 0x00000001 // Ethernet MAC Module 0 Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCWD register. // //***************************************************************************** #define SYSCTL_DCGCWD_D1 0x00000002 // Watchdog Timer 1 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCWD_D0 0x00000001 // Watchdog Timer 0 Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCTIMER // register. // //***************************************************************************** #define SYSCTL_DCGCTIMER_D7 0x00000080 // 16/32-Bit General-Purpose Timer // 7 Deep-Sleep Mode Clock Gating // Control #define SYSCTL_DCGCTIMER_D6 0x00000040 // 16/32-Bit General-Purpose Timer // 6 Deep-Sleep Mode Clock Gating // Control #define SYSCTL_DCGCTIMER_D5 0x00000020 // 16/32-Bit General-Purpose Timer // 5 Deep-Sleep Mode Clock Gating // Control #define SYSCTL_DCGCTIMER_D4 0x00000010 // 16/32-Bit General-Purpose Timer // 4 Deep-Sleep Mode Clock Gating // Control #define SYSCTL_DCGCTIMER_D3 0x00000008 // 16/32-Bit General-Purpose Timer // 3 Deep-Sleep Mode Clock Gating // Control #define SYSCTL_DCGCTIMER_D2 0x00000004 // 16/32-Bit General-Purpose Timer // 2 Deep-Sleep Mode Clock Gating // Control #define SYSCTL_DCGCTIMER_D1 0x00000002 // 16/32-Bit General-Purpose Timer // 1 Deep-Sleep Mode Clock Gating // Control #define SYSCTL_DCGCTIMER_D0 0x00000001 // 16/32-Bit General-Purpose Timer // 0 Deep-Sleep Mode Clock Gating // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCGPIO // register. // //***************************************************************************** #define SYSCTL_DCGCGPIO_D14 0x00004000 // GPIO Port Q Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D13 0x00002000 // GPIO Port P Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D12 0x00001000 // GPIO Port N Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D11 0x00000800 // GPIO Port M Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D10 0x00000400 // GPIO Port L Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D9 0x00000200 // GPIO Port K Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D8 0x00000100 // GPIO Port J Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D7 0x00000080 // GPIO Port H Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D6 0x00000040 // GPIO Port G Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D5 0x00000020 // GPIO Port F Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D4 0x00000010 // GPIO Port E Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D3 0x00000008 // GPIO Port D Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D2 0x00000004 // GPIO Port C Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D1 0x00000002 // GPIO Port B Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCGPIO_D0 0x00000001 // GPIO Port A Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCDMA register. // //***************************************************************************** #define SYSCTL_DCGCDMA_D0 0x00000001 // uDMA Module Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCEPI register. // //***************************************************************************** #define SYSCTL_DCGCEPI_D0 0x00000001 // EPI Module Deep-Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCHIB register. // //***************************************************************************** #define SYSCTL_DCGCHIB_D0 0x00000001 // Hibernation Module Deep-Sleep // Mode Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCUART // register. // //***************************************************************************** #define SYSCTL_DCGCUART_D7 0x00000080 // UART Module 7 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCUART_D6 0x00000040 // UART Module 6 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCUART_D5 0x00000020 // UART Module 5 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCUART_D4 0x00000010 // UART Module 4 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCUART_D3 0x00000008 // UART Module 3 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCUART_D2 0x00000004 // UART Module 2 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCUART_D1 0x00000002 // UART Module 1 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCUART_D0 0x00000001 // UART Module 0 Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCSSI register. // //***************************************************************************** #define SYSCTL_DCGCSSI_D3 0x00000008 // SSI Module 3 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCSSI_D2 0x00000004 // SSI Module 2 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCSSI_D1 0x00000002 // SSI Module 1 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCSSI_D0 0x00000001 // SSI Module 0 Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCI2C register. // //***************************************************************************** #define SYSCTL_DCGCI2C_D9 0x00000200 // I2C Module 9 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCI2C_D8 0x00000100 // I2C Module 8 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCI2C_D7 0x00000080 // I2C Module 7 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCI2C_D6 0x00000040 // I2C Module 6 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCI2C_D5 0x00000020 // I2C Module 5 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCI2C_D4 0x00000010 // I2C Module 4 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCI2C_D3 0x00000008 // I2C Module 3 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCI2C_D2 0x00000004 // I2C Module 2 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCI2C_D1 0x00000002 // I2C Module 1 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCI2C_D0 0x00000001 // I2C Module 0 Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCUSB register. // //***************************************************************************** #define SYSCTL_DCGCUSB_D0 0x00000001 // USB Module Deep-Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCEPHY // register. // //***************************************************************************** #define SYSCTL_DCGCEPHY_D0 0x00000001 // PHY Module Deep-Sleep Mode Clock // Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCCAN register. // //***************************************************************************** #define SYSCTL_DCGCCAN_D1 0x00000002 // CAN Module 1 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCCAN_D0 0x00000001 // CAN Module 0 Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCADC register. // //***************************************************************************** #define SYSCTL_DCGCADC_D1 0x00000002 // ADC Module 1 Deep-Sleep Mode // Clock Gating Control #define SYSCTL_DCGCADC_D0 0x00000001 // ADC Module 0 Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCACMP // register. // //***************************************************************************** #define SYSCTL_DCGCACMP_D0 0x00000001 // Analog Comparator Module 0 // Deep-Sleep Mode Clock Gating // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCPWM register. // //***************************************************************************** #define SYSCTL_DCGCPWM_D0 0x00000001 // PWM Module 0 Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCQEI register. // //***************************************************************************** #define SYSCTL_DCGCQEI_D0 0x00000001 // QEI Module 0 Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCEEPROM // register. // //***************************************************************************** #define SYSCTL_DCGCEEPROM_D0 0x00000001 // EEPROM Module Deep-Sleep Mode // Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCCCM register. // //***************************************************************************** #define SYSCTL_DCGCCCM_D0 0x00000001 // CRC and Cryptographic Modules // Deep-Sleep Mode Clock Gating // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_DCGCEMAC // register. // //***************************************************************************** #define SYSCTL_DCGCEMAC_D0 0x00000001 // Ethernet MAC Module 0 Deep-Sleep // Mode Clock Gating Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCWD register. // //***************************************************************************** #define SYSCTL_PCWD_P1 0x00000002 // Watchdog Timer 1 Power Control #define SYSCTL_PCWD_P0 0x00000001 // Watchdog Timer 0 Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCTIMER register. // //***************************************************************************** #define SYSCTL_PCTIMER_P7 0x00000080 // General-Purpose Timer 7 Power // Control #define SYSCTL_PCTIMER_P6 0x00000040 // General-Purpose Timer 6 Power // Control #define SYSCTL_PCTIMER_P5 0x00000020 // General-Purpose Timer 5 Power // Control #define SYSCTL_PCTIMER_P4 0x00000010 // General-Purpose Timer 4 Power // Control #define SYSCTL_PCTIMER_P3 0x00000008 // General-Purpose Timer 3 Power // Control #define SYSCTL_PCTIMER_P2 0x00000004 // General-Purpose Timer 2 Power // Control #define SYSCTL_PCTIMER_P1 0x00000002 // General-Purpose Timer 1 Power // Control #define SYSCTL_PCTIMER_P0 0x00000001 // General-Purpose Timer 0 Power // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCGPIO register. // //***************************************************************************** #define SYSCTL_PCGPIO_P14 0x00004000 // GPIO Port Q Power Control #define SYSCTL_PCGPIO_P13 0x00002000 // GPIO Port P Power Control #define SYSCTL_PCGPIO_P12 0x00001000 // GPIO Port N Power Control #define SYSCTL_PCGPIO_P11 0x00000800 // GPIO Port M Power Control #define SYSCTL_PCGPIO_P10 0x00000400 // GPIO Port L Power Control #define SYSCTL_PCGPIO_P9 0x00000200 // GPIO Port K Power Control #define SYSCTL_PCGPIO_P8 0x00000100 // GPIO Port J Power Control #define SYSCTL_PCGPIO_P7 0x00000080 // GPIO Port H Power Control #define SYSCTL_PCGPIO_P6 0x00000040 // GPIO Port G Power Control #define SYSCTL_PCGPIO_P5 0x00000020 // GPIO Port F Power Control #define SYSCTL_PCGPIO_P4 0x00000010 // GPIO Port E Power Control #define SYSCTL_PCGPIO_P3 0x00000008 // GPIO Port D Power Control #define SYSCTL_PCGPIO_P2 0x00000004 // GPIO Port C Power Control #define SYSCTL_PCGPIO_P1 0x00000002 // GPIO Port B Power Control #define SYSCTL_PCGPIO_P0 0x00000001 // GPIO Port A Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCDMA register. // //***************************************************************************** #define SYSCTL_PCDMA_P0 0x00000001 // uDMA Module Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCEPI register. // //***************************************************************************** #define SYSCTL_PCEPI_P0 0x00000001 // EPI Module Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCHIB register. // //***************************************************************************** #define SYSCTL_PCHIB_P0 0x00000001 // Hibernation Module Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCUART register. // //***************************************************************************** #define SYSCTL_PCUART_P7 0x00000080 // UART Module 7 Power Control #define SYSCTL_PCUART_P6 0x00000040 // UART Module 6 Power Control #define SYSCTL_PCUART_P5 0x00000020 // UART Module 5 Power Control #define SYSCTL_PCUART_P4 0x00000010 // UART Module 4 Power Control #define SYSCTL_PCUART_P3 0x00000008 // UART Module 3 Power Control #define SYSCTL_PCUART_P2 0x00000004 // UART Module 2 Power Control #define SYSCTL_PCUART_P1 0x00000002 // UART Module 1 Power Control #define SYSCTL_PCUART_P0 0x00000001 // UART Module 0 Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCSSI register. // //***************************************************************************** #define SYSCTL_PCSSI_P3 0x00000008 // SSI Module 3 Power Control #define SYSCTL_PCSSI_P2 0x00000004 // SSI Module 2 Power Control #define SYSCTL_PCSSI_P1 0x00000002 // SSI Module 1 Power Control #define SYSCTL_PCSSI_P0 0x00000001 // SSI Module 0 Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCI2C register. // //***************************************************************************** #define SYSCTL_PCI2C_P9 0x00000200 // I2C Module 9 Power Control #define SYSCTL_PCI2C_P8 0x00000100 // I2C Module 8 Power Control #define SYSCTL_PCI2C_P7 0x00000080 // I2C Module 7 Power Control #define SYSCTL_PCI2C_P6 0x00000040 // I2C Module 6 Power Control #define SYSCTL_PCI2C_P5 0x00000020 // I2C Module 5 Power Control #define SYSCTL_PCI2C_P4 0x00000010 // I2C Module 4 Power Control #define SYSCTL_PCI2C_P3 0x00000008 // I2C Module 3 Power Control #define SYSCTL_PCI2C_P2 0x00000004 // I2C Module 2 Power Control #define SYSCTL_PCI2C_P1 0x00000002 // I2C Module 1 Power Control #define SYSCTL_PCI2C_P0 0x00000001 // I2C Module 0 Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCUSB register. // //***************************************************************************** #define SYSCTL_PCUSB_P0 0x00000001 // USB Module Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCEPHY register. // //***************************************************************************** #define SYSCTL_PCEPHY_P0 0x00000001 // Ethernet PHY Module Power // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCCAN register. // //***************************************************************************** #define SYSCTL_PCCAN_P1 0x00000002 // CAN Module 1 Power Control #define SYSCTL_PCCAN_P0 0x00000001 // CAN Module 0 Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCADC register. // //***************************************************************************** #define SYSCTL_PCADC_P1 0x00000002 // ADC Module 1 Power Control #define SYSCTL_PCADC_P0 0x00000001 // ADC Module 0 Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCACMP register. // //***************************************************************************** #define SYSCTL_PCACMP_P0 0x00000001 // Analog Comparator Module 0 Power // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCPWM register. // //***************************************************************************** #define SYSCTL_PCPWM_P0 0x00000001 // PWM Module 0 Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCQEI register. // //***************************************************************************** #define SYSCTL_PCQEI_P0 0x00000001 // QEI Module 0 Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCEEPROM // register. // //***************************************************************************** #define SYSCTL_PCEEPROM_P0 0x00000001 // EEPROM Module 0 Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCCCM register. // //***************************************************************************** #define SYSCTL_PCCCM_P0 0x00000001 // CRC and Cryptographic Modules // Power Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PCEMAC register. // //***************************************************************************** #define SYSCTL_PCEMAC_P0 0x00000001 // Ethernet MAC Module 0 Power // Control //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRWD register. // //***************************************************************************** #define SYSCTL_PRWD_R1 0x00000002 // Watchdog Timer 1 Peripheral // Ready #define SYSCTL_PRWD_R0 0x00000001 // Watchdog Timer 0 Peripheral // Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRTIMER register. // //***************************************************************************** #define SYSCTL_PRTIMER_R7 0x00000080 // 16/32-Bit General-Purpose Timer // 7 Peripheral Ready #define SYSCTL_PRTIMER_R6 0x00000040 // 16/32-Bit General-Purpose Timer // 6 Peripheral Ready #define SYSCTL_PRTIMER_R5 0x00000020 // 16/32-Bit General-Purpose Timer // 5 Peripheral Ready #define SYSCTL_PRTIMER_R4 0x00000010 // 16/32-Bit General-Purpose Timer // 4 Peripheral Ready #define SYSCTL_PRTIMER_R3 0x00000008 // 16/32-Bit General-Purpose Timer // 3 Peripheral Ready #define SYSCTL_PRTIMER_R2 0x00000004 // 16/32-Bit General-Purpose Timer // 2 Peripheral Ready #define SYSCTL_PRTIMER_R1 0x00000002 // 16/32-Bit General-Purpose Timer // 1 Peripheral Ready #define SYSCTL_PRTIMER_R0 0x00000001 // 16/32-Bit General-Purpose Timer // 0 Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRGPIO register. // //***************************************************************************** #define SYSCTL_PRGPIO_R14 0x00004000 // GPIO Port Q Peripheral Ready #define SYSCTL_PRGPIO_R13 0x00002000 // GPIO Port P Peripheral Ready #define SYSCTL_PRGPIO_R12 0x00001000 // GPIO Port N Peripheral Ready #define SYSCTL_PRGPIO_R11 0x00000800 // GPIO Port M Peripheral Ready #define SYSCTL_PRGPIO_R10 0x00000400 // GPIO Port L Peripheral Ready #define SYSCTL_PRGPIO_R9 0x00000200 // GPIO Port K Peripheral Ready #define SYSCTL_PRGPIO_R8 0x00000100 // GPIO Port J Peripheral Ready #define SYSCTL_PRGPIO_R7 0x00000080 // GPIO Port H Peripheral Ready #define SYSCTL_PRGPIO_R6 0x00000040 // GPIO Port G Peripheral Ready #define SYSCTL_PRGPIO_R5 0x00000020 // GPIO Port F Peripheral Ready #define SYSCTL_PRGPIO_R4 0x00000010 // GPIO Port E Peripheral Ready #define SYSCTL_PRGPIO_R3 0x00000008 // GPIO Port D Peripheral Ready #define SYSCTL_PRGPIO_R2 0x00000004 // GPIO Port C Peripheral Ready #define SYSCTL_PRGPIO_R1 0x00000002 // GPIO Port B Peripheral Ready #define SYSCTL_PRGPIO_R0 0x00000001 // GPIO Port A Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRDMA register. // //***************************************************************************** #define SYSCTL_PRDMA_R0 0x00000001 // uDMA Module Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PREPI register. // //***************************************************************************** #define SYSCTL_PREPI_R0 0x00000001 // EPI Module Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRHIB register. // //***************************************************************************** #define SYSCTL_PRHIB_R0 0x00000001 // Hibernation Module Peripheral // Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRUART register. // //***************************************************************************** #define SYSCTL_PRUART_R7 0x00000080 // UART Module 7 Peripheral Ready #define SYSCTL_PRUART_R6 0x00000040 // UART Module 6 Peripheral Ready #define SYSCTL_PRUART_R5 0x00000020 // UART Module 5 Peripheral Ready #define SYSCTL_PRUART_R4 0x00000010 // UART Module 4 Peripheral Ready #define SYSCTL_PRUART_R3 0x00000008 // UART Module 3 Peripheral Ready #define SYSCTL_PRUART_R2 0x00000004 // UART Module 2 Peripheral Ready #define SYSCTL_PRUART_R1 0x00000002 // UART Module 1 Peripheral Ready #define SYSCTL_PRUART_R0 0x00000001 // UART Module 0 Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRSSI register. // //***************************************************************************** #define SYSCTL_PRSSI_R3 0x00000008 // SSI Module 3 Peripheral Ready #define SYSCTL_PRSSI_R2 0x00000004 // SSI Module 2 Peripheral Ready #define SYSCTL_PRSSI_R1 0x00000002 // SSI Module 1 Peripheral Ready #define SYSCTL_PRSSI_R0 0x00000001 // SSI Module 0 Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRI2C register. // //***************************************************************************** #define SYSCTL_PRI2C_R9 0x00000200 // I2C Module 9 Peripheral Ready #define SYSCTL_PRI2C_R8 0x00000100 // I2C Module 8 Peripheral Ready #define SYSCTL_PRI2C_R7 0x00000080 // I2C Module 7 Peripheral Ready #define SYSCTL_PRI2C_R6 0x00000040 // I2C Module 6 Peripheral Ready #define SYSCTL_PRI2C_R5 0x00000020 // I2C Module 5 Peripheral Ready #define SYSCTL_PRI2C_R4 0x00000010 // I2C Module 4 Peripheral Ready #define SYSCTL_PRI2C_R3 0x00000008 // I2C Module 3 Peripheral Ready #define SYSCTL_PRI2C_R2 0x00000004 // I2C Module 2 Peripheral Ready #define SYSCTL_PRI2C_R1 0x00000002 // I2C Module 1 Peripheral Ready #define SYSCTL_PRI2C_R0 0x00000001 // I2C Module 0 Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRUSB register. // //***************************************************************************** #define SYSCTL_PRUSB_R0 0x00000001 // USB Module Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PREPHY register. // //***************************************************************************** #define SYSCTL_PREPHY_R0 0x00000001 // Ethernet PHY Module Peripheral // Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRCAN register. // //***************************************************************************** #define SYSCTL_PRCAN_R1 0x00000002 // CAN Module 1 Peripheral Ready #define SYSCTL_PRCAN_R0 0x00000001 // CAN Module 0 Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRADC register. // //***************************************************************************** #define SYSCTL_PRADC_R1 0x00000002 // ADC Module 1 Peripheral Ready #define SYSCTL_PRADC_R0 0x00000001 // ADC Module 0 Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRACMP register. // //***************************************************************************** #define SYSCTL_PRACMP_R0 0x00000001 // Analog Comparator Module 0 // Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRPWM register. // //***************************************************************************** #define SYSCTL_PRPWM_R0 0x00000001 // PWM Module 0 Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRQEI register. // //***************************************************************************** #define SYSCTL_PRQEI_R0 0x00000001 // QEI Module 0 Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PREEPROM // register. // //***************************************************************************** #define SYSCTL_PREEPROM_R0 0x00000001 // EEPROM Module Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PRCCM register. // //***************************************************************************** #define SYSCTL_PRCCM_R0 0x00000001 // CRC and Cryptographic Modules // Peripheral Ready //***************************************************************************** // // The following are defines for the bit fields in the SYSCTL_PREMAC register. // //***************************************************************************** #define SYSCTL_PREMAC_R0 0x00000001 // Ethernet MAC Module 0 Peripheral // Ready //***************************************************************************** // // The following are defines for the bit fields in the UDMA_STAT register. // //***************************************************************************** #define UDMA_STAT_DMACHANS_M 0x001F0000 // Available uDMA Channels Minus 1 #define UDMA_STAT_STATE_M 0x000000F0 // Control State Machine Status #define UDMA_STAT_STATE_IDLE 0x00000000 // Idle #define UDMA_STAT_STATE_RD_CTRL 0x00000010 // Reading channel controller data #define UDMA_STAT_STATE_RD_SRCENDP \ 0x00000020 // Reading source end pointer #define UDMA_STAT_STATE_RD_DSTENDP \ 0x00000030 // Reading destination end pointer #define UDMA_STAT_STATE_RD_SRCDAT \ 0x00000040 // Reading source data #define UDMA_STAT_STATE_WR_DSTDAT \ 0x00000050 // Writing destination data #define UDMA_STAT_STATE_WAIT 0x00000060 // Waiting for uDMA request to // clear #define UDMA_STAT_STATE_WR_CTRL 0x00000070 // Writing channel controller data #define UDMA_STAT_STATE_STALL 0x00000080 // Stalled #define UDMA_STAT_STATE_DONE 0x00000090 // Done #define UDMA_STAT_STATE_UNDEF 0x000000A0 // Undefined #define UDMA_STAT_MASTEN 0x00000001 // Master Enable Status #define UDMA_STAT_DMACHANS_S 16 //***************************************************************************** // // The following are defines for the bit fields in the UDMA_CFG register. // //***************************************************************************** #define UDMA_CFG_MASTEN 0x00000001 // Controller Master Enable //***************************************************************************** // // The following are defines for the bit fields in the UDMA_CTLBASE register. // //***************************************************************************** #define UDMA_CTLBASE_ADDR_M 0xFFFFFC00 // Channel Control Base Address #define UDMA_CTLBASE_ADDR_S 10 //***************************************************************************** // // The following are defines for the bit fields in the UDMA_ALTBASE register. // //***************************************************************************** #define UDMA_ALTBASE_ADDR_M 0xFFFFFFFF // Alternate Channel Address // Pointer #define UDMA_ALTBASE_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UDMA_WAITSTAT register. // //***************************************************************************** #define UDMA_WAITSTAT_WAITREQ_M 0xFFFFFFFF // Channel [n] Wait Status //***************************************************************************** // // The following are defines for the bit fields in the UDMA_SWREQ register. // //***************************************************************************** #define UDMA_SWREQ_M 0xFFFFFFFF // Channel [n] Software Request //***************************************************************************** // // The following are defines for the bit fields in the UDMA_USEBURSTSET // register. // //***************************************************************************** #define UDMA_USEBURSTSET_SET_M 0xFFFFFFFF // Channel [n] Useburst Set //***************************************************************************** // // The following are defines for the bit fields in the UDMA_USEBURSTCLR // register. // //***************************************************************************** #define UDMA_USEBURSTCLR_CLR_M 0xFFFFFFFF // Channel [n] Useburst Clear //***************************************************************************** // // The following are defines for the bit fields in the UDMA_REQMASKSET // register. // //***************************************************************************** #define UDMA_REQMASKSET_SET_M 0xFFFFFFFF // Channel [n] Request Mask Set //***************************************************************************** // // The following are defines for the bit fields in the UDMA_REQMASKCLR // register. // //***************************************************************************** #define UDMA_REQMASKCLR_CLR_M 0xFFFFFFFF // Channel [n] Request Mask Clear //***************************************************************************** // // The following are defines for the bit fields in the UDMA_ENASET register. // //***************************************************************************** #define UDMA_ENASET_SET_M 0xFFFFFFFF // Channel [n] Enable Set //***************************************************************************** // // The following are defines for the bit fields in the UDMA_ENACLR register. // //***************************************************************************** #define UDMA_ENACLR_CLR_M 0xFFFFFFFF // Clear Channel [n] Enable Clear //***************************************************************************** // // The following are defines for the bit fields in the UDMA_ALTSET register. // //***************************************************************************** #define UDMA_ALTSET_SET_M 0xFFFFFFFF // Channel [n] Alternate Set //***************************************************************************** // // The following are defines for the bit fields in the UDMA_ALTCLR register. // //***************************************************************************** #define UDMA_ALTCLR_CLR_M 0xFFFFFFFF // Channel [n] Alternate Clear //***************************************************************************** // // The following are defines for the bit fields in the UDMA_PRIOSET register. // //***************************************************************************** #define UDMA_PRIOSET_SET_M 0xFFFFFFFF // Channel [n] Priority Set //***************************************************************************** // // The following are defines for the bit fields in the UDMA_PRIOCLR register. // //***************************************************************************** #define UDMA_PRIOCLR_CLR_M 0xFFFFFFFF // Channel [n] Priority Clear //***************************************************************************** // // The following are defines for the bit fields in the UDMA_ERRCLR register. // //***************************************************************************** #define UDMA_ERRCLR_ERRCLR 0x00000001 // uDMA Bus Error Status //***************************************************************************** // // The following are defines for the bit fields in the UDMA_CHASGN register. // //***************************************************************************** #define UDMA_CHASGN_M 0xFFFFFFFF // Channel [n] Assignment Select #define UDMA_CHASGN_PRIMARY 0x00000000 // Use the primary channel // assignment #define UDMA_CHASGN_SECONDARY 0x00000001 // Use the secondary channel // assignment //***************************************************************************** // // The following are defines for the bit fields in the UDMA_CHMAP0 register. // //***************************************************************************** #define UDMA_CHMAP0_CH7SEL_M 0xF0000000 // uDMA Channel 7 Source Select #define UDMA_CHMAP0_CH6SEL_M 0x0F000000 // uDMA Channel 6 Source Select #define UDMA_CHMAP0_CH5SEL_M 0x00F00000 // uDMA Channel 5 Source Select #define UDMA_CHMAP0_CH4SEL_M 0x000F0000 // uDMA Channel 4 Source Select #define UDMA_CHMAP0_CH3SEL_M 0x0000F000 // uDMA Channel 3 Source Select #define UDMA_CHMAP0_CH2SEL_M 0x00000F00 // uDMA Channel 2 Source Select #define UDMA_CHMAP0_CH1SEL_M 0x000000F0 // uDMA Channel 1 Source Select #define UDMA_CHMAP0_CH0SEL_M 0x0000000F // uDMA Channel 0 Source Select #define UDMA_CHMAP0_CH7SEL_S 28 #define UDMA_CHMAP0_CH6SEL_S 24 #define UDMA_CHMAP0_CH5SEL_S 20 #define UDMA_CHMAP0_CH4SEL_S 16 #define UDMA_CHMAP0_CH3SEL_S 12 #define UDMA_CHMAP0_CH2SEL_S 8 #define UDMA_CHMAP0_CH1SEL_S 4 #define UDMA_CHMAP0_CH0SEL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UDMA_CHMAP1 register. // //***************************************************************************** #define UDMA_CHMAP1_CH15SEL_M 0xF0000000 // uDMA Channel 15 Source Select #define UDMA_CHMAP1_CH14SEL_M 0x0F000000 // uDMA Channel 14 Source Select #define UDMA_CHMAP1_CH13SEL_M 0x00F00000 // uDMA Channel 13 Source Select #define UDMA_CHMAP1_CH12SEL_M 0x000F0000 // uDMA Channel 12 Source Select #define UDMA_CHMAP1_CH11SEL_M 0x0000F000 // uDMA Channel 11 Source Select #define UDMA_CHMAP1_CH10SEL_M 0x00000F00 // uDMA Channel 10 Source Select #define UDMA_CHMAP1_CH9SEL_M 0x000000F0 // uDMA Channel 9 Source Select #define UDMA_CHMAP1_CH8SEL_M 0x0000000F // uDMA Channel 8 Source Select #define UDMA_CHMAP1_CH15SEL_S 28 #define UDMA_CHMAP1_CH14SEL_S 24 #define UDMA_CHMAP1_CH13SEL_S 20 #define UDMA_CHMAP1_CH12SEL_S 16 #define UDMA_CHMAP1_CH11SEL_S 12 #define UDMA_CHMAP1_CH10SEL_S 8 #define UDMA_CHMAP1_CH9SEL_S 4 #define UDMA_CHMAP1_CH8SEL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UDMA_CHMAP2 register. // //***************************************************************************** #define UDMA_CHMAP2_CH23SEL_M 0xF0000000 // uDMA Channel 23 Source Select #define UDMA_CHMAP2_CH22SEL_M 0x0F000000 // uDMA Channel 22 Source Select #define UDMA_CHMAP2_CH21SEL_M 0x00F00000 // uDMA Channel 21 Source Select #define UDMA_CHMAP2_CH20SEL_M 0x000F0000 // uDMA Channel 20 Source Select #define UDMA_CHMAP2_CH19SEL_M 0x0000F000 // uDMA Channel 19 Source Select #define UDMA_CHMAP2_CH18SEL_M 0x00000F00 // uDMA Channel 18 Source Select #define UDMA_CHMAP2_CH17SEL_M 0x000000F0 // uDMA Channel 17 Source Select #define UDMA_CHMAP2_CH16SEL_M 0x0000000F // uDMA Channel 16 Source Select #define UDMA_CHMAP2_CH23SEL_S 28 #define UDMA_CHMAP2_CH22SEL_S 24 #define UDMA_CHMAP2_CH21SEL_S 20 #define UDMA_CHMAP2_CH20SEL_S 16 #define UDMA_CHMAP2_CH19SEL_S 12 #define UDMA_CHMAP2_CH18SEL_S 8 #define UDMA_CHMAP2_CH17SEL_S 4 #define UDMA_CHMAP2_CH16SEL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UDMA_CHMAP3 register. // //***************************************************************************** #define UDMA_CHMAP3_CH31SEL_M 0xF0000000 // uDMA Channel 31 Source Select #define UDMA_CHMAP3_CH30SEL_M 0x0F000000 // uDMA Channel 30 Source Select #define UDMA_CHMAP3_CH29SEL_M 0x00F00000 // uDMA Channel 29 Source Select #define UDMA_CHMAP3_CH28SEL_M 0x000F0000 // uDMA Channel 28 Source Select #define UDMA_CHMAP3_CH27SEL_M 0x0000F000 // uDMA Channel 27 Source Select #define UDMA_CHMAP3_CH26SEL_M 0x00000F00 // uDMA Channel 26 Source Select #define UDMA_CHMAP3_CH25SEL_M 0x000000F0 // uDMA Channel 25 Source Select #define UDMA_CHMAP3_CH24SEL_M 0x0000000F // uDMA Channel 24 Source Select #define UDMA_CHMAP3_CH31SEL_S 28 #define UDMA_CHMAP3_CH30SEL_S 24 #define UDMA_CHMAP3_CH29SEL_S 20 #define UDMA_CHMAP3_CH28SEL_S 16 #define UDMA_CHMAP3_CH27SEL_S 12 #define UDMA_CHMAP3_CH26SEL_S 8 #define UDMA_CHMAP3_CH25SEL_S 4 #define UDMA_CHMAP3_CH24SEL_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UDMA_O_SRCENDP register. // //***************************************************************************** #define UDMA_SRCENDP_ADDR_M 0xFFFFFFFF // Source Address End Pointer #define UDMA_SRCENDP_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UDMA_O_DSTENDP register. // //***************************************************************************** #define UDMA_DSTENDP_ADDR_M 0xFFFFFFFF // Destination Address End Pointer #define UDMA_DSTENDP_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the UDMA_O_CHCTL register. // //***************************************************************************** #define UDMA_CHCTL_DSTINC_M 0xC0000000 // Destination Address Increment #define UDMA_CHCTL_DSTINC_8 0x00000000 // Byte #define UDMA_CHCTL_DSTINC_16 0x40000000 // Half-word #define UDMA_CHCTL_DSTINC_32 0x80000000 // Word #define UDMA_CHCTL_DSTINC_NONE 0xC0000000 // No increment #define UDMA_CHCTL_DSTSIZE_M 0x30000000 // Destination Data Size #define UDMA_CHCTL_DSTSIZE_8 0x00000000 // Byte #define UDMA_CHCTL_DSTSIZE_16 0x10000000 // Half-word #define UDMA_CHCTL_DSTSIZE_32 0x20000000 // Word #define UDMA_CHCTL_SRCINC_M 0x0C000000 // Source Address Increment #define UDMA_CHCTL_SRCINC_8 0x00000000 // Byte #define UDMA_CHCTL_SRCINC_16 0x04000000 // Half-word #define UDMA_CHCTL_SRCINC_32 0x08000000 // Word #define UDMA_CHCTL_SRCINC_NONE 0x0C000000 // No increment #define UDMA_CHCTL_SRCSIZE_M 0x03000000 // Source Data Size #define UDMA_CHCTL_SRCSIZE_8 0x00000000 // Byte #define UDMA_CHCTL_SRCSIZE_16 0x01000000 // Half-word #define UDMA_CHCTL_SRCSIZE_32 0x02000000 // Word #define UDMA_CHCTL_DSTPROT0 0x00200000 // Destination Privilege Access #define UDMA_CHCTL_SRCPROT0 0x00040000 // Source Privilege Access #define UDMA_CHCTL_ARBSIZE_M 0x0003C000 // Arbitration Size #define UDMA_CHCTL_ARBSIZE_1 0x00000000 // 1 Transfer #define UDMA_CHCTL_ARBSIZE_2 0x00004000 // 2 Transfers #define UDMA_CHCTL_ARBSIZE_4 0x00008000 // 4 Transfers #define UDMA_CHCTL_ARBSIZE_8 0x0000C000 // 8 Transfers #define UDMA_CHCTL_ARBSIZE_16 0x00010000 // 16 Transfers #define UDMA_CHCTL_ARBSIZE_32 0x00014000 // 32 Transfers #define UDMA_CHCTL_ARBSIZE_64 0x00018000 // 64 Transfers #define UDMA_CHCTL_ARBSIZE_128 0x0001C000 // 128 Transfers #define UDMA_CHCTL_ARBSIZE_256 0x00020000 // 256 Transfers #define UDMA_CHCTL_ARBSIZE_512 0x00024000 // 512 Transfers #define UDMA_CHCTL_ARBSIZE_1024 0x00028000 // 1024 Transfers #define UDMA_CHCTL_XFERSIZE_M 0x00003FF0 // Transfer Size (minus 1) #define UDMA_CHCTL_NXTUSEBURST 0x00000008 // Next Useburst #define UDMA_CHCTL_XFERMODE_M 0x00000007 // uDMA Transfer Mode #define UDMA_CHCTL_XFERMODE_STOP \ 0x00000000 // Stop #define UDMA_CHCTL_XFERMODE_BASIC \ 0x00000001 // Basic #define UDMA_CHCTL_XFERMODE_AUTO \ 0x00000002 // Auto-Request #define UDMA_CHCTL_XFERMODE_PINGPONG \ 0x00000003 // Ping-Pong #define UDMA_CHCTL_XFERMODE_MEM_SG \ 0x00000004 // Memory Scatter-Gather #define UDMA_CHCTL_XFERMODE_MEM_SGA \ 0x00000005 // Alternate Memory Scatter-Gather #define UDMA_CHCTL_XFERMODE_PER_SG \ 0x00000006 // Peripheral Scatter-Gather #define UDMA_CHCTL_XFERMODE_PER_SGA \ 0x00000007 // Alternate Peripheral // Scatter-Gather #define UDMA_CHCTL_XFERSIZE_S 4 //***************************************************************************** // // The following are defines for the bit fields in the CCM_O_CRCCTRL register. // //***************************************************************************** #define CCM_CRCCTRL_INIT_M 0x00006000 // CRC Initialization #define CCM_CRCCTRL_INIT_SEED 0x00000000 // Use the CRCSEED register context // as the starting value #define CCM_CRCCTRL_INIT_0 0x00004000 // Initialize to all '0s' #define CCM_CRCCTRL_INIT_1 0x00006000 // Initialize to all '1s' #define CCM_CRCCTRL_SIZE 0x00001000 // Input Data Size #define CCM_CRCCTRL_RESINV 0x00000200 // Result Inverse Enable #define CCM_CRCCTRL_OBR 0x00000100 // Output Reverse Enable #define CCM_CRCCTRL_BR 0x00000080 // Bit reverse enable #define CCM_CRCCTRL_ENDIAN_M 0x00000030 // Endian Control #define CCM_CRCCTRL_ENDIAN_SBHW 0x00000000 // Configuration unchanged. (B3, // B2, B1, B0) #define CCM_CRCCTRL_ENDIAN_SHW 0x00000010 // Bytes are swapped in half-words // but half-words are not swapped // (B2, B3, B0, B1) #define CCM_CRCCTRL_ENDIAN_SHWNB \ 0x00000020 // Half-words are swapped but bytes // are not swapped in half-word. // (B1, B0, B3, B2) #define CCM_CRCCTRL_ENDIAN_SBSW 0x00000030 // Bytes are swapped in half-words // and half-words are swapped. (B0, // B1, B2, B3) #define CCM_CRCCTRL_TYPE_M 0x0000000F // Operation Type #define CCM_CRCCTRL_TYPE_P8055 0x00000000 // Polynomial 0x8005 #define CCM_CRCCTRL_TYPE_P1021 0x00000001 // Polynomial 0x1021 #define CCM_CRCCTRL_TYPE_P4C11DB7 \ 0x00000002 // Polynomial 0x4C11DB7 #define CCM_CRCCTRL_TYPE_P1EDC6F41 \ 0x00000003 // Polynomial 0x1EDC6F41 #define CCM_CRCCTRL_TYPE_TCPCHKSUM \ 0x00000008 // TCP checksum //***************************************************************************** // // The following are defines for the bit fields in the CCM_O_CRCSEED register. // //***************************************************************************** #define CCM_CRCSEED_SEED_M 0xFFFFFFFF // SEED/Context Value #define CCM_CRCSEED_SEED_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CCM_O_CRCDIN register. // //***************************************************************************** #define CCM_CRCDIN_DATAIN_M 0xFFFFFFFF // Data Input #define CCM_CRCDIN_DATAIN_S 0 //***************************************************************************** // // The following are defines for the bit fields in the CCM_O_CRCRSLTPP // register. // //***************************************************************************** #define CCM_CRCRSLTPP_RSLTPP_M 0xFFFFFFFF // Post Processing Result #define CCM_CRCRSLTPP_RSLTPP_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_ACTLR register. // //***************************************************************************** #define NVIC_ACTLR_DISOOFP 0x00000200 // Disable Out-Of-Order Floating // Point #define NVIC_ACTLR_DISFPCA 0x00000100 // Disable CONTROL #define NVIC_ACTLR_DISFOLD 0x00000004 // Disable IT Folding #define NVIC_ACTLR_DISWBUF 0x00000002 // Disable Write Buffer #define NVIC_ACTLR_DISMCYC 0x00000001 // Disable Interrupts of Multiple // Cycle Instructions //***************************************************************************** // // The following are defines for the bit fields in the NVIC_ST_CTRL register. // //***************************************************************************** #define NVIC_ST_CTRL_COUNT 0x00010000 // Count Flag #define NVIC_ST_CTRL_CLK_SRC 0x00000004 // Clock Source #define NVIC_ST_CTRL_INTEN 0x00000002 // Interrupt Enable #define NVIC_ST_CTRL_ENABLE 0x00000001 // Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_ST_RELOAD register. // //***************************************************************************** #define NVIC_ST_RELOAD_M 0x00FFFFFF // Reload Value #define NVIC_ST_RELOAD_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_ST_CURRENT // register. // //***************************************************************************** #define NVIC_ST_CURRENT_M 0x00FFFFFF // Current Value #define NVIC_ST_CURRENT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_EN0 register. // //***************************************************************************** #define NVIC_EN0_INT_M 0xFFFFFFFF // Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_EN1 register. // //***************************************************************************** #define NVIC_EN1_INT_M 0xFFFFFFFF // Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_EN2 register. // //***************************************************************************** #define NVIC_EN2_INT_M 0xFFFFFFFF // Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_EN3 register. // //***************************************************************************** #define NVIC_EN3_INT_M 0xFFFFFFFF // Interrupt Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_DIS0 register. // //***************************************************************************** #define NVIC_DIS0_INT_M 0xFFFFFFFF // Interrupt Disable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_DIS1 register. // //***************************************************************************** #define NVIC_DIS1_INT_M 0xFFFFFFFF // Interrupt Disable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_DIS2 register. // //***************************************************************************** #define NVIC_DIS2_INT_M 0xFFFFFFFF // Interrupt Disable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_DIS3 register. // //***************************************************************************** #define NVIC_DIS3_INT_M 0xFFFFFFFF // Interrupt Disable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PEND0 register. // //***************************************************************************** #define NVIC_PEND0_INT_M 0xFFFFFFFF // Interrupt Set Pending //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PEND1 register. // //***************************************************************************** #define NVIC_PEND1_INT_M 0xFFFFFFFF // Interrupt Set Pending //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PEND2 register. // //***************************************************************************** #define NVIC_PEND2_INT_M 0xFFFFFFFF // Interrupt Set Pending //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PEND3 register. // //***************************************************************************** #define NVIC_PEND3_INT_M 0xFFFFFFFF // Interrupt Set Pending //***************************************************************************** // // The following are defines for the bit fields in the NVIC_UNPEND0 register. // //***************************************************************************** #define NVIC_UNPEND0_INT_M 0xFFFFFFFF // Interrupt Clear Pending //***************************************************************************** // // The following are defines for the bit fields in the NVIC_UNPEND1 register. // //***************************************************************************** #define NVIC_UNPEND1_INT_M 0xFFFFFFFF // Interrupt Clear Pending //***************************************************************************** // // The following are defines for the bit fields in the NVIC_UNPEND2 register. // //***************************************************************************** #define NVIC_UNPEND2_INT_M 0xFFFFFFFF // Interrupt Clear Pending //***************************************************************************** // // The following are defines for the bit fields in the NVIC_UNPEND3 register. // //***************************************************************************** #define NVIC_UNPEND3_INT_M 0xFFFFFFFF // Interrupt Clear Pending //***************************************************************************** // // The following are defines for the bit fields in the NVIC_ACTIVE0 register. // //***************************************************************************** #define NVIC_ACTIVE0_INT_M 0xFFFFFFFF // Interrupt Active //***************************************************************************** // // The following are defines for the bit fields in the NVIC_ACTIVE1 register. // //***************************************************************************** #define NVIC_ACTIVE1_INT_M 0xFFFFFFFF // Interrupt Active //***************************************************************************** // // The following are defines for the bit fields in the NVIC_ACTIVE2 register. // //***************************************************************************** #define NVIC_ACTIVE2_INT_M 0xFFFFFFFF // Interrupt Active //***************************************************************************** // // The following are defines for the bit fields in the NVIC_ACTIVE3 register. // //***************************************************************************** #define NVIC_ACTIVE3_INT_M 0xFFFFFFFF // Interrupt Active //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI0 register. // //***************************************************************************** #define NVIC_PRI0_INT3_M 0xE0000000 // Interrupt 3 Priority Mask #define NVIC_PRI0_INT2_M 0x00E00000 // Interrupt 2 Priority Mask #define NVIC_PRI0_INT1_M 0x0000E000 // Interrupt 1 Priority Mask #define NVIC_PRI0_INT0_M 0x000000E0 // Interrupt 0 Priority Mask #define NVIC_PRI0_INT3_S 29 #define NVIC_PRI0_INT2_S 21 #define NVIC_PRI0_INT1_S 13 #define NVIC_PRI0_INT0_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI1 register. // //***************************************************************************** #define NVIC_PRI1_INT7_M 0xE0000000 // Interrupt 7 Priority Mask #define NVIC_PRI1_INT6_M 0x00E00000 // Interrupt 6 Priority Mask #define NVIC_PRI1_INT5_M 0x0000E000 // Interrupt 5 Priority Mask #define NVIC_PRI1_INT4_M 0x000000E0 // Interrupt 4 Priority Mask #define NVIC_PRI1_INT7_S 29 #define NVIC_PRI1_INT6_S 21 #define NVIC_PRI1_INT5_S 13 #define NVIC_PRI1_INT4_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI2 register. // //***************************************************************************** #define NVIC_PRI2_INT11_M 0xE0000000 // Interrupt 11 Priority Mask #define NVIC_PRI2_INT10_M 0x00E00000 // Interrupt 10 Priority Mask #define NVIC_PRI2_INT9_M 0x0000E000 // Interrupt 9 Priority Mask #define NVIC_PRI2_INT8_M 0x000000E0 // Interrupt 8 Priority Mask #define NVIC_PRI2_INT11_S 29 #define NVIC_PRI2_INT10_S 21 #define NVIC_PRI2_INT9_S 13 #define NVIC_PRI2_INT8_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI3 register. // //***************************************************************************** #define NVIC_PRI3_INT15_M 0xE0000000 // Interrupt 15 Priority Mask #define NVIC_PRI3_INT14_M 0x00E00000 // Interrupt 14 Priority Mask #define NVIC_PRI3_INT13_M 0x0000E000 // Interrupt 13 Priority Mask #define NVIC_PRI3_INT12_M 0x000000E0 // Interrupt 12 Priority Mask #define NVIC_PRI3_INT15_S 29 #define NVIC_PRI3_INT14_S 21 #define NVIC_PRI3_INT13_S 13 #define NVIC_PRI3_INT12_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI4 register. // //***************************************************************************** #define NVIC_PRI4_INT19_M 0xE0000000 // Interrupt 19 Priority Mask #define NVIC_PRI4_INT18_M 0x00E00000 // Interrupt 18 Priority Mask #define NVIC_PRI4_INT17_M 0x0000E000 // Interrupt 17 Priority Mask #define NVIC_PRI4_INT16_M 0x000000E0 // Interrupt 16 Priority Mask #define NVIC_PRI4_INT19_S 29 #define NVIC_PRI4_INT18_S 21 #define NVIC_PRI4_INT17_S 13 #define NVIC_PRI4_INT16_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI5 register. // //***************************************************************************** #define NVIC_PRI5_INT23_M 0xE0000000 // Interrupt 23 Priority Mask #define NVIC_PRI5_INT22_M 0x00E00000 // Interrupt 22 Priority Mask #define NVIC_PRI5_INT21_M 0x0000E000 // Interrupt 21 Priority Mask #define NVIC_PRI5_INT20_M 0x000000E0 // Interrupt 20 Priority Mask #define NVIC_PRI5_INT23_S 29 #define NVIC_PRI5_INT22_S 21 #define NVIC_PRI5_INT21_S 13 #define NVIC_PRI5_INT20_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI6 register. // //***************************************************************************** #define NVIC_PRI6_INT27_M 0xE0000000 // Interrupt 27 Priority Mask #define NVIC_PRI6_INT26_M 0x00E00000 // Interrupt 26 Priority Mask #define NVIC_PRI6_INT25_M 0x0000E000 // Interrupt 25 Priority Mask #define NVIC_PRI6_INT24_M 0x000000E0 // Interrupt 24 Priority Mask #define NVIC_PRI6_INT27_S 29 #define NVIC_PRI6_INT26_S 21 #define NVIC_PRI6_INT25_S 13 #define NVIC_PRI6_INT24_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI7 register. // //***************************************************************************** #define NVIC_PRI7_INT31_M 0xE0000000 // Interrupt 31 Priority Mask #define NVIC_PRI7_INT30_M 0x00E00000 // Interrupt 30 Priority Mask #define NVIC_PRI7_INT29_M 0x0000E000 // Interrupt 29 Priority Mask #define NVIC_PRI7_INT28_M 0x000000E0 // Interrupt 28 Priority Mask #define NVIC_PRI7_INT31_S 29 #define NVIC_PRI7_INT30_S 21 #define NVIC_PRI7_INT29_S 13 #define NVIC_PRI7_INT28_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI8 register. // //***************************************************************************** #define NVIC_PRI8_INT35_M 0xE0000000 // Interrupt 35 Priority Mask #define NVIC_PRI8_INT34_M 0x00E00000 // Interrupt 34 Priority Mask #define NVIC_PRI8_INT33_M 0x0000E000 // Interrupt 33 Priority Mask #define NVIC_PRI8_INT32_M 0x000000E0 // Interrupt 32 Priority Mask #define NVIC_PRI8_INT35_S 29 #define NVIC_PRI8_INT34_S 21 #define NVIC_PRI8_INT33_S 13 #define NVIC_PRI8_INT32_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI9 register. // //***************************************************************************** #define NVIC_PRI9_INT39_M 0xE0000000 // Interrupt 39 Priority Mask #define NVIC_PRI9_INT38_M 0x00E00000 // Interrupt 38 Priority Mask #define NVIC_PRI9_INT37_M 0x0000E000 // Interrupt 37 Priority Mask #define NVIC_PRI9_INT36_M 0x000000E0 // Interrupt 36 Priority Mask #define NVIC_PRI9_INT39_S 29 #define NVIC_PRI9_INT38_S 21 #define NVIC_PRI9_INT37_S 13 #define NVIC_PRI9_INT36_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI10 register. // //***************************************************************************** #define NVIC_PRI10_INT43_M 0xE0000000 // Interrupt 43 Priority Mask #define NVIC_PRI10_INT42_M 0x00E00000 // Interrupt 42 Priority Mask #define NVIC_PRI10_INT41_M 0x0000E000 // Interrupt 41 Priority Mask #define NVIC_PRI10_INT40_M 0x000000E0 // Interrupt 40 Priority Mask #define NVIC_PRI10_INT43_S 29 #define NVIC_PRI10_INT42_S 21 #define NVIC_PRI10_INT41_S 13 #define NVIC_PRI10_INT40_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI11 register. // //***************************************************************************** #define NVIC_PRI11_INT47_M 0xE0000000 // Interrupt 47 Priority Mask #define NVIC_PRI11_INT46_M 0x00E00000 // Interrupt 46 Priority Mask #define NVIC_PRI11_INT45_M 0x0000E000 // Interrupt 45 Priority Mask #define NVIC_PRI11_INT44_M 0x000000E0 // Interrupt 44 Priority Mask #define NVIC_PRI11_INT47_S 29 #define NVIC_PRI11_INT46_S 21 #define NVIC_PRI11_INT45_S 13 #define NVIC_PRI11_INT44_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI12 register. // //***************************************************************************** #define NVIC_PRI12_INT51_M 0xE0000000 // Interrupt 51 Priority Mask #define NVIC_PRI12_INT50_M 0x00E00000 // Interrupt 50 Priority Mask #define NVIC_PRI12_INT49_M 0x0000E000 // Interrupt 49 Priority Mask #define NVIC_PRI12_INT48_M 0x000000E0 // Interrupt 48 Priority Mask #define NVIC_PRI12_INT51_S 29 #define NVIC_PRI12_INT50_S 21 #define NVIC_PRI12_INT49_S 13 #define NVIC_PRI12_INT48_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI13 register. // //***************************************************************************** #define NVIC_PRI13_INT55_M 0xE0000000 // Interrupt 55 Priority Mask #define NVIC_PRI13_INT54_M 0x00E00000 // Interrupt 54 Priority Mask #define NVIC_PRI13_INT53_M 0x0000E000 // Interrupt 53 Priority Mask #define NVIC_PRI13_INT52_M 0x000000E0 // Interrupt 52 Priority Mask #define NVIC_PRI13_INT55_S 29 #define NVIC_PRI13_INT54_S 21 #define NVIC_PRI13_INT53_S 13 #define NVIC_PRI13_INT52_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI14 register. // //***************************************************************************** #define NVIC_PRI14_INTD_M 0xE0000000 // Interrupt 59 Priority Mask #define NVIC_PRI14_INTC_M 0x00E00000 // Interrupt 58 Priority Mask #define NVIC_PRI14_INTB_M 0x0000E000 // Interrupt 57 Priority Mask #define NVIC_PRI14_INTA_M 0x000000E0 // Interrupt 56 Priority Mask #define NVIC_PRI14_INTD_S 29 #define NVIC_PRI14_INTC_S 21 #define NVIC_PRI14_INTB_S 13 #define NVIC_PRI14_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI15 register. // //***************************************************************************** #define NVIC_PRI15_INTD_M 0xE0000000 // Interrupt 63 Priority Mask #define NVIC_PRI15_INTC_M 0x00E00000 // Interrupt 62 Priority Mask #define NVIC_PRI15_INTB_M 0x0000E000 // Interrupt 61 Priority Mask #define NVIC_PRI15_INTA_M 0x000000E0 // Interrupt 60 Priority Mask #define NVIC_PRI15_INTD_S 29 #define NVIC_PRI15_INTC_S 21 #define NVIC_PRI15_INTB_S 13 #define NVIC_PRI15_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI16 register. // //***************************************************************************** #define NVIC_PRI16_INTD_M 0xE0000000 // Interrupt 67 Priority Mask #define NVIC_PRI16_INTC_M 0x00E00000 // Interrupt 66 Priority Mask #define NVIC_PRI16_INTB_M 0x0000E000 // Interrupt 65 Priority Mask #define NVIC_PRI16_INTA_M 0x000000E0 // Interrupt 64 Priority Mask #define NVIC_PRI16_INTD_S 29 #define NVIC_PRI16_INTC_S 21 #define NVIC_PRI16_INTB_S 13 #define NVIC_PRI16_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI17 register. // //***************************************************************************** #define NVIC_PRI17_INTD_M 0xE0000000 // Interrupt 71 Priority Mask #define NVIC_PRI17_INTC_M 0x00E00000 // Interrupt 70 Priority Mask #define NVIC_PRI17_INTB_M 0x0000E000 // Interrupt 69 Priority Mask #define NVIC_PRI17_INTA_M 0x000000E0 // Interrupt 68 Priority Mask #define NVIC_PRI17_INTD_S 29 #define NVIC_PRI17_INTC_S 21 #define NVIC_PRI17_INTB_S 13 #define NVIC_PRI17_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI18 register. // //***************************************************************************** #define NVIC_PRI18_INTD_M 0xE0000000 // Interrupt 75 Priority Mask #define NVIC_PRI18_INTC_M 0x00E00000 // Interrupt 74 Priority Mask #define NVIC_PRI18_INTB_M 0x0000E000 // Interrupt 73 Priority Mask #define NVIC_PRI18_INTA_M 0x000000E0 // Interrupt 72 Priority Mask #define NVIC_PRI18_INTD_S 29 #define NVIC_PRI18_INTC_S 21 #define NVIC_PRI18_INTB_S 13 #define NVIC_PRI18_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI19 register. // //***************************************************************************** #define NVIC_PRI19_INTD_M 0xE0000000 // Interrupt 79 Priority Mask #define NVIC_PRI19_INTC_M 0x00E00000 // Interrupt 78 Priority Mask #define NVIC_PRI19_INTB_M 0x0000E000 // Interrupt 77 Priority Mask #define NVIC_PRI19_INTA_M 0x000000E0 // Interrupt 76 Priority Mask #define NVIC_PRI19_INTD_S 29 #define NVIC_PRI19_INTC_S 21 #define NVIC_PRI19_INTB_S 13 #define NVIC_PRI19_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI20 register. // //***************************************************************************** #define NVIC_PRI20_INTD_M 0xE0000000 // Interrupt 83 Priority Mask #define NVIC_PRI20_INTC_M 0x00E00000 // Interrupt 82 Priority Mask #define NVIC_PRI20_INTB_M 0x0000E000 // Interrupt 81 Priority Mask #define NVIC_PRI20_INTA_M 0x000000E0 // Interrupt 80 Priority Mask #define NVIC_PRI20_INTD_S 29 #define NVIC_PRI20_INTC_S 21 #define NVIC_PRI20_INTB_S 13 #define NVIC_PRI20_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI21 register. // //***************************************************************************** #define NVIC_PRI21_INTD_M 0xE0000000 // Interrupt 87 Priority Mask #define NVIC_PRI21_INTC_M 0x00E00000 // Interrupt 86 Priority Mask #define NVIC_PRI21_INTB_M 0x0000E000 // Interrupt 85 Priority Mask #define NVIC_PRI21_INTA_M 0x000000E0 // Interrupt 84 Priority Mask #define NVIC_PRI21_INTD_S 29 #define NVIC_PRI21_INTC_S 21 #define NVIC_PRI21_INTB_S 13 #define NVIC_PRI21_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI22 register. // //***************************************************************************** #define NVIC_PRI22_INTD_M 0xE0000000 // Interrupt 91 Priority Mask #define NVIC_PRI22_INTC_M 0x00E00000 // Interrupt 90 Priority Mask #define NVIC_PRI22_INTB_M 0x0000E000 // Interrupt 89 Priority Mask #define NVIC_PRI22_INTA_M 0x000000E0 // Interrupt 88 Priority Mask #define NVIC_PRI22_INTD_S 29 #define NVIC_PRI22_INTC_S 21 #define NVIC_PRI22_INTB_S 13 #define NVIC_PRI22_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI23 register. // //***************************************************************************** #define NVIC_PRI23_INTD_M 0xE0000000 // Interrupt 95 Priority Mask #define NVIC_PRI23_INTC_M 0x00E00000 // Interrupt 94 Priority Mask #define NVIC_PRI23_INTB_M 0x0000E000 // Interrupt 93 Priority Mask #define NVIC_PRI23_INTA_M 0x000000E0 // Interrupt 92 Priority Mask #define NVIC_PRI23_INTD_S 29 #define NVIC_PRI23_INTC_S 21 #define NVIC_PRI23_INTB_S 13 #define NVIC_PRI23_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI24 register. // //***************************************************************************** #define NVIC_PRI24_INTD_M 0xE0000000 // Interrupt 99 Priority Mask #define NVIC_PRI24_INTC_M 0x00E00000 // Interrupt 98 Priority Mask #define NVIC_PRI24_INTB_M 0x0000E000 // Interrupt 97 Priority Mask #define NVIC_PRI24_INTA_M 0x000000E0 // Interrupt 96 Priority Mask #define NVIC_PRI24_INTD_S 29 #define NVIC_PRI24_INTC_S 21 #define NVIC_PRI24_INTB_S 13 #define NVIC_PRI24_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI25 register. // //***************************************************************************** #define NVIC_PRI25_INTD_M 0xE0000000 // Interrupt 103 Priority Mask #define NVIC_PRI25_INTC_M 0x00E00000 // Interrupt 102 Priority Mask #define NVIC_PRI25_INTB_M 0x0000E000 // Interrupt 101 Priority Mask #define NVIC_PRI25_INTA_M 0x000000E0 // Interrupt 100 Priority Mask #define NVIC_PRI25_INTD_S 29 #define NVIC_PRI25_INTC_S 21 #define NVIC_PRI25_INTB_S 13 #define NVIC_PRI25_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI26 register. // //***************************************************************************** #define NVIC_PRI26_INTD_M 0xE0000000 // Interrupt 107 Priority Mask #define NVIC_PRI26_INTC_M 0x00E00000 // Interrupt 106 Priority Mask #define NVIC_PRI26_INTB_M 0x0000E000 // Interrupt 105 Priority Mask #define NVIC_PRI26_INTA_M 0x000000E0 // Interrupt 104 Priority Mask #define NVIC_PRI26_INTD_S 29 #define NVIC_PRI26_INTC_S 21 #define NVIC_PRI26_INTB_S 13 #define NVIC_PRI26_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI27 register. // //***************************************************************************** #define NVIC_PRI27_INTD_M 0xE0000000 // Interrupt 111 Priority Mask #define NVIC_PRI27_INTC_M 0x00E00000 // Interrupt 110 Priority Mask #define NVIC_PRI27_INTB_M 0x0000E000 // Interrupt 109 Priority Mask #define NVIC_PRI27_INTA_M 0x000000E0 // Interrupt 108 Priority Mask #define NVIC_PRI27_INTD_S 29 #define NVIC_PRI27_INTC_S 21 #define NVIC_PRI27_INTB_S 13 #define NVIC_PRI27_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_PRI28 register. // //***************************************************************************** #define NVIC_PRI28_INTD_M 0xE0000000 // Interrupt 115 Priority Mask #define NVIC_PRI28_INTC_M 0x00E00000 // Interrupt 114 Priority Mask #define NVIC_PRI28_INTB_M 0x0000E000 // Interrupt 113 Priority Mask #define NVIC_PRI28_INTA_M 0x000000E0 // Interrupt 112 Priority Mask #define NVIC_PRI28_INTD_S 29 #define NVIC_PRI28_INTC_S 21 #define NVIC_PRI28_INTB_S 13 #define NVIC_PRI28_INTA_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_CPUID register. // //***************************************************************************** #define NVIC_CPUID_IMP_M 0xFF000000 // Implementer Code #define NVIC_CPUID_IMP_ARM 0x41000000 // ARM #define NVIC_CPUID_VAR_M 0x00F00000 // Variant Number #define NVIC_CPUID_CON_M 0x000F0000 // Constant #define NVIC_CPUID_PARTNO_M 0x0000FFF0 // Part Number #define NVIC_CPUID_PARTNO_CM4 0x0000C240 // Cortex-M4 processor #define NVIC_CPUID_REV_M 0x0000000F // Revision Number //***************************************************************************** // // The following are defines for the bit fields in the NVIC_INT_CTRL register. // //***************************************************************************** #define NVIC_INT_CTRL_NMI_SET 0x80000000 // NMI Set Pending #define NVIC_INT_CTRL_PEND_SV 0x10000000 // PendSV Set Pending #define NVIC_INT_CTRL_UNPEND_SV 0x08000000 // PendSV Clear Pending #define NVIC_INT_CTRL_PENDSTSET 0x04000000 // SysTick Set Pending #define NVIC_INT_CTRL_PENDSTCLR 0x02000000 // SysTick Clear Pending #define NVIC_INT_CTRL_ISR_PRE 0x00800000 // Debug Interrupt Handling #define NVIC_INT_CTRL_ISR_PEND 0x00400000 // Interrupt Pending #define NVIC_INT_CTRL_VEC_PEN_M 0x000FF000 // Interrupt Pending Vector Number #define NVIC_INT_CTRL_VEC_PEN_NMI \ 0x00002000 // NMI #define NVIC_INT_CTRL_VEC_PEN_HARD \ 0x00003000 // Hard fault #define NVIC_INT_CTRL_VEC_PEN_MEM \ 0x00004000 // Memory management fault #define NVIC_INT_CTRL_VEC_PEN_BUS \ 0x00005000 // Bus fault #define NVIC_INT_CTRL_VEC_PEN_USG \ 0x00006000 // Usage fault #define NVIC_INT_CTRL_VEC_PEN_SVC \ 0x0000B000 // SVCall #define NVIC_INT_CTRL_VEC_PEN_PNDSV \ 0x0000E000 // PendSV #define NVIC_INT_CTRL_VEC_PEN_TICK \ 0x0000F000 // SysTick #define NVIC_INT_CTRL_RET_BASE 0x00000800 // Return to Base #define NVIC_INT_CTRL_VEC_ACT_M 0x000000FF // Interrupt Pending Vector Number #define NVIC_INT_CTRL_VEC_ACT_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_VTABLE register. // //***************************************************************************** #define NVIC_VTABLE_OFFSET_M 0xFFFFFC00 // Vector Table Offset #define NVIC_VTABLE_OFFSET_S 10 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_APINT register. // //***************************************************************************** #define NVIC_APINT_VECTKEY_M 0xFFFF0000 // Register Key #define NVIC_APINT_VECTKEY 0x05FA0000 // Vector key #define NVIC_APINT_ENDIANESS 0x00008000 // Data Endianess #define NVIC_APINT_PRIGROUP_M 0x00000700 // Interrupt Priority Grouping #define NVIC_APINT_PRIGROUP_7_1 0x00000000 // Priority group 7.1 split #define NVIC_APINT_PRIGROUP_6_2 0x00000100 // Priority group 6.2 split #define NVIC_APINT_PRIGROUP_5_3 0x00000200 // Priority group 5.3 split #define NVIC_APINT_PRIGROUP_4_4 0x00000300 // Priority group 4.4 split #define NVIC_APINT_PRIGROUP_3_5 0x00000400 // Priority group 3.5 split #define NVIC_APINT_PRIGROUP_2_6 0x00000500 // Priority group 2.6 split #define NVIC_APINT_PRIGROUP_1_7 0x00000600 // Priority group 1.7 split #define NVIC_APINT_PRIGROUP_0_8 0x00000700 // Priority group 0.8 split #define NVIC_APINT_SYSRESETREQ 0x00000004 // System Reset Request #define NVIC_APINT_VECT_CLR_ACT 0x00000002 // Clear Active NMI / Fault #define NVIC_APINT_VECT_RESET 0x00000001 // System Reset //***************************************************************************** // // The following are defines for the bit fields in the NVIC_SYS_CTRL register. // //***************************************************************************** #define NVIC_SYS_CTRL_SEVONPEND 0x00000010 // Wake Up on Pending #define NVIC_SYS_CTRL_SLEEPDEEP 0x00000004 // Deep Sleep Enable #define NVIC_SYS_CTRL_SLEEPEXIT 0x00000002 // Sleep on ISR Exit //***************************************************************************** // // The following are defines for the bit fields in the NVIC_CFG_CTRL register. // //***************************************************************************** #define NVIC_CFG_CTRL_STKALIGN 0x00000200 // Stack Alignment on Exception // Entry #define NVIC_CFG_CTRL_BFHFNMIGN 0x00000100 // Ignore Bus Fault in NMI and // Fault #define NVIC_CFG_CTRL_DIV0 0x00000010 // Trap on Divide by 0 #define NVIC_CFG_CTRL_UNALIGNED 0x00000008 // Trap on Unaligned Access #define NVIC_CFG_CTRL_MAIN_PEND 0x00000002 // Allow Main Interrupt Trigger #define NVIC_CFG_CTRL_BASE_THR 0x00000001 // Thread State Control //***************************************************************************** // // The following are defines for the bit fields in the NVIC_SYS_PRI1 register. // //***************************************************************************** #define NVIC_SYS_PRI1_USAGE_M 0x00E00000 // Usage Fault Priority #define NVIC_SYS_PRI1_BUS_M 0x0000E000 // Bus Fault Priority #define NVIC_SYS_PRI1_MEM_M 0x000000E0 // Memory Management Fault Priority #define NVIC_SYS_PRI1_USAGE_S 21 #define NVIC_SYS_PRI1_BUS_S 13 #define NVIC_SYS_PRI1_MEM_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_SYS_PRI2 register. // //***************************************************************************** #define NVIC_SYS_PRI2_SVC_M 0xE0000000 // SVCall Priority #define NVIC_SYS_PRI2_SVC_S 29 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_SYS_PRI3 register. // //***************************************************************************** #define NVIC_SYS_PRI3_TICK_M 0xE0000000 // SysTick Exception Priority #define NVIC_SYS_PRI3_PENDSV_M 0x00E00000 // PendSV Priority #define NVIC_SYS_PRI3_DEBUG_M 0x000000E0 // Debug Priority #define NVIC_SYS_PRI3_TICK_S 29 #define NVIC_SYS_PRI3_PENDSV_S 21 #define NVIC_SYS_PRI3_DEBUG_S 5 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_SYS_HND_CTRL // register. // //***************************************************************************** #define NVIC_SYS_HND_CTRL_USAGE 0x00040000 // Usage Fault Enable #define NVIC_SYS_HND_CTRL_BUS 0x00020000 // Bus Fault Enable #define NVIC_SYS_HND_CTRL_MEM 0x00010000 // Memory Management Fault Enable #define NVIC_SYS_HND_CTRL_SVC 0x00008000 // SVC Call Pending #define NVIC_SYS_HND_CTRL_BUSP 0x00004000 // Bus Fault Pending #define NVIC_SYS_HND_CTRL_MEMP 0x00002000 // Memory Management Fault Pending #define NVIC_SYS_HND_CTRL_USAGEP \ 0x00001000 // Usage Fault Pending #define NVIC_SYS_HND_CTRL_TICK 0x00000800 // SysTick Exception Active #define NVIC_SYS_HND_CTRL_PNDSV 0x00000400 // PendSV Exception Active #define NVIC_SYS_HND_CTRL_MON 0x00000100 // Debug Monitor Active #define NVIC_SYS_HND_CTRL_SVCA 0x00000080 // SVC Call Active #define NVIC_SYS_HND_CTRL_USGA 0x00000008 // Usage Fault Active #define NVIC_SYS_HND_CTRL_BUSA 0x00000002 // Bus Fault Active #define NVIC_SYS_HND_CTRL_MEMA 0x00000001 // Memory Management Fault Active //***************************************************************************** // // The following are defines for the bit fields in the NVIC_FAULT_STAT // register. // //***************************************************************************** #define NVIC_FAULT_STAT_DIV0 0x02000000 // Divide-by-Zero Usage Fault #define NVIC_FAULT_STAT_UNALIGN 0x01000000 // Unaligned Access Usage Fault #define NVIC_FAULT_STAT_NOCP 0x00080000 // No Coprocessor Usage Fault #define NVIC_FAULT_STAT_INVPC 0x00040000 // Invalid PC Load Usage Fault #define NVIC_FAULT_STAT_INVSTAT 0x00020000 // Invalid State Usage Fault #define NVIC_FAULT_STAT_UNDEF 0x00010000 // Undefined Instruction Usage // Fault #define NVIC_FAULT_STAT_BFARV 0x00008000 // Bus Fault Address Register Valid #define NVIC_FAULT_STAT_BLSPERR 0x00002000 // Bus Fault on Floating-Point Lazy // State Preservation #define NVIC_FAULT_STAT_BSTKE 0x00001000 // Stack Bus Fault #define NVIC_FAULT_STAT_BUSTKE 0x00000800 // Unstack Bus Fault #define NVIC_FAULT_STAT_IMPRE 0x00000400 // Imprecise Data Bus Error #define NVIC_FAULT_STAT_PRECISE 0x00000200 // Precise Data Bus Error #define NVIC_FAULT_STAT_IBUS 0x00000100 // Instruction Bus Error #define NVIC_FAULT_STAT_MMARV 0x00000080 // Memory Management Fault Address // Register Valid #define NVIC_FAULT_STAT_MLSPERR 0x00000020 // Memory Management Fault on // Floating-Point Lazy State // Preservation #define NVIC_FAULT_STAT_MSTKE 0x00000010 // Stack Access Violation #define NVIC_FAULT_STAT_MUSTKE 0x00000008 // Unstack Access Violation #define NVIC_FAULT_STAT_DERR 0x00000002 // Data Access Violation #define NVIC_FAULT_STAT_IERR 0x00000001 // Instruction Access Violation //***************************************************************************** // // The following are defines for the bit fields in the NVIC_HFAULT_STAT // register. // //***************************************************************************** #define NVIC_HFAULT_STAT_DBG 0x80000000 // Debug Event #define NVIC_HFAULT_STAT_FORCED 0x40000000 // Forced Hard Fault #define NVIC_HFAULT_STAT_VECT 0x00000002 // Vector Table Read Fault //***************************************************************************** // // The following are defines for the bit fields in the NVIC_DEBUG_STAT // register. // //***************************************************************************** #define NVIC_DEBUG_STAT_EXTRNL 0x00000010 // EDBGRQ asserted #define NVIC_DEBUG_STAT_VCATCH 0x00000008 // Vector catch #define NVIC_DEBUG_STAT_DWTTRAP 0x00000004 // DWT match #define NVIC_DEBUG_STAT_BKPT 0x00000002 // Breakpoint instruction #define NVIC_DEBUG_STAT_HALTED 0x00000001 // Halt request //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MM_ADDR register. // //***************************************************************************** #define NVIC_MM_ADDR_M 0xFFFFFFFF // Fault Address #define NVIC_MM_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_FAULT_ADDR // register. // //***************************************************************************** #define NVIC_FAULT_ADDR_M 0xFFFFFFFF // Fault Address #define NVIC_FAULT_ADDR_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_CPAC register. // //***************************************************************************** #define NVIC_CPAC_CP11_M 0x00C00000 // CP11 Coprocessor Access // Privilege #define NVIC_CPAC_CP11_DIS 0x00000000 // Access Denied #define NVIC_CPAC_CP11_PRIV 0x00400000 // Privileged Access Only #define NVIC_CPAC_CP11_FULL 0x00C00000 // Full Access #define NVIC_CPAC_CP10_M 0x00300000 // CP10 Coprocessor Access // Privilege #define NVIC_CPAC_CP10_DIS 0x00000000 // Access Denied #define NVIC_CPAC_CP10_PRIV 0x00100000 // Privileged Access Only #define NVIC_CPAC_CP10_FULL 0x00300000 // Full Access //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_TYPE register. // //***************************************************************************** #define NVIC_MPU_TYPE_IREGION_M 0x00FF0000 // Number of I Regions #define NVIC_MPU_TYPE_DREGION_M 0x0000FF00 // Number of D Regions #define NVIC_MPU_TYPE_SEPARATE 0x00000001 // Separate or Unified MPU #define NVIC_MPU_TYPE_IREGION_S 16 #define NVIC_MPU_TYPE_DREGION_S 8 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_CTRL register. // //***************************************************************************** #define NVIC_MPU_CTRL_PRIVDEFEN 0x00000004 // MPU Default Region #define NVIC_MPU_CTRL_HFNMIENA 0x00000002 // MPU Enabled During Faults #define NVIC_MPU_CTRL_ENABLE 0x00000001 // MPU Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_NUMBER // register. // //***************************************************************************** #define NVIC_MPU_NUMBER_M 0x00000007 // MPU Region to Access #define NVIC_MPU_NUMBER_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_BASE register. // //***************************************************************************** #define NVIC_MPU_BASE_ADDR_M 0xFFFFFFE0 // Base Address Mask #define NVIC_MPU_BASE_VALID 0x00000010 // Region Number Valid #define NVIC_MPU_BASE_REGION_M 0x00000007 // Region Number #define NVIC_MPU_BASE_ADDR_S 5 #define NVIC_MPU_BASE_REGION_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_ATTR register. // //***************************************************************************** #define NVIC_MPU_ATTR_XN 0x10000000 // Instruction Access Disable #define NVIC_MPU_ATTR_AP_M 0x07000000 // Access Privilege #define NVIC_MPU_ATTR_TEX_M 0x00380000 // Type Extension Mask #define NVIC_MPU_ATTR_SHAREABLE 0x00040000 // Shareable #define NVIC_MPU_ATTR_CACHEABLE 0x00020000 // Cacheable #define NVIC_MPU_ATTR_BUFFRABLE 0x00010000 // Bufferable #define NVIC_MPU_ATTR_SRD_M 0x0000FF00 // Subregion Disable Bits #define NVIC_MPU_ATTR_SIZE_M 0x0000003E // Region Size Mask #define NVIC_MPU_ATTR_ENABLE 0x00000001 // Region Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_BASE1 register. // //***************************************************************************** #define NVIC_MPU_BASE1_ADDR_M 0xFFFFFFE0 // Base Address Mask #define NVIC_MPU_BASE1_VALID 0x00000010 // Region Number Valid #define NVIC_MPU_BASE1_REGION_M 0x00000007 // Region Number #define NVIC_MPU_BASE1_ADDR_S 5 #define NVIC_MPU_BASE1_REGION_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_ATTR1 register. // //***************************************************************************** #define NVIC_MPU_ATTR1_XN 0x10000000 // Instruction Access Disable #define NVIC_MPU_ATTR1_AP_M 0x07000000 // Access Privilege #define NVIC_MPU_ATTR1_TEX_M 0x00380000 // Type Extension Mask #define NVIC_MPU_ATTR1_SHAREABLE \ 0x00040000 // Shareable #define NVIC_MPU_ATTR1_CACHEABLE \ 0x00020000 // Cacheable #define NVIC_MPU_ATTR1_BUFFRABLE \ 0x00010000 // Bufferable #define NVIC_MPU_ATTR1_SRD_M 0x0000FF00 // Subregion Disable Bits #define NVIC_MPU_ATTR1_SIZE_M 0x0000003E // Region Size Mask #define NVIC_MPU_ATTR1_ENABLE 0x00000001 // Region Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_BASE2 register. // //***************************************************************************** #define NVIC_MPU_BASE2_ADDR_M 0xFFFFFFE0 // Base Address Mask #define NVIC_MPU_BASE2_VALID 0x00000010 // Region Number Valid #define NVIC_MPU_BASE2_REGION_M 0x00000007 // Region Number #define NVIC_MPU_BASE2_ADDR_S 5 #define NVIC_MPU_BASE2_REGION_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_ATTR2 register. // //***************************************************************************** #define NVIC_MPU_ATTR2_XN 0x10000000 // Instruction Access Disable #define NVIC_MPU_ATTR2_AP_M 0x07000000 // Access Privilege #define NVIC_MPU_ATTR2_TEX_M 0x00380000 // Type Extension Mask #define NVIC_MPU_ATTR2_SHAREABLE \ 0x00040000 // Shareable #define NVIC_MPU_ATTR2_CACHEABLE \ 0x00020000 // Cacheable #define NVIC_MPU_ATTR2_BUFFRABLE \ 0x00010000 // Bufferable #define NVIC_MPU_ATTR2_SRD_M 0x0000FF00 // Subregion Disable Bits #define NVIC_MPU_ATTR2_SIZE_M 0x0000003E // Region Size Mask #define NVIC_MPU_ATTR2_ENABLE 0x00000001 // Region Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_BASE3 register. // //***************************************************************************** #define NVIC_MPU_BASE3_ADDR_M 0xFFFFFFE0 // Base Address Mask #define NVIC_MPU_BASE3_VALID 0x00000010 // Region Number Valid #define NVIC_MPU_BASE3_REGION_M 0x00000007 // Region Number #define NVIC_MPU_BASE3_ADDR_S 5 #define NVIC_MPU_BASE3_REGION_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_MPU_ATTR3 register. // //***************************************************************************** #define NVIC_MPU_ATTR3_XN 0x10000000 // Instruction Access Disable #define NVIC_MPU_ATTR3_AP_M 0x07000000 // Access Privilege #define NVIC_MPU_ATTR3_TEX_M 0x00380000 // Type Extension Mask #define NVIC_MPU_ATTR3_SHAREABLE \ 0x00040000 // Shareable #define NVIC_MPU_ATTR3_CACHEABLE \ 0x00020000 // Cacheable #define NVIC_MPU_ATTR3_BUFFRABLE \ 0x00010000 // Bufferable #define NVIC_MPU_ATTR3_SRD_M 0x0000FF00 // Subregion Disable Bits #define NVIC_MPU_ATTR3_SIZE_M 0x0000003E // Region Size Mask #define NVIC_MPU_ATTR3_ENABLE 0x00000001 // Region Enable //***************************************************************************** // // The following are defines for the bit fields in the NVIC_DBG_CTRL register. // //***************************************************************************** #define NVIC_DBG_CTRL_DBGKEY_M 0xFFFF0000 // Debug key mask #define NVIC_DBG_CTRL_DBGKEY 0xA05F0000 // Debug key #define NVIC_DBG_CTRL_S_RESET_ST \ 0x02000000 // Core has reset since last read #define NVIC_DBG_CTRL_S_RETIRE_ST \ 0x01000000 // Core has executed insruction // since last read #define NVIC_DBG_CTRL_S_LOCKUP 0x00080000 // Core is locked up #define NVIC_DBG_CTRL_S_SLEEP 0x00040000 // Core is sleeping #define NVIC_DBG_CTRL_S_HALT 0x00020000 // Core status on halt #define NVIC_DBG_CTRL_S_REGRDY 0x00010000 // Register read/write available #define NVIC_DBG_CTRL_C_SNAPSTALL \ 0x00000020 // Breaks a stalled load/store #define NVIC_DBG_CTRL_C_MASKINT 0x00000008 // Mask interrupts when stepping #define NVIC_DBG_CTRL_C_STEP 0x00000004 // Step the core #define NVIC_DBG_CTRL_C_HALT 0x00000002 // Halt the core #define NVIC_DBG_CTRL_C_DEBUGEN 0x00000001 // Enable debug //***************************************************************************** // // The following are defines for the bit fields in the NVIC_DBG_XFER register. // //***************************************************************************** #define NVIC_DBG_XFER_REG_WNR 0x00010000 // Write or not read #define NVIC_DBG_XFER_REG_SEL_M 0x0000001F // Register #define NVIC_DBG_XFER_REG_R0 0x00000000 // Register R0 #define NVIC_DBG_XFER_REG_R1 0x00000001 // Register R1 #define NVIC_DBG_XFER_REG_R2 0x00000002 // Register R2 #define NVIC_DBG_XFER_REG_R3 0x00000003 // Register R3 #define NVIC_DBG_XFER_REG_R4 0x00000004 // Register R4 #define NVIC_DBG_XFER_REG_R5 0x00000005 // Register R5 #define NVIC_DBG_XFER_REG_R6 0x00000006 // Register R6 #define NVIC_DBG_XFER_REG_R7 0x00000007 // Register R7 #define NVIC_DBG_XFER_REG_R8 0x00000008 // Register R8 #define NVIC_DBG_XFER_REG_R9 0x00000009 // Register R9 #define NVIC_DBG_XFER_REG_R10 0x0000000A // Register R10 #define NVIC_DBG_XFER_REG_R11 0x0000000B // Register R11 #define NVIC_DBG_XFER_REG_R12 0x0000000C // Register R12 #define NVIC_DBG_XFER_REG_R13 0x0000000D // Register R13 #define NVIC_DBG_XFER_REG_R14 0x0000000E // Register R14 #define NVIC_DBG_XFER_REG_R15 0x0000000F // Register R15 #define NVIC_DBG_XFER_REG_FLAGS 0x00000010 // xPSR/Flags register #define NVIC_DBG_XFER_REG_MSP 0x00000011 // Main SP #define NVIC_DBG_XFER_REG_PSP 0x00000012 // Process SP #define NVIC_DBG_XFER_REG_DSP 0x00000013 // Deep SP #define NVIC_DBG_XFER_REG_CFBP 0x00000014 // Control/Fault/BasePri/PriMask //***************************************************************************** // // The following are defines for the bit fields in the NVIC_DBG_DATA register. // //***************************************************************************** #define NVIC_DBG_DATA_M 0xFFFFFFFF // Data temporary cache #define NVIC_DBG_DATA_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_DBG_INT register. // //***************************************************************************** #define NVIC_DBG_INT_HARDERR 0x00000400 // Debug trap on hard fault #define NVIC_DBG_INT_INTERR 0x00000200 // Debug trap on interrupt errors #define NVIC_DBG_INT_BUSERR 0x00000100 // Debug trap on bus error #define NVIC_DBG_INT_STATERR 0x00000080 // Debug trap on usage fault state #define NVIC_DBG_INT_CHKERR 0x00000040 // Debug trap on usage fault check #define NVIC_DBG_INT_NOCPERR 0x00000020 // Debug trap on coprocessor error #define NVIC_DBG_INT_MMERR 0x00000010 // Debug trap on mem manage fault #define NVIC_DBG_INT_RESET 0x00000008 // Core reset status #define NVIC_DBG_INT_RSTPENDCLR 0x00000004 // Clear pending core reset #define NVIC_DBG_INT_RSTPENDING 0x00000002 // Core reset is pending #define NVIC_DBG_INT_RSTVCATCH 0x00000001 // Reset vector catch //***************************************************************************** // // The following are defines for the bit fields in the NVIC_SW_TRIG register. // //***************************************************************************** #define NVIC_SW_TRIG_INTID_M 0x000000FF // Interrupt ID #define NVIC_SW_TRIG_INTID_S 0 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_FPCC register. // //***************************************************************************** #define NVIC_FPCC_ASPEN 0x80000000 // Automatic State Preservation // Enable #define NVIC_FPCC_LSPEN 0x40000000 // Lazy State Preservation Enable #define NVIC_FPCC_MONRDY 0x00000100 // Monitor Ready #define NVIC_FPCC_BFRDY 0x00000040 // Bus Fault Ready #define NVIC_FPCC_MMRDY 0x00000020 // Memory Management Fault Ready #define NVIC_FPCC_HFRDY 0x00000010 // Hard Fault Ready #define NVIC_FPCC_THREAD 0x00000008 // Thread Mode #define NVIC_FPCC_USER 0x00000002 // User Privilege Level #define NVIC_FPCC_LSPACT 0x00000001 // Lazy State Preservation Active //***************************************************************************** // // The following are defines for the bit fields in the NVIC_FPCA register. // //***************************************************************************** #define NVIC_FPCA_ADDRESS_M 0xFFFFFFF8 // Address #define NVIC_FPCA_ADDRESS_S 3 //***************************************************************************** // // The following are defines for the bit fields in the NVIC_FPDSC register. // //***************************************************************************** #define NVIC_FPDSC_AHP 0x04000000 // AHP Bit Default #define NVIC_FPDSC_DN 0x02000000 // DN Bit Default #define NVIC_FPDSC_FZ 0x01000000 // FZ Bit Default #define NVIC_FPDSC_RMODE_M 0x00C00000 // RMODE Bit Default #define NVIC_FPDSC_RMODE_RN 0x00000000 // Round to Nearest (RN) mode #define NVIC_FPDSC_RMODE_RP 0x00400000 // Round towards Plus Infinity (RP) // mode #define NVIC_FPDSC_RMODE_RM 0x00800000 // Round towards Minus Infinity // (RM) mode #define NVIC_FPDSC_RMODE_RZ 0x00C00000 // Round towards Zero (RZ) mode //***************************************************************************** // // The following definitions are deprecated. // //***************************************************************************** #ifndef DEPRECATED #define SYSCTL_DID0_CLASS_SNOWFLAKE \ 0x000A0000 // Tiva(TM) C Series TM4C129-class // microcontrollers //***************************************************************************** // // Deprecated defines for the bit fields in the SYSCTL_PWRTC register. // //***************************************************************************** #define SYSCTL_PWRTC_VDDA_UBOR0 0x00000010 // VDDA Under BOR0 Status #define SYSCTL_PWRTC_VDD_UBOR0 0x00000001 // VDD Under BOR0 Status #endif #endif // __TM4C1294NCPDT_H__