//***************************************************************************** // // am_reg_adc.h //! @file //! //! @brief Register macros for the ADC module // //***************************************************************************** //***************************************************************************** // // Copyright (c) 2017, Ambiq Micro // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // 2. 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. // // 3. Neither the name of the copyright holder 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 HOLDER 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 1.2.11 of the AmbiqSuite Development Package. // //***************************************************************************** #ifndef AM_REG_ADC_H #define AM_REG_ADC_H //***************************************************************************** // // Instance finder. (1 instance(s) available) // //***************************************************************************** #define AM_REG_ADC_NUM_MODULES 1 #define AM_REG_ADCn(n) \ (REG_ADC_BASEADDR + 0x00000000 * n) //***************************************************************************** // // Register offsets. // //***************************************************************************** #define AM_REG_ADC_CFG_O 0x00000000 #define AM_REG_ADC_STAT_O 0x00000004 #define AM_REG_ADC_SWT_O 0x00000008 #define AM_REG_ADC_SL0CFG_O 0x0000000C #define AM_REG_ADC_SL1CFG_O 0x00000010 #define AM_REG_ADC_SL2CFG_O 0x00000014 #define AM_REG_ADC_SL3CFG_O 0x00000018 #define AM_REG_ADC_SL4CFG_O 0x0000001C #define AM_REG_ADC_SL5CFG_O 0x00000020 #define AM_REG_ADC_SL6CFG_O 0x00000024 #define AM_REG_ADC_SL7CFG_O 0x00000028 #define AM_REG_ADC_WULIM_O 0x0000002C #define AM_REG_ADC_WLLIM_O 0x00000030 #define AM_REG_ADC_FIFO_O 0x00000038 #define AM_REG_ADC_INTEN_O 0x00000200 #define AM_REG_ADC_INTSTAT_O 0x00000204 #define AM_REG_ADC_INTCLR_O 0x00000208 #define AM_REG_ADC_INTSET_O 0x0000020C //***************************************************************************** // // ADC_INTEN - ADC Interrupt registers: Enable // //***************************************************************************** // Window comparator voltage incursion interrupt. #define AM_REG_ADC_INTEN_WCINC_S 5 #define AM_REG_ADC_INTEN_WCINC_M 0x00000020 #define AM_REG_ADC_INTEN_WCINC(n) (((uint32_t)(n) << 5) & 0x00000020) #define AM_REG_ADC_INTEN_WCINC_WCINCINT 0x00000020 // Window comparator voltage excursion interrupt. #define AM_REG_ADC_INTEN_WCEXC_S 4 #define AM_REG_ADC_INTEN_WCEXC_M 0x00000010 #define AM_REG_ADC_INTEN_WCEXC(n) (((uint32_t)(n) << 4) & 0x00000010) #define AM_REG_ADC_INTEN_WCEXC_WCEXCINT 0x00000010 // FIFO 100 percent full interrupt. #define AM_REG_ADC_INTEN_FIFOOVR2_S 3 #define AM_REG_ADC_INTEN_FIFOOVR2_M 0x00000008 #define AM_REG_ADC_INTEN_FIFOOVR2(n) (((uint32_t)(n) << 3) & 0x00000008) #define AM_REG_ADC_INTEN_FIFOOVR2_FIFOFULLINT 0x00000008 // FIFO 75 percent full interrupt. #define AM_REG_ADC_INTEN_FIFOOVR1_S 2 #define AM_REG_ADC_INTEN_FIFOOVR1_M 0x00000004 #define AM_REG_ADC_INTEN_FIFOOVR1(n) (((uint32_t)(n) << 2) & 0x00000004) #define AM_REG_ADC_INTEN_FIFOOVR1_FIFO75INT 0x00000004 // ADC scan complete interrupt. #define AM_REG_ADC_INTEN_SCNCMP_S 1 #define AM_REG_ADC_INTEN_SCNCMP_M 0x00000002 #define AM_REG_ADC_INTEN_SCNCMP(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_INTEN_SCNCMP_SCNCMPINT 0x00000002 // ADC conversion complete interrupt. #define AM_REG_ADC_INTEN_CNVCMP_S 0 #define AM_REG_ADC_INTEN_CNVCMP_M 0x00000001 #define AM_REG_ADC_INTEN_CNVCMP(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_INTEN_CNVCMP_CNVCMPINT 0x00000001 //***************************************************************************** // // ADC_INTSTAT - ADC Interrupt registers: Status // //***************************************************************************** // Window comparator voltage incursion interrupt. #define AM_REG_ADC_INTSTAT_WCINC_S 5 #define AM_REG_ADC_INTSTAT_WCINC_M 0x00000020 #define AM_REG_ADC_INTSTAT_WCINC(n) (((uint32_t)(n) << 5) & 0x00000020) #define AM_REG_ADC_INTSTAT_WCINC_WCINCINT 0x00000020 // Window comparator voltage excursion interrupt. #define AM_REG_ADC_INTSTAT_WCEXC_S 4 #define AM_REG_ADC_INTSTAT_WCEXC_M 0x00000010 #define AM_REG_ADC_INTSTAT_WCEXC(n) (((uint32_t)(n) << 4) & 0x00000010) #define AM_REG_ADC_INTSTAT_WCEXC_WCEXCINT 0x00000010 // FIFO 100 percent full interrupt. #define AM_REG_ADC_INTSTAT_FIFOOVR2_S 3 #define AM_REG_ADC_INTSTAT_FIFOOVR2_M 0x00000008 #define AM_REG_ADC_INTSTAT_FIFOOVR2(n) (((uint32_t)(n) << 3) & 0x00000008) #define AM_REG_ADC_INTSTAT_FIFOOVR2_FIFOFULLINT 0x00000008 // FIFO 75 percent full interrupt. #define AM_REG_ADC_INTSTAT_FIFOOVR1_S 2 #define AM_REG_ADC_INTSTAT_FIFOOVR1_M 0x00000004 #define AM_REG_ADC_INTSTAT_FIFOOVR1(n) (((uint32_t)(n) << 2) & 0x00000004) #define AM_REG_ADC_INTSTAT_FIFOOVR1_FIFO75INT 0x00000004 // ADC scan complete interrupt. #define AM_REG_ADC_INTSTAT_SCNCMP_S 1 #define AM_REG_ADC_INTSTAT_SCNCMP_M 0x00000002 #define AM_REG_ADC_INTSTAT_SCNCMP(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_INTSTAT_SCNCMP_SCNCMPINT 0x00000002 // ADC conversion complete interrupt. #define AM_REG_ADC_INTSTAT_CNVCMP_S 0 #define AM_REG_ADC_INTSTAT_CNVCMP_M 0x00000001 #define AM_REG_ADC_INTSTAT_CNVCMP(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_INTSTAT_CNVCMP_CNVCMPINT 0x00000001 //***************************************************************************** // // ADC_INTCLR - ADC Interrupt registers: Clear // //***************************************************************************** // Window comparator voltage incursion interrupt. #define AM_REG_ADC_INTCLR_WCINC_S 5 #define AM_REG_ADC_INTCLR_WCINC_M 0x00000020 #define AM_REG_ADC_INTCLR_WCINC(n) (((uint32_t)(n) << 5) & 0x00000020) #define AM_REG_ADC_INTCLR_WCINC_WCINCINT 0x00000020 // Window comparator voltage excursion interrupt. #define AM_REG_ADC_INTCLR_WCEXC_S 4 #define AM_REG_ADC_INTCLR_WCEXC_M 0x00000010 #define AM_REG_ADC_INTCLR_WCEXC(n) (((uint32_t)(n) << 4) & 0x00000010) #define AM_REG_ADC_INTCLR_WCEXC_WCEXCINT 0x00000010 // FIFO 100 percent full interrupt. #define AM_REG_ADC_INTCLR_FIFOOVR2_S 3 #define AM_REG_ADC_INTCLR_FIFOOVR2_M 0x00000008 #define AM_REG_ADC_INTCLR_FIFOOVR2(n) (((uint32_t)(n) << 3) & 0x00000008) #define AM_REG_ADC_INTCLR_FIFOOVR2_FIFOFULLINT 0x00000008 // FIFO 75 percent full interrupt. #define AM_REG_ADC_INTCLR_FIFOOVR1_S 2 #define AM_REG_ADC_INTCLR_FIFOOVR1_M 0x00000004 #define AM_REG_ADC_INTCLR_FIFOOVR1(n) (((uint32_t)(n) << 2) & 0x00000004) #define AM_REG_ADC_INTCLR_FIFOOVR1_FIFO75INT 0x00000004 // ADC scan complete interrupt. #define AM_REG_ADC_INTCLR_SCNCMP_S 1 #define AM_REG_ADC_INTCLR_SCNCMP_M 0x00000002 #define AM_REG_ADC_INTCLR_SCNCMP(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_INTCLR_SCNCMP_SCNCMPINT 0x00000002 // ADC conversion complete interrupt. #define AM_REG_ADC_INTCLR_CNVCMP_S 0 #define AM_REG_ADC_INTCLR_CNVCMP_M 0x00000001 #define AM_REG_ADC_INTCLR_CNVCMP(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_INTCLR_CNVCMP_CNVCMPINT 0x00000001 //***************************************************************************** // // ADC_INTSET - ADC Interrupt registers: Set // //***************************************************************************** // Window comparator voltage incursion interrupt. #define AM_REG_ADC_INTSET_WCINC_S 5 #define AM_REG_ADC_INTSET_WCINC_M 0x00000020 #define AM_REG_ADC_INTSET_WCINC(n) (((uint32_t)(n) << 5) & 0x00000020) #define AM_REG_ADC_INTSET_WCINC_WCINCINT 0x00000020 // Window comparator voltage excursion interrupt. #define AM_REG_ADC_INTSET_WCEXC_S 4 #define AM_REG_ADC_INTSET_WCEXC_M 0x00000010 #define AM_REG_ADC_INTSET_WCEXC(n) (((uint32_t)(n) << 4) & 0x00000010) #define AM_REG_ADC_INTSET_WCEXC_WCEXCINT 0x00000010 // FIFO 100 percent full interrupt. #define AM_REG_ADC_INTSET_FIFOOVR2_S 3 #define AM_REG_ADC_INTSET_FIFOOVR2_M 0x00000008 #define AM_REG_ADC_INTSET_FIFOOVR2(n) (((uint32_t)(n) << 3) & 0x00000008) #define AM_REG_ADC_INTSET_FIFOOVR2_FIFOFULLINT 0x00000008 // FIFO 75 percent full interrupt. #define AM_REG_ADC_INTSET_FIFOOVR1_S 2 #define AM_REG_ADC_INTSET_FIFOOVR1_M 0x00000004 #define AM_REG_ADC_INTSET_FIFOOVR1(n) (((uint32_t)(n) << 2) & 0x00000004) #define AM_REG_ADC_INTSET_FIFOOVR1_FIFO75INT 0x00000004 // ADC scan complete interrupt. #define AM_REG_ADC_INTSET_SCNCMP_S 1 #define AM_REG_ADC_INTSET_SCNCMP_M 0x00000002 #define AM_REG_ADC_INTSET_SCNCMP(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_INTSET_SCNCMP_SCNCMPINT 0x00000002 // ADC conversion complete interrupt. #define AM_REG_ADC_INTSET_CNVCMP_S 0 #define AM_REG_ADC_INTSET_CNVCMP_M 0x00000001 #define AM_REG_ADC_INTSET_CNVCMP(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_INTSET_CNVCMP_CNVCMPINT 0x00000001 //***************************************************************************** // // ADC_CFG - Configuration Register // //***************************************************************************** // Select the source and frequency for the ADC clock. All values not enumerated // below are undefined. #define AM_REG_ADC_CFG_CLKSEL_S 24 #define AM_REG_ADC_CFG_CLKSEL_M 0x03000000 #define AM_REG_ADC_CFG_CLKSEL(n) (((uint32_t)(n) << 24) & 0x03000000) #define AM_REG_ADC_CFG_CLKSEL_OFF 0x00000000 #define AM_REG_ADC_CFG_CLKSEL_HFRC 0x01000000 #define AM_REG_ADC_CFG_CLKSEL_HFRC_DIV2 0x02000000 // This bit selects the ADC trigger polarity for external off chip triggers. #define AM_REG_ADC_CFG_TRIGPOL_S 19 #define AM_REG_ADC_CFG_TRIGPOL_M 0x00080000 #define AM_REG_ADC_CFG_TRIGPOL(n) (((uint32_t)(n) << 19) & 0x00080000) #define AM_REG_ADC_CFG_TRIGPOL_RISING_EDGE 0x00000000 #define AM_REG_ADC_CFG_TRIGPOL_FALLING_EDGE 0x00080000 // Select the ADC trigger source. #define AM_REG_ADC_CFG_TRIGSEL_S 16 #define AM_REG_ADC_CFG_TRIGSEL_M 0x00070000 #define AM_REG_ADC_CFG_TRIGSEL(n) (((uint32_t)(n) << 16) & 0x00070000) #define AM_REG_ADC_CFG_TRIGSEL_EXT0 0x00000000 #define AM_REG_ADC_CFG_TRIGSEL_EXT1 0x00010000 #define AM_REG_ADC_CFG_TRIGSEL_EXT2 0x00020000 #define AM_REG_ADC_CFG_TRIGSEL_EXT3 0x00030000 #define AM_REG_ADC_CFG_TRIGSEL_VCOMP 0x00040000 #define AM_REG_ADC_CFG_TRIGSEL_SWT 0x00070000 // Select the ADC reference voltage. #define AM_REG_ADC_CFG_REFSEL_S 8 #define AM_REG_ADC_CFG_REFSEL_M 0x00000300 #define AM_REG_ADC_CFG_REFSEL(n) (((uint32_t)(n) << 8) & 0x00000300) #define AM_REG_ADC_CFG_REFSEL_INT2P0 0x00000000 #define AM_REG_ADC_CFG_REFSEL_INT1P5 0x00000100 #define AM_REG_ADC_CFG_REFSEL_EXT2P0 0x00000200 #define AM_REG_ADC_CFG_REFSEL_EXT1P5 0x00000300 // Clock mode register #define AM_REG_ADC_CFG_CKMODE_S 4 #define AM_REG_ADC_CFG_CKMODE_M 0x00000010 #define AM_REG_ADC_CFG_CKMODE(n) (((uint32_t)(n) << 4) & 0x00000010) #define AM_REG_ADC_CFG_CKMODE_LPCKMODE 0x00000000 #define AM_REG_ADC_CFG_CKMODE_LLCKMODE 0x00000010 // Select power mode to enter between active scans. #define AM_REG_ADC_CFG_LPMODE_S 3 #define AM_REG_ADC_CFG_LPMODE_M 0x00000008 #define AM_REG_ADC_CFG_LPMODE(n) (((uint32_t)(n) << 3) & 0x00000008) #define AM_REG_ADC_CFG_LPMODE_MODE0 0x00000000 #define AM_REG_ADC_CFG_LPMODE_MODE1 0x00000008 // This bit enables Repeating Scan Mode. #define AM_REG_ADC_CFG_RPTEN_S 2 #define AM_REG_ADC_CFG_RPTEN_M 0x00000004 #define AM_REG_ADC_CFG_RPTEN(n) (((uint32_t)(n) << 2) & 0x00000004) #define AM_REG_ADC_CFG_RPTEN_SINGLE_SCAN 0x00000000 #define AM_REG_ADC_CFG_RPTEN_REPEATING_SCAN 0x00000004 // This bit enables the ADC module. While the ADC is enabled, the ADCCFG and // SLOT Configuration regsiter settings must remain stable and unchanged. All // configuration register settings, slot configuration settings and window // comparison settings should be written prior to setting the ADCEN bit to '1'. #define AM_REG_ADC_CFG_ADCEN_S 0 #define AM_REG_ADC_CFG_ADCEN_M 0x00000001 #define AM_REG_ADC_CFG_ADCEN(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_CFG_ADCEN_DIS 0x00000000 #define AM_REG_ADC_CFG_ADCEN_EN 0x00000001 //***************************************************************************** // // ADC_STAT - ADC Power Status // //***************************************************************************** // Indicates the power-status of the ADC. #define AM_REG_ADC_STAT_PWDSTAT_S 0 #define AM_REG_ADC_STAT_PWDSTAT_M 0x00000001 #define AM_REG_ADC_STAT_PWDSTAT(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_STAT_PWDSTAT_ON 0x00000000 #define AM_REG_ADC_STAT_PWDSTAT_POWERED_DOWN 0x00000001 //***************************************************************************** // // ADC_SWT - Software trigger // //***************************************************************************** // Writing 0x37 to this register generates a software trigger. #define AM_REG_ADC_SWT_SWT_S 0 #define AM_REG_ADC_SWT_SWT_M 0x000000FF #define AM_REG_ADC_SWT_SWT(n) (((uint32_t)(n) << 0) & 0x000000FF) #define AM_REG_ADC_SWT_SWT_GEN_SW_TRIGGER 0x00000037 //***************************************************************************** // // ADC_SL0CFG - Slot 0 Configuration Register // //***************************************************************************** // Select the number of measurements to average in the accumulate divide module // for this slot. #define AM_REG_ADC_SL0CFG_ADSEL0_S 24 #define AM_REG_ADC_SL0CFG_ADSEL0_M 0x07000000 #define AM_REG_ADC_SL0CFG_ADSEL0(n) (((uint32_t)(n) << 24) & 0x07000000) #define AM_REG_ADC_SL0CFG_ADSEL0_AVG_1_MSRMT 0x00000000 #define AM_REG_ADC_SL0CFG_ADSEL0_AVG_2_MSRMTS 0x01000000 #define AM_REG_ADC_SL0CFG_ADSEL0_AVG_4_MSRMTS 0x02000000 #define AM_REG_ADC_SL0CFG_ADSEL0_AVG_8_MSRMT 0x03000000 #define AM_REG_ADC_SL0CFG_ADSEL0_AVG_16_MSRMTS 0x04000000 #define AM_REG_ADC_SL0CFG_ADSEL0_AVG_32_MSRMTS 0x05000000 #define AM_REG_ADC_SL0CFG_ADSEL0_AVG_64_MSRMTS 0x06000000 #define AM_REG_ADC_SL0CFG_ADSEL0_AVG_128_MSRMTS 0x07000000 // Set the Precision Mode For Slot. #define AM_REG_ADC_SL0CFG_PRMODE0_S 16 #define AM_REG_ADC_SL0CFG_PRMODE0_M 0x00030000 #define AM_REG_ADC_SL0CFG_PRMODE0(n) (((uint32_t)(n) << 16) & 0x00030000) #define AM_REG_ADC_SL0CFG_PRMODE0_P14B 0x00000000 #define AM_REG_ADC_SL0CFG_PRMODE0_P12B 0x00010000 #define AM_REG_ADC_SL0CFG_PRMODE0_P10B 0x00020000 #define AM_REG_ADC_SL0CFG_PRMODE0_P8B 0x00030000 // Select one of the 14 channel inputs for this slot. #define AM_REG_ADC_SL0CFG_CHSEL0_S 8 #define AM_REG_ADC_SL0CFG_CHSEL0_M 0x00000F00 #define AM_REG_ADC_SL0CFG_CHSEL0(n) (((uint32_t)(n) << 8) & 0x00000F00) #define AM_REG_ADC_SL0CFG_CHSEL0_SE0 0x00000000 #define AM_REG_ADC_SL0CFG_CHSEL0_SE1 0x00000100 #define AM_REG_ADC_SL0CFG_CHSEL0_SE2 0x00000200 #define AM_REG_ADC_SL0CFG_CHSEL0_SE3 0x00000300 #define AM_REG_ADC_SL0CFG_CHSEL0_SE4 0x00000400 #define AM_REG_ADC_SL0CFG_CHSEL0_SE5 0x00000500 #define AM_REG_ADC_SL0CFG_CHSEL0_SE6 0x00000600 #define AM_REG_ADC_SL0CFG_CHSEL0_SE7 0x00000700 #define AM_REG_ADC_SL0CFG_CHSEL0_SE8 0x00000800 #define AM_REG_ADC_SL0CFG_CHSEL0_SE9 0x00000900 #define AM_REG_ADC_SL0CFG_CHSEL0_DF0 0x00000A00 #define AM_REG_ADC_SL0CFG_CHSEL0_DF1 0x00000B00 #define AM_REG_ADC_SL0CFG_CHSEL0_TEMP 0x00000C00 #define AM_REG_ADC_SL0CFG_CHSEL0_BATT 0x00000D00 #define AM_REG_ADC_SL0CFG_CHSEL0_VSS 0x00000E00 // This bit enables the window compare function for slot 0. #define AM_REG_ADC_SL0CFG_WCEN0_S 1 #define AM_REG_ADC_SL0CFG_WCEN0_M 0x00000002 #define AM_REG_ADC_SL0CFG_WCEN0(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_SL0CFG_WCEN0_WCEN 0x00000002 // This bit enables slot 0 for ADC conversions. #define AM_REG_ADC_SL0CFG_SLEN0_S 0 #define AM_REG_ADC_SL0CFG_SLEN0_M 0x00000001 #define AM_REG_ADC_SL0CFG_SLEN0(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_SL0CFG_SLEN0_SLEN 0x00000001 //***************************************************************************** // // ADC_SL1CFG - Slot 1 Configuration Register // //***************************************************************************** // Select the number of measurements to average in the accumulate divide module // for this slot. #define AM_REG_ADC_SL1CFG_ADSEL1_S 24 #define AM_REG_ADC_SL1CFG_ADSEL1_M 0x07000000 #define AM_REG_ADC_SL1CFG_ADSEL1(n) (((uint32_t)(n) << 24) & 0x07000000) #define AM_REG_ADC_SL1CFG_ADSEL1_AVG_1_MSRMT 0x00000000 #define AM_REG_ADC_SL1CFG_ADSEL1_AVG_2_MSRMTS 0x01000000 #define AM_REG_ADC_SL1CFG_ADSEL1_AVG_4_MSRMTS 0x02000000 #define AM_REG_ADC_SL1CFG_ADSEL1_AVG_8_MSRMT 0x03000000 #define AM_REG_ADC_SL1CFG_ADSEL1_AVG_16_MSRMTS 0x04000000 #define AM_REG_ADC_SL1CFG_ADSEL1_AVG_32_MSRMTS 0x05000000 #define AM_REG_ADC_SL1CFG_ADSEL1_AVG_64_MSRMTS 0x06000000 #define AM_REG_ADC_SL1CFG_ADSEL1_AVG_128_MSRMTS 0x07000000 // Set the Precision Mode For Slot. #define AM_REG_ADC_SL1CFG_PRMODE1_S 16 #define AM_REG_ADC_SL1CFG_PRMODE1_M 0x00030000 #define AM_REG_ADC_SL1CFG_PRMODE1(n) (((uint32_t)(n) << 16) & 0x00030000) #define AM_REG_ADC_SL1CFG_PRMODE1_P14B 0x00000000 #define AM_REG_ADC_SL1CFG_PRMODE1_P12B 0x00010000 #define AM_REG_ADC_SL1CFG_PRMODE1_P10B 0x00020000 #define AM_REG_ADC_SL1CFG_PRMODE1_P8B 0x00030000 // Select one of the 14 channel inputs for this slot. #define AM_REG_ADC_SL1CFG_CHSEL1_S 8 #define AM_REG_ADC_SL1CFG_CHSEL1_M 0x00000F00 #define AM_REG_ADC_SL1CFG_CHSEL1(n) (((uint32_t)(n) << 8) & 0x00000F00) #define AM_REG_ADC_SL1CFG_CHSEL1_SE0 0x00000000 #define AM_REG_ADC_SL1CFG_CHSEL1_SE1 0x00000100 #define AM_REG_ADC_SL1CFG_CHSEL1_SE2 0x00000200 #define AM_REG_ADC_SL1CFG_CHSEL1_SE3 0x00000300 #define AM_REG_ADC_SL1CFG_CHSEL1_SE4 0x00000400 #define AM_REG_ADC_SL1CFG_CHSEL1_SE5 0x00000500 #define AM_REG_ADC_SL1CFG_CHSEL1_SE6 0x00000600 #define AM_REG_ADC_SL1CFG_CHSEL1_SE7 0x00000700 #define AM_REG_ADC_SL1CFG_CHSEL1_SE8 0x00000800 #define AM_REG_ADC_SL1CFG_CHSEL1_SE9 0x00000900 #define AM_REG_ADC_SL1CFG_CHSEL1_DF0 0x00000A00 #define AM_REG_ADC_SL1CFG_CHSEL1_DF1 0x00000B00 #define AM_REG_ADC_SL1CFG_CHSEL1_TEMP 0x00000C00 #define AM_REG_ADC_SL1CFG_CHSEL1_BATT 0x00000D00 #define AM_REG_ADC_SL1CFG_CHSEL1_VSS 0x00000E00 // This bit enables the window compare function for slot 1. #define AM_REG_ADC_SL1CFG_WCEN1_S 1 #define AM_REG_ADC_SL1CFG_WCEN1_M 0x00000002 #define AM_REG_ADC_SL1CFG_WCEN1(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_SL1CFG_WCEN1_WCEN 0x00000002 // This bit enables slot 1 for ADC conversions. #define AM_REG_ADC_SL1CFG_SLEN1_S 0 #define AM_REG_ADC_SL1CFG_SLEN1_M 0x00000001 #define AM_REG_ADC_SL1CFG_SLEN1(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_SL1CFG_SLEN1_SLEN 0x00000001 //***************************************************************************** // // ADC_SL2CFG - Slot 2 Configuration Register // //***************************************************************************** // Select the number of measurements to average in the accumulate divide module // for this slot. #define AM_REG_ADC_SL2CFG_ADSEL2_S 24 #define AM_REG_ADC_SL2CFG_ADSEL2_M 0x07000000 #define AM_REG_ADC_SL2CFG_ADSEL2(n) (((uint32_t)(n) << 24) & 0x07000000) #define AM_REG_ADC_SL2CFG_ADSEL2_AVG_1_MSRMT 0x00000000 #define AM_REG_ADC_SL2CFG_ADSEL2_AVG_2_MSRMTS 0x01000000 #define AM_REG_ADC_SL2CFG_ADSEL2_AVG_4_MSRMTS 0x02000000 #define AM_REG_ADC_SL2CFG_ADSEL2_AVG_8_MSRMT 0x03000000 #define AM_REG_ADC_SL2CFG_ADSEL2_AVG_16_MSRMTS 0x04000000 #define AM_REG_ADC_SL2CFG_ADSEL2_AVG_32_MSRMTS 0x05000000 #define AM_REG_ADC_SL2CFG_ADSEL2_AVG_64_MSRMTS 0x06000000 #define AM_REG_ADC_SL2CFG_ADSEL2_AVG_128_MSRMTS 0x07000000 // Set the Precision Mode For Slot. #define AM_REG_ADC_SL2CFG_PRMODE2_S 16 #define AM_REG_ADC_SL2CFG_PRMODE2_M 0x00030000 #define AM_REG_ADC_SL2CFG_PRMODE2(n) (((uint32_t)(n) << 16) & 0x00030000) #define AM_REG_ADC_SL2CFG_PRMODE2_P14B 0x00000000 #define AM_REG_ADC_SL2CFG_PRMODE2_P12B 0x00010000 #define AM_REG_ADC_SL2CFG_PRMODE2_P10B 0x00020000 #define AM_REG_ADC_SL2CFG_PRMODE2_P8B 0x00030000 // Select one of the 14 channel inputs for this slot. #define AM_REG_ADC_SL2CFG_CHSEL2_S 8 #define AM_REG_ADC_SL2CFG_CHSEL2_M 0x00000F00 #define AM_REG_ADC_SL2CFG_CHSEL2(n) (((uint32_t)(n) << 8) & 0x00000F00) #define AM_REG_ADC_SL2CFG_CHSEL2_SE0 0x00000000 #define AM_REG_ADC_SL2CFG_CHSEL2_SE1 0x00000100 #define AM_REG_ADC_SL2CFG_CHSEL2_SE2 0x00000200 #define AM_REG_ADC_SL2CFG_CHSEL2_SE3 0x00000300 #define AM_REG_ADC_SL2CFG_CHSEL2_SE4 0x00000400 #define AM_REG_ADC_SL2CFG_CHSEL2_SE5 0x00000500 #define AM_REG_ADC_SL2CFG_CHSEL2_SE6 0x00000600 #define AM_REG_ADC_SL2CFG_CHSEL2_SE7 0x00000700 #define AM_REG_ADC_SL2CFG_CHSEL2_SE8 0x00000800 #define AM_REG_ADC_SL2CFG_CHSEL2_SE9 0x00000900 #define AM_REG_ADC_SL2CFG_CHSEL2_DF0 0x00000A00 #define AM_REG_ADC_SL2CFG_CHSEL2_DF1 0x00000B00 #define AM_REG_ADC_SL2CFG_CHSEL2_TEMP 0x00000C00 #define AM_REG_ADC_SL2CFG_CHSEL2_BATT 0x00000D00 #define AM_REG_ADC_SL2CFG_CHSEL2_VSS 0x00000E00 // This bit enables the window compare function for slot 2. #define AM_REG_ADC_SL2CFG_WCEN2_S 1 #define AM_REG_ADC_SL2CFG_WCEN2_M 0x00000002 #define AM_REG_ADC_SL2CFG_WCEN2(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_SL2CFG_WCEN2_WCEN 0x00000002 // This bit enables slot 2 for ADC conversions. #define AM_REG_ADC_SL2CFG_SLEN2_S 0 #define AM_REG_ADC_SL2CFG_SLEN2_M 0x00000001 #define AM_REG_ADC_SL2CFG_SLEN2(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_SL2CFG_SLEN2_SLEN 0x00000001 //***************************************************************************** // // ADC_SL3CFG - Slot 3 Configuration Register // //***************************************************************************** // Select the number of measurements to average in the accumulate divide module // for this slot. #define AM_REG_ADC_SL3CFG_ADSEL3_S 24 #define AM_REG_ADC_SL3CFG_ADSEL3_M 0x07000000 #define AM_REG_ADC_SL3CFG_ADSEL3(n) (((uint32_t)(n) << 24) & 0x07000000) #define AM_REG_ADC_SL3CFG_ADSEL3_AVG_1_MSRMT 0x00000000 #define AM_REG_ADC_SL3CFG_ADSEL3_AVG_2_MSRMTS 0x01000000 #define AM_REG_ADC_SL3CFG_ADSEL3_AVG_4_MSRMTS 0x02000000 #define AM_REG_ADC_SL3CFG_ADSEL3_AVG_8_MSRMT 0x03000000 #define AM_REG_ADC_SL3CFG_ADSEL3_AVG_16_MSRMTS 0x04000000 #define AM_REG_ADC_SL3CFG_ADSEL3_AVG_32_MSRMTS 0x05000000 #define AM_REG_ADC_SL3CFG_ADSEL3_AVG_64_MSRMTS 0x06000000 #define AM_REG_ADC_SL3CFG_ADSEL3_AVG_128_MSRMTS 0x07000000 // Set the Precision Mode For Slot. #define AM_REG_ADC_SL3CFG_PRMODE3_S 16 #define AM_REG_ADC_SL3CFG_PRMODE3_M 0x00030000 #define AM_REG_ADC_SL3CFG_PRMODE3(n) (((uint32_t)(n) << 16) & 0x00030000) #define AM_REG_ADC_SL3CFG_PRMODE3_P14B 0x00000000 #define AM_REG_ADC_SL3CFG_PRMODE3_P12B 0x00010000 #define AM_REG_ADC_SL3CFG_PRMODE3_P10B 0x00020000 #define AM_REG_ADC_SL3CFG_PRMODE3_P8B 0x00030000 // Select one of the 14 channel inputs for this slot. #define AM_REG_ADC_SL3CFG_CHSEL3_S 8 #define AM_REG_ADC_SL3CFG_CHSEL3_M 0x00000F00 #define AM_REG_ADC_SL3CFG_CHSEL3(n) (((uint32_t)(n) << 8) & 0x00000F00) #define AM_REG_ADC_SL3CFG_CHSEL3_SE0 0x00000000 #define AM_REG_ADC_SL3CFG_CHSEL3_SE1 0x00000100 #define AM_REG_ADC_SL3CFG_CHSEL3_SE2 0x00000200 #define AM_REG_ADC_SL3CFG_CHSEL3_SE3 0x00000300 #define AM_REG_ADC_SL3CFG_CHSEL3_SE4 0x00000400 #define AM_REG_ADC_SL3CFG_CHSEL3_SE5 0x00000500 #define AM_REG_ADC_SL3CFG_CHSEL3_SE6 0x00000600 #define AM_REG_ADC_SL3CFG_CHSEL3_SE7 0x00000700 #define AM_REG_ADC_SL3CFG_CHSEL3_SE8 0x00000800 #define AM_REG_ADC_SL3CFG_CHSEL3_SE9 0x00000900 #define AM_REG_ADC_SL3CFG_CHSEL3_DF0 0x00000A00 #define AM_REG_ADC_SL3CFG_CHSEL3_DF1 0x00000B00 #define AM_REG_ADC_SL3CFG_CHSEL3_TEMP 0x00000C00 #define AM_REG_ADC_SL3CFG_CHSEL3_BATT 0x00000D00 #define AM_REG_ADC_SL3CFG_CHSEL3_VSS 0x00000E00 // This bit enables the window compare function for slot 3. #define AM_REG_ADC_SL3CFG_WCEN3_S 1 #define AM_REG_ADC_SL3CFG_WCEN3_M 0x00000002 #define AM_REG_ADC_SL3CFG_WCEN3(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_SL3CFG_WCEN3_WCEN 0x00000002 // This bit enables slot 3 for ADC conversions. #define AM_REG_ADC_SL3CFG_SLEN3_S 0 #define AM_REG_ADC_SL3CFG_SLEN3_M 0x00000001 #define AM_REG_ADC_SL3CFG_SLEN3(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_SL3CFG_SLEN3_SLEN 0x00000001 //***************************************************************************** // // ADC_SL4CFG - Slot 4 Configuration Register // //***************************************************************************** // Select the number of measurements to average in the accumulate divide module // for this slot. #define AM_REG_ADC_SL4CFG_ADSEL4_S 24 #define AM_REG_ADC_SL4CFG_ADSEL4_M 0x07000000 #define AM_REG_ADC_SL4CFG_ADSEL4(n) (((uint32_t)(n) << 24) & 0x07000000) #define AM_REG_ADC_SL4CFG_ADSEL4_AVG_1_MSRMT 0x00000000 #define AM_REG_ADC_SL4CFG_ADSEL4_AVG_2_MSRMTS 0x01000000 #define AM_REG_ADC_SL4CFG_ADSEL4_AVG_4_MSRMTS 0x02000000 #define AM_REG_ADC_SL4CFG_ADSEL4_AVG_8_MSRMT 0x03000000 #define AM_REG_ADC_SL4CFG_ADSEL4_AVG_16_MSRMTS 0x04000000 #define AM_REG_ADC_SL4CFG_ADSEL4_AVG_32_MSRMTS 0x05000000 #define AM_REG_ADC_SL4CFG_ADSEL4_AVG_64_MSRMTS 0x06000000 #define AM_REG_ADC_SL4CFG_ADSEL4_AVG_128_MSRMTS 0x07000000 // Set the Precision Mode For Slot. #define AM_REG_ADC_SL4CFG_PRMODE4_S 16 #define AM_REG_ADC_SL4CFG_PRMODE4_M 0x00030000 #define AM_REG_ADC_SL4CFG_PRMODE4(n) (((uint32_t)(n) << 16) & 0x00030000) #define AM_REG_ADC_SL4CFG_PRMODE4_P14B 0x00000000 #define AM_REG_ADC_SL4CFG_PRMODE4_P12B 0x00010000 #define AM_REG_ADC_SL4CFG_PRMODE4_P10B 0x00020000 #define AM_REG_ADC_SL4CFG_PRMODE4_P8B 0x00030000 // Select one of the 14 channel inputs for this slot. #define AM_REG_ADC_SL4CFG_CHSEL4_S 8 #define AM_REG_ADC_SL4CFG_CHSEL4_M 0x00000F00 #define AM_REG_ADC_SL4CFG_CHSEL4(n) (((uint32_t)(n) << 8) & 0x00000F00) #define AM_REG_ADC_SL4CFG_CHSEL4_SE0 0x00000000 #define AM_REG_ADC_SL4CFG_CHSEL4_SE1 0x00000100 #define AM_REG_ADC_SL4CFG_CHSEL4_SE2 0x00000200 #define AM_REG_ADC_SL4CFG_CHSEL4_SE3 0x00000300 #define AM_REG_ADC_SL4CFG_CHSEL4_SE4 0x00000400 #define AM_REG_ADC_SL4CFG_CHSEL4_SE5 0x00000500 #define AM_REG_ADC_SL4CFG_CHSEL4_SE6 0x00000600 #define AM_REG_ADC_SL4CFG_CHSEL4_SE7 0x00000700 #define AM_REG_ADC_SL4CFG_CHSEL4_SE8 0x00000800 #define AM_REG_ADC_SL4CFG_CHSEL4_SE9 0x00000900 #define AM_REG_ADC_SL4CFG_CHSEL4_DF0 0x00000A00 #define AM_REG_ADC_SL4CFG_CHSEL4_DF1 0x00000B00 #define AM_REG_ADC_SL4CFG_CHSEL4_TEMP 0x00000C00 #define AM_REG_ADC_SL4CFG_CHSEL4_BATT 0x00000D00 #define AM_REG_ADC_SL4CFG_CHSEL4_VSS 0x00000E00 // This bit enables the window compare function for slot 4. #define AM_REG_ADC_SL4CFG_WCEN4_S 1 #define AM_REG_ADC_SL4CFG_WCEN4_M 0x00000002 #define AM_REG_ADC_SL4CFG_WCEN4(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_SL4CFG_WCEN4_WCEN 0x00000002 // This bit enables slot 4 for ADC conversions. #define AM_REG_ADC_SL4CFG_SLEN4_S 0 #define AM_REG_ADC_SL4CFG_SLEN4_M 0x00000001 #define AM_REG_ADC_SL4CFG_SLEN4(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_SL4CFG_SLEN4_SLEN 0x00000001 //***************************************************************************** // // ADC_SL5CFG - Slot 5 Configuration Register // //***************************************************************************** // Select number of measurements to average in the accumulate divide module for // this slot. #define AM_REG_ADC_SL5CFG_ADSEL5_S 24 #define AM_REG_ADC_SL5CFG_ADSEL5_M 0x07000000 #define AM_REG_ADC_SL5CFG_ADSEL5(n) (((uint32_t)(n) << 24) & 0x07000000) #define AM_REG_ADC_SL5CFG_ADSEL5_AVG_1_MSRMT 0x00000000 #define AM_REG_ADC_SL5CFG_ADSEL5_AVG_2_MSRMTS 0x01000000 #define AM_REG_ADC_SL5CFG_ADSEL5_AVG_4_MSRMTS 0x02000000 #define AM_REG_ADC_SL5CFG_ADSEL5_AVG_8_MSRMT 0x03000000 #define AM_REG_ADC_SL5CFG_ADSEL5_AVG_16_MSRMTS 0x04000000 #define AM_REG_ADC_SL5CFG_ADSEL5_AVG_32_MSRMTS 0x05000000 #define AM_REG_ADC_SL5CFG_ADSEL5_AVG_64_MSRMTS 0x06000000 #define AM_REG_ADC_SL5CFG_ADSEL5_AVG_128_MSRMTS 0x07000000 // Set the Precision Mode For Slot. #define AM_REG_ADC_SL5CFG_PRMODE5_S 16 #define AM_REG_ADC_SL5CFG_PRMODE5_M 0x00030000 #define AM_REG_ADC_SL5CFG_PRMODE5(n) (((uint32_t)(n) << 16) & 0x00030000) #define AM_REG_ADC_SL5CFG_PRMODE5_P14B 0x00000000 #define AM_REG_ADC_SL5CFG_PRMODE5_P12B 0x00010000 #define AM_REG_ADC_SL5CFG_PRMODE5_P10B 0x00020000 #define AM_REG_ADC_SL5CFG_PRMODE5_P8B 0x00030000 // Select one of the 14 channel inputs for this slot. #define AM_REG_ADC_SL5CFG_CHSEL5_S 8 #define AM_REG_ADC_SL5CFG_CHSEL5_M 0x00000F00 #define AM_REG_ADC_SL5CFG_CHSEL5(n) (((uint32_t)(n) << 8) & 0x00000F00) #define AM_REG_ADC_SL5CFG_CHSEL5_SE0 0x00000000 #define AM_REG_ADC_SL5CFG_CHSEL5_SE1 0x00000100 #define AM_REG_ADC_SL5CFG_CHSEL5_SE2 0x00000200 #define AM_REG_ADC_SL5CFG_CHSEL5_SE3 0x00000300 #define AM_REG_ADC_SL5CFG_CHSEL5_SE4 0x00000400 #define AM_REG_ADC_SL5CFG_CHSEL5_SE5 0x00000500 #define AM_REG_ADC_SL5CFG_CHSEL5_SE6 0x00000600 #define AM_REG_ADC_SL5CFG_CHSEL5_SE7 0x00000700 #define AM_REG_ADC_SL5CFG_CHSEL5_SE8 0x00000800 #define AM_REG_ADC_SL5CFG_CHSEL5_SE9 0x00000900 #define AM_REG_ADC_SL5CFG_CHSEL5_DF0 0x00000A00 #define AM_REG_ADC_SL5CFG_CHSEL5_DF1 0x00000B00 #define AM_REG_ADC_SL5CFG_CHSEL5_TEMP 0x00000C00 #define AM_REG_ADC_SL5CFG_CHSEL5_BATT 0x00000D00 #define AM_REG_ADC_SL5CFG_CHSEL5_VSS 0x00000E00 // This bit enables the window compare function for slot 5. #define AM_REG_ADC_SL5CFG_WCEN5_S 1 #define AM_REG_ADC_SL5CFG_WCEN5_M 0x00000002 #define AM_REG_ADC_SL5CFG_WCEN5(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_SL5CFG_WCEN5_WCEN 0x00000002 // This bit enables slot 5 for ADC conversions. #define AM_REG_ADC_SL5CFG_SLEN5_S 0 #define AM_REG_ADC_SL5CFG_SLEN5_M 0x00000001 #define AM_REG_ADC_SL5CFG_SLEN5(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_SL5CFG_SLEN5_SLEN 0x00000001 //***************************************************************************** // // ADC_SL6CFG - Slot 6 Configuration Register // //***************************************************************************** // Select the number of measurements to average in the accumulate divide module // for this slot. #define AM_REG_ADC_SL6CFG_ADSEL6_S 24 #define AM_REG_ADC_SL6CFG_ADSEL6_M 0x07000000 #define AM_REG_ADC_SL6CFG_ADSEL6(n) (((uint32_t)(n) << 24) & 0x07000000) #define AM_REG_ADC_SL6CFG_ADSEL6_AVG_1_MSRMT 0x00000000 #define AM_REG_ADC_SL6CFG_ADSEL6_AVG_2_MSRMTS 0x01000000 #define AM_REG_ADC_SL6CFG_ADSEL6_AVG_4_MSRMTS 0x02000000 #define AM_REG_ADC_SL6CFG_ADSEL6_AVG_8_MSRMT 0x03000000 #define AM_REG_ADC_SL6CFG_ADSEL6_AVG_16_MSRMTS 0x04000000 #define AM_REG_ADC_SL6CFG_ADSEL6_AVG_32_MSRMTS 0x05000000 #define AM_REG_ADC_SL6CFG_ADSEL6_AVG_64_MSRMTS 0x06000000 #define AM_REG_ADC_SL6CFG_ADSEL6_AVG_128_MSRMTS 0x07000000 // Set the Precision Mode For Slot. #define AM_REG_ADC_SL6CFG_PRMODE6_S 16 #define AM_REG_ADC_SL6CFG_PRMODE6_M 0x00030000 #define AM_REG_ADC_SL6CFG_PRMODE6(n) (((uint32_t)(n) << 16) & 0x00030000) #define AM_REG_ADC_SL6CFG_PRMODE6_P14B 0x00000000 #define AM_REG_ADC_SL6CFG_PRMODE6_P12B 0x00010000 #define AM_REG_ADC_SL6CFG_PRMODE6_P10B 0x00020000 #define AM_REG_ADC_SL6CFG_PRMODE6_P8B 0x00030000 // Select one of the 14 channel inputs for this slot. #define AM_REG_ADC_SL6CFG_CHSEL6_S 8 #define AM_REG_ADC_SL6CFG_CHSEL6_M 0x00000F00 #define AM_REG_ADC_SL6CFG_CHSEL6(n) (((uint32_t)(n) << 8) & 0x00000F00) #define AM_REG_ADC_SL6CFG_CHSEL6_SE0 0x00000000 #define AM_REG_ADC_SL6CFG_CHSEL6_SE1 0x00000100 #define AM_REG_ADC_SL6CFG_CHSEL6_SE2 0x00000200 #define AM_REG_ADC_SL6CFG_CHSEL6_SE3 0x00000300 #define AM_REG_ADC_SL6CFG_CHSEL6_SE4 0x00000400 #define AM_REG_ADC_SL6CFG_CHSEL6_SE5 0x00000500 #define AM_REG_ADC_SL6CFG_CHSEL6_SE6 0x00000600 #define AM_REG_ADC_SL6CFG_CHSEL6_SE7 0x00000700 #define AM_REG_ADC_SL6CFG_CHSEL6_SE8 0x00000800 #define AM_REG_ADC_SL6CFG_CHSEL6_SE9 0x00000900 #define AM_REG_ADC_SL6CFG_CHSEL6_DF0 0x00000A00 #define AM_REG_ADC_SL6CFG_CHSEL6_DF1 0x00000B00 #define AM_REG_ADC_SL6CFG_CHSEL6_TEMP 0x00000C00 #define AM_REG_ADC_SL6CFG_CHSEL6_BATT 0x00000D00 #define AM_REG_ADC_SL6CFG_CHSEL6_VSS 0x00000E00 // This bit enables the window compare function for slot 6. #define AM_REG_ADC_SL6CFG_WCEN6_S 1 #define AM_REG_ADC_SL6CFG_WCEN6_M 0x00000002 #define AM_REG_ADC_SL6CFG_WCEN6(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_SL6CFG_WCEN6_WCEN 0x00000002 // This bit enables slot 6 for ADC conversions. #define AM_REG_ADC_SL6CFG_SLEN6_S 0 #define AM_REG_ADC_SL6CFG_SLEN6_M 0x00000001 #define AM_REG_ADC_SL6CFG_SLEN6(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_SL6CFG_SLEN6_SLEN 0x00000001 //***************************************************************************** // // ADC_SL7CFG - Slot 7 Configuration Register // //***************************************************************************** // Select the number of measurements to average in the accumulate divide module // for this slot. #define AM_REG_ADC_SL7CFG_ADSEL7_S 24 #define AM_REG_ADC_SL7CFG_ADSEL7_M 0x07000000 #define AM_REG_ADC_SL7CFG_ADSEL7(n) (((uint32_t)(n) << 24) & 0x07000000) #define AM_REG_ADC_SL7CFG_ADSEL7_AVG_1_MSRMT 0x00000000 #define AM_REG_ADC_SL7CFG_ADSEL7_AVG_2_MSRMTS 0x01000000 #define AM_REG_ADC_SL7CFG_ADSEL7_AVG_4_MSRMTS 0x02000000 #define AM_REG_ADC_SL7CFG_ADSEL7_AVG_8_MSRMT 0x03000000 #define AM_REG_ADC_SL7CFG_ADSEL7_AVG_16_MSRMTS 0x04000000 #define AM_REG_ADC_SL7CFG_ADSEL7_AVG_32_MSRMTS 0x05000000 #define AM_REG_ADC_SL7CFG_ADSEL7_AVG_64_MSRMTS 0x06000000 #define AM_REG_ADC_SL7CFG_ADSEL7_AVG_128_MSRMTS 0x07000000 // Set the Precision Mode For Slot. #define AM_REG_ADC_SL7CFG_PRMODE7_S 16 #define AM_REG_ADC_SL7CFG_PRMODE7_M 0x00030000 #define AM_REG_ADC_SL7CFG_PRMODE7(n) (((uint32_t)(n) << 16) & 0x00030000) #define AM_REG_ADC_SL7CFG_PRMODE7_P14B 0x00000000 #define AM_REG_ADC_SL7CFG_PRMODE7_P12B 0x00010000 #define AM_REG_ADC_SL7CFG_PRMODE7_P10B 0x00020000 #define AM_REG_ADC_SL7CFG_PRMODE7_P8B 0x00030000 // Select one of the 14 channel inputs for this slot. #define AM_REG_ADC_SL7CFG_CHSEL7_S 8 #define AM_REG_ADC_SL7CFG_CHSEL7_M 0x00000F00 #define AM_REG_ADC_SL7CFG_CHSEL7(n) (((uint32_t)(n) << 8) & 0x00000F00) #define AM_REG_ADC_SL7CFG_CHSEL7_SE0 0x00000000 #define AM_REG_ADC_SL7CFG_CHSEL7_SE1 0x00000100 #define AM_REG_ADC_SL7CFG_CHSEL7_SE2 0x00000200 #define AM_REG_ADC_SL7CFG_CHSEL7_SE3 0x00000300 #define AM_REG_ADC_SL7CFG_CHSEL7_SE4 0x00000400 #define AM_REG_ADC_SL7CFG_CHSEL7_SE5 0x00000500 #define AM_REG_ADC_SL7CFG_CHSEL7_SE6 0x00000600 #define AM_REG_ADC_SL7CFG_CHSEL7_SE7 0x00000700 #define AM_REG_ADC_SL7CFG_CHSEL7_SE8 0x00000800 #define AM_REG_ADC_SL7CFG_CHSEL7_SE9 0x00000900 #define AM_REG_ADC_SL7CFG_CHSEL7_DF0 0x00000A00 #define AM_REG_ADC_SL7CFG_CHSEL7_DF1 0x00000B00 #define AM_REG_ADC_SL7CFG_CHSEL7_TEMP 0x00000C00 #define AM_REG_ADC_SL7CFG_CHSEL7_BATT 0x00000D00 #define AM_REG_ADC_SL7CFG_CHSEL7_VSS 0x00000E00 // This bit enables the window compare function for slot 7. #define AM_REG_ADC_SL7CFG_WCEN7_S 1 #define AM_REG_ADC_SL7CFG_WCEN7_M 0x00000002 #define AM_REG_ADC_SL7CFG_WCEN7(n) (((uint32_t)(n) << 1) & 0x00000002) #define AM_REG_ADC_SL7CFG_WCEN7_WCEN 0x00000002 // This bit enables slot 7 for ADC conversions. #define AM_REG_ADC_SL7CFG_SLEN7_S 0 #define AM_REG_ADC_SL7CFG_SLEN7_M 0x00000001 #define AM_REG_ADC_SL7CFG_SLEN7(n) (((uint32_t)(n) << 0) & 0x00000001) #define AM_REG_ADC_SL7CFG_SLEN7_SLEN 0x00000001 //***************************************************************************** // // ADC_WULIM - Window Comparator Upper Limits Register // //***************************************************************************** // Sets the upper limit for the wondow comparator. #define AM_REG_ADC_WULIM_ULIM_S 0 #define AM_REG_ADC_WULIM_ULIM_M 0x000FFFFF #define AM_REG_ADC_WULIM_ULIM(n) (((uint32_t)(n) << 0) & 0x000FFFFF) //***************************************************************************** // // ADC_WLLIM - Window Comparator Lower Limits Register // //***************************************************************************** // Sets the lower limit for the wondow comparator. #define AM_REG_ADC_WLLIM_LLIM_S 0 #define AM_REG_ADC_WLLIM_LLIM_M 0x000FFFFF #define AM_REG_ADC_WLLIM_LLIM(n) (((uint32_t)(n) << 0) & 0x000FFFFF) //***************************************************************************** // // ADC_FIFO - FIFO Data and Valid Count Register // //***************************************************************************** // RESERVED. #define AM_REG_ADC_FIFO_RSVD_S 31 #define AM_REG_ADC_FIFO_RSVD_M 0x80000000 #define AM_REG_ADC_FIFO_RSVD(n) (((uint32_t)(n) << 31) & 0x80000000) // Slot number associated with this FIFO data. #define AM_REG_ADC_FIFO_SLOTNUM_S 28 #define AM_REG_ADC_FIFO_SLOTNUM_M 0x70000000 #define AM_REG_ADC_FIFO_SLOTNUM(n) (((uint32_t)(n) << 28) & 0x70000000) // Number of valid entries in the ADC FIFO. #define AM_REG_ADC_FIFO_COUNT_S 20 #define AM_REG_ADC_FIFO_COUNT_M 0x0FF00000 #define AM_REG_ADC_FIFO_COUNT(n) (((uint32_t)(n) << 20) & 0x0FF00000) // Oldest data in the FIFO. #define AM_REG_ADC_FIFO_DATA_S 0 #define AM_REG_ADC_FIFO_DATA_M 0x000FFFFF #define AM_REG_ADC_FIFO_DATA(n) (((uint32_t)(n) << 0) & 0x000FFFFF) #endif // AM_REG_ADC_H