/*! \file gd32f10x_rcu.h \brief definitions for the RCU */ /* Copyright (C) 2017 GigaDevice 2017-02-10, V1.0.1, firmware for GD32F30x 2021-01-02, firmware for GD32F10x */ #ifndef GD32F10X_RCU_H #define GD32F10X_RCU_H #include "gd32f10x.h" /* RCU definitions */ #define RCU RCU_BASE /* registers definitions */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define RCU_CTL REG32(RCU + 0x00U) /*!< control register */ #define RCU_CFG0 REG32(RCU + 0x04U) /*!< clock configuration register 0 */ #define RCU_INT REG32(RCU + 0x08U) /*!< clock interrupt register */ #define RCU_APB2RST REG32(RCU + 0x0CU) /*!< APB2 reset register */ #define RCU_APB1RST REG32(RCU + 0x10U) /*!< APB1 reset register */ #define RCU_AHBEN REG32(RCU + 0x14U) /*!< AHB enable register */ #define RCU_APB2EN REG32(RCU + 0x18U) /*!< APB2 enable register */ #define RCU_APB1EN REG32(RCU + 0x1CU) /*!< APB1 enable register */ #define RCU_BDCTL REG32(RCU + 0x20U) /*!< backup domain control register */ #define RCU_RSTSCK REG32(RCU + 0x24U) /*!< reset source / clock register */ #define RCU_CFG1 REG32(RCU + 0x2CU) /*!< clock configuration register 1 */ #define RCU_DSV REG32(RCU + 0x34U) /*!< deep-sleep mode voltage register */ #define RCU_ADDCTL REG32(RCU + 0xC0U) /*!< Additional clock control register */ #define RCU_ADDINT REG32(RCU + 0xCCU) /*!< Additional clock interrupt register */ #define RCU_ADDAPB1RST REG32(RCU + 0xE0U) /*!< APB1 additional reset register */ #define RCU_ADDAPB1EN REG32(RCU + 0xE4U) /*!< APB1 additional enable register */ #elif defined(GD32F10X_CL) #define RCU_CTL REG32(RCU + 0x00U) /*!< control register */ #define RCU_CFG0 REG32(RCU + 0x04U) /*!< clock configuration register 0 */ #define RCU_INT REG32(RCU + 0x08U) /*!< clock interrupt register */ #define RCU_APB2RST REG32(RCU + 0x0CU) /*!< APB2 reset register */ #define RCU_APB1RST REG32(RCU + 0x10U) /*!< APB1 reset register */ #define RCU_AHBEN REG32(RCU + 0x14U) /*!< AHB1 enable register */ #define RCU_APB2EN REG32(RCU + 0x18U) /*!< APB2 enable register */ #define RCU_APB1EN REG32(RCU + 0x1CU) /*!< APB1 enable register */ #define RCU_BDCTL REG32(RCU + 0x20U) /*!< backup domain control register */ #define RCU_RSTSCK REG32(RCU + 0x24U) /*!< reset source / clock register */ #define RCU_AHBRST REG32(RCU + 0x28U) /*!< AHB reset register */ #define RCU_CFG1 REG32(RCU + 0x2CU) /*!< clock configuration register 1 */ #define RCU_DSV REG32(RCU + 0x34U) /*!< deep-sleep mode voltage register */ #define RCU_ADDCTL REG32(RCU + 0xC0U) /*!< Additional clock control register */ #define RCU_ADDINT REG32(RCU + 0xCCU) /*!< Additional clock interrupt register */ #define RCU_ADDAPB1RST REG32(RCU + 0xE0U) /*!< APB1 additional reset register */ #define RCU_ADDAPB1EN REG32(RCU + 0xE4U) /*!< APB1 additional enable register */ #endif /* GD32F10X_HD and GD32F10X_XD */ /* bits definitions */ /* RCU_CTL */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define RCU_CTL_IRC8MEN BIT(0) /*!< internal high speed oscillator enable */ #define RCU_CTL_IRC8MSTB BIT(1) /*!< IRC8M high speed internal oscillator stabilization flag */ #define RCU_CTL_IRC8MADJ BITS(3,7) /*!< high speed internal oscillator clock trim adjust value */ #define RCU_CTL_IRC8MCALIB BITS(8,15) /*!< high speed internal oscillator calibration value register */ #define RCU_CTL_HXTALEN BIT(16) /*!< external high speed oscillator enable */ #define RCU_CTL_HXTALSTB BIT(17) /*!< external crystal oscillator clock stabilization flag */ #define RCU_CTL_HXTALBPS BIT(18) /*!< external crystal oscillator clock bypass mode enable */ #define RCU_CTL_CKMEN BIT(19) /*!< HXTAL clock monitor enable */ #define RCU_CTL_PLLEN BIT(24) /*!< PLL enable */ #define RCU_CTL_PLLSTB BIT(25) /*!< PLL clock stabilization flag */ #elif defined(GD32F10X_CL) #define RCU_CTL_IRC8MEN BIT(0) /*!< internal high speed oscillator enable */ #define RCU_CTL_IRC8MSTB BIT(1) /*!< IRC8M high speed internal oscillator stabilization flag */ #define RCU_CTL_IRC8MADJ BITS(3,7) /*!< high speed internal oscillator clock trim adjust value */ #define RCU_CTL_IRC8MCALIB BITS(8,15) /*!< high speed internal oscillator calibration value register */ #define RCU_CTL_HXTALEN BIT(16) /*!< external high speed oscillator enable */ #define RCU_CTL_HXTALSTB BIT(17) /*!< external crystal oscillator clock stabilization flag */ #define RCU_CTL_HXTALBPS BIT(18) /*!< external crystal oscillator clock bypass mode enable */ #define RCU_CTL_CKMEN BIT(19) /*!< HXTAL clock monitor enable */ #define RCU_CTL_PLLEN BIT(24) /*!< PLL enable */ #define RCU_CTL_PLLSTB BIT(25) /*!< PLL clock stabilization flag */ #define RCU_CTL_PLL1EN BIT(26) /*!< PLL1 enable */ #define RCU_CTL_PLL1STB BIT(27) /*!< PLL1 clock stabilization flag */ #define RCU_CTL_PLL2EN BIT(28) /*!< PLL2 enable */ #define RCU_CTL_PLL2STB BIT(29) /*!< PLL2 clock stabilization flag */ #endif /* GD32F10X_HD and GD32F10X_XD */ /* RCU_CFG0 */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define RCU_CFG0_SCS BITS(0,1) /*!< system clock switch */ #define RCU_CFG0_SCSS BITS(2,3) /*!< system clock switch status */ #define RCU_CFG0_AHBPSC BITS(4,7) /*!< AHB prescaler selection */ #define RCU_CFG0_APB1PSC BITS(8,10) /*!< APB1 prescaler selection */ #define RCU_CFG0_APB2PSC BITS(11,13) /*!< APB2 prescaler selection */ #define RCU_CFG0_ADCPSC BITS(14,15) /*!< ADC prescaler selection */ #define RCU_CFG0_PLLSEL BIT(16) /*!< PLL clock source selection */ #define RCU_CFG0_PREDV0 BIT(17) /*!< PREDV0 division factor */ #define RCU_CFG0_PLLMF BITS(18,21) /*!< PLL clock multiplication factor */ #define RCU_CFG0_USBDPSC BITS(22,23) /*!< USBD clock prescaler selection */ #define RCU_CFG0_CKOUT0SEL BITS(24,26) /*!< CKOUT0 clock source selection */ #define RCU_CFG0_PLLMF_4 BIT(27) /*!< bit 4 of PLLMF */ #define RCU_CFG0_ADCPSC_2 BIT(28) /*!< bit 2 of ADCPSC */ #define RCU_CFG0_PLLMF_5 BIT(30) /*!< bit 5 of PLLMF */ #define RCU_CFG0_USBDPSC_2 BIT(31) /*!< bit 2 of USBDPSC */ #elif defined(GD32F10X_CL) #define RCU_CFG0_SCS BITS(0,1) /*!< system clock switch */ #define RCU_CFG0_SCSS BITS(2,3) /*!< system clock switch status */ #define RCU_CFG0_AHBPSC BITS(4,7) /*!< AHB prescaler selection */ #define RCU_CFG0_APB1PSC BITS(8,10) /*!< APB1 prescaler selection */ #define RCU_CFG0_APB2PSC BITS(11,13) /*!< APB2 prescaler selection */ #define RCU_CFG0_ADCPSC BITS(14,15) /*!< ADC prescaler selection */ #define RCU_CFG0_PLLSEL BIT(16) /*!< PLL clock source selection */ #define RCU_CFG0_PREDV0_LSB BIT(17) /*!< the LSB of PREDV0 division factor */ #define RCU_CFG0_PLLMF BITS(18,21) /*!< PLL clock multiplication factor */ #define RCU_CFG0_USBFSPSC BITS(22,23) /*!< USBFS clock prescaler selection */ #define RCU_CFG0_CKOUT0SEL BITS(24,27) /*!< CKOUT0 clock source selection */ #define RCU_CFG0_ADCPSC_2 BIT(28) /*!< bit 2 of ADCPSC */ #define RCU_CFG0_PLLMF_4 BIT(29) /*!< bit 4 of PLLMF */ #define RCU_CFG0_PLLMF_5 BIT(30) /*!< bit 5 of PLLMF */ #define RCU_CFG0_USBFSPSC_2 BIT(31) /*!< bit 2 of USBFSPSC */ #endif /* GD32F10X_HD and GD32F10X_XD */ /* RCU_INT */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define RCU_INT_IRC40KSTBIF BIT(0) /*!< IRC40K stabilization interrupt flag */ #define RCU_INT_LXTALSTBIF BIT(1) /*!< LXTAL stabilization interrupt flag */ #define RCU_INT_IRC8MSTBIF BIT(2) /*!< IRC8M stabilization interrupt flag */ #define RCU_INT_HXTALSTBIF BIT(3) /*!< HXTAL stabilization interrupt flag */ #define RCU_INT_PLLSTBIF BIT(4) /*!< PLL stabilization interrupt flag */ #define RCU_INT_CKMIF BIT(7) /*!< HXTAL clock stuck interrupt flag */ #define RCU_INT_IRC40KSTBIE BIT(8) /*!< IRC40K stabilization interrupt enable */ #define RCU_INT_LXTALSTBIE BIT(9) /*!< LXTAL stabilization interrupt enable */ #define RCU_INT_IRC8MSTBIE BIT(10) /*!< IRC8M stabilization interrupt enable */ #define RCU_INT_HXTALSTBIE BIT(11) /*!< HXTAL stabilization interrupt enable */ #define RCU_INT_PLLSTBIE BIT(12) /*!< PLL stabilization interrupt enable */ #define RCU_INT_IRC40KSTBIC BIT(16) /*!< IRC40K Stabilization interrupt clear */ #define RCU_INT_LXTALSTBIC BIT(17) /*!< LXTAL Stabilization interrupt clear */ #define RCU_INT_IRC8MSTBIC BIT(18) /*!< IRC8M Stabilization interrupt clear */ #define RCU_INT_HXTALSTBIC BIT(19) /*!< HXTAL Stabilization interrupt clear */ #define RCU_INT_PLLSTBIC BIT(20) /*!< PLL stabilization interrupt clear */ #define RCU_INT_CKMIC BIT(23) /*!< HXTAL clock stuck interrupt clear */ #elif defined(GD32F10X_CL) #define RCU_INT_IRC40KSTBIF BIT(0) /*!< IRC40K stabilization interrupt flag */ #define RCU_INT_LXTALSTBIF BIT(1) /*!< LXTAL stabilization interrupt flag */ #define RCU_INT_IRC8MSTBIF BIT(2) /*!< IRC8M stabilization interrupt flag */ #define RCU_INT_HXTALSTBIF BIT(3) /*!< HXTAL stabilization interrupt flag */ #define RCU_INT_PLLSTBIF BIT(4) /*!< PLL stabilization interrupt flag */ #define RCU_INT_PLL1STBIF BIT(5) /*!< PLL1 stabilization interrupt flag */ #define RCU_INT_PLL2STBIF BIT(6) /*!< PLL2 stabilization interrupt flag */ #define RCU_INT_CKMIF BIT(7) /*!< HXTAL clock stuck interrupt flag */ #define RCU_INT_IRC40KSTBIE BIT(8) /*!< IRC40K stabilization interrupt enable */ #define RCU_INT_LXTALSTBIE BIT(9) /*!< LXTAL stabilization interrupt enable */ #define RCU_INT_IRC8MSTBIE BIT(10) /*!< IRC8M stabilization interrupt enable */ #define RCU_INT_HXTALSTBIE BIT(11) /*!< HXTAL stabilization interrupt enable */ #define RCU_INT_PLLSTBIE BIT(12) /*!< PLL stabilization interrupt enable */ #define RCU_INT_PLL1STBIE BIT(13) /*!< PLL1 stabilization interrupt enable */ #define RCU_INT_PLL2STBIE BIT(14) /*!< PLL2 stabilization interrupt enable */ #define RCU_INT_IRC40KSTBIC BIT(16) /*!< IRC40K stabilization interrupt clear */ #define RCU_INT_LXTALSTBIC BIT(17) /*!< LXTAL stabilization interrupt clear */ #define RCU_INT_IRC8MSTBIC BIT(18) /*!< IRC8M stabilization interrupt clear */ #define RCU_INT_HXTALSTBIC BIT(19) /*!< HXTAL stabilization interrupt clear */ #define RCU_INT_PLLSTBIC BIT(20) /*!< PLL stabilization interrupt clear */ #define RCU_INT_PLL1STBIC BIT(21) /*!< PLL1 stabilization interrupt clear */ #define RCU_INT_PLL2STBIC BIT(22) /*!< PLL2 stabilization interrupt clear */ #define RCU_INT_CKMIC BIT(23) /*!< HXTAL clock stuck interrupt clear */ #endif /* GD32F10X_HD and GD32F10X_XD */ /* RCU_APB2RST */ #define RCU_APB2RST_AFRST BIT(0) /*!< alternate function I/O reset */ #define RCU_APB2RST_PARST BIT(2) /*!< GPIO port A reset */ #define RCU_APB2RST_PBRST BIT(3) /*!< GPIO port B reset */ #define RCU_APB2RST_PCRST BIT(4) /*!< GPIO port C reset */ #define RCU_APB2RST_PDRST BIT(5) /*!< GPIO port D reset */ #define RCU_APB2RST_PERST BIT(6) /*!< GPIO port E reset */ #define RCU_APB2RST_PFRST BIT(7) /*!< GPIO port F reset */ #define RCU_APB2RST_PGRST BIT(8) /*!< GPIO port G reset */ #define RCU_APB2RST_ADC0RST BIT(9) /*!< ADC0 reset */ #define RCU_APB2RST_ADC1RST BIT(10) /*!< ADC1 reset */ #define RCU_APB2RST_TIMER0RST BIT(11) /*!< TIMER0 reset */ #define RCU_APB2RST_SPI0RST BIT(12) /*!< SPI0 reset */ #define RCU_APB2RST_TIMER7RST BIT(13) /*!< TIMER7 reset */ #define RCU_APB2RST_USART0RST BIT(14) /*!< USART0 reset */ #ifndef GD32F10X_CL #define RCU_APB2RST_ADC2RST BIT(15) /*!< ADC2 reset */ #endif /* GD32F10X_CL */ #ifndef GD32F10X_HD #define RCU_APB2RST_TIMER8RST BIT(19) /*!< TIMER8 reset */ #define RCU_APB2RST_TIMER9RST BIT(20) /*!< TIMER9 reset */ #define RCU_APB2RST_TIMER10RST BIT(21) /*!< TIMER10 reset */ #endif /* GD32F10X_HD */ /* RCU_APB1RST */ #define RCU_APB1RST_TIMER1RST BIT(0) /*!< TIMER1 reset */ #define RCU_APB1RST_TIMER2RST BIT(1) /*!< TIMER2 reset */ #define RCU_APB1RST_TIMER3RST BIT(2) /*!< TIMER3 reset */ #define RCU_APB1RST_TIMER4RST BIT(3) /*!< TIMER4 reset */ #define RCU_APB1RST_TIMER5RST BIT(4) /*!< TIMER5 reset */ #define RCU_APB1RST_TIMER6RST BIT(5) /*!< TIMER6 reset */ #ifndef GD32F10X_HD #define RCU_APB1RST_TIMER11RST BIT(6) /*!< TIMER11 reset */ #define RCU_APB1RST_TIMER12RST BIT(7) /*!< TIMER12 reset */ #define RCU_APB1RST_TIMER13RST BIT(8) /*!< TIMER13 reset */ #endif /* GD32F10X_HD */ #define RCU_APB1RST_WWDGTRST BIT(11) /*!< WWDGT reset */ #define RCU_APB1RST_SPI1RST BIT(14) /*!< SPI1 reset */ #define RCU_APB1RST_SPI2RST BIT(15) /*!< SPI2 reset */ #define RCU_APB1RST_USART1RST BIT(17) /*!< USART1 reset */ #define RCU_APB1RST_USART2RST BIT(18) /*!< USART2 reset */ #define RCU_APB1RST_UART3RST BIT(19) /*!< UART3 reset */ #define RCU_APB1RST_UART4RST BIT(20) /*!< UART4 reset */ #define RCU_APB1RST_I2C0RST BIT(21) /*!< I2C0 reset */ #define RCU_APB1RST_I2C1RST BIT(22) /*!< I2C1 reset */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define RCU_APB1RST_USBDRST BIT(23) /*!< USBD reset */ #endif /* GD32F10X_HD and GD32F10X_XD */ #define RCU_APB1RST_CAN0RST BIT(25) /*!< CAN0 reset */ #ifdef GD32F10X_CL #define RCU_APB1RST_CAN1RST BIT(26) /*!< CAN1 reset */ #endif /* GD32F10X_CL */ #define RCU_APB1RST_BKPIRST BIT(27) /*!< backup interface reset */ #define RCU_APB1RST_PMURST BIT(28) /*!< PMU reset */ #define RCU_APB1RST_DACRST BIT(29) /*!< DAC reset */ /* RCU_AHBEN */ #define RCU_AHBEN_DMA0EN BIT(0) /*!< DMA0 clock enable */ #define RCU_AHBEN_DMA1EN BIT(1) /*!< DMA1 clock enable */ #define RCU_AHBEN_SRAMSPEN BIT(2) /*!< SRAM clock enable when sleep mode */ #define RCU_AHBEN_FMCSPEN BIT(4) /*!< FMC clock enable when sleep mode */ #define RCU_AHBEN_CRCEN BIT(6) /*!< CRC clock enable */ #define RCU_AHBEN_EXMCEN BIT(8) /*!< EXMC clock enable */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define RCU_AHBEN_SDIOEN BIT(10) /*!< SDIO clock enable */ #elif defined(GD32F10X_CL) #define RCU_AHBEN_USBFSEN BIT(12) /*!< USBFS clock enable */ #define RCU_AHBEN_ENETEN BIT(14) /*!< ENET clock enable */ #define RCU_AHBEN_ENETTXEN BIT(15) /*!< Ethernet TX clock enable */ #define RCU_AHBEN_ENETRXEN BIT(16) /*!< Ethernet RX clock enable */ #endif /* GD32F10X_HD and GD32F10X_XD */ /* RCU_APB2EN */ #define RCU_APB2EN_AFEN BIT(0) /*!< alternate function IO clock enable */ #define RCU_APB2EN_PAEN BIT(2) /*!< GPIO port A clock enable */ #define RCU_APB2EN_PBEN BIT(3) /*!< GPIO port B clock enable */ #define RCU_APB2EN_PCEN BIT(4) /*!< GPIO port C clock enable */ #define RCU_APB2EN_PDEN BIT(5) /*!< GPIO port D clock enable */ #define RCU_APB2EN_PEEN BIT(6) /*!< GPIO port E clock enable */ #define RCU_APB2EN_PFEN BIT(7) /*!< GPIO port F clock enable */ #define RCU_APB2EN_PGEN BIT(8) /*!< GPIO port G clock enable */ #define RCU_APB2EN_ADC0EN BIT(9) /*!< ADC0 clock enable */ #define RCU_APB2EN_ADC1EN BIT(10) /*!< ADC1 clock enable */ #define RCU_APB2EN_TIMER0EN BIT(11) /*!< TIMER0 clock enable */ #define RCU_APB2EN_SPI0EN BIT(12) /*!< SPI0 clock enable */ #define RCU_APB2EN_TIMER7EN BIT(13) /*!< TIMER7 clock enable */ #define RCU_APB2EN_USART0EN BIT(14) /*!< USART0 clock enable */ #ifndef GD32F10X_CL #define RCU_APB2EN_ADC2EN BIT(15) /*!< ADC2 clock enable */ #endif /* GD32F10X_CL */ #ifndef GD32F10X_HD #define RCU_APB2EN_TIMER8EN BIT(19) /*!< TIMER8 clock enable */ #define RCU_APB2EN_TIMER9EN BIT(20) /*!< TIMER9 clock enable */ #define RCU_APB2EN_TIMER10EN BIT(21) /*!< TIMER10 clock enable */ #endif /* GD32F10X_HD */ /* RCU_APB1EN */ #define RCU_APB1EN_TIMER1EN BIT(0) /*!< TIMER1 clock enable */ #define RCU_APB1EN_TIMER2EN BIT(1) /*!< TIMER2 clock enable */ #define RCU_APB1EN_TIMER3EN BIT(2) /*!< TIMER3 clock enable */ #define RCU_APB1EN_TIMER4EN BIT(3) /*!< TIMER4 clock enable */ #define RCU_APB1EN_TIMER5EN BIT(4) /*!< TIMER5 clock enable */ #define RCU_APB1EN_TIMER6EN BIT(5) /*!< TIMER6 clock enable */ #ifndef GD32F10X_HD #define RCU_APB1EN_TIMER11EN BIT(6) /*!< TIMER11 clock enable */ #define RCU_APB1EN_TIMER12EN BIT(7) /*!< TIMER12 clock enable */ #define RCU_APB1EN_TIMER13EN BIT(8) /*!< TIMER13 clock enable */ #endif /* GD32F10X_HD */ #define RCU_APB1EN_WWDGTEN BIT(11) /*!< WWDGT clock enable */ #define RCU_APB1EN_SPI1EN BIT(14) /*!< SPI1 clock enable */ #define RCU_APB1EN_SPI2EN BIT(15) /*!< SPI2 clock enable */ #define RCU_APB1EN_USART1EN BIT(17) /*!< USART1 clock enable */ #define RCU_APB1EN_USART2EN BIT(18) /*!< USART2 clock enable */ #define RCU_APB1EN_UART3EN BIT(19) /*!< UART3 clock enable */ #define RCU_APB1EN_UART4EN BIT(20) /*!< UART4 clock enable */ #define RCU_APB1EN_I2C0EN BIT(21) /*!< I2C0 clock enable */ #define RCU_APB1EN_I2C1EN BIT(22) /*!< I2C1 clock enable */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define RCU_APB1EN_USBDEN BIT(23) /*!< USBD clock enable */ #endif /* GD32F10X_HD and GD32F10X_XD */ #define RCU_APB1EN_CAN0EN BIT(25) /*!< CAN0 clock enable */ #ifdef GD32F10X_CL #define RCU_APB1EN_CAN1EN BIT(26) /*!< CAN1 clock enable */ #endif /* GD32F10X_CL */ #define RCU_APB1EN_BKPIEN BIT(27) /*!< backup interface clock enable */ #define RCU_APB1EN_PMUEN BIT(28) /*!< PMU clock enable */ #define RCU_APB1EN_DACEN BIT(29) /*!< DAC clock enable */ /* RCU_BDCTL */ #define RCU_BDCTL_LXTALEN BIT(0) /*!< LXTAL enable */ #define RCU_BDCTL_LXTALSTB BIT(1) /*!< low speed crystal oscillator stabilization flag */ #define RCU_BDCTL_LXTALBPS BIT(2) /*!< LXTAL bypass mode enable */ #define RCU_BDCTL_LXTALDRI BITS(3,4) /*!< LXTAL drive capability */ #define RCU_BDCTL_RTCSRC BITS(8,9) /*!< RTC clock entry selection */ #define RCU_BDCTL_RTCEN BIT(15) /*!< RTC clock enable */ #define RCU_BDCTL_BKPRST BIT(16) /*!< backup domain reset */ /* RCU_RSTSCK */ #define RCU_RSTSCK_IRC40KEN BIT(0) /*!< IRC40K enable */ #define RCU_RSTSCK_IRC40KSTB BIT(1) /*!< IRC40K stabilization flag */ #define RCU_RSTSCK_RSTFC BIT(24) /*!< reset flag clear */ #define RCU_RSTSCK_EPRSTF BIT(26) /*!< external pin reset flag */ #define RCU_RSTSCK_PORRSTF BIT(27) /*!< power reset flag */ #define RCU_RSTSCK_SWRSTF BIT(28) /*!< software reset flag */ #define RCU_RSTSCK_FWDGTRSTF BIT(29) /*!< free watchdog timer reset flag */ #define RCU_RSTSCK_WWDGTRSTF BIT(30) /*!< window watchdog timer reset flag */ #define RCU_RSTSCK_LPRSTF BIT(31) /*!< low-power reset flag */ #ifdef GD32F10X_CL /* RCU_AHBRST */ #define RCU_AHBRST_USBFSRST BIT(12) /*!< USBFS reset */ #define RCU_AHBRST_ENETRST BIT(14) /*!< ENET reset */ #endif /* GD32F10X_CL */ /* RCU_CFG1 */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define RCU_CFG1_ADCPSC_3 BIT(29) /*!< bit 4 of ADCPSC */ #define RCU_CFG1_PLLPRESEL BIT(30) /*!< PLL clock source selection */ #elif defined(GD32F10X_CL) #define RCU_CFG1_PREDV0 BITS(0,3) /*!< PREDV0 division factor */ #define RCU_CFG1_PREDV1 BITS(4,7) /*!< PREDV1 division factor */ #define RCU_CFG1_PLL1MF BITS(8,11) /*!< PLL1 clock multiplication factor */ #define RCU_CFG1_PLL2MF BITS(12,15) /*!< PLL2 clock multiplication factor */ #define RCU_CFG1_PREDV0SEL BIT(16) /*!< PREDV0 input clock source selection */ #define RCU_CFG1_I2S1SEL BIT(17) /*!< I2S1 clock source selection */ #define RCU_CFG1_I2S2SEL BIT(18) /*!< I2S2 clock source selection */ #define RCU_CFG1_ADCPSC_3 BIT(29) /*!< bit 4 of ADCPSC */ #define RCU_CFG1_PLLPRESEL BIT(30) /*!< PLL clock source selection */ #define RCU_CFG1_PLL2MF_4 BIT(31) /*!< bit 5 of PLL2MF */ #endif /* GD32F10X_HD and GD32F10X_XD */ /* RCU_DSV */ #define RCU_DSV_DSLPVS BITS(0,2) /*!< deep-sleep mode voltage select */ /* RCU_ADDCTL */ #define RCU_ADDCTL_CK48MSEL BIT(0) /*!< 48MHz clock selection */ #define RCU_ADDCTL_IRC48MEN BIT(16) /*!< internal 48MHz RC oscillator enable */ #define RCU_ADDCTL_IRC48MSTB BIT(17) /*!< internal 48MHz RC oscillator clock stabilization flag */ #define RCU_ADDCTL_IRC48MCAL BITS(24,31) /*!< internal 48MHz RC oscillator calibration value register */ /* RCU_ADDINT */ #define RCU_ADDINT_IRC48MSTBIF BIT(6) /*!< IRC48M stabilization interrupt flag */ #define RCU_ADDINT_IRC48MSTBIE BIT(14) /*!< internal 48 MHz RC oscillator stabilization interrupt enable */ #define RCU_ADDINT_IRC48MSTBIC BIT(22) /*!< internal 48 MHz RC oscillator stabilization interrupt clear */ /* RCU_ADDAPB1RST */ #define RCU_ADDAPB1RST_CTCRST BIT(27) /*!< CTC reset */ /* RCU_ADDAPB1EN */ #define RCU_ADDAPB1EN_CTCEN BIT(27) /*!< CTC clock enable */ /* constants definitions */ /* define the peripheral clock enable bit position and its register index offset */ #define RCU_REGIDX_BIT(regidx, bitpos) (((uint32_t)(regidx) << 6) | (uint32_t)(bitpos)) #define RCU_REG_VAL(periph) (REG32(RCU + ((uint32_t)(periph) >> 6))) #define RCU_BIT_POS(val) ((uint32_t)(val) & 0x1FU) /* register offset */ /* peripherals enable */ #define AHBEN_REG_OFFSET 0x14U /*!< AHB enable register offset */ #define APB1EN_REG_OFFSET 0x1CU /*!< APB1 enable register offset */ #define APB2EN_REG_OFFSET 0x18U /*!< APB2 enable register offset */ #define ADD_APB1EN_REG_OFFSET 0xE4U /*!< APB1 additional enable register offset */ /* peripherals reset */ #define AHBRST_REG_OFFSET 0x28U /*!< AHB reset register offset */ #define APB1RST_REG_OFFSET 0x10U /*!< APB1 reset register offset */ #define APB2RST_REG_OFFSET 0x0CU /*!< APB2 reset register offset */ #define ADD_APB1RST_REG_OFFSET 0xE0U /*!< APB1 additional reset register offset */ #define RSTSCK_REG_OFFSET 0x24U /*!< reset source/clock register offset */ /* clock control */ #define CTL_REG_OFFSET 0x00U /*!< control register offset */ #define BDCTL_REG_OFFSET 0x20U /*!< backup domain control register offset */ #define ADDCTL_REG_OFFSET 0xC0U /*!< additional clock control register offset */ /* clock stabilization and stuck interrupt */ #define INT_REG_OFFSET 0x08U /*!< clock interrupt register offset */ #define ADDINT_REG_OFFSET 0xCCU /*!< additional clock interrupt register offset */ /* configuration register */ #define CFG0_REG_OFFSET 0x04U /*!< clock configuration register 0 offset */ #define CFG1_REG_OFFSET 0x2CU /*!< clock configuration register 1 offset */ /* peripheral clock enable */ typedef enum { /* AHB peripherals */ RCU_DMA0 = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 0U), /*!< DMA0 clock */ RCU_DMA1 = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 1U), /*!< DMA1 clock */ RCU_CRC = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 6U), /*!< CRC clock */ RCU_EXMC = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 8U), /*!< EXMC clock */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) RCU_SDIO = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 10U), /*!< SDIO clock */ #elif defined(GD32F10X_CL) RCU_USBFS = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 12U), /*!< USBFS clock */ RCU_ENET = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 14U), /*!< ENET clock */ RCU_ENETTX = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 15U), /*!< ENETTX clock */ RCU_ENETRX = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 16U), /*!< ENETRX clock */ #endif /* GD32F10X_HD and GD32F10X_XD */ /* APB1 peripherals */ RCU_TIMER1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 0U), /*!< TIMER1 clock */ RCU_TIMER2 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 1U), /*!< TIMER2 clock */ RCU_TIMER3 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 2U), /*!< TIMER3 clock */ RCU_TIMER4 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 3U), /*!< TIMER4 clock */ RCU_TIMER5 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 4U), /*!< TIMER5 clock */ RCU_TIMER6 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 5U), /*!< TIMER6 clock */ #ifndef GD32F10X_HD RCU_TIMER11 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 6U), /*!< TIMER11 clock */ RCU_TIMER12 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 7U), /*!< TIMER12 clock */ RCU_TIMER13 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 8U), /*!< TIMER13 clock */ #endif /* GD32F10X_HD */ RCU_WWDGT = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 11U), /*!< WWDGT clock */ RCU_SPI1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 14U), /*!< SPI1 clock */ RCU_SPI2 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 15U), /*!< SPI2 clock */ RCU_USART1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 17U), /*!< USART1 clock */ RCU_USART2 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 18U), /*!< USART2 clock */ RCU_UART3 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 19U), /*!< UART3 clock */ RCU_UART4 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 20U), /*!< UART4 clock */ RCU_I2C0 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 21U), /*!< I2C0 clock */ RCU_I2C1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 22U), /*!< I2C1 clock */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) RCU_USBD = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 23U), /*!< USBD clock */ #endif /* GD32F10X_HD and GD32F10X_XD */ RCU_CAN0 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 25U), /*!< CAN0 clock */ #ifdef GD32F10X_CL RCU_CAN1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 26U), /*!< CAN1 clock */ #endif /* GD32F10X_CL */ RCU_BKPI = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 27U), /*!< BKPI clock */ RCU_PMU = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 28U), /*!< PMU clock */ RCU_DAC = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 29U), /*!< DAC clock */ RCU_RTC = RCU_REGIDX_BIT(BDCTL_REG_OFFSET, 15U), /*!< RTC clock */ RCU_CTC = RCU_REGIDX_BIT(ADD_APB1EN_REG_OFFSET, 27U), /*!< CTC clock */ /* APB2 peripherals */ RCU_AF = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 0U), /*!< alternate function clock */ RCU_GPIOA = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 2U), /*!< GPIOA clock */ RCU_GPIOB = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 3U), /*!< GPIOB clock */ RCU_GPIOC = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 4U), /*!< GPIOC clock */ RCU_GPIOD = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 5U), /*!< GPIOD clock */ RCU_GPIOE = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 6U), /*!< GPIOE clock */ RCU_GPIOF = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 7U), /*!< GPIOF clock */ RCU_GPIOG = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 8U), /*!< GPIOG clock */ RCU_ADC0 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 9U), /*!< ADC0 clock */ RCU_ADC1 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 10U), /*!< ADC1 clock */ RCU_TIMER0 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 11U), /*!< TIMER0 clock */ RCU_SPI0 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 12U), /*!< SPI0 clock */ RCU_TIMER7 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 13U), /*!< TIMER7 clock */ RCU_USART0 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 14U), /*!< USART0 clock */ #ifndef GD32F10X_CL RCU_ADC2 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 15U), /*!< ADC2 clock */ #endif /* GD32F10X_CL */ #ifndef GD32F10X_HD RCU_TIMER8 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 19U), /*!< TIMER8 clock */ RCU_TIMER9 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 20U), /*!< TIMER9 clock */ RCU_TIMER10 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 21U), /*!< TIMER10 clock */ #endif /* GD32F10X_HD */ } rcu_periph_enum; /* peripheral clock enable when sleep mode*/ typedef enum { /* AHB peripherals */ RCU_SRAM_SLP = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 2U), /*!< SRAM clock */ RCU_FMC_SLP = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 4U), /*!< FMC clock */ } rcu_periph_sleep_enum; /* peripherals reset */ typedef enum { /* AHB peripherals */ #ifdef GD32F10X_CL RCU_USBFSRST = RCU_REGIDX_BIT(AHBRST_REG_OFFSET, 12U), /*!< USBFS clock reset */ RCU_ENETRST = RCU_REGIDX_BIT(AHBRST_REG_OFFSET, 14U), /*!< ENET clock reset */ #endif /* GD32F10X_CL */ /* APB1 peripherals */ RCU_TIMER1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 0U), /*!< TIMER1 clock reset */ RCU_TIMER2RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 1U), /*!< TIMER2 clock reset */ RCU_TIMER3RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 2U), /*!< TIMER3 clock reset */ RCU_TIMER4RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 3U), /*!< TIMER4 clock reset */ RCU_TIMER5RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 4U), /*!< TIMER5 clock reset */ RCU_TIMER6RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 5U), /*!< TIMER6 clock reset */ #ifndef GD32F10X_HD RCU_TIMER11RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 6U), /*!< TIMER11 clock reset */ RCU_TIMER12RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 7U), /*!< TIMER12 clock reset */ RCU_TIMER13RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 8U), /*!< TIMER13 clock reset */ #endif /* GD32F10X_HD */ RCU_WWDGTRST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 11U), /*!< WWDGT clock reset */ RCU_SPI1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 14U), /*!< SPI1 clock reset */ RCU_SPI2RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 15U), /*!< SPI2 clock reset */ RCU_USART1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 17U), /*!< USART1 clock reset */ RCU_USART2RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 18U), /*!< USART2 clock reset */ RCU_UART3RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 19U), /*!< UART3 clock reset */ RCU_UART4RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 20U), /*!< UART4 clock reset */ RCU_I2C0RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 21U), /*!< I2C0 clock reset */ RCU_I2C1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 22U), /*!< I2C1 clock reset */ #if (defined(GD32F10X_HD) || defined(GD32F10X_XD)) RCU_USBDRST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 23U), /*!< USBD clock reset */ #endif /* GD32F10X_HD and GD32F10X_XD */ RCU_CAN0RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 25U), /*!< CAN0 clock reset */ #ifdef GD32F10X_CL RCU_CAN1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 26U), /*!< CAN1 clock reset */ #endif /* GD32F10X_CL */ RCU_BKPIRST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 27U), /*!< BKPI clock reset */ RCU_PMURST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 28U), /*!< PMU clock reset */ RCU_DACRST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 29U), /*!< DAC clock reset */ RCU_CTCRST = RCU_REGIDX_BIT(ADD_APB1RST_REG_OFFSET, 27U), /*!< RTC clock reset */ /* APB2 peripherals */ RCU_AFRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 0U), /*!< alternate function clock reset */ RCU_GPIOARST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 2U), /*!< GPIOA clock reset */ RCU_GPIOBRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 3U), /*!< GPIOB clock reset */ RCU_GPIOCRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 4U), /*!< GPIOC clock reset */ RCU_GPIODRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 5U), /*!< GPIOD clock reset */ RCU_GPIOERST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 6U), /*!< GPIOE clock reset */ RCU_GPIOFRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 7U), /*!< GPIOF clock reset */ RCU_GPIOGRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 8U), /*!< GPIOG clock reset */ RCU_ADC0RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 9U), /*!< ADC0 clock reset */ RCU_ADC1RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 10U), /*!< ADC1 clock reset */ RCU_TIMER0RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 11U), /*!< TIMER0 clock reset */ RCU_SPI0RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 12U), /*!< SPI0 clock reset */ RCU_TIMER7RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 13U), /*!< TIMER7 clock reset */ RCU_USART0RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 14U), /*!< USART0 clock reset */ #ifndef GD32F10X_CL RCU_ADC2RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 15U), /*!< ADC2 clock reset */ #endif /* GD32F10X_CL */ #ifndef GD32F10X_HD RCU_TIMER8RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 19U), /*!< TIMER8 clock reset */ RCU_TIMER9RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 20U), /*!< TIMER9 clock reset */ RCU_TIMER10RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 21U), /*!< TIMER10 clock reset */ #endif /* GD32F10X_HD */ } rcu_periph_reset_enum; /* clock stabilization and peripheral reset flags */ typedef enum { /* clock stabilization flags */ RCU_FLAG_IRC8MSTB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 1U), /*!< IRC8M stabilization flags */ RCU_FLAG_HXTALSTB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 17U), /*!< HXTAL stabilization flags */ RCU_FLAG_PLLSTB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 25U), /*!< PLL stabilization flags */ #ifdef GD32F10X_CL RCU_FLAG_PLL1STB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 27U), /*!< PLL1 stabilization flags */ RCU_FLAG_PLL2STB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 29U), /*!< PLL2 stabilization flags */ #endif /* GD32F10X_CL */ RCU_FLAG_LXTALSTB = RCU_REGIDX_BIT(BDCTL_REG_OFFSET, 1U), /*!< LXTAL stabilization flags */ RCU_FLAG_IRC40KSTB = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 1U), /*!< IRC40K stabilization flags */ RCU_FLAG_IRC48MSTB = RCU_REGIDX_BIT(ADDCTL_REG_OFFSET, 17U), /*!< IRC48M stabilization flags */ /* reset source flags */ RCU_FLAG_EPRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 26U), /*!< external PIN reset flags */ RCU_FLAG_PORRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 27U), /*!< power reset flags */ RCU_FLAG_SWRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 28U), /*!< software reset flags */ RCU_FLAG_FWDGTRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 29U), /*!< FWDGT reset flags */ RCU_FLAG_WWDGTRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 30U), /*!< WWDGT reset flags */ RCU_FLAG_LPRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 31U), /*!< low-power reset flags */ } rcu_flag_enum; /* clock stabilization and ckm interrupt flags */ typedef enum { RCU_INT_FLAG_IRC40KSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 0U), /*!< IRC40K stabilization interrupt flag */ RCU_INT_FLAG_LXTALSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 1U), /*!< LXTAL stabilization interrupt flag */ RCU_INT_FLAG_IRC8MSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 2U), /*!< IRC8M stabilization interrupt flag */ RCU_INT_FLAG_HXTALSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 3U), /*!< HXTAL stabilization interrupt flag */ RCU_INT_FLAG_PLLSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 4U), /*!< PLL stabilization interrupt flag */ #ifdef GD32F10X_CL RCU_INT_FLAG_PLL1STB = RCU_REGIDX_BIT(INT_REG_OFFSET, 5U), /*!< PLL1 stabilization interrupt flag */ RCU_INT_FLAG_PLL2STB = RCU_REGIDX_BIT(INT_REG_OFFSET, 6U), /*!< PLL2 stabilization interrupt flag */ #endif /* GD32F10X_CL */ RCU_INT_FLAG_CKM = RCU_REGIDX_BIT(INT_REG_OFFSET, 7U), /*!< HXTAL clock stuck interrupt flag */ RCU_INT_FLAG_IRC48MSTB = RCU_REGIDX_BIT(ADDINT_REG_OFFSET, 6U), /*!< IRC48M stabilization interrupt flag */ } rcu_int_flag_enum; /* clock stabilization and stuck interrupt flags clear */ typedef enum { RCU_INT_FLAG_IRC40KSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 16U), /*!< IRC40K stabilization interrupt flags clear */ RCU_INT_FLAG_LXTALSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 17U), /*!< LXTAL stabilization interrupt flags clear */ RCU_INT_FLAG_IRC8MSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 18U), /*!< IRC8M stabilization interrupt flags clear */ RCU_INT_FLAG_HXTALSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 19U), /*!< HXTAL stabilization interrupt flags clear */ RCU_INT_FLAG_PLLSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 20U), /*!< PLL stabilization interrupt flags clear */ #ifdef GD32F10X_CL RCU_INT_FLAG_PLL1STB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 21U), /*!< PLL1 stabilization interrupt flags clear */ RCU_INT_FLAG_PLL2STB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 22U), /*!< PLL2 stabilization interrupt flags clear */ #endif /* GD32F10X_CL */ RCU_INT_FLAG_CKM_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 23U), /*!< CKM interrupt flags clear */ RCU_INT_FLAG_IRC48MSTB_CLR = RCU_REGIDX_BIT(ADDINT_REG_OFFSET, 22U), /*!< internal 48 MHz RC oscillator stabilization interrupt clear */ } rcu_int_flag_clear_enum; /* clock stabilization interrupt enable or disable */ typedef enum { RCU_INT_IRC40KSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 8U), /*!< IRC40K stabilization interrupt */ RCU_INT_LXTALSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 9U), /*!< LXTAL stabilization interrupt */ RCU_INT_IRC8MSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 10U), /*!< IRC8M stabilization interrupt */ RCU_INT_HXTALSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 11U), /*!< HXTAL stabilization interrupt */ RCU_INT_PLLSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 12U), /*!< PLL stabilization interrupt */ #ifdef GD32F10X_CL RCU_INT_PLL1STB = RCU_REGIDX_BIT(INT_REG_OFFSET, 13U), /*!< PLL1 stabilization interrupt */ RCU_INT_PLL2STB = RCU_REGIDX_BIT(INT_REG_OFFSET, 14U), /*!< PLL2 stabilization interrupt */ #endif /* GD32F10X_CL */ RCU_INT_IRC48MSTB = RCU_REGIDX_BIT(ADDINT_REG_OFFSET, 14U), /*!< internal 48 MHz RC oscillator stabilization interrupt */ } rcu_int_enum; /* oscillator types */ typedef enum { RCU_HXTAL = RCU_REGIDX_BIT(CTL_REG_OFFSET, 16U), /*!< HXTAL */ RCU_LXTAL = RCU_REGIDX_BIT(BDCTL_REG_OFFSET, 0U), /*!< LXTAL */ RCU_IRC8M = RCU_REGIDX_BIT(CTL_REG_OFFSET, 0U), /*!< IRC8M */ RCU_IRC48M = RCU_REGIDX_BIT(ADDCTL_REG_OFFSET, 16U), /*!< IRC48M */ RCU_IRC40K = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 0U), /*!< IRC40K */ RCU_PLL_CK = RCU_REGIDX_BIT(CTL_REG_OFFSET, 24U), /*!< PLL */ #ifdef GD32F10X_CL RCU_PLL1_CK = RCU_REGIDX_BIT(CTL_REG_OFFSET, 26U), /*!< PLL1 */ RCU_PLL2_CK = RCU_REGIDX_BIT(CTL_REG_OFFSET, 28U), /*!< PLL2 */ #endif /* GD32F10X_CL */ } rcu_osci_type_enum; /* rcu clock frequency */ typedef enum { CK_SYS = 0, /*!< system clock */ CK_AHB, /*!< AHB clock */ CK_APB1, /*!< APB1 clock */ CK_APB2, /*!< APB2 clock */ } rcu_clock_freq_enum; /* RCU_CFG0 register bit define */ /* system clock source select */ #define CFG0_SCS(regval) (BITS(0,1) & ((uint32_t)(regval) << 0)) #define RCU_CKSYSSRC_IRC8M CFG0_SCS(0) /*!< system clock source select IRC8M */ #define RCU_CKSYSSRC_HXTAL CFG0_SCS(1) /*!< system clock source select HXTAL */ #define RCU_CKSYSSRC_PLL CFG0_SCS(2) /*!< system clock source select PLL */ /* system clock source select status */ #define CFG0_SCSS(regval) (BITS(2,3) & ((uint32_t)(regval) << 2)) #define RCU_SCSS_IRC8M CFG0_SCSS(0) /*!< system clock source select IRC8M */ #define RCU_SCSS_HXTAL CFG0_SCSS(1) /*!< system clock source select HXTAL */ #define RCU_SCSS_PLL CFG0_SCSS(2) /*!< system clock source select PLLP */ /* AHB prescaler selection */ #define CFG0_AHBPSC(regval) (BITS(4,7) & ((uint32_t)(regval) << 4)) #define RCU_AHB_CKSYS_DIV1 CFG0_AHBPSC(0) /*!< AHB prescaler select CK_SYS */ #define RCU_AHB_CKSYS_DIV2 CFG0_AHBPSC(8) /*!< AHB prescaler select CK_SYS/2 */ #define RCU_AHB_CKSYS_DIV4 CFG0_AHBPSC(9) /*!< AHB prescaler select CK_SYS/4 */ #define RCU_AHB_CKSYS_DIV8 CFG0_AHBPSC(10) /*!< AHB prescaler select CK_SYS/8 */ #define RCU_AHB_CKSYS_DIV16 CFG0_AHBPSC(11) /*!< AHB prescaler select CK_SYS/16 */ #define RCU_AHB_CKSYS_DIV64 CFG0_AHBPSC(12) /*!< AHB prescaler select CK_SYS/64 */ #define RCU_AHB_CKSYS_DIV128 CFG0_AHBPSC(13) /*!< AHB prescaler select CK_SYS/128 */ #define RCU_AHB_CKSYS_DIV256 CFG0_AHBPSC(14) /*!< AHB prescaler select CK_SYS/256 */ #define RCU_AHB_CKSYS_DIV512 CFG0_AHBPSC(15) /*!< AHB prescaler select CK_SYS/512 */ /* APB1 prescaler selection */ #define CFG0_APB1PSC(regval) (BITS(8,10) & ((uint32_t)(regval) << 8)) #define RCU_APB1_CKAHB_DIV1 CFG0_APB1PSC(0) /*!< APB1 prescaler select CK_AHB */ #define RCU_APB1_CKAHB_DIV2 CFG0_APB1PSC(4) /*!< APB1 prescaler select CK_AHB/2 */ #define RCU_APB1_CKAHB_DIV4 CFG0_APB1PSC(5) /*!< APB1 prescaler select CK_AHB/4 */ #define RCU_APB1_CKAHB_DIV8 CFG0_APB1PSC(6) /*!< APB1 prescaler select CK_AHB/8 */ #define RCU_APB1_CKAHB_DIV16 CFG0_APB1PSC(7) /*!< APB1 prescaler select CK_AHB/16 */ /* APB2 prescaler selection */ #define CFG0_APB2PSC(regval) (BITS(11,13) & ((uint32_t)(regval) << 11)) #define RCU_APB2_CKAHB_DIV1 CFG0_APB2PSC(0) /*!< APB2 prescaler select CK_AHB */ #define RCU_APB2_CKAHB_DIV2 CFG0_APB2PSC(4) /*!< APB2 prescaler select CK_AHB/2 */ #define RCU_APB2_CKAHB_DIV4 CFG0_APB2PSC(5) /*!< APB2 prescaler select CK_AHB/4 */ #define RCU_APB2_CKAHB_DIV8 CFG0_APB2PSC(6) /*!< APB2 prescaler select CK_AHB/8 */ #define RCU_APB2_CKAHB_DIV16 CFG0_APB2PSC(7) /*!< APB2 prescaler select CK_AHB/16 */ /* ADC prescaler select */ #define RCU_CKADC_CKAPB2_DIV2 ((uint32_t)0x00000000U) /*!< ADC prescaler select CK_APB2/2 */ #define RCU_CKADC_CKAPB2_DIV4 ((uint32_t)0x00000001U) /*!< ADC prescaler select CK_APB2/4 */ #define RCU_CKADC_CKAPB2_DIV6 ((uint32_t)0x00000002U) /*!< ADC prescaler select CK_APB2/6 */ #define RCU_CKADC_CKAPB2_DIV8 ((uint32_t)0x00000003U) /*!< ADC prescaler select CK_APB2/8 */ #define RCU_CKADC_CKAPB2_DIV12 ((uint32_t)0x00000005U) /*!< ADC prescaler select CK_APB2/12 */ #define RCU_CKADC_CKAPB2_DIV16 ((uint32_t)0x00000007U) /*!< ADC prescaler select CK_APB2/16 */ #define RCU_CKADC_CKAHB_DIV5 ((uint32_t)0x00000008U) /*!< ADC prescaler select CK_AHB/5 */ #define RCU_CKADC_CKAHB_DIV6 ((uint32_t)0x00000009U) /*!< ADC prescaler select CK_AHB/6 */ #define RCU_CKADC_CKAHB_DIV10 ((uint32_t)0x0000000AU) /*!< ADC prescaler select CK_AHB/10 */ #define RCU_CKADC_CKAHB_DIV20 ((uint32_t)0x0000000BU) /*!< ADC prescaler select CK_AHB/20 */ /* PLL clock source selection */ #define RCU_PLLSRC_IRC8M_DIV2 ((uint32_t)0x00000000U) /*!< IRC8M/2 clock selected as source clock of PLL */ #define RCU_PLLSRC_HXTAL_IRC48M RCU_CFG0_PLLSEL /*!< HXTAL or IRC48M selected as source clock of PLL */ /* PLL clock multiplication factor */ #define PLLMF_4 RCU_CFG0_PLLMF_4 /* bit 4 of PLLMF */ #define PLLMF_5 RCU_CFG0_PLLMF_5 /* bit 5 of PLLMF */ #define PLLMF_4_5 (PLLMF_4 | PLLMF_5) /* bit 4 and 5 of PLLMF */ #define CFG0_PLLMF(regval) (BITS(18,21) & ((uint32_t)(regval) << 18)) #define RCU_PLL_MUL2 CFG0_PLLMF(0) /*!< PLL source clock multiply by 2 */ #define RCU_PLL_MUL3 CFG0_PLLMF(1) /*!< PLL source clock multiply by 3 */ #define RCU_PLL_MUL4 CFG0_PLLMF(2) /*!< PLL source clock multiply by 4 */ #define RCU_PLL_MUL5 CFG0_PLLMF(3) /*!< PLL source clock multiply by 5 */ #define RCU_PLL_MUL6 CFG0_PLLMF(4) /*!< PLL source clock multiply by 6 */ #define RCU_PLL_MUL7 CFG0_PLLMF(5) /*!< PLL source clock multiply by 7 */ #define RCU_PLL_MUL8 CFG0_PLLMF(6) /*!< PLL source clock multiply by 8 */ #define RCU_PLL_MUL9 CFG0_PLLMF(7) /*!< PLL source clock multiply by 9 */ #define RCU_PLL_MUL10 CFG0_PLLMF(8) /*!< PLL source clock multiply by 10 */ #define RCU_PLL_MUL11 CFG0_PLLMF(9) /*!< PLL source clock multiply by 11 */ #define RCU_PLL_MUL12 CFG0_PLLMF(10) /*!< PLL source clock multiply by 12 */ #define RCU_PLL_MUL13 CFG0_PLLMF(11) /*!< PLL source clock multiply by 13 */ #define RCU_PLL_MUL14 CFG0_PLLMF(12) /*!< PLL source clock multiply by 14 */ #if(defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define RCU_PLL_MUL15 CFG0_PLLMF(13) /*!< PLL source clock multiply by 15 */ #elif defined(GD32F10X_CL) #define RCU_PLL_MUL6_5 CFG0_PLLMF(13) /*!< PLL source clock multiply by 6.5 */ #endif /* GD32F10X_HD and GD32F10X_XD */ #define RCU_PLL_MUL16 CFG0_PLLMF(14) /*!< PLL source clock multiply by 16 */ #define RCU_PLL_MUL17 (PLLMF_4 | CFG0_PLLMF(0)) /*!< PLL source clock multiply by 17 */ #define RCU_PLL_MUL18 (PLLMF_4 | CFG0_PLLMF(1)) /*!< PLL source clock multiply by 18 */ #define RCU_PLL_MUL19 (PLLMF_4 | CFG0_PLLMF(2)) /*!< PLL source clock multiply by 19 */ #define RCU_PLL_MUL20 (PLLMF_4 | CFG0_PLLMF(3)) /*!< PLL source clock multiply by 20 */ #define RCU_PLL_MUL21 (PLLMF_4 | CFG0_PLLMF(4)) /*!< PLL source clock multiply by 21 */ #define RCU_PLL_MUL22 (PLLMF_4 | CFG0_PLLMF(5)) /*!< PLL source clock multiply by 22 */ #define RCU_PLL_MUL23 (PLLMF_4 | CFG0_PLLMF(6)) /*!< PLL source clock multiply by 23 */ #define RCU_PLL_MUL24 (PLLMF_4 | CFG0_PLLMF(7)) /*!< PLL source clock multiply by 24 */ #define RCU_PLL_MUL25 (PLLMF_4 | CFG0_PLLMF(8)) /*!< PLL source clock multiply by 25 */ #define RCU_PLL_MUL26 (PLLMF_4 | CFG0_PLLMF(9)) /*!< PLL source clock multiply by 26 */ #define RCU_PLL_MUL27 (PLLMF_4 | CFG0_PLLMF(10)) /*!< PLL source clock multiply by 27 */ #define RCU_PLL_MUL28 (PLLMF_4 | CFG0_PLLMF(11)) /*!< PLL source clock multiply by 28 */ #define RCU_PLL_MUL29 (PLLMF_4 | CFG0_PLLMF(12)) /*!< PLL source clock multiply by 29 */ #define RCU_PLL_MUL30 (PLLMF_4 | CFG0_PLLMF(13)) /*!< PLL source clock multiply by 30 */ #define RCU_PLL_MUL31 (PLLMF_4 | CFG0_PLLMF(14)) /*!< PLL source clock multiply by 31 */ #define RCU_PLL_MUL32 (PLLMF_4 | CFG0_PLLMF(15)) /*!< PLL source clock multiply by 32 */ #define RCU_PLL_MUL33 (PLLMF_5 | CFG0_PLLMF(0)) /*!< PLL source clock multiply by 33 */ #define RCU_PLL_MUL34 (PLLMF_5 | CFG0_PLLMF(1)) /*!< PLL source clock multiply by 34 */ #define RCU_PLL_MUL35 (PLLMF_5 | CFG0_PLLMF(2)) /*!< PLL source clock multiply by 35 */ #define RCU_PLL_MUL36 (PLLMF_5 | CFG0_PLLMF(3)) /*!< PLL source clock multiply by 36 */ #define RCU_PLL_MUL37 (PLLMF_5 | CFG0_PLLMF(4)) /*!< PLL source clock multiply by 37 */ #define RCU_PLL_MUL38 (PLLMF_5 | CFG0_PLLMF(5)) /*!< PLL source clock multiply by 38 */ #define RCU_PLL_MUL39 (PLLMF_5 | CFG0_PLLMF(6)) /*!< PLL source clock multiply by 39 */ #define RCU_PLL_MUL40 (PLLMF_5 | CFG0_PLLMF(7)) /*!< PLL source clock multiply by 40 */ #define RCU_PLL_MUL41 (PLLMF_5 | CFG0_PLLMF(8)) /*!< PLL source clock multiply by 41 */ #define RCU_PLL_MUL42 (PLLMF_5 | CFG0_PLLMF(9)) /*!< PLL source clock multiply by 42 */ #define RCU_PLL_MUL43 (PLLMF_5 | CFG0_PLLMF(10)) /*!< PLL source clock multiply by 43 */ #define RCU_PLL_MUL44 (PLLMF_5 | CFG0_PLLMF(11)) /*!< PLL source clock multiply by 44 */ #define RCU_PLL_MUL45 (PLLMF_5 | CFG0_PLLMF(12)) /*!< PLL source clock multiply by 45 */ #define RCU_PLL_MUL46 (PLLMF_5 | CFG0_PLLMF(13)) /*!< PLL source clock multiply by 46 */ #define RCU_PLL_MUL47 (PLLMF_5 | CFG0_PLLMF(14)) /*!< PLL source clock multiply by 47 */ #define RCU_PLL_MUL48 (PLLMF_5 | CFG0_PLLMF(15)) /*!< PLL source clock multiply by 48 */ #define RCU_PLL_MUL49 (PLLMF_4_5 | CFG0_PLLMF(0)) /*!< PLL source clock multiply by 49 */ #define RCU_PLL_MUL50 (PLLMF_4_5 | CFG0_PLLMF(1)) /*!< PLL source clock multiply by 50 */ #define RCU_PLL_MUL51 (PLLMF_4_5 | CFG0_PLLMF(2)) /*!< PLL source clock multiply by 51 */ #define RCU_PLL_MUL52 (PLLMF_4_5 | CFG0_PLLMF(3)) /*!< PLL source clock multiply by 52 */ #define RCU_PLL_MUL53 (PLLMF_4_5 | CFG0_PLLMF(4)) /*!< PLL source clock multiply by 53 */ #define RCU_PLL_MUL54 (PLLMF_4_5 | CFG0_PLLMF(5)) /*!< PLL source clock multiply by 54 */ #define RCU_PLL_MUL55 (PLLMF_4_5 | CFG0_PLLMF(6)) /*!< PLL source clock multiply by 55 */ #define RCU_PLL_MUL56 (PLLMF_4_5 | CFG0_PLLMF(7)) /*!< PLL source clock multiply by 56 */ #define RCU_PLL_MUL57 (PLLMF_4_5 | CFG0_PLLMF(8)) /*!< PLL source clock multiply by 57 */ #define RCU_PLL_MUL58 (PLLMF_4_5 | CFG0_PLLMF(9)) /*!< PLL source clock multiply by 58 */ #define RCU_PLL_MUL59 (PLLMF_4_5 | CFG0_PLLMF(10)) /*!< PLL source clock multiply by 59 */ #define RCU_PLL_MUL60 (PLLMF_4_5 | CFG0_PLLMF(11)) /*!< PLL source clock multiply by 60 */ #define RCU_PLL_MUL61 (PLLMF_4_5 | CFG0_PLLMF(12)) /*!< PLL source clock multiply by 61 */ #define RCU_PLL_MUL62 (PLLMF_4_5 | CFG0_PLLMF(13)) /*!< PLL source clock multiply by 62 */ #define RCU_PLL_MUL63 (PLLMF_4_5 | CFG0_PLLMF(14)) /*!< PLL source clock multiply by 63 */ #if(defined(GD32F10X_HD) || defined(GD32F10X_XD)) #define USBPSC_2 RCU_CFG0_USBDPSC_2 #elif defined(GD32F10X_CL) #define USBPSC_2 RCU_CFG0_USBFSPSC_2 #endif /* GD32F10X_HD and GD32F10X_XD */ /* USBD/USBFS prescaler select */ #define CFG0_USBPSC(regval) (BITS(22,23) & ((uint32_t)(regval) << 22)) #define RCU_CKUSB_CKPLL_DIV1_5 CFG0_USBPSC(0) /*!< USBD/USBFS prescaler select CK_PLL/1.5 */ #define RCU_CKUSB_CKPLL_DIV1 CFG0_USBPSC(1) /*!< USBD/USBFS prescaler select CK_PLL/1 */ #define RCU_CKUSB_CKPLL_DIV2_5 CFG0_USBPSC(2) /*!< USBD/USBFS prescaler select CK_PLL/2.5 */ #define RCU_CKUSB_CKPLL_DIV2 CFG0_USBPSC(3) /*!< USBD/USBFS prescaler select CK_PLL/2 */ #define RCU_CKUSB_CKPLL_DIV3 (USBPSC_2 |CFG0_USBPSC(0)) /*!< USBD/USBFS prescaler select CK_PLL/3.5 */ #define RCU_CKUSB_CKPLL_DIV3_5 (USBPSC_2 |CFG0_USBPSC(1)) /*!< USBD/USBFS prescaler select CK_PLL/3 */ #define RCU_CKUSB_CKPLL_DIV4 (USBPSC_2 |CFG0_USBPSC(2)) /*!< USBD/USBFS prescaler select CK_PLL/4 */ /* CKOUT0 Clock source selection */ #define CFG0_CKOUT0SEL(regval) (BITS(24,27) & ((uint32_t)(regval) << 24)) #define RCU_CKOUT0SRC_NONE CFG0_CKOUT0SEL(0) /*!< no clock selected */ #define RCU_CKOUT0SRC_CKSYS CFG0_CKOUT0SEL(4) /*!< system clock selected */ #define RCU_CKOUT0SRC_IRC8M CFG0_CKOUT0SEL(5) /*!< internal 8M RC oscillator clock selected */ #define RCU_CKOUT0SRC_HXTAL CFG0_CKOUT0SEL(6) /*!< high speed crystal oscillator clock (HXTAL) selected */ #define RCU_CKOUT0SRC_CKPLL_DIV2 CFG0_CKOUT0SEL(7) /*!< CK_PLL/2 clock selected */ #ifdef GD32F10X_CL #define RCU_CKOUT0SRC_CKPLL1 CFG0_CKOUT0SEL(8) /*!< CK_PLL1 clock selected */ #define RCU_CKOUT0SRC_CKPLL2_DIV2 CFG0_CKOUT0SEL(9) /*!< CK_PLL2/2 clock selected */ #define RCU_CKOUT0SRC_EXT1 CFG0_CKOUT0SEL(10) /*!< EXT1 selected, to provide the external clock for ENET */ #define RCU_CKOUT0SRC_CKPLL2 CFG0_CKOUT0SEL(11) /*!< CK_PLL2 clock selected */ #endif /* GD32F10X_CL */ /* LXTAL drive capability */ #define BDCTL_LXTALDRI(regval) (BITS(3,4) & ((uint32_t)(regval) << 3)) #define RCU_LXTAL_LOWDRI BDCTL_LXTALDRI(0) /*!< lower driving capability */ #define RCU_LXTAL_MED_LOWDRI BDCTL_LXTALDRI(1) /*!< medium low driving capability */ #define RCU_LXTAL_MED_HIGHDRI BDCTL_LXTALDRI(2) /*!< medium high driving capability */ #define RCU_LXTAL_HIGHDRI BDCTL_LXTALDRI(3) /*!< higher driving capability */ /* RTC clock entry selection */ #define BDCTL_RTCSRC(regval) (BITS(8,9) & ((uint32_t)(regval) << 8)) #define RCU_RTCSRC_NONE BDCTL_RTCSRC(0) /*!< no clock selected */ #define RCU_RTCSRC_LXTAL BDCTL_RTCSRC(1) /*!< RTC source clock select LXTAL */ #define RCU_RTCSRC_IRC40K BDCTL_RTCSRC(2) /*!< RTC source clock select IRC40K */ #define RCU_RTCSRC_HXTAL_DIV_128 BDCTL_RTCSRC(3) /*!< RTC source clock select HXTAL/128 */ /* PREDV0 division factor */ #define CFG1_PREDV0(regval) (BITS(0,3) & ((uint32_t)(regval) << 0)) #define RCU_PREDV0_DIV1 CFG1_PREDV0(0) /*!< PREDV0 input source clock not divided */ #define RCU_PREDV0_DIV2 CFG1_PREDV0(1) /*!< PREDV0 input source clock divided by 2 */ #define RCU_PREDV0_DIV3 CFG1_PREDV0(2) /*!< PREDV0 input source clock divided by 3 */ #define RCU_PREDV0_DIV4 CFG1_PREDV0(3) /*!< PREDV0 input source clock divided by 4 */ #define RCU_PREDV0_DIV5 CFG1_PREDV0(4) /*!< PREDV0 input source clock divided by 5 */ #define RCU_PREDV0_DIV6 CFG1_PREDV0(5) /*!< PREDV0 input source clock divided by 6 */ #define RCU_PREDV0_DIV7 CFG1_PREDV0(6) /*!< PREDV0 input source clock divided by 7 */ #define RCU_PREDV0_DIV8 CFG1_PREDV0(7) /*!< PREDV0 input source clock divided by 8 */ #define RCU_PREDV0_DIV9 CFG1_PREDV0(8) /*!< PREDV0 input source clock divided by 9 */ #define RCU_PREDV0_DIV10 CFG1_PREDV0(9) /*!< PREDV0 input source clock divided by 10 */ #define RCU_PREDV0_DIV11 CFG1_PREDV0(10) /*!< PREDV0 input source clock divided by 11 */ #define RCU_PREDV0_DIV12 CFG1_PREDV0(11) /*!< PREDV0 input source clock divided by 12 */ #define RCU_PREDV0_DIV13 CFG1_PREDV0(12) /*!< PREDV0 input source clock divided by 13 */ #define RCU_PREDV0_DIV14 CFG1_PREDV0(13) /*!< PREDV0 input source clock divided by 14 */ #define RCU_PREDV0_DIV15 CFG1_PREDV0(14) /*!< PREDV0 input source clock divided by 15 */ #define RCU_PREDV0_DIV16 CFG1_PREDV0(15) /*!< PREDV0 input source clock divided by 16 */ /* PREDV1 division factor */ #define CFG1_PREDV1(regval) (BITS(4,7) & ((uint32_t)(regval) << 4)) #define RCU_PREDV1_DIV1 CFG1_PREDV1(0) /*!< PREDV1 input source clock not divided */ #define RCU_PREDV1_DIV2 CFG1_PREDV1(1) /*!< PREDV1 input source clock divided by 2 */ #define RCU_PREDV1_DIV3 CFG1_PREDV1(2) /*!< PREDV1 input source clock divided by 3 */ #define RCU_PREDV1_DIV4 CFG1_PREDV1(3) /*!< PREDV1 input source clock divided by 4 */ #define RCU_PREDV1_DIV5 CFG1_PREDV1(4) /*!< PREDV1 input source clock divided by 5 */ #define RCU_PREDV1_DIV6 CFG1_PREDV1(5) /*!< PREDV1 input source clock divided by 6 */ #define RCU_PREDV1_DIV7 CFG1_PREDV1(6) /*!< PREDV1 input source clock divided by 7 */ #define RCU_PREDV1_DIV8 CFG1_PREDV1(7) /*!< PREDV1 input source clock divided by 8 */ #define RCU_PREDV1_DIV9 CFG1_PREDV1(8) /*!< PREDV1 input source clock divided by 9 */ #define RCU_PREDV1_DIV10 CFG1_PREDV1(9) /*!< PREDV1 input source clock divided by 10 */ #define RCU_PREDV1_DIV11 CFG1_PREDV1(10) /*!< PREDV1 input source clock divided by 11 */ #define RCU_PREDV1_DIV12 CFG1_PREDV1(11) /*!< PREDV1 input source clock divided by 12 */ #define RCU_PREDV1_DIV13 CFG1_PREDV1(12) /*!< PREDV1 input source clock divided by 13 */ #define RCU_PREDV1_DIV14 CFG1_PREDV1(13) /*!< PREDV1 input source clock divided by 14 */ #define RCU_PREDV1_DIV15 CFG1_PREDV1(14) /*!< PREDV1 input source clock divided by 15 */ #define RCU_PREDV1_DIV16 CFG1_PREDV1(15) /*!< PREDV1 input source clock divided by 16 */ /* PLL1 clock multiplication factor */ #define CFG1_PLL1MF(regval) (BITS(8,11) & ((uint32_t)(regval) << 8)) #define RCU_PLL1_MUL8 CFG1_PLL1MF(6) /*!< PLL1 source clock multiply by 8 */ #define RCU_PLL1_MUL9 CFG1_PLL1MF(7) /*!< PLL1 source clock multiply by 9 */ #define RCU_PLL1_MUL10 CFG1_PLL1MF(8) /*!< PLL1 source clock multiply by 10 */ #define RCU_PLL1_MUL11 CFG1_PLL1MF(9) /*!< PLL1 source clock multiply by 11 */ #define RCU_PLL1_MUL12 CFG1_PLL1MF(10) /*!< PLL1 source clock multiply by 12 */ #define RCU_PLL1_MUL13 CFG1_PLL1MF(11) /*!< PLL1 source clock multiply by 13 */ #define RCU_PLL1_MUL14 CFG1_PLL1MF(12) /*!< PLL1 source clock multiply by 14 */ #define RCU_PLL1_MUL15 CFG1_PLL1MF(13) /*!< PLL1 source clock multiply by 15 */ #define RCU_PLL1_MUL16 CFG1_PLL1MF(14) /*!< PLL1 source clock multiply by 16 */ #define RCU_PLL1_MUL20 CFG1_PLL1MF(15) /*!< PLL1 source clock multiply by 20 */ /* PLL2 clock multiplication factor */ #define PLL2MF_4 RCU_CFG1_PLL2MF_4 /* bit 4 of PLL2MF */ #define CFG1_PLL2MF(regval) (BITS(12,15) & ((uint32_t)(regval) << 12)) #define RCU_PLL2_MUL8 CFG1_PLL2MF(6) /*!< PLL2 source clock multiply by 8 */ #define RCU_PLL2_MUL9 CFG1_PLL2MF(7) /*!< PLL2 source clock multiply by 9 */ #define RCU_PLL2_MUL10 CFG1_PLL2MF(8) /*!< PLL2 source clock multiply by 10 */ #define RCU_PLL2_MUL11 CFG1_PLL2MF(9) /*!< PLL2 source clock multiply by 11 */ #define RCU_PLL2_MUL12 CFG1_PLL2MF(10) /*!< PLL2 source clock multiply by 12 */ #define RCU_PLL2_MUL13 CFG1_PLL2MF(11) /*!< PLL2 source clock multiply by 13 */ #define RCU_PLL2_MUL14 CFG1_PLL2MF(12) /*!< PLL2 source clock multiply by 14 */ #define RCU_PLL2_MUL15 CFG1_PLL2MF(13) /*!< PLL2 source clock multiply by 15 */ #define RCU_PLL2_MUL16 CFG1_PLL2MF(14) /*!< PLL2 source clock multiply by 16 */ #define RCU_PLL2_MUL20 CFG1_PLL2MF(15) /*!< PLL2 source clock multiply by 20 */ #define RCU_PLL2_MUL18 (PLL2MF_4 | CFG1_PLL2MF(0)) /*!< PLL2 source clock multiply by 18 */ #define RCU_PLL2_MUL19 (PLL2MF_4 | CFG1_PLL2MF(1)) /*!< PLL2 source clock multiply by 19 */ #define RCU_PLL2_MUL21 (PLL2MF_4 | CFG1_PLL2MF(3)) /*!< PLL2 source clock multiply by 21 */ #define RCU_PLL2_MUL22 (PLL2MF_4 | CFG1_PLL2MF(4)) /*!< PLL2 source clock multiply by 22 */ #define RCU_PLL2_MUL23 (PLL2MF_4 | CFG1_PLL2MF(5)) /*!< PLL2 source clock multiply by 23 */ #define RCU_PLL2_MUL24 (PLL2MF_4 | CFG1_PLL2MF(6)) /*!< PLL2 source clock multiply by 24 */ #define RCU_PLL2_MUL25 (PLL2MF_4 | CFG1_PLL2MF(7)) /*!< PLL2 source clock multiply by 25 */ #define RCU_PLL2_MUL26 (PLL2MF_4 | CFG1_PLL2MF(8)) /*!< PLL2 source clock multiply by 26 */ #define RCU_PLL2_MUL27 (PLL2MF_4 | CFG1_PLL2MF(9)) /*!< PLL2 source clock multiply by 27 */ #define RCU_PLL2_MUL28 (PLL2MF_4 | CFG1_PLL2MF(10)) /*!< PLL2 source clock multiply by 28 */ #define RCU_PLL2_MUL29 (PLL2MF_4 | CFG1_PLL2MF(11)) /*!< PLL2 source clock multiply by 29 */ #define RCU_PLL2_MUL30 (PLL2MF_4 | CFG1_PLL2MF(12)) /*!< PLL2 source clock multiply by 30 */ #define RCU_PLL2_MUL31 (PLL2MF_4 | CFG1_PLL2MF(13)) /*!< PLL2 source clock multiply by 31 */ #define RCU_PLL2_MUL32 (PLL2MF_4 | CFG1_PLL2MF(14)) /*!< PLL2 source clock multiply by 32 */ #define RCU_PLL2_MUL40 (PLL2MF_4 | CFG1_PLL2MF(15)) /*!< PLL2 source clock multiply by 40 */ #ifdef GD32F10X_CL /* PREDV0 input clock source selection */ #define RCU_PREDV0SRC_HXTAL_IRC48M ((uint32_t)0x00000000U) /*!< HXTAL or IRC48M selected as PREDV0 input source clock */ #define RCU_PREDV0SRC_CKPLL1 RCU_CFG1_PREDV0SEL /*!< CK_PLL1 selected as PREDV0 input source clock */ /* I2S1 clock source selection */ #define RCU_I2S1SRC_CKSYS ((uint32_t)0x00000000U) /*!< system clock selected as I2S1 source clock */ #define RCU_I2S1SRC_CKPLL2_MUL2 RCU_CFG1_I2S1SEL /*!< (CK_PLL2 x 2) selected as I2S1 source clock */ /* I2S2 clock source selection */ #define RCU_I2S2SRC_CKSYS ((uint32_t)0x00000000U) /*!< system clock selected as I2S2 source clock */ #define RCU_I2S2SRC_CKPLL2_MUL2 RCU_CFG1_I2S2SEL /*!< (CK_PLL2 x 2) selected as I2S2 source clock */ #endif /* GD32F10X_CL */ /* PLL input clock source selection */ #define RCU_PLLPRESRC_HXTAL ((uint32_t)0x00000000U) /*!< HXTAL selected as PLL source clock */ #define RCU_PLLPRESRC_IRC48M RCU_CFG1_PLLPRESEL /*!< CK_PLL selected as PREDV0 input source clock */ /* deep-sleep mode voltage */ #define DSV_DSLPVS(regval) (BITS(0,2) & ((uint32_t)(regval) << 0)) #define RCU_DEEPSLEEP_V_1_0 DSV_DSLPVS(0) /*!< core voltage is 1.0V in deep-sleep mode */ #define RCU_DEEPSLEEP_V_0_9 DSV_DSLPVS(1) /*!< core voltage is 0.9V in deep-sleep mode */ #define RCU_DEEPSLEEP_V_0_8 DSV_DSLPVS(2) /*!< core voltage is 0.8V in deep-sleep mode */ #define RCU_DEEPSLEEP_V_0_7 DSV_DSLPVS(3) /*!< core voltage is 0.7V in deep-sleep mode */ /* 48MHz clock selection */ #define RCU_CK48MSRC_CKPLL ((uint32_t)0x00000000U) /*!< use CK_PLL clock */ #define RCU_CK48MSRC_IRC48M RCU_ADDCTL_CK48MSEL /*!< select IRC48M clock */ /* function declarations */ /* deinitialize the RCU */ void rcu_deinit(void); /* enable the peripherals clock */ void rcu_periph_clock_enable(rcu_periph_enum periph); /* disable the peripherals clock */ void rcu_periph_clock_disable(rcu_periph_enum periph); /* enable the peripherals clock when sleep mode */ void rcu_periph_clock_sleep_enable(rcu_periph_sleep_enum periph); /* disable the peripherals clock when sleep mode */ void rcu_periph_clock_sleep_disable(rcu_periph_sleep_enum periph); /* reset the peripherals */ void rcu_periph_reset_enable(rcu_periph_reset_enum periph_reset); /* disable reset the peripheral */ void rcu_periph_reset_disable(rcu_periph_reset_enum periph_reset); /* reset the BKP domain */ void rcu_bkp_reset_enable(void); /* disable the BKP domain reset */ void rcu_bkp_reset_disable(void); /* configure the system clock source */ void rcu_system_clock_source_config(uint32_t ck_sys); /* get the system clock source */ uint32_t rcu_system_clock_source_get(void); /* configure the AHB prescaler selection */ void rcu_ahb_clock_config(uint32_t ck_ahb); /* configure the APB1 prescaler selection */ void rcu_apb1_clock_config(uint32_t ck_apb1); /* configure the APB2 prescaler selection */ void rcu_apb2_clock_config(uint32_t ck_apb2); /* configure the CK_OUT0 clock source and divider */ void rcu_ckout0_config(uint32_t ckout0_src); /* configure the PLL clock source selection and PLL multiply factor */ void rcu_pll_config(uint32_t pll_src, uint32_t pll_mul); /* configure the PLL clock source preselection */ void rcu_pllpresel_config(uint32_t pll_presel); #if(defined(GD32F10X_HD) || defined(GD32F10X_XD)) /* configure the PREDV0 division factor and clock source */ void rcu_predv0_config(uint32_t predv0_div); #elif defined(GD32F10X_CL) /* configure the PREDV0 division factor and clock source */ void rcu_predv0_config(uint32_t predv0_source, uint32_t predv0_div); /* configure the PREDV1 division factor */ void rcu_predv1_config(uint32_t predv1_div); /* configure the PLL1 clock */ void rcu_pll1_config(uint32_t pll_mul); /* configure the PLL2 clock */ void rcu_pll2_config(uint32_t pll_mul); #endif /* GD32F10X_HD and GD32F10X_XD */ /* configure the ADC division factor */ void rcu_adc_clock_config(uint32_t adc_psc); /* configure the USBD/USBFS prescaler factor */ void rcu_usb_clock_config(uint32_t usb_psc); /* configure the RTC clock source selection */ void rcu_rtc_clock_config(uint32_t rtc_clock_source); #ifdef GD32F10X_CL /* configure the I2S1 clock source selection */ void rcu_i2s1_clock_config(uint32_t i2s_clock_source); /* configure the I2S2 clock source selection */ void rcu_i2s2_clock_config(uint32_t i2s_clock_source); #endif /* GD32F10X_CL */ /* configure the CK48M clock selection */ void rcu_ck48m_clock_config(uint32_t ck48m_clock_source); /* get the clock stabilization and periphral reset flags */ FlagStatus rcu_flag_get(rcu_flag_enum flag); /* clear the reset flag */ void rcu_all_reset_flag_clear(void); /* get the clock stabilization interrupt and ckm flags */ FlagStatus rcu_interrupt_flag_get(rcu_int_flag_enum int_flag); /* clear the interrupt flags */ void rcu_interrupt_flag_clear(rcu_int_flag_clear_enum int_flag_clear); /* enable the stabilization interrupt */ void rcu_interrupt_enable(rcu_int_enum stab_int); /* disable the stabilization interrupt */ void rcu_interrupt_disable(rcu_int_enum stab_int); /* configure the LXTAL drive capability */ void rcu_lxtal_drive_capability_config(uint32_t lxtal_dricap); /* wait for oscillator stabilization flags is SET or oscillator startup is timeout */ ErrStatus rcu_osci_stab_wait(rcu_osci_type_enum osci); /* turn on the oscillator */ void rcu_osci_on(rcu_osci_type_enum osci); /* turn off the oscillator */ void rcu_osci_off(rcu_osci_type_enum osci); /* enable the oscillator bypass mode, HXTALEN or LXTALEN must be reset before it */ void rcu_osci_bypass_mode_enable(rcu_osci_type_enum osci); /* disable the oscillator bypass mode, HXTALEN or LXTALEN must be reset before it */ void rcu_osci_bypass_mode_disable(rcu_osci_type_enum osci); /* enable the HXTAL clock monitor */ void rcu_hxtal_clock_monitor_enable(void); /* disable the HXTAL clock monitor */ void rcu_hxtal_clock_monitor_disable(void); /* set the IRC8M adjust value */ void rcu_irc8m_adjust_value_set(uint32_t irc8m_adjval); /* set the deep sleep mode voltage */ void rcu_deepsleep_voltage_set(uint32_t dsvol); /* get the system clock, bus and peripheral clock frequency */ uint32_t rcu_clock_freq_get(rcu_clock_freq_enum clock); #endif /* GD32F10X_RCU_H */