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Showing content from https://stm32-rs.github.io/stm32-rs/stm32g081.svd.patched below:

STM32G081 1.8 STM32G081 CM0 r0p1 little true false 2 false 8 32 0x20 0x00000000 0xFFFFFFFF IWDG Independent watchdog IWDG 0x40003000 0x0 0x400 registers KR KR Key register 0x0 0x10 write-only 0x00000000 KEY Key value (write only, read 0x0000) 0 16 KEY Unlock Enable access to PR, RLR and WINR registers 21845 Feed Feed watchdog with RLR register value 43690 Start Start the watchdog 52428 PR PR Prescaler register 0x4 0x10 read-write 0x00000000 PR Prescaler divider 0 3 PR DivideBy4 Divider /4 0 DivideBy8 Divider /8 1 DivideBy16 Divider /16 2 DivideBy32 Divider /32 3 DivideBy64 Divider /64 4 DivideBy128 Divider /128 5 DivideBy256 Divider /256 true RLR RLR Reload register 0x8 0x10 read-write 0x00000FFF RL Watchdog counter reload value 0 12 0 4095 SR SR Status register 0xC 0x10 read-only 0x00000000 WVU Watchdog counter window value update 2 1 RVU Watchdog counter reload value update 1 1 PVU Watchdog prescaler value update 0 1 WINR WINR Window register 0x10 0x10 read-write 0x00000FFF WIN Watchdog counter window value 0 12 0 4095 HWCFGR HWCFGR hardware configuration register 0x3F0 0x20 read-write 0x00000071 WINDOW Support of Window function 0 4 PR_DEFAULT Prescaler default value 4 4 VERR VERR EXTI IP Version register 0x3F4 0x20 read-only 0x00000023 MINREV Minor Revision number 0 4 MAJREV Major Revision number 4 4 IPIDR IPIDR EXTI Identification register 0x3F8 0x20 read-only 0x00120041 IPID IP Identification 0 32 SIDR SIDR EXTI Size ID register 0x3FC 0x20 read-only 0xA3C5DD01 SID Size Identification 0 32 WWDG System window watchdog WWDG 0x40002C00 0x0 0x400 registers WWDG Window watchdog interrupt 0 CR CR Control register 0x0 0x10 read-write 0x0000007F WDGA Activation bit 7 1 WDGA Disabled Watchdog disabled 0 Enabled Watchdog enabled 1 T 7-bit counter (MSB to LSB) 0 7 0 127 CFR CFR Configuration register 0x4 0x10 read-write 0x0000007F WDGTB Timer base 11 3 WDGTB Div1 Counter clock (PCLK1 div 4096) div 1 0 Div2 Counter clock (PCLK1 div 4096) div 2 1 Div4 Counter clock (PCLK1 div 4096) div 4 2 Div8 Counter clock (PCLK1 div 4096) div 8 3 Div16 Counter clock (PCLK1 div 4096) div 16 4 Div32 Counter clock (PCLK1 div 4096) div 32 5 Div64 Counter clock (PCLK1 div 4096) div 64 6 Div128 Counter clock (PCLK1 div 4096) div 128 7 EWI Early wakeup interrupt 9 1 EWIW write Enable interrupt occurs whenever the counter reaches the value 0x40 1 W 7-bit window value 0 7 0 127 SR SR Status register 0x8 0x10 read-write 0x00000000 EWIF Early wakeup interrupt flag 0 1 zeroToClear EWIFR read Finished The EWI Interrupt Service Routine has been serviced 0 Pending The EWI Interrupt Service Routine has been triggered 1 EWIFW write Finished The EWI Interrupt Service Routine has been serviced 0 FLASH Flash Flash 0x40022000 0x0 0x400 registers FLASH Flash global interrupt 3 ACR ACR Access control register 0x0 0x20 read-write 0x00000600 LATENCY Latency 0 3 PRFTEN Prefetch enable 8 1 ICEN Instruction cache enable 9 1 ICRST Instruction cache reset 11 1 EMPTY Flash User area empty 16 1 DBG_SWEN Debug access software enable 18 1 KEYR KEYR Flash key register 0x8 0x20 write-only 0x00000000 KEY KEYR 0 32 OPTKEYR OPTKEYR Option byte key register 0xC 0x20 write-only 0x00000000 OPTKEY Option byte key 0 32 SR SR Status register 0x10 0x20 read-write 0x00000000 EOP End of operation 0 1 OPERR Operation error 1 1 PROGERR Programming error 3 1 WRPERR Write protected error 4 1 PGAERR Programming alignment error 5 1 SIZERR Size error 6 1 PGSERR Programming sequence error 7 1 MISSERR Fast programming data miss error 8 1 FASTERR Fast programming error 9 1 RDERR PCROP read error 14 1 OPTVERR Option and Engineering bits loading validity error 15 1 BSY Busy 16 1 CFGBSY Programming or erase configuration busy. 18 1 CR CR Flash control register 0x14 0x20 read-write 0xC0000000 PG Programming 0 1 PER Page erase 1 1 MER1 Mass erase 2 1 PNB Page number 3 10 BKER Bank selection for erase operation 13 1 MER2 Mass erase, Bank 2 15 1 STRT Start 16 1 OPTSTRT Options modification start 17 1 FSTPG Fast programming 18 1 EOPIE End of operation interrupt enable 24 1 ERRIE Error interrupt enable 25 1 RDERRIE PCROP read error interrupt enable 26 1 OBL_LAUNCH Force the option byte loading 27 1 SEC_PROT Securable memory area protection enable 28 1 SEC_PROT2 Securable memory area protection enable, Bank 2 29 1 OPTLOCK Options Lock 30 1 LOCK FLASH_CR Lock 31 1 ECCR ECCR Flash ECC register 0x18 0x20 0x00000000 ADDR_ECC ECC fail address 0 15 read-only SYSF_ECC ECC fail for Corrected ECC Error or Double ECC Error in info block 20 1 read-only ECCIE ECC correction interrupt enable 24 1 read-write ECCC ECC correction 30 1 read-write ECCD ECC detection 31 1 read-write ECCR2 ECCR2 Flash ECC register 2 0x1C 0x20 0x00000000 ADDR_ECC ECC fail address 0 15 read-only SYSF_ECC ECC fail for Corrected ECC Error or Double ECC Error in info block 20 1 read-only ECCIE ECC correction interrupt enable 24 1 read-write ECCC ECC correction 30 1 read-write ECCD ECC detection 31 1 read-write OPTR OPTR Flash option register 0x20 0x20 read-write 0xF0000000 RDP Read protection level 0 8 BOREN BOR reset Level 8 1 BORF_LEV These bits contain the VDD supply level threshold that activates the reset 9 2 BORR_LEV These bits contain the VDD supply level threshold that releases the reset. 11 2 nRST_STOP nRST_STOP 13 1 nRST_STDBY nRST_STDBY 14 1 nRSTS_HDW nRSTS_HDW 15 1 IWDG_SW Independent watchdog selection 16 1 IWDG_STOP Independent watchdog counter freeze in Stop mode 17 1 IWDG_STDBY Independent watchdog counter freeze in Standby mode 18 1 WWDG_SW Window watchdog selection 19 1 RAM_PARITY_CHECK SRAM parity check control 22 1 nBOOT_SEL nBOOT_SEL 24 1 nBOOT1 Boot configuration 25 1 nBOOT0 nBOOT0 option bit 26 1 NRST_MODE NRST_MODE 27 2 IRHEN Internal reset holder enable bit 29 1 PCROP1ASR PCROP1ASR Flash PCROP zone A Start address register 0x24 0x20 read-only 0xF0000000 PCROP1A_STRT PCROP1A area start offset 0 8 PCROP1AER PCROP1AER Flash PCROP zone A End address register 0x28 0x20 read-only 0xF0000000 PCROP1A_END PCROP1A area end offset 0 8 PCROP_RDP PCROP area preserved when RDP level decreased 31 1 WRP1AR WRP1AR Flash WRP area A address register 0x2C 0x20 read-write 0x000000FF WRP1A_STRT WRP area A start offset 0 6 WRP1A_END WRP area A end offset 16 6 WRP1BR WRP1BR Flash WRP area B address register 0x30 0x20 read-write 0x000000FF WRP1B_STRT WRP area B start offset 0 6 WRP1B_END WRP area B end offset 16 6 PCROP1BSR PCROP1BSR Flash PCROP zone B Start address register 0x34 0x20 read-only 0xF0000000 PCROP1B_STRT PCROP1B area start offset 0 8 PCROP1BER PCROP1BER Flash PCROP zone B End address register 0x38 0x20 read-only 0xF0000000 PCROP1B_END PCROP1B area end offset 0 8 SECR SECR Flash Security register 0x80 0x20 read-only 0xF0000000 SEC_SIZE Securable memory area size 0 7 BOOT_LOCK used to force boot from user area 16 1 DBG Debug support DBG 0x40015800 0x0 0x400 registers IDCODE IDCODE MCU Device ID Code Register 0x0 0x20 read-only 0x00000000 DEV_ID Device Identifier 0 16 REV_ID Revision Identifier 16 16 CR CR Debug MCU Configuration Register 0x4 0x20 read-write 0x00000000 DBG_STOP Debug Stop Mode 1 1 DBG_STANDBY Debug Standby Mode 2 1 APB_FZ1 APB_FZ1 DBG APB freeze register 1 0x8 0x20 read-write 0x00000000 DBG_TIMER2_STOP Debug Timer 2 stopped when Core is halted 0 1 DBG_TIM3_STOP TIM3 counter stopped when core is halted 1 1 DBG_TIMER6_STOP Debug Timer 6 stopped when Core is halted 4 1 DBG_TIM7_STOP TIM7 counter stopped when core is halted 5 1 DBG_RTC_STOP Debug RTC stopped when Core is halted 10 1 DBG_WWDG_STOP Debug Window Wachdog stopped when Core is halted 11 1 DBG_IWDG_STOP Debug Independent Wachdog stopped when Core is halted 12 1 DBG_I2C1_STOP I2C1 SMBUS timeout mode stopped when core is halted 21 1 DBG_LPTIM2_STOP Clocking of LPTIMER2 counter when the core is halted 30 1 DBG_LPTIM1_STOP Clocking of LPTIMER1 counter when the core is halted 31 1 APB_FZ2 APB_FZ2 DBG APB freeze register 2 0xC 0x20 read-write 0x00000000 DBG_TIM1_STOP DBG_TIM1_STOP 11 1 DBG_TIM14_STOP DBG_TIM14_STOP 15 1 DBG_TIM15_STOP DBG_TIM15_STOP 16 1 DBG_TIM16_STOP DBG_TIM16_STOP 17 1 DBG_TIM17_STOP DBG_TIM17_STOP 18 1 RCC Reset and clock control RCC 0x40021000 0x0 0x400 registers RCC RCC global interrupt 4 CR CR Clock control register 0x0 0x20 read-write 0x00000063 HSION HSI16 clock enable 8 1 HSION Disabled HSI oscillator powered off 0 Enabled HSI oscillator enabled 1 HSIKERON HSI16 always enable for peripheral kernels 9 1 HSIKERON NotForce No effect on HSI16 oscillator 0 Forced HSI16 oscillator forced on even in Stop modes 1 HSIRDY HSI16 clock ready flag 10 1 HSIRDY NotReady HSI oscillator not ready 0 Ready HSI oscillator ready 1 HSIDIV HSI16 clock division factor 11 3 HSIDIV Div1 Divide HSI16 by 1 0 Div2 Divide HSI16 by 2 1 Div4 Divide HSI16 by 4 2 Div8 Divide HSI16 by 8 3 Div16 Divide HSI16 by 16 4 Div32 Divide HSI16 by 32 5 Div64 Divide HSI16 by 64 6 Div128 Divide HSI16 by 128 7 HSEON HSE clock enable 16 1 HSEON Disabled HSE oscillator powered off 0 Enabled HSE oscillator enabled 1 HSERDY HSE clock ready flag 17 1 HSERDY NotReady HSE oscillator not ready 0 Ready HSE oscillator ready 1 HSEBYP HSE crystal oscillator bypass 18 1 HSEBYP Crystal HSE is a crystal oscillator or ceramic resonator 0 ExtClock HSE is driven by an external clock 1 CSSON Clock security system enable 19 1 CSSON Disabled HSE clock is not monitored 0 Enabled HSE clock monitor enabled when HSE is ready, otherwise disabled 1 PLLON PLL enable 24 1 PLLON Disabled PLL powered off 0 Enabled PLL enabled 1 PLLRDY PLL clock ready flag 25 1 PLLRDY Unlocked PLL unlocked 0 Locked PLL locked 1 ICSCR ICSCR Internal clock sources calibration register 0x4 0x20 0x10000000 HSICAL HSI16 clock calibration 0 8 read-only 0 255 HSITRIM HSI16 clock trimming 8 7 read-write 0 127 CFGR CFGR Clock configuration register 0x8 0x20 0x00000000 MCOPRE Microcontroller clock output prescaler 28 3 read-only MCOPRE Div1 Divide by 1 0 Div2 Divide by 2 1 Div3 Divide by 4 2 Div8 Divide by 8 3 Div16 Divide by 16 4 Div32 Divide by 32 5 Div64 Divide by 64 6 Div128 Divide by 128 7 MCOSEL Microcontroller clock output 24 3 read-write MCOSEL NoClock No clock 0 SYSCLK SYSCLK clock selected 1 HSI16 HSI16 oscillator clock selected 3 HSE HSE oscillator clock selected 4 PLLR PLLRCLK clock selected 5 LSI LSI oscillator clock selected 6 LSE LSE oscillator clock selected 7 PPRE APB prescaler 12 3 read-write PPRE Div2 Divide by 2 4 Div4 Divide by 4 5 Div8 Divide by 8 6 Div16 Divide by 16 7 Div1 Divide by 1 true HPRE AHB prescaler 8 4 read-write HPRE Div2 Divide by 2 8 Div4 Divide by 4 9 Div8 Divide by 8 10 Div16 Divide by 16 11 Div64 Divide by 64 12 Div128 Divide by 128 13 Div256 Divide by 256 14 Div512 Divide by 512 15 Div1 Divide by 1 true SWS System clock switch status 3 3 read-only SWS HSISYS HSISYS clock selected 0 HSE HSE clock selected 1 PLLR PLLRCLK clock selected 2 LSI LSI clock selected 3 LSE LSE clock selected 4 SW System clock switch 0 3 read-write SW HSISYS HSISYS clock selected 0 HSE HSE clock selected 1 PLLR PLLRCLK clock selected 2 LSI LSI clock selected 3 LSE LSE clock selected 4 PLLCFGR PLLSYSCFGR PLL configuration register 0xC 0x20 read-write 0x00001000 PLLSRC PLL input clock source 0 2 PLLSRC NoClock No clock selected (saves power) 0 HSI16 HSI16 clock selected 2 HSE HSE clock selected 3 PLLM Division factor M of the PLL input clock divider 4 3 0 7 PLLN PLL frequency multiplication factor N 8 7 8 86 PLLPEN PLLPCLK clock output enable 16 1 PLLPEN Disabled PLL output disabled (saves power) 0 Enabled PLL output enabled 1 PLLP PLL VCO division factor P for PLLPCLK clock output 17 5 1 31 PLLQEN PLLQCLK clock output enable 24 1 PLLQ PLL VCO division factor Q for PLLQCLK clock output 25 3 1 7 PLLREN PLLRCLK clock output enable 28 1 PLLR PLL VCO division factor R for PLLRCLK clock output 29 3 1 7 CIER CIER Clock interrupt enable register 0x18 0x20 read-write 0x00000000 LSIRDYIE LSI ready interrupt enable 0 1 LSIRDYIE Disabled Interrupt disabled 0 Enabled Interrupt enabled 1 LSERDYIE LSE ready interrupt enable 1 1 HSIRDYIE HSI ready interrupt enable 3 1 HSERDYIE HSE ready interrupt enable 4 1 PLLSYSRDYIE PLL ready interrupt enable 5 1 CIFR CIFR Clock interrupt flag register 0x1C 0x20 read-only 0x00000000 LSIRDYF LSI ready interrupt flag 0 1 LSIRDYF NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 LSERDYF LSE ready interrupt flag 1 1 HSIRDYF HSI ready interrupt flag 3 1 HSERDYF HSE ready interrupt flag 4 1 PLLSYSRDYF PLL ready interrupt flag 5 1 CSSF Clock security system interrupt flag 8 1 LSECSSF LSE Clock security system interrupt flag 9 1 CICR CICR Clock interrupt clear register 0x20 0x20 write-only 0x00000000 LSIRDYC LSI ready interrupt clear 0 1 LSIRDYC Clear Clear interrupt flag 1 LSERDYC LSE ready interrupt clear 1 1 HSIRDYC HSI ready interrupt clear 3 1 HSERDYC HSE ready interrupt clear 4 1 PLLSYSRDYC PLL ready interrupt clear 5 1 CSSC Clock security system interrupt clear 8 1 LSECSSC LSE Clock security system interrupt clear 9 1 AHBRSTR AHBRSTR AHB peripheral reset register 0x28 0x20 read-write 0x00000000 DMARST DMA1 reset 0 1 DMARST Reset Reset peripheral 1 FLASHRST FLITF reset 8 1 CRCRST CRC reset 12 1 AESRST AES hardware accelerator reset 16 1 RNGRST Random number generator reset 18 1 IOPRSTR IOPRSTR GPIO reset register 0x24 0x20 read-write 0x00000000 IOPARST I/O port A reset 0 1 IOPARST Reset Reset peripheral 1 IOPBRST I/O port B reset 1 1 IOPCRST I/O port C reset 2 1 IOPDRST I/O port D reset 3 1 IOPFRST I/O port F reset 5 1 APBRSTR1 APBRSTR1 APB peripheral reset register 1 0x2C 0x20 read-write 0x00000000 TIM2RST TIM2 timer reset 0 1 TIM2RST Reset Reset peripheral 1 TIM3RST TIM3 timer reset 1 1 TIM6RST TIM6 timer reset 4 1 TIM7RST TIM7 timer reset 5 1 SPI2RST SPI2 reset 14 1 USART2RST USART2 reset 17 1 USART3RST USART3 reset 18 1 USART4RST USART4 reset 19 1 LPUART1RST LPUART1 reset 20 1 I2C1RST I2C1 reset 21 1 I2C2RST I2C2 reset 22 1 CECRST HDMI CEC reset 24 1 UCPD1RST UCPD1 reset 25 1 UCPD2RST UCPD2 reset 26 1 DBGRST Debug support reset 27 1 PWRRST Power interface reset 28 1 DAC1RST DAC1 interface reset 29 1 LPTIM2RST Low Power Timer 2 reset 30 1 LPTIM1RST Low Power Timer 1 reset 31 1 APBRSTR2 APBRSTR2 APB peripheral reset register 2 0x30 0x20 read-write 0x00000000 SYSCFGRST SYSCFG, COMP and VREFBUF reset 0 1 SYSCFGRST Reset Reset peripheral 1 TIM1RST TIM1 timer reset 11 1 SPI1RST SPI1 reset 12 1 USART1RST USART1 reset 14 1 TIM14RST TIM14 timer reset 15 1 TIM15RST TIM15 timer reset 16 1 TIM16RST TIM16 timer reset 17 1 TIM17RST TIM17 timer reset 18 1 ADCRST ADC reset 20 1 IOPENR IOPENR GPIO clock enable register 0x34 0x20 read-write 0x00000000 IOPAEN I/O port A clock enable 0 1 IOPAEN Disabled Peripheral disabled (typically saves power) 0 Enabled Peripheral enabled 1 IOPBEN I/O port B clock enable 1 1 IOPCEN I/O port C clock enable 2 1 IOPDEN I/O port D clock enable 3 1 IOPFEN I/O port F clock enable 5 1 AHBENR AHBENR AHB peripheral clock enable register 0x38 0x20 read-write 0x00000000 DMAEN DMA clock enable 0 1 DMAEN Disabled Peripheral disabled (typically saves power) 0 Enabled Peripheral enabled 1 FLASHEN Flash memory interface clock enable 8 1 CRCEN CRC clock enable 12 1 AESEN AES hardware accelerator 16 1 RNGEN Random number generator clock enable 18 1 APBENR1 APBENR1 APB peripheral clock enable register 1 0x3C 0x20 read-write 0x00000000 TIM2EN TIM2 timer clock enable 0 1 TIM2EN Disabled Peripheral disabled (typically saves power) 0 Enabled Peripheral enabled 1 TIM3EN TIM3 timer clock enable 1 1 TIM6EN TIM6 timer clock enable 4 1 TIM7EN TIM7 timer clock enable 5 1 RTCAPBEN RTC APB clock enable 10 1 WWDGEN WWDG clock enable 11 1 SPI2EN SPI2 clock enable 14 1 USART2EN USART2 clock enable 17 1 USART3EN USART3 clock enable 18 1 USART4EN USART4 clock enable 19 1 LPUART1EN LPUART1 clock enable 20 1 I2C1EN I2C1 clock enable 21 1 I2C2EN I2C2 clock enable 22 1 CECEN HDMI CEC clock enable 24 1 UCPD1EN UCPD1 clock enable 25 1 UCPD2EN UCPD2 clock enable 26 1 DBGEN Debug support clock enable 27 1 PWREN Power interface clock enable 28 1 DAC1EN DAC1 interface clock enable 29 1 LPTIM2EN LPTIM2 clock enable 30 1 LPTIM1EN LPTIM1 clock enable 31 1 APBENR2 APBENR2 APB peripheral clock enable register 2 0x40 0x20 read-write 0x00000000 SYSCFGEN SYSCFG, COMP and VREFBUF clock enable 0 1 SYSCFGEN Disabled Peripheral disabled (typically saves power) 0 Enabled Peripheral enabled 1 TIM1EN TIM1 timer clock enable 11 1 SPI1EN SPI1 clock enable 12 1 USART1EN USART1 clock enable 14 1 TIM14EN TIM14 timer clock enable 15 1 TIM15EN TIM15 timer clock enable 16 1 TIM16EN TIM16 timer clock enable 17 1 TIM17EN TIM16 timer clock enable 18 1 ADCEN ADC clock enable 20 1 IOPSMENR IOPSMENR GPIO in Sleep mode clock enable register 0x44 0x20 read-write 0x00000000 IOPASMEN I/O port A clock enable during Sleep mode 0 1 IOPASMEN Disabled Peripheral disabled (typically saves power) 0 Enabled Peripheral enabled 1 IOPBSMEN I/O port B clock enable during Sleep mode 1 1 IOPCSMEN I/O port C clock enable during Sleep mode 2 1 IOPDSMEN I/O port D clock enable during Sleep mode 3 1 IOPFSMEN I/O port F clock enable during Sleep mode 5 1 AHBSMENR AHBSMENR AHB peripheral clock enable in Sleep mode register 0x48 0x20 read-write 0x00000000 DMASMEN DMA clock enable during Sleep mode 0 1 DMASMEN Disabled Peripheral disabled (typically saves power) 0 Enabled Peripheral enabled 1 FLASHSMEN Flash memory interface clock enable during Sleep mode 8 1 SRAMSMEN SRAM clock enable during Sleep mode 9 1 CRCSMEN CRC clock enable during Sleep mode 12 1 AESSMEN AES hardware accelerator clock enable during Sleep mode 16 1 RNGSMEN Random number generator clock enable during Sleep mode 18 1 APBSMENR1 APBSMENR1 APB peripheral clock enable in Sleep mode register 1 0x4C 0x20 read-write 0x00000000 TIM2SMEN TIM2 timer clock enable during Sleep mode 0 1 TIM2SMEN Disabled Peripheral disabled (typically saves power) 0 Enabled Peripheral enabled 1 TIM3SMEN TIM3 timer clock enable during Sleep mode 1 1 TIM6SMEN TIM6 timer clock enable during Sleep mode 4 1 TIM7SMEN TIM7 timer clock enable during Sleep mode 5 1 RTCAPBSMEN RTC APB clock enable during Sleep mode 10 1 WWDGSMEN WWDG clock enable during Sleep mode 11 1 SPI2SMEN SPI2 clock enable during Sleep mode 14 1 USART2SMEN USART2 clock enable during Sleep mode 17 1 USART3SMEN USART3 clock enable during Sleep mode 18 1 USART4SMEN USART4 clock enable during Sleep mode 19 1 LPUART1SMEN LPUART1 clock enable during Sleep mode 20 1 I2C1SMEN I2C1 clock enable during Sleep mode 21 1 I2C2SMEN I2C2 clock enable during Sleep mode 22 1 CECSMEN HDMI CEC clock enable during Sleep mode 24 1 UCPD1SMEN UCPD1 clock enable during Sleep mode 25 1 UCPD2SMEN UCPD2 clock enable during Sleep mode 26 1 DBGSMEN Debug support clock enable during Sleep mode 27 1 PWRSMEN Power interface clock enable during Sleep mode 28 1 DAC1SMEN DAC1 interface clock enable during Sleep mode 29 1 LPTIM2SMEN Low Power Timer 2 clock enable during Sleep mode 30 1 LPTIM1SMEN Low Power Timer 1 clock enable during Sleep mode 31 1 APBSMENR2 APBSMENR2 APB peripheral clock enable in Sleep mode register 2 0x50 0x20 read-write 0x00000000 SYSCFGSMEN SYSCFG, COMP and VREFBUF clock enable during Sleep mode 0 1 SYSCFGSMEN Disabled Peripheral disabled (typically saves power) 0 Enabled Peripheral enabled 1 TIM1SMEN TIM1 timer clock enable during Sleep mode 11 1 SPI1SMEN SPI1 clock enable during Sleep mode 12 1 USART1SMEN USART1 clock enable during Sleep mode 14 1 TIM14SMEN TIM14 timer clock enable during Sleep mode 15 1 TIM15SMEN TIM15 timer clock enable during Sleep mode 16 1 TIM16SMEN TIM16 timer clock enable during Sleep mode 17 1 TIM17SMEN TIM16 timer clock enable during Sleep mode 18 1 ADCSMEN ADC clock enable during Sleep mode 20 1 CCIPR CCIPR Peripherals independent clock configuration register 0x54 0x20 read-write 0x00000000 USART1SEL USART1 clock source selection 0 2 USART1SEL PCLK PCLK clock selected 0 SYSCLK SYSCLK clock selected 1 HSI16 HSI16 clock selected 2 LSE LSE clock selected 3 USART2SEL USART2 clock source selection 2 2 CECSEL HDMI CEC clock source selection 6 1 CECSEL HSI16 HSI16 clock divided by 488 selected 0 LSE LSE clock selected 1 LPUART1SEL LPUART1 clock source selection 10 2 LPUART1SEL PCLK PCLK clock selected 0 SYSCLK SYSCLK clock selected 1 HSI16 HSI16 clock selected 2 LSE LSE clock selected 3 I2C1SEL I2C1 clock source selection 12 2 I2C1SEL PCLK PCLK clock selected 0 SYSCLK SYSCLK clock selected 1 HSI16 HSI16 clock selected 2 I2S1SEL I2S1 clock source selection 14 2 I2S1SEL SYSCLK SYSCLK clock selected 0 PLLP PLLPCLK clock selected 1 HSI16 HSI16 clock selected 2 CKIN I2S_CKIN clock selected 3 LPTIM1SEL LPTIM1 clock source selection 18 2 LPTIM1SEL PCLK PCLK clock selected 0 LSI LSI clock selected 1 HSI16 HSI16 clock selected 2 LSE LSE clock selected 3 LPTIM2SEL LPTIM2 clock source selection 20 2 TIM1SEL TIM1 clock source selection 22 1 TIM1SEL TIMP TIMPCLK clock selected 0 PLLQ PLLQCLK clock selected 1 TIM15SEL TIM15 clock source selection 24 1 RNGSEL RNG clock source selection 26 2 RNGSEL NoClock No clock selected 0 HSI16 HSI16 clock selected 1 SYSCLK SYSCLK clock selected 2 PLLQ PLLQCLK clock selected 3 RNGDIV Division factor of RNG clock divider 28 2 RNGDIV Div1 Divide by 1 0 Div2 Divide by 2 1 Div4 Divide by 4 2 Div8 Divide by 8 3 ADCSEL ADCs clock source selection 30 2 ADCSEL SYSCLK System clock selected 0 PLLP PLLPCLK clock selected 1 HSI16 HSI16 clock selected 2 BDCR BDCR RTC domain control register 0x5C 0x20 read-write 0x00000000 LSEON LSE oscillator enable 0 1 LSEON Disabled LSE oscillator powered off 0 Enabled LSE oscillator enabled 1 LSERDY LSE oscillator ready 1 1 LSERDY NotReady LSE oscillator not ready 0 Ready LSE oscillator ready 1 LSEBYP LSE oscillator bypass 2 1 LSEBYP Crystal LSE is a crystal oscillator or ceramic resonator 0 ExtClock LSE is driven by an external clock 1 LSEDRV LSE oscillator drive capability 3 2 LSEDRV Low Xtal mode lower driving capability 0 MedLow Xtal mode medium-low driving capability 1 MedHigh Xtal mode medium-high driving capability 2 High Xtal mode higher driving capability 3 LSECSSON CSS on LSE enable 5 1 LSECSSON Disabled LSE clock is not monitored 0 Enabled LSE clock monitor enabled 1 LSECSSD CSS on LSE failure Detection 6 1 LSECSSD NoFailure No failure detected 0 Failure Failure detected 1 RTCSEL RTC clock source selection 8 2 RTCSEL NoClock No clock selected 0 LSE LSE clock selected 1 LSI LSI clock selected 2 HSE32 HSI clock divided by 32 selected 3 RTCEN RTC clock enable 15 1 RTCEN Disabled RTC disabled (saves power) 0 Enabled RTC enabled 1 BDRST RTC domain software reset 16 1 BDRST Reset RTC domain software reset 1 LSCOEN Low-speed clock output (LSCO) enable 24 1 LSCOEN Disabled Low-speed clock output disabled 0 Enabled Low-speed clock output enabled 1 LSCOSEL Low-speed clock output selection 25 1 LSCOSEL LSI LSI clock selected 0 LSE LSE clock selected 1 CSR CSR Control/status register 0x60 0x20 read-write 0x00000000 LSION LSI oscillator enable 0 1 LSION Disabled LSI oscillator powered off 0 Enabled LSI oscillator enabled 1 LSIRDY LSI oscillator ready 1 1 LSIRDY NotReady LSI oscillator not ready 0 Ready LSI oscillator ready 1 RMVF Remove reset flags 23 1 RMVF Clear Clear reset flags 1 OBLRSTF Option byte loader reset flag 25 1 OBLRSTF NoReset This reset type has not occurred 0 Reset This reset type has occurred 1 PINRSTF Pin reset flag 26 1 PWRRSTF BOR or POR/PDR flag 27 1 SFTRSTF Software reset flag 28 1 IWDGRSTF Independent window watchdog reset flag 29 1 WWDGRSTF Window watchdog reset flag 30 1 LPWRRSTF Low-power reset flag 31 1 PWR Power control PWR 0x40007000 0x0 0x400 registers PVD Power voltage detector interrupt 1 CR1 CR1 Power control register 1 0x0 0x20 read-write 0x00000208 LPR Low-power run 14 1 VOS Voltage scaling range selection 9 2 DBP Disable backup domain write protection 8 1 FPD_LPSLP Flash memory powered down during Low-power sleep mode 5 1 FPD_LPRUN Flash memory powered down during Low-power run mode 4 1 FPD_STOP Flash memory powered down during Stop mode 3 1 LPMS Low-power mode selection 0 3 CR2 CR2 Power control register 2 0x4 0x20 read-write 0x00000000 PVDE Power voltage detector enable 0 1 PVDFT Power voltage detector falling threshold selection 1 3 PVDRT Power voltage detector rising threshold selection 4 3 PVMENDAC PVMENDAC 7 1 PVMENUSB PVMENUSB 8 1 IOSV IOSV 9 1 USV USV 10 1 CR3 CR3 Power control register 3 0x8 0x20 read-write 0x00008000 EWUP1 Enable Wakeup pin WKUP1 0 1 EWUP2 Enable Wakeup pin WKUP2 1 1 EWUP3 Enable Wakeup pin WKUP3 2 1 EWUP4 Enable Wakeup pin WKUP4 3 1 EWUP5 Enable WKUP5 wakeup pin 4 1 EWUP6 Enable WKUP6 wakeup pin 5 1 RRS SRAM retention in Standby mode 8 1 ENB_ULP Ultra-low-power enable 9 1 APC Apply pull-up and pull-down configuration 10 1 EIWUL Enable internal wakeup line 15 1 CR4 CR4 Power control register 4 0xC 0x20 read-write 0x00000000 WP1 Wakeup pin WKUP1 polarity 0 1 WP2 Wakeup pin WKUP2 polarity 1 1 WP3 Wakeup pin WKUP3 polarity 2 1 WP4 Wakeup pin WKUP4 polarity 3 1 WP5 Wakeup pin WKUP5 polarity 4 1 WP6 WKUP6 wakeup pin polarity 5 1 VBE VBAT battery charging enable 8 1 VBRS VBAT battery charging resistor selection 9 1 SR1 SR1 Power status register 1 0x10 0x20 read-only 0x00000000 WUF1 Wakeup flag 1 0 1 WUF2 Wakeup flag 2 1 1 WUF3 Wakeup flag 3 2 1 WUF4 Wakeup flag 4 3 1 WUF5 Wakeup flag 5 4 1 WUF6 Wakeup flag 6 5 1 SBF Standby flag 8 1 WUFI Wakeup flag internal 15 1 SR2 SR2 Power status register 2 0x14 0x20 read-only 0x00000000 PVMODAC VDDA monitoring output flag 15 1 PVMOUSB USB supply voltage monitoring output flag 12 1 PVDO Power voltage detector output 11 1 VOSF Voltage scaling flag 10 1 REGLPF Low-power regulator flag 9 1 REGLPS Low-power regulator started 8 1 FLASH_RDY Flash ready flag 7 1 SCR SCR Power status clear register 0x18 0x20 write-only 0x00000000 CSBF Clear standby flag 8 1 CWUF6 Clear wakeup flag 6 5 1 CWUF5 Clear wakeup flag 5 4 1 CWUF4 Clear wakeup flag 4 3 1 CWUF3 Clear wakeup flag 3 2 1 CWUF2 Clear wakeup flag 2 1 1 CWUF1 Clear wakeup flag 1 0 1 PUCRA PUCRA Power Port A pull-up control register 0x20 0x20 read-write 0x00000000 PU15 Port A pull-up bit y (y=0..15) 15 1 PU14 Port A pull-up bit y (y=0..15) 14 1 PU13 Port A pull-up bit y (y=0..15) 13 1 PU12 Port A pull-up bit y (y=0..15) 12 1 PU11 Port A pull-up bit y (y=0..15) 11 1 PU10 Port A pull-up bit y (y=0..15) 10 1 PU9 Port A pull-up bit y (y=0..15) 9 1 PU8 Port A pull-up bit y (y=0..15) 8 1 PU7 Port A pull-up bit y (y=0..15) 7 1 PU6 Port A pull-up bit y (y=0..15) 6 1 PU5 Port A pull-up bit y (y=0..15) 5 1 PU4 Port A pull-up bit y (y=0..15) 4 1 PU3 Port A pull-up bit y (y=0..15) 3 1 PU2 Port A pull-up bit y (y=0..15) 2 1 PU1 Port A pull-up bit y (y=0..15) 1 1 PU0 Port A pull-up bit y (y=0..15) 0 1 PDCRA PDCRA Power Port A pull-down control register 0x24 0x20 read-write 0x00000000 PD15 Port A pull-down bit y (y=0..15) 15 1 PD14 Port A pull-down bit y (y=0..15) 14 1 PD13 Port A pull-down bit y (y=0..15) 13 1 PD12 Port A pull-down bit y (y=0..15) 12 1 PD11 Port A pull-down bit y (y=0..15) 11 1 PD10 Port A pull-down bit y (y=0..15) 10 1 PD9 Port A pull-down bit y (y=0..15) 9 1 PD8 Port A pull-down bit y (y=0..15) 8 1 PD7 Port A pull-down bit y (y=0..15) 7 1 PD6 Port A pull-down bit y (y=0..15) 6 1 PD5 Port A pull-down bit y (y=0..15) 5 1 PD4 Port A pull-down bit y (y=0..15) 4 1 PD3 Port A pull-down bit y (y=0..15) 3 1 PD2 Port A pull-down bit y (y=0..15) 2 1 PD1 Port A pull-down bit y (y=0..15) 1 1 PD0 Port A pull-down bit y (y=0..15) 0 1 PUCRB PUCRB Power Port B pull-up control register 0x28 0x20 read-write 0x00000000 PU15 Port B pull-up bit y (y=0..15) 15 1 PU14 Port B pull-up bit y (y=0..15) 14 1 PU13 Port B pull-up bit y (y=0..15) 13 1 PU12 Port B pull-up bit y (y=0..15) 12 1 PU11 Port B pull-up bit y (y=0..15) 11 1 PU10 Port B pull-up bit y (y=0..15) 10 1 PU9 Port B pull-up bit y (y=0..15) 9 1 PU8 Port B pull-up bit y (y=0..15) 8 1 PU7 Port B pull-up bit y (y=0..15) 7 1 PU6 Port B pull-up bit y (y=0..15) 6 1 PU5 Port B pull-up bit y (y=0..15) 5 1 PU4 Port B pull-up bit y (y=0..15) 4 1 PU3 Port B pull-up bit y (y=0..15) 3 1 PU2 Port B pull-up bit y (y=0..15) 2 1 PU1 Port B pull-up bit y (y=0..15) 1 1 PU0 Port B pull-up bit y (y=0..15) 0 1 PDCRB PDCRB Power Port B pull-down control register 0x2C 0x20 read-write 0x00000000 PD15 Port B pull-down bit y (y=0..15) 15 1 PD14 Port B pull-down bit y (y=0..15) 14 1 PD13 Port B pull-down bit y (y=0..15) 13 1 PD12 Port B pull-down bit y (y=0..15) 12 1 PD11 Port B pull-down bit y (y=0..15) 11 1 PD10 Port B pull-down bit y (y=0..15) 10 1 PD9 Port B pull-down bit y (y=0..15) 9 1 PD8 Port B pull-down bit y (y=0..15) 8 1 PD7 Port B pull-down bit y (y=0..15) 7 1 PD6 Port B pull-down bit y (y=0..15) 6 1 PD5 Port B pull-down bit y (y=0..15) 5 1 PD4 Port B pull-down bit y (y=0..15) 4 1 PD3 Port B pull-down bit y (y=0..15) 3 1 PD2 Port B pull-down bit y (y=0..15) 2 1 PD1 Port B pull-down bit y (y=0..15) 1 1 PD0 Port B pull-down bit y (y=0..15) 0 1 PUCRC PUCRC Power Port C pull-up control register 0x30 0x20 read-write 0x00000000 PU15 Port C pull-up bit y (y=0..15) 15 1 PU14 Port C pull-up bit y (y=0..15) 14 1 PU13 Port C pull-up bit y (y=0..15) 13 1 PU12 Port C pull-up bit y (y=0..15) 12 1 PU11 Port C pull-up bit y (y=0..15) 11 1 PU10 Port C pull-up bit y (y=0..15) 10 1 PU9 Port C pull-up bit y (y=0..15) 9 1 PU8 Port C pull-up bit y (y=0..15) 8 1 PU7 Port C pull-up bit y (y=0..15) 7 1 PU6 Port C pull-up bit y (y=0..15) 6 1 PU5 Port C pull-up bit y (y=0..15) 5 1 PU4 Port C pull-up bit y (y=0..15) 4 1 PU3 Port C pull-up bit y (y=0..15) 3 1 PU2 Port C pull-up bit y (y=0..15) 2 1 PU1 Port C pull-up bit y (y=0..15) 1 1 PU0 Port C pull-up bit y (y=0..15) 0 1 PDCRC PDCRC Power Port C pull-down control register 0x34 0x20 read-write 0x00000000 PD15 Port C pull-down bit y (y=0..15) 15 1 PD14 Port C pull-down bit y (y=0..15) 14 1 PD13 Port C pull-down bit y (y=0..15) 13 1 PD12 Port C pull-down bit y (y=0..15) 12 1 PD11 Port C pull-down bit y (y=0..15) 11 1 PD10 Port C pull-down bit y (y=0..15) 10 1 PD9 Port C pull-down bit y (y=0..15) 9 1 PD8 Port C pull-down bit y (y=0..15) 8 1 PD7 Port C pull-down bit y (y=0..15) 7 1 PD6 Port C pull-down bit y (y=0..15) 6 1 PD5 Port C pull-down bit y (y=0..15) 5 1 PD4 Port C pull-down bit y (y=0..15) 4 1 PD3 Port C pull-down bit y (y=0..15) 3 1 PD2 Port C pull-down bit y (y=0..15) 2 1 PD1 Port C pull-down bit y (y=0..15) 1 1 PD0 Port C pull-down bit y (y=0..15) 0 1 PUCRD PUCRD Power Port D pull-up control register 0x38 0x20 read-write 0x00000000 PU15 Port D pull-up bit y (y=0..15) 15 1 PU14 Port D pull-up bit y (y=0..15) 14 1 PU13 Port D pull-up bit y (y=0..15) 13 1 PU12 Port D pull-up bit y (y=0..15) 12 1 PU11 Port D pull-up bit y (y=0..15) 11 1 PU10 Port D pull-up bit y (y=0..15) 10 1 PU9 Port D pull-up bit y (y=0..15) 9 1 PU8 Port D pull-up bit y (y=0..15) 8 1 PU7 Port D pull-up bit y (y=0..15) 7 1 PU6 Port D pull-up bit y (y=0..15) 6 1 PU5 Port D pull-up bit y (y=0..15) 5 1 PU4 Port D pull-up bit y (y=0..15) 4 1 PU3 Port D pull-up bit y (y=0..15) 3 1 PU2 Port D pull-up bit y (y=0..15) 2 1 PU1 Port D pull-up bit y (y=0..15) 1 1 PU0 Port D pull-up bit y (y=0..15) 0 1 PDCRD PDCRD Power Port D pull-down control register 0x3C 0x20 read-write 0x00000000 PD15 Port D pull-down bit y (y=0..15) 15 1 PD14 Port D pull-down bit y (y=0..15) 14 1 PD13 Port D pull-down bit y (y=0..15) 13 1 PD12 Port D pull-down bit y (y=0..15) 12 1 PD11 Port D pull-down bit y (y=0..15) 11 1 PD10 Port D pull-down bit y (y=0..15) 10 1 PD9 Port D pull-down bit y (y=0..15) 9 1 PD8 Port D pull-down bit y (y=0..15) 8 1 PD7 Port D pull-down bit y (y=0..15) 7 1 PD6 Port D pull-down bit y (y=0..15) 6 1 PD5 Port D pull-down bit y (y=0..15) 5 1 PD4 Port D pull-down bit y (y=0..15) 4 1 PD3 Port D pull-down bit y (y=0..15) 3 1 PD2 Port D pull-down bit y (y=0..15) 2 1 PD1 Port D pull-down bit y (y=0..15) 1 1 PD0 Port D pull-down bit y (y=0..15) 0 1 PUCRE PUCRE Power Port E pull-UP control register 0x40 0x20 read-write 0x00000000 PU15 Port E pull-up bit y (y=0..15) 15 1 PU14 Port E pull-up bit y (y=0..15) 14 1 PU13 Port E pull-up bit y (y=0..15) 13 1 PU12 Port E pull-up bit y (y=0..15) 12 1 PU11 Port E pull-up bit y (y=0..15) 11 1 PU10 Port E pull-up bit y (y=0..15) 10 1 PU9 Port E pull-up bit y (y=0..15) 9 1 PU8 Port E pull-up bit y (y=0..15) 8 1 PU7 Port E pull-up bit y (y=0..15) 7 1 PU6 Port E pull-up bit y (y=0..15) 6 1 PU5 Port E pull-up bit y (y=0..15) 5 1 PU4 Port E pull-up bit y (y=0..15) 4 1 PU3 Port E pull-up bit y (y=0..15) 3 1 PU2 Port E pull-up bit y (y=0..15) 2 1 PU1 Port E pull-up bit y (y=0..15) 1 1 PU0 Port E pull-up bit y (y=0..15) 0 1 PDCRE PDCRE Power Port E pull-down control register 0x44 0x20 read-write 0x00000000 PD15 Port E pull-down bit y (y=0..15) 15 1 PD14 Port E pull-down bit y (y=0..15) 14 1 PD13 Port E pull-down bit y (y=0..15) 13 1 PD12 Port E pull-down bit y (y=0..15) 12 1 PD11 Port E pull-down bit y (y=0..15) 11 1 PD10 Port E pull-down bit y (y=0..15) 10 1 PD9 Port E pull-down bit y (y=0..15) 9 1 PD8 Port E pull-down bit y (y=0..15) 8 1 PD7 Port E pull-down bit y (y=0..15) 7 1 PD6 Port E pull-down bit y (y=0..15) 6 1 PD5 Port E pull-down bit y (y=0..15) 5 1 PD4 Port E pull-down bit y (y=0..15) 4 1 PD3 Port E pull-down bit y (y=0..15) 3 1 PD2 Port E pull-down bit y (y=0..15) 2 1 PD1 Port E pull-down bit y (y=0..15) 1 1 PD0 Port E pull-down bit y (y=0..15) 0 1 PUCRF PUCRF Power Port F pull-up control register 0x48 0x20 read-write 0x00000000 PU13 Port F pull-up bit y (y=0..15) 13 1 PU12 Port F pull-up bit y (y=0..15) 12 1 PU11 Port F pull-up bit y (y=0..15) 11 1 PU10 Port F pull-up bit y (y=0..15) 10 1 PU9 Port F pull-up bit y (y=0..15) 9 1 PU8 Port F pull-up bit y (y=0..15) 8 1 PU7 Port F pull-up bit y (y=0..15) 7 1 PU6 Port F pull-up bit y (y=0..15) 6 1 PU5 Port F pull-up bit y (y=0..15) 5 1 PU4 Port F pull-up bit y (y=0..15) 4 1 PU3 Port F pull-up bit y (y=0..15) 3 1 PU2 Port F pull-up bit y (y=0..15) 2 1 PU1 Port F pull-up bit y (y=0..15) 1 1 PU0 Port F pull-up bit y (y=0..15) 0 1 PDCRF PDCRF Power Port F pull-down control register 0x4C 0x20 read-write 0x00000000 PD13 Port F pull-down bit y (y=0..15) 13 1 PD12 Port F pull-down bit y (y=0..15) 12 1 PD11 Port F pull-down bit y (y=0..15) 11 1 PD10 Port F pull-down bit y (y=0..15) 10 1 PD9 Port F pull-down bit y (y=0..15) 9 1 PD8 Port F pull-down bit y (y=0..15) 8 1 PD7 Port F pull-down bit y (y=0..15) 7 1 PD6 Port F pull-down bit y (y=0..15) 6 1 PD5 Port F pull-down bit y (y=0..15) 5 1 PD4 Port F pull-down bit y (y=0..15) 4 1 PD3 Port F pull-down bit y (y=0..15) 3 1 PD2 Port F pull-down bit y (y=0..15) 2 1 PD1 Port F pull-down bit y (y=0..15) 1 1 PD0 Port F pull-down bit y (y=0..15) 0 1 DMA1 DMA controller DMA 0x40020000 0x0 0x400 registers DMA1_Channel1 DMA channel 1 interrupt 9 DMA1_Channel2_3 DMA channel 2 and 3 interrupts 10 DMA1_Channel4_5_6_7_DMAMUX interrupts for DMA1 channels 4-7 and DMAMUX 11 ISR ISR DMA interrupt status register 0x0 0x20 0x00000000 0xFFFFFFFF 7 0x4 1-7 GIF%s Channel %s Global interrupt flag 0 1 read-only GIF1 NoEvent No transfer error, half event, complete event 0 Event A transfer error, half event or complete event has occured 1 7 0x4 1-7 TCIF%s Channel %s Transfer Complete flag 1 1 read-only TCIF1 NotComplete No transfer complete event 0 Complete A transfer complete event has occured 1 7 0x4 1-7 HTIF%s Channel %s Half Transfer Complete flag 2 1 read-only HTIF1 NotHalf No half transfer event 0 Half A half transfer event has occured 1 7 0x4 1-7 TEIF%s Channel %s Transfer Error flag 3 1 read-only TEIF1 NoError No transfer error 0 Error A transfer error has occured 1 IFCR IFCR DMA interrupt flag clear register 0x4 0x20 0x00000000 0xFFFFFFFF 7 0x4 1-7 CGIF%s Channel %s Global interrupt clear 0 1 write-only CGIF1 Clear Clears the GIF, TEIF, HTIF, TCIF flags in the ISR register 1 7 0x4 1-7 CTCIF%s Channel %s Transfer Complete clear 1 1 write-only CTCIF1 Clear Clears the TCIF flag in the ISR register 1 7 0x4 1-7 CHTIF%s Channel %s Half Transfer clear 2 1 write-only CHTIF1 Clear Clears the HTIF flag in the ISR register 1 7 0x4 1-7 CTEIF%s Channel %s Transfer Error clear 3 1 write-only CTEIF1 Clear Clears the TEIF flag in the ISR register 1 7 0x14 1-7 CH%s Channel cluster: CCR?, CNDTR?, CPAR?, and CMAR? registers 0x8 CR CCR1 DMA channel 1 configuration register 0x0 0x20 0x00000000 0xFFFFFFFF EN channel enable When a channel transfer error occurs, this bit is cleared by hardware. It can not be set again by software (channel x re-activated) until the TEIFx bit of the DMA_ISR register is cleared (by setting the CTEIFx bit of the DMA_IFCR register). Note: this bit is set and cleared by software. 0 1 read-write EN Disabled Channel disabled 0 Enabled Channel enabled 1 TCIE transfer complete interrupt enable Note: this bit is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is not read-only when the channel is enabled (EN=1). 1 1 read-write TCIE Disabled Transfer Complete interrupt disabled 0 Enabled Transfer Complete interrupt enabled 1 HTIE half transfer interrupt enable Note: this bit is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is not read-only when the channel is enabled (EN=1). 2 1 read-write HTIE Disabled Half Transfer interrupt disabled 0 Enabled Half Transfer interrupt enabled 1 TEIE transfer error interrupt enable Note: this bit is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is not read-only when the channel is enabled (EN=1). 3 1 read-write TEIE Disabled Transfer Error interrupt disabled 0 Enabled Transfer Error interrupt enabled 1 DIR data transfer direction This bit must be set only in memory-to-peripheral and peripheral-to-memory modes. Source attributes are defined by PSIZE and PINC, plus the DMA_CPARx register. This is still valid in a memory-to-memory mode. Destination attributes are defined by MSIZE and MINC, plus the DMA_CMARx register. This is still valid in a peripheral-to-peripheral mode. Destination attributes are defined by PSIZE and PINC, plus the DMA_CPARx register. This is still valid in a memory-to-memory mode. Source attributes are defined by MSIZE and MINC, plus the DMA_CMARx register. This is still valid in a peripheral-to-peripheral mode. Note: this bit is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is read-only when the channel is enabled (EN=1). 4 1 read-write DIR FromPeripheral Read from peripheral 0 FromMemory Read from memory 1 CIRC circular mode Note: this bit is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is not read-only when the channel is enabled (EN=1). 5 1 read-write CIRC Disabled Circular buffer disabled 0 Enabled Circular buffer enabled 1 PINC peripheral increment mode Defines the increment mode for each DMA transfer to the identified peripheral. n memory-to-memory mode, this field identifies the memory destination if DIR=1 and the memory source if DIR=0. In peripheral-to-peripheral mode, this field identifies the peripheral destination if DIR=1 and the peripheral source if DIR=0. Note: this bit is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is read-only when the channel is enabled (EN=1). 6 1 read-write PINC Disabled Increment mode disabled 0 Enabled Increment mode enabled 1 MINC memory increment mode Defines the increment mode for each DMA transfer to the identified memory. In memory-to-memory mode, this field identifies the memory source if DIR=1 and the memory destination if DIR=0. In peripheral-to-peripheral mode, this field identifies the peripheral source if DIR=1 and the peripheral destination if DIR=0. Note: this bit is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is read-only when the channel is enabled (EN=1). 7 1 read-write PSIZE peripheral size Defines the data size of each DMA transfer to the identified peripheral. In memory-to-memory mode, this field identifies the memory destination if DIR=1 and the memory source if DIR=0. In peripheral-to-peripheral mode, this field identifies the peripheral destination if DIR=1 and the peripheral source if DIR=0. Note: this field is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is read-only when the channel is enabled (EN=1). 8 2 read-write PSIZE Bits8 8-bit size 0 Bits16 16-bit size 1 Bits32 32-bit size 2 MSIZE memory size Defines the data size of each DMA transfer to the identified memory. In memory-to-memory mode, this field identifies the memory source if DIR=1 and the memory destination if DIR=0. In peripheral-to-peripheral mode, this field identifies the peripheral source if DIR=1 and the peripheral destination if DIR=0. Note: this field is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is read-only when the channel is enabled (EN=1). 10 2 read-write PL priority level Note: this field is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is read-only when the channel is enabled (EN=1). 12 2 read-write PL Low Low priority 0 Medium Medium priority 1 High High priority 2 VeryHigh Very high priority 3 MEM2MEM memory-to-memory mode Note: this bit is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is read-only when the channel is enabled (EN=1). 14 1 read-write MEM2MEM Disabled Memory to memory mode disabled 0 Enabled Memory to memory mode enabled 1 NDTR CNDTR1 DMA channel x number of data register 0x4 0x20 0x00000000 0xFFFFFFFF NDT number of data to transfer (0 to 216-1) This field is updated by hardware when the channel is enabled: It is decremented after each single DMA 'read followed by write' transfer, indicating the remaining amount of data items to transfer. It is kept at zero when the programmed amount of data to transfer is reached, if the channel is not in circular mode (CIRC=0 in the DMA_CCRx register). It is reloaded automatically by the previously programmed value, when the transfer is complete, if the channel is in circular mode (CIRC=1). If this field is zero, no transfer can be served whatever the channel status (enabled or not). Note: this field is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is read-only when the channel is enabled (EN=1). 0 16 read-write 0 65535 PAR CPAR1 DMA channel x peripheral address register 0x8 0x20 0x00000000 0xFFFFFFFF PA peripheral address It contains the base address of the peripheral data register from/to which the data will be read/written. When PSIZE[1:0]=01 (16 bits), bit 0 of PA[31:0] is ignored. Access is automatically aligned to a half-word address. When PSIZE=10 (32 bits), bits 1 and 0 of PA[31:0] are ignored. Access is automatically aligned to a word address. In memory-to-memory mode, this register identifies the memory destination address if DIR=1 and the memory source address if DIR=0. In peripheral-to-peripheral mode, this register identifies the peripheral destination address DIR=1 and the peripheral source address if DIR=0. Note: this register is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is not read-only when the channel is enabled (EN=1). 0 32 read-write MAR CMAR1 DMA channel x memory address register 0xC 0x20 0x00000000 0xFFFFFFFF MA peripheral address It contains the base address of the memory from/to which the data will be read/written. When MSIZE[1:0]=01 (16 bits), bit 0 of MA[31:0] is ignored. Access is automatically aligned to a half-word address. When MSIZE=10 (32 bits), bits 1 and 0 of MA[31:0] are ignored. Access is automatically aligned to a word address. In memory-to-memory mode, this register identifies the memory source address if DIR=1 and the memory destination address if DIR=0. In peripheral-to-peripheral mode, this register identifies the peripheral source address DIR=1 and the peripheral destination address if DIR=0. Note: this register is set and cleared by software. It must not be written when the channel is enabled (EN = 1). It is not read-only when the channel is enabled (EN=1). 0 32 read-write DMAMUX DMAMUX DMAMUX 0x40020800 0x0 0x400 registers 7 0x4 0-6 CCR%s C%sCR DMA Multiplexer Channel %s Control register 0x0 0x20 read-write 0x00000000 DMAREQ_ID Input DMA request line selected 0 8 SOIE Interrupt enable at synchronization event overrun 8 1 SOIE Disabled Synchronization overrun interrupt disabled 0 Enabled Synchronization overrun interrupt enabled 1 EGE Event generation enable/disable 9 1 EGE Disabled Event generation disabled 0 Enabled Event generation enabled 1 SE Synchronous operating mode enable/disable 16 1 SE Disabled Synchronization disabled 0 Enabled Synchronization enabled 1 SPOL Synchronization event type selector Defines the synchronization event on the selected synchronization input: 17 2 SPOL NoEdge No event, i.e. no synchronization nor detection 0 RisingEdge Rising edge 1 FallingEdge Falling edge 2 BothEdges Rising and falling edges 3 NBREQ Number of DMA requests to forward Defines the number of DMA requests forwarded before output event is generated. In synchronous mode, it also defines the number of DMA requests to forward after a synchronization event, then stop forwarding. The actual number of DMA requests forwarded is NBREQ+1. Note: This field can only be written when both SE and EGE bits are reset. 19 5 0 31 SYNC_ID Synchronization input selected 24 5 4 0x4 0-3 RGCR%s RG%sCR DMAMux - DMA request generator channel x control register 0x100 0x20 read-write 0x00000000 SIG_ID DMA request trigger input selected 0 5 OIE Interrupt enable at trigger event overrun 8 1 OIE Disabled Trigger overrun interrupt disabled 0 Enabled Trigger overrun interrupt enabled 1 GE DMA request generator channel enable/disable 16 1 GE Disabled DMA request generation disabled 0 Enabled DMA request enabled 1 GPOL DMA request generator trigger event type selection Defines the trigger event on the selected DMA request trigger input 17 2 GPOL NoEdge No event, i.e. no detection nor generation 0 RisingEdge Rising edge 1 FallingEdge Falling edge 2 BothEdges Rising and falling edges 3 GNBREQ Number of DMA requests to generate Defines the number of DMA requests generated after a trigger event, then stop generating. The actual number of generated DMA requests is GNBREQ+1. Note: This field can only be written when GE bit is reset. 19 5 0 31 RGSR RGSR DMAMux - DMA request generator status register 0x140 0x20 read-only 0x00000000 4 0x1 0-3 OF%s Generator Overrun Flag %s 0 1 OF0 NoTrigger No new trigger event occured on DMA request generator channel x, before the request counter underrun 0 Trigger New trigger event occured on DMA request generator channel x, before the request counter underrun 1 RGCFR RGCFR DMAMux - DMA request generator clear flag register 0x144 0x20 write-only 0x00000000 4 0x1 0-3 COF%s Generator Clear Overrun Flag %s 0 1 oneToClear COF0W Clear Clear overrun flag 1 CSR CSR DMAMUX request line multiplexer interrupt channel status register 0x80 0x20 read-only 0x00000000 7 0x1 0-6 SOF%s Synchronization Overrun Flag %s 0 1 SOF0 NoSyncEvent No synchronization event occured on a DMA request line multiplexer channel x, while the DMA request counter value is lower than NBREQ 0 SyncEvent Synchronization event occured on a DMA request line multiplexer channel x, while the DMA request counter value is lower than NBREQ 1 CFR CFR DMAMUX request line multiplexer interrupt clear flag register 0x84 0x20 write-only 0x00000000 7 0x1 0-6 CSOF%s Synchronization Clear Overrun Flag %s 0 1 oneToClear CSOF0W Clear Clear synchronization flag 1 SIDR SIDR DMAMUX size identification register 0x3FC 0x20 read-only 0xA3C5DD01 SID Size identification 0 32 IPIDR IPIDR DMAMUX IP identification register 0x3F8 0x20 read-only 0x00100011 ID IP identification 0 32 VERR VERR DMAMUX version register 0x3F4 0x20 read-only 0x00000011 MINREV Minor IP revision 0 4 MAJREV Major IP revision 4 4 HWCFGR1 HWCFGR1 DMAMUX hardware configuration 1 register 0x3F0 0x20 read-only 0x04173907 NUM_DMA_STREAMS number of DMA request line multiplexer (output) channels 0 8 NUM_DMA_PERIPH_REQ number of DMA request lines from peripherals 8 8 NUM_DMA_TRIG number of synchronization inputs 16 8 NUM_DMA_REQGEN number of DMA request generator channels 24 8 HWCFGR2 HWCFGR2 DMAMUX hardware configuration 2 register 0x3EC 0x20 read-only 0x00000017 NUM_DMA_EXT_REQ Number of DMA request trigger inputs 0 8 GPIOA General-purpose I/Os GPIO 0x50000000 0x0 0x400 registers MODER MODER GPIO port mode register 0x0 0x20 read-write 0xEBFFFFFF 16 0x2 0-15 MODER%s Port x configuration pin %s 0 2 Mode Input Input mode 0 Output General purpose output mode 1 Alternate Alternate function mode 2 Analog Analog mode 3 OTYPER OTYPER GPIO port output type register 0x4 0x20 read-write 0x00000000 16 0x1 0-15 OT%s Port x configuration pin %s 0 1 OutputType PushPull Output push-pull (reset state) 0 OpenDrain Output open-drain 1 OSPEEDR OSPEEDR GPIO port output speed register 0x8 0x20 read-write 0x0C000000 16 0x2 0-15 OSPEEDR%s Port x configuration pin %s 0 2 OutputSpeed LowSpeed Low speed 0 MediumSpeed Medium speed 1 HighSpeed High speed 2 VeryHighSpeed Very high speed 3 PUPDR PUPDR GPIO port pull-up/pull-down register 0xC 0x20 read-write 0x24000000 16 0x2 0-15 PUPDR%s Port x configuration pin %s 0 2 Pull Floating No pull-up, pull-down 0 PullUp Pull-up 1 PullDown Pull-down 2 IDR IDR GPIO port input data register 0x10 0x20 read-only 0x00000000 16 0x1 0-15 IDR%s Port input data pin %s 0 1 InputData Low Input is logic low 0 High Input is logic high 1 ODR ODR GPIO port output data register 0x14 0x20 read-write 0x00000000 16 0x1 0-15 ODR%s Port output data pin %s 0 1 OutputData Low Set output to logic low 0 High Set output to logic high 1 BSRR BSRR GPIO port bit set/reset register 0x18 0x20 write-only 0x00000000 16 0x1 0-15 BR%s Port x reset pin %s 16 1 BitReset Reset Resets the corresponding ODx bit 1 16 0x1 0-15 BS%s Port x set pin %s 0 1 BitSet Set Sets the corresponding ODx bit 1 LCKR LCKR GPIO port configuration lock register 0x1C 0x20 read-write 0x00000000 LCKK Port x lock bit y (y= 0..15) 16 1 LockKey NotActive Port configuration lock key not active 0 Active Port configuration lock key active 1 16 0x1 0-15 LCK%s Port x lock pin %s 0 1 Lock Unlocked Port configuration not locked 0 Locked Port configuration locked 1 AFRL AFRL GPIO alternate function low register 0x20 0x20 read-write 0x00000000 8 0x4 EL0,EL1,EL2,EL3,EL4,EL5,EL6,EL7 AFR%s Alternate function selection for port x bit y (y = 0..7) 0 4 AlternateFunction AF0 AF0 0 AF1 AF1 1 AF2 AF2 2 AF3 AF3 3 AF4 AF4 4 AF5 AF5 5 AF6 AF6 6 AF7 AF7 7 AFRH AFRH GPIO alternate function high register 0x24 0x20 read-write 0x00000000 8 0x4 EL8,EL9,EL10,EL11,EL12,EL13,EL14,EL15 AFR%s Alternate function selection for port x bit y (y = 8..15) 0 4 BRR BRR port bit reset register 0x28 0x20 write-only 0x00000000 16 0x1 0-15 BR%s Port x reset pin %s 0 1 BitReset NoAction No action on the corresponding ODx bit 0 Reset Reset the ODx bit 1 GPIOB General-purpose I/Os GPIO 0x50000400 0x0 0x400 registers MODER MODER GPIO port mode register 0x0 0x20 read-write 0xFFFFFFFF 16 0x2 0-15 MODER%s Port x configuration pin %s 0 2 OTYPER OTYPER GPIO port output type register 0x4 OSPEEDR OSPEEDR GPIO port output speed register 0x8 0x20 read-write 0x00000000 16 0x2 0-15 OSPEEDR%s Port x configuration pin %s 0 2 PUPDR PUPDR GPIO port pull-up/pull-down register 0xC 0x20 read-write 0x00000000 16 0x2 0-15 PUPDR%s Port x configuration pin %s 0 2 IDR IDR GPIO port input data register 0x10 ODR ODR GPIO port output data register 0x14 BSRR BSRR GPIO port bit set/reset register 0x18 LCKR LCKR GPIO port configuration lock register 0x1C AFRL AFRL GPIO alternate function low register 0x20 AFRH AFRH GPIO alternate function high register 0x24 BRR BRR port bit reset register 0x28 GPIOC 0x50000800 GPIOD 0x50000C00 GPIOF 0x50001400 AES Advanced encryption standard hardware accelerator 1 AES 0x40026000 0x0 0x400 registers AES_RNG AES and RNG global interrupts 31 CR CR control register 0x0 0x20 read-write 0x00000000 NPBLB Number of padding bytes in last block of payload 20 4 0 15 KEYSIZE Key size selection 18 1 KEYSIZE AES128 128 0 AES256 256 1 CHMOD_2 AES chaining mode Bit2 16 1 CHMOD_2 CHMOD Mode as per CHMOD (ECB, CBC, CTR, GCM) 0 CCM Counter with CBC-MAC (CCM) - CHMOD must be 0 (ECB) 1 GCMPH Used only for GCM, CCM and GMAC algorithms and has no effect when other algorithms are selected 13 2 GCMPH Init Init phase 0 Header Header phase 1 Payload Payload phase 2 Final Final Phase 3 DMAOUTEN Enable DMA management of data output phase 12 1 DMAOUTEN Disabled Disable DMA Output 0 Enabled Enabled DMA Output 1 DMAINEN Enable DMA management of data input phase 11 1 DMAINEN Disabled Disable DMA Input 0 Enabled Enable DMA Input 1 ERRIE Error interrupt enable 10 1 ERRIE Disabled Disable (mask) error interrupt 0 Enabled Enable error interrupt 1 CCFIE CCF flag interrupt enable 9 1 CCFIE Disabled Disable (mask) CCF interrupt 0 Enabled Enable CCF interrupt 1 ERRC Error clear 8 1 ERRCW write Clear Clear RDERR and WRERR flags 1 CCFC Computation Complete Flag Clear 7 1 CCFCW write Clear Clear computation complete flag 1 CHMOD AES chaining mode Bit1 Bit0 5 2 CHMOD ECB Electronic codebook (ECB) / Counter with CBC-MAC (CCM) if CHMOD2 is 1 0 CBC Cipher-block chaining (CBC) 1 CTR Counter mode (CTR) 2 GCM Galois counter mode (GCM) and Galois message authentication code (GMAC) 3 MODE AES operating mode 3 2 MODE Mode1 Mode 1: encryption 0 Mode2 Mode 2: key derivation (or key preparation for ECB/CBC decryption) 1 Mode3 Mode 3: decryption 2 Mode4 Mode 4: key derivation then single decryption 3 DATATYPE Data type selection (for data in and data out to/from the cryptographic block) 1 2 DATATYPE None Word 0 HalfWord Half-word (16-bit) 1 Byte Byte (8-bit) 2 Bit Bit 3 EN AES enable 0 1 EN Disabled Disable AES 0 Enabled Enable AES 1 SR SR status register 0x4 0x20 read-only 0x00000000 BUSY Busy flag 3 1 BUSY Idle Idle 0 Busy Busy 1 WRERR Write error flag 2 1 WRERR NoError Write error not detected 0 Error Write error detected 1 RDERR Read error flag 1 1 RDERR NoError Read error not detected 0 Error Read error detected 1 CCF Computation complete flag 0 1 CCF Complete Computation complete 0 NotComplete Computation not complete 1 DINR DINR data input register 0x8 0x20 read-write 0x00000000 DIN Data Input Register 0 32 0 4294967295 DOUTR DOUTR data output register 0xC 0x20 read-only 0x00000000 DOUT Data output register 0 32 0 4294967295 KEYR0 KEYR0 key register 0 0x10 0x20 read-write 0x00000000 KEY Data Output Register (LSB key [31:0]) 0 32 0 4294967295 KEYR1 KEYR1 key register 1 0x14 0x20 read-write 0x00000000 KEY AES key register (key [63:32]) 0 32 0 4294967295 KEYR2 KEYR2 key register 2 0x18 0x20 read-write 0x00000000 KEY AES key register (key [95:64]) 0 32 0 4294967295 KEYR3 KEYR3 key register 3 0x1C 0x20 read-write 0x00000000 KEY AES key register (MSB key [127:96]) 0 32 0 4294967295 IVR0 IVR0 initialization vector register 0 0x20 0x20 read-write 0x00000000 IVI initialization vector register (LSB IVR [31:0]) 0 32 0 4294967295 IVR1 IVR1 initialization vector register 1 0x24 0x20 read-write 0x00000000 IVI Initialization Vector Register (IVR [63:32]) 0 32 0 4294967295 IVR2 IVR2 initialization vector register 2 0x28 0x20 read-write 0x00000000 IVI Initialization Vector Register (IVR [95:64]) 0 32 0 4294967295 IVR3 IVR3 initialization vector register 3 0x2C 0x20 read-write 0x00000000 IVI Initialization Vector Register (MSB IVR [127:96]) 0 32 0 4294967295 KEYR4 KEYR4 key register 4 0x30 0x20 read-write 0x00000000 KEY AES key register (MSB key [159:128]) 0 32 0 4294967295 KEYR5 KEYR5 key register 5 0x34 0x20 read-write 0x00000000 KEY AES key register (MSB key [191:160]) 0 32 0 4294967295 KEYR6 KEYR6 key register 6 0x38 0x20 read-write 0x00000000 KEY AES key register (MSB key [223:192]) 0 32 0 4294967295 KEYR7 KEYR7 key register 7 0x3C 0x20 read-write 0x00000000 KEY AES key register (MSB key [255:224]) 0 32 0 4294967295 SUSP0R SUSP0R AES suspend register 0 0x40 0x20 read-write 0x00000000 SUSP AES suspend register 0 0 32 0 4294967295 SUSP1R SUSP1R AES suspend register 1 0x44 0x20 read-write 0x00000000 SUSP AES suspend register 1 0 32 0 4294967295 SUSP2R SUSP2R AES suspend register 2 0x48 0x20 read-write 0x00000000 SUSP AES suspend register 2 0 32 0 4294967295 SUSP3R SUSP3R AES suspend register 3 0x4C 0x20 read-write 0x00000000 SUSP AES suspend register 3 0 32 0 4294967295 SUSP4R SUSP4R AES suspend register 4 0x50 0x20 read-write 0x00000000 SUSP AES suspend register 4 0 32 0 4294967295 SUSP5R SUSP5R AES suspend register 5 0x54 0x20 read-write 0x00000000 SUSP AES suspend register 5 0 32 0 4294967295 SUSP6R SUSP6R AES suspend register 6 0x58 0x20 read-write 0x00000000 SUSP AES suspend register 6 0 32 0 4294967295 SUSP7R SUSP7R AES suspend register 7 0x5C 0x20 read-write 0x00000000 SUSP AES suspend register 7 0 32 0 4294967295 HWCFR HWCFR AES hardware configuration register 0x3F0 0x20 read-only 0x00000002 CFG4 HW Generic 4 12 4 CFG3 HW Generic 3 8 4 CFG2 HW Generic 2 4 4 CFG1 HW Generic 1 0 4 VERR VERR AES version register 0x3F4 0x20 read-only 0x00000010 MAJREV Major revision 4 4 MINREV Minor revision 0 4 IPIDR IPIDR AES identification register 0x3F8 0x20 read-only 0x00170023 ID Identification code 0 32 SIDR SIDR AES size ID register 0x3FC 0x20 read-only 0x00170023 ID Size Identification code 0 32 RNG Random number generator RNG 0x40025000 0x0 0x400 registers CR CR control register 0x0 0x20 read-write 0x00000000 RNGEN Random number generator enable 2 1 IE Interrupt enable 3 1 CED Clock error detection 5 1 BYP Bypass mode enable 6 1 SR SR status register 0x4 0x20 0x00000000 SEIS Seed error interrupt status 6 1 read-write CEIS Clock error interrupt status 5 1 read-write SECS Seed error current status 2 1 read-only CECS Clock error current status 1 1 read-only DRDY Data ready 0 1 read-only DR DR data register 0x8 0x20 read-only 0x00000000 RNDATA Random data 0 32 CRC Cyclic redundancy check calculation unit CRC 0x40023000 0x0 0x400 registers CEC CEC global interrupt 30 DR DR Data register 0x0 0x20 read-write 0xFFFFFFFF DR Data register bits 0 32 0 4294967295 DR8 Data register - byte sized DR 0x0 0x8 read-write 0x000000FF DR8 Data register bits 0 8 0 255 DR16 Data register - half-word sized DR 0x0 0x10 read-write 0x0000FFFF DR16 Data register bits 0 16 0 65535 IDR IDR Independent data register 0x4 0x20 read-write 0x00000000 IDR General-purpose 32-bit data register bits 0 32 0 4294967295 CR CR Control register 0x8 0x20 0x00000000 REV_OUT Reverse output data 7 1 read-write REV_OUT Normal Bit order not affected 0 Reversed Bit reversed output 1 REV_IN Reverse input data 5 2 read-write REV_IN Normal Bit order not affected 0 Byte Bit reversal done by byte 1 HalfWord Bit reversal done by half-word 2 Word Bit reversal done by word 3 POLYSIZE Polynomial size 3 2 read-write POLYSIZE Polysize32 32-bit polynomial 0 Polysize16 16-bit polynomial 1 Polysize8 8-bit polynomial 2 Polysize7 7-bit polynomial 3 RESET RESET bit 0 1 write-only RESETW Reset Resets the CRC calculation unit and sets the data register to 0xFFFF FFFF 1 INIT INIT Initial CRC value 0x10 0x20 read-write 0xFFFFFFFF INIT Programmable initial CRC value 0 32 0 4294967295 POL POL polynomial 0x14 0x20 read-write 0x04C11DB7 POL Programmable polynomial 0 32 0 4294967295 EXTI External interrupt/event controller EXTI 0x40021800 0x0 0x400 registers EXTI0_1 EXTI line 0 & 1 interrupt 5 EXTI2_3 EXTI line 2 & 3 interrupt 6 EXTI4_15 EXTI line 4 to 15 interrupt 7 RTSR1 RTSR1 EXTI rising trigger selection register 0x0 0x20 read-write 0x00000000 TR0 Rising trigger event configuration bit of Configurable Event input 0 1 RisingTrigger Disabled Rising edge trigger is disabled 0 Enabled Rising edge trigger is enabled 1 TR1 Rising trigger event configuration bit of Configurable Event input 1 1 TR2 Rising trigger event configuration bit of Configurable Event input 2 1 TR3 Rising trigger event configuration bit of Configurable Event input 3 1 TR4 Rising trigger event configuration bit of Configurable Event input 4 1 TR5 Rising trigger event configuration bit of Configurable Event input 5 1 TR6 Rising trigger event configuration bit of Configurable Event input 6 1 TR7 Rising trigger event configuration bit of Configurable Event input 7 1 TR8 Rising trigger event configuration bit of Configurable Event input 8 1 TR9 Rising trigger event configuration bit of Configurable Event input 9 1 TR10 Rising trigger event configuration bit of Configurable Event input 10 1 TR11 Rising trigger event configuration bit of Configurable Event input 11 1 TR12 Rising trigger event configuration bit of Configurable Event input 12 1 TR13 Rising trigger event configuration bit of Configurable Event input 13 1 TR14 Rising trigger event configuration bit of Configurable Event input 14 1 TR15 Rising trigger event configuration bit of Configurable Event input 15 1 TR16 Rising trigger event configuration bit of Configurable Event input 16 1 TR17 Rising trigger event configuration bit of Configurable Event input 17 1 TR18 Rising trigger event configuration bit of Configurable Event input 18 1 FTSR1 FTSR1 EXTI falling trigger selection register 0x4 0x20 read-write 0x00000000 TR0 Rising trigger event configuration bit of Configurable Event input 0 1 FallingTrigger Disabled Falling edge trigger is disabled 0 Enabled Falling edge trigger is enabled 1 TR1 Rising trigger event configuration bit of Configurable Event input 1 1 TR2 Rising trigger event configuration bit of Configurable Event input 2 1 TR3 Rising trigger event configuration bit of Configurable Event input 3 1 TR4 Rising trigger event configuration bit of Configurable Event input 4 1 TR5 Rising trigger event configuration bit of Configurable Event input 5 1 TR6 Rising trigger event configuration bit of Configurable Event input 6 1 TR7 Rising trigger event configuration bit of Configurable Event input 7 1 TR8 Rising trigger event configuration bit of Configurable Event input 8 1 TR9 Rising trigger event configuration bit of Configurable Event input 9 1 TR10 Rising trigger event configuration bit of Configurable Event input 10 1 TR11 Rising trigger event configuration bit of Configurable Event input 11 1 TR12 Rising trigger event configuration bit of Configurable Event input 12 1 TR13 Rising trigger event configuration bit of Configurable Event input 13 1 TR14 Rising trigger event configuration bit of Configurable Event input 14 1 TR15 Rising trigger event configuration bit of Configurable Event input 15 1 TR16 Rising trigger event configuration bit of Configurable Event input 16 1 TR17 Rising trigger event configuration bit of Configurable Event input 17 1 TR18 Rising trigger event configuration bit of Configurable Event input 18 1 SWIER1 SWIER1 EXTI software interrupt event register 0x8 0x20 read-write 0x00000000 SWIER0 Rising trigger event configuration bit of Configurable Event input 0 1 SoftwareInterrupt write Pend Generates an interrupt request 1 SWIER1 Rising trigger event configuration bit of Configurable Event input 1 1 SWIER2 Rising trigger event configuration bit of Configurable Event input 2 1 SWIER3 Rising trigger event configuration bit of Configurable Event input 3 1 SWIER4 Rising trigger event configuration bit of Configurable Event input 4 1 SWIER5 Rising trigger event configuration bit of Configurable Event input 5 1 SWIER6 Rising trigger event configuration bit of Configurable Event input 6 1 SWIER7 Rising trigger event configuration bit of Configurable Event input 7 1 SWIER8 Rising trigger event configuration bit of Configurable Event input 8 1 SWIER9 Rising trigger event configuration bit of Configurable Event input 9 1 SWIER10 Rising trigger event configuration bit of Configurable Event input 10 1 SWIER11 Rising trigger event configuration bit of Configurable Event input 11 1 SWIER12 Rising trigger event configuration bit of Configurable Event input 12 1 SWIER13 Rising trigger event configuration bit of Configurable Event input 13 1 SWIER14 Rising trigger event configuration bit of Configurable Event input 14 1 SWIER15 Rising trigger event configuration bit of Configurable Event input 15 1 SWIER16 Rising trigger event configuration bit of Configurable Event input 16 1 SWIER17 Rising trigger event configuration bit of Configurable Event input 17 1 SWIER18 Rising trigger event configuration bit of Configurable Event input 18 1 RPR1 RPR1 EXTI rising edge pending register 0xC 0x20 read-write 0x00000000 RPIF0 configurable event inputs x rising edge Pending bit. 0 1 oneToClear RPIF0R read NotPending No trigger request occurred 0 Pending Selected trigger request occurred 1 RPIF0W write Clear Clears pending bit 1 RPIF1 configurable event inputs x rising edge Pending bit. 1 1 oneToClear read write RPIF2 configurable event inputs x rising edge Pending bit. 2 1 oneToClear read write RPIF3 configurable event inputs x rising edge Pending bit. 3 1 oneToClear read write RPIF4 configurable event inputs x rising edge Pending bit. 4 1 oneToClear read write RPIF5 configurable event inputs x rising edge Pending bit 5 1 oneToClear read write RPIF6 configurable event inputs x rising edge Pending bit. 6 1 oneToClear read write RPIF7 configurable event inputs x rising edge Pending bit. 7 1 oneToClear read write RPIF8 configurable event inputs x rising edge Pending bit. 8 1 oneToClear read write RPIF9 configurable event inputs x rising edge Pending bit. 9 1 oneToClear read write RPIF10 configurable event inputs x rising edge Pending bit. 10 1 oneToClear read write RPIF11 configurable event inputs x rising edge Pending bit. 11 1 oneToClear read write RPIF12 configurable event inputs x rising edge Pending bit. 12 1 oneToClear read write RPIF13 configurable event inputs x rising edge Pending bit. 13 1 oneToClear read write RPIF14 configurable event inputs x rising edge Pending bit. 14 1 oneToClear read write RPIF15 configurable event inputs x rising edge Pending bit. 15 1 oneToClear read write RPIF16 configurable event inputs x rising edge Pending bit. 16 1 oneToClear read write RPIF17 configurable event inputs x rising edge Pending bit. 17 1 oneToClear read write RPIF18 configurable event inputs x rising edge Pending bit. 18 1 oneToClear read write FPR1 FPR1 EXTI falling edge pending register 0x10 0x20 read-write 0x00000000 FPIF0 configurable event inputs x falling edge pending bit. 0 1 oneToClear FPIF0R read NotPending No trigger request occurred 0 Pending Selected trigger request occurred 1 FPIF0W write Clear Clears pending bit 1 FPIF1 configurable event inputs x falling edge pending bit. 1 1 oneToClear read write FPIF2 configurable event inputs x falling edge pending bit. 2 1 oneToClear read write FPIF3 configurable event inputs x falling edge pending bit. 3 1 oneToClear read write FPIF4 configurable event inputs x falling edge pending bit. 4 1 oneToClear read write FPIF5 configurable event inputs x falling edge pending bit. 5 1 oneToClear read write FPIF6 configurable event inputs x falling edge pending bit. 6 1 oneToClear read write FPIF7 configurable event inputs x falling edge pending bit. 7 1 oneToClear read write FPIF8 configurable event inputs x falling edge pending bit. 8 1 oneToClear read write FPIF9 configurable event inputs x falling edge pending bit. 9 1 oneToClear read write FPIF10 configurable event inputs x falling edge pending bit. 10 1 oneToClear read write FPIF11 configurable event inputs x falling edge pending bit. 11 1 oneToClear read write FPIF12 configurable event inputs x falling edge pending bit. 12 1 oneToClear read write FPIF13 configurable event inputs x falling edge pending bit. 13 1 oneToClear read write FPIF14 configurable event inputs x falling edge pending bit. 14 1 oneToClear read write FPIF15 configurable event inputs x falling edge pending bit. 15 1 oneToClear read write FPIF16 configurable event inputs x falling edge pending bit. 16 1 oneToClear read write FPIF17 configurable event inputs x falling edge pending bit. 17 1 oneToClear read write FPIF18 configurable event inputs x falling edge pending bit. 18 1 oneToClear read write EXTICR1 EXTICR1 EXTI external interrupt selection register 0x60 0x20 read-write 0x00000000 EXTI0 GPIO port selection 0 8 EXTI0 PA Select PAx as the source input for the EXTIx external interrupt 0 PB Select PBx as the source input for the EXTIx external interrupt 1 PC Select PCx as the source input for the EXTIx external interrupt 2 PD Select PDx as the source input for the EXTIx external interrupt 3 PF Select PFx as the source input for the EXTIx external interrupt 5 EXTI1 GPIO port selection 8 8 EXTI2 GPIO port selection 16 8 EXTI3 GPIO port selection 24 8 EXTICR2 EXTICR2 EXTI external interrupt selection register 0x64 0x20 read-write 0x00000000 EXTI4 GPIO port selection 0 8 EXTI5 GPIO port selection 8 8 EXTI6 GPIO port selection 16 8 EXTI7 GPIO port selection 24 8 EXTICR3 EXTICR3 EXTI external interrupt selection register 0x68 0x20 read-write 0x00000000 EXTI8 GPIO port selection 0 8 EXTI9 GPIO port selection 8 8 EXTI10 GPIO port selection 16 8 EXTI11 GPIO port selection 24 8 EXTICR4 EXTICR4 EXTI external interrupt selection register 0x6C 0x20 read-write 0x00000000 EXTI12 GPIO port selection 0 8 EXTI13 GPIO port selection 8 8 EXTI14 GPIO port selection 16 8 EXTI15 GPIO port selection 24 8 IMR1 IMR1 EXTI CPU wakeup with interrupt mask register 0x80 0x20 read-write 0xFFF80000 IM0 CPU wakeup with interrupt mask on event input 0 1 InterruptMask Masked Interrupt request line is masked 0 Unmasked Interrupt request line is unmasked 1 IM1 CPU wakeup with interrupt mask on event input 1 1 IM2 CPU wakeup with interrupt mask on event input 2 1 IM3 CPU wakeup with interrupt mask on event input 3 1 IM4 CPU wakeup with interrupt mask on event input 4 1 IM5 CPU wakeup with interrupt mask on event input 5 1 IM6 CPU wakeup with interrupt mask on event input 6 1 IM7 CPU wakeup with interrupt mask on event input 7 1 IM8 CPU wakeup with interrupt mask on event input 8 1 IM9 CPU wakeup with interrupt mask on event input 9 1 IM10 CPU wakeup with interrupt mask on event input 10 1 IM11 CPU wakeup with interrupt mask on event input 11 1 IM12 CPU wakeup with interrupt mask on event input 12 1 IM13 CPU wakeup with interrupt mask on event input 13 1 IM14 CPU wakeup with interrupt mask on event input 14 1 IM15 CPU wakeup with interrupt mask on event input 15 1 IM16 CPU wakeup with interrupt mask on event input 16 1 IM17 CPU wakeup with interrupt mask on event input 17 1 IM18 CPU wakeup with interrupt mask on event input 18 1 IM19 CPU wakeup with interrupt mask on event input 19 1 IM20 CPU wakeup with interrupt mask on event input 20 1 IM21 CPU wakeup with interrupt mask on event input 21 1 IM22 CPU wakeup with interrupt mask on event input 22 1 IM23 CPU wakeup with interrupt mask on event input 23 1 IM24 CPU wakeup with interrupt mask on event input 24 1 IM25 CPU wakeup with interrupt mask on event input 25 1 IM26 CPU wakeup with interrupt mask on event input 26 1 IM27 CPU wakeup with interrupt mask on event input 27 1 IM28 CPU wakeup with interrupt mask on event input 28 1 IM29 CPU wakeup with interrupt mask on event input 29 1 IM30 CPU wakeup with interrupt mask on event input 30 1 IM31 CPU wakeup with interrupt mask on event input 31 1 EMR1 EMR1 EXTI CPU wakeup with event mask register IMR1 0x84 0x20 read-write 0x00000000 EM0 CPU wakeup with event mask on event input 0 1 EventMask Masked Event request line is masked 0 Unmasked Event request line is unmasked 1 EM1 CPU wakeup with event mask on event input 1 1 EM2 CPU wakeup with event mask on event input 2 1 EM3 CPU wakeup with event mask on event input 3 1 EM4 CPU wakeup with event mask on event input 4 1 EM5 CPU wakeup with event mask on event input 5 1 EM6 CPU wakeup with event mask on event input 6 1 EM7 CPU wakeup with event mask on event input 7 1 EM8 CPU wakeup with event mask on event input 8 1 EM9 CPU wakeup with event mask on event input 9 1 EM10 CPU wakeup with event mask on event input 10 1 EM11 CPU wakeup with event mask on event input 11 1 EM12 CPU wakeup with event mask on event input 12 1 EM13 CPU wakeup with event mask on event input 13 1 EM14 CPU wakeup with event mask on event input 14 1 EM15 CPU wakeup with event mask on event input 15 1 EM16 CPU wakeup with event mask on event input 16 1 EM17 CPU wakeup with event mask on event input 17 1 EM18 CPU wakeup with event mask on event input 18 1 EM19 CPU wakeup with event mask on event input 19 1 EM21 CPU wakeup with event mask on event input 21 1 EM23 CPU wakeup with event mask on event input 23 1 EM25 CPU wakeup with event mask on event input 25 1 EM26 CPU wakeup with event mask on event input 26 1 EM27 CPU wakeup with event mask on event input 27 1 EM28 CPU wakeup with event mask on event input 28 1 EM29 CPU wakeup with event mask on event input 29 1 EM30 CPU wakeup with event mask on event input 30 1 EM31 CPU wakeup with event mask on event input 31 1 IMR2 IMR2 EXTI CPU wakeup with interrupt mask register 0x90 0x20 read-write 0xFFFFFFFF IM32 CPU wakeup with interrupt mask on event input 0 1 InterruptMask Masked Interrupt request line is masked 0 Unmasked Interrupt request line is unmasked 1 IM33 CPU wakeup with interrupt mask on event input 1 1 EMR2 EMR2 EXTI CPU wakeup with event mask register 0x94 0x20 read-write 0x00000000 EM32 CPU wakeup with event mask on event input 0 1 EventMask Masked Event request line is masked 0 Unmasked Event request line is unmasked 1 EM33 CPU wakeup with event mask on event input 1 1 HWCFGR7 HWCFGR7 Hardware configuration registers 0x3D8 0x20 read-write 0x00000000 CPUEVENT HW configuration CPU event generation 0 32 HWCFGR6 HWCFGR6 Hardware configuration registers 0x3DC 0x20 read-write 0x00000003 CPUEVENT HW configuration CPU event generation 0 32 HWCFGR5 HWCFGR5 Hardware configuration registers 0x3E0 0x20 read-write 0xFEAFFFFF CPUEVENT HW configuration CPU event generation 0 32 HWCFGR4 HWCFGR4 Hardware configuration registers 0x3E4 0x20 read-write 0x00000000 EVENT_TRG HW configuration event trigger type 0 32 HWCFGR3 HWCFGR3 Hardware configuration registers 0x3E8 0x20 read-write 0x00000000 EVENT_TRG HW configuration event trigger type 0 32 HWCFGR2 HWCFGR2 Hardware configuration registers 0x3EC 0x20 read-write 0x0007FFFF EVENT_TRG HW configuration event trigger type 0 32 HWCFGR1 HWCFGR1 Hardware configuration registers 0x3F0 0x20 read-only 0x00051021 NBIOPORT HW configuration of number of IO ports 16 8 CPUEVTEN HW configuration of CPU event output enable 12 4 NBCPUS configuration number of CPUs 8 4 NBEVENTS configuration number of event 0 8 VERR VERR AES version register 0x3F4 0x20 read-only 0x00000030 MAJREV Major revision 4 4 MINREV Minor revision 0 4 IPIDR IPIDR AES identification register 0x3F8 0x20 read-only 0x000E0001 ID Identification code 0 32 SIDR SIDR AES size ID register 0x3FC 0x20 read-only 0xA3C5DD01 ID Size Identification code 0 32 TIM16 General purpose timers TIM 0x40014400 0x0 0x400 registers TIM16 TIM16 global interrupt 21 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 CEN Counter enable 0 1 CEN Disabled Counter disabled 0 Enabled Counter enabled 1 UDIS Update disable 1 1 UDIS Enabled Update event enabled 0 Disabled Update event disabled 1 URS Update request source 2 1 URS AnyEvent Any of counter overflow/underflow, setting UG, or update through slave mode, generates an update interrupt or DMA request 0 CounterOnly Only counter overflow/underflow generates an update interrupt or DMA request 1 OPM One-pulse mode 3 1 OPM Disabled Counter is not stopped at update event 0 Enabled Counter stops counting at the next update event (clearing the CEN bit) 1 ARPE Auto-reload preload enable 7 1 ARPE Disabled TIMx_APRR register is not buffered 0 Enabled TIMx_APRR register is buffered 1 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 Ã t_CK_INT 1 Div4 t_DTS = 4 Ã t_CK_INT 2 UIFREMAP UIF status bit remapping 11 1 CR2 CR2 control register 2 0x4 0x20 read-write 0x00000000 1 0x0 1-1 OIS%sN Output Idle state (OC%sN output) 9 1 OIS1N Reset OCxN=0 after a dead-time when MOE=0 0 Set OCxN=1 after a dead-time when MOE=0 1 1 0x0 1-1 OIS%s Output Idle state (OC%s output) 8 1 OIS1 Reset OCx=0 (after a dead-time if OCx(N) is implemented) when MOE=0 0 Set OCx=1 (after a dead-time if OCx(N) is implemented) when MOE=0 1 CCDS Capture/compare DMA selection 3 1 CCDS OnCompare CCx DMA request sent when CCx event occurs 0 OnUpdate CCx DMA request sent when update event occurs 1 CCUS Capture/compare control update selection 2 1 CCUS Sw When capture/compare control bits are preloaded (CCPC=1), they are updated by setting the COMG bit only 0 SwOrEdge When capture/compare control bits are preloaded (CCPC=1), they are updated by setting the COMG bit or when an rising edge occurs on TRGI 1 CCPC Capture/compare preloaded control 0 1 CCPC NotPreloaded CCxE, CCxNE and OCxM bits are not preloaded 0 Preloaded CCxE, CCxNE and OCxM bits are preloaded 1 DIER DIER DMA/Interrupt enable register 0xC 0x20 read-write 0x00000000 COMDE COM DMA request enable 13 1 1 0x0 1-1 CC%sDE Capture/Compare %s DMA request enable 9 1 CC1DE Disabled CCx DMA request disabled 0 Enabled CCx DMA request enabled 1 UDE Update DMA request enable 8 1 UDE Disabled Update DMA request disabled 0 Enabled Update DMA request enabled 1 BIE Break interrupt enable 7 1 BIE Disabled Break interrupt disabled 0 Enabled Break interrupt enabled 1 COMIE COM interrupt enable 5 1 COMIE Disabled COM interrupt disabled 0 Enabled COM interrupt enabled 1 1 0x0 1-1 CC%sIE Capture/Compare %s interrupt enable 1 1 CC1IE Disabled CCx interrupt disabled 0 Enabled CCx interrupt enabled 1 UIE Update interrupt enable 0 1 UIE Disabled Update interrupt disabled 0 Enabled Update interrupt enabled 1 SR SR status register 0x10 0x20 read-write 0x00000000 1 0x0 1-1 CC%sOF Capture/Compare %s overcapture flag 9 1 zeroToClear CC1OFR read NoOvercapture No overcapture has been detected 0 Overcapture The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set 1 CC1OFW write Clear Clear flag 0 BIF Break interrupt flag 7 1 zeroToClear BIFR read NoTrigger No break event occurred 0 Trigger An active level has been detected on the break input. An interrupt is generated if BIE=1 in the TIMx_DIER register 1 BIFW write Clear Clear flag 0 COMIF COM interrupt flag 5 1 zeroToClear COMIFR read NoCOM No COM event occurred 0 COM COM interrupt pending 1 COMIFW write Clear Clear flag 0 1 0x0 1-1 CC%sIF Capture/compare %s interrupt flag 1 1 zeroToClear CC1IFR read NoMatch No campture/compare has been detected 0 Match If CC1 is an output: The content of the counter TIMx_CNT matches the content of the TIMx_CCR1 register. If CC1 is an input: The counter value has been captured in TIMx_CCR1 register. 1 CC1IFW write Clear Clear flag 0 UIF Update interrupt flag 0 1 zeroToClear UIFR read NoUpdateOccurred No update occurred 0 UpdatePending Update interrupt pending 1 UIFW write Clear Clear flag 0 EGR EGR event generation register 0x14 0x20 write-only 0x00000000 BG Break generation 7 1 BGW Trigger A break event is generated. MOE bit is cleared and BIF flag is set. Related interrupt or DMA transfer can occur if enabled 1 COMG Capture/Compare control update generation 5 1 COMGW Trigger When CCPC bit is set, it allows CCxE, CCxNE and OCxM bits to be updated 1 1 0x0 1-1 CC%sG Capture/compare %s generation 1 1 CC1GW Trigger If CC1 is an output: CC1IF flag is set, Corresponding interrupt or DMA request is sent if enabled. If CC1 is an input: The current value of the counter is captured in TIMx_CCR1 register. 1 UG Update generation 0 1 UG Update Re-initializes the timer counter and generates an update of the registers. 1 CCMR1_Output CCMR1_Output capture/compare mode register (output mode) 0x18 0x20 read-write 0x00000000 1 0x0 1-1 OC%sM_3 Output compare %s mode, bit 3 16 1 1 0x0 1-1 OC%sM Output compare %s mode 4 3 OC1M Frozen The comparison between the output compare register TIMx_CCRy and the counter TIMx_CNT has no effect on the outputs 0 ActiveOnMatch Set channel to active level on match. OCyREF signal is forced high when the counter matches the capture/compare register 1 InactiveOnMatch Set channel to inactive level on match. OCyREF signal is forced low when the counter matches the capture/compare register 2 Toggle OCyREF toggles when TIMx_CNT=TIMx_CCRy 3 ForceInactive OCyREF is forced low 4 ForceActive OCyREF is forced high 5 PwmMode1 In upcounting, channel is active as long as TIMx_CNT<TIMx_CCRy else inactive. In downcounting, channel is inactive as long as TIMx_CNT>TIMx_CCRy else active 6 PwmMode2 Inversely to PwmMode1 7 1 0x0 1-1 OC%sPE Output compare %s preload enable 3 1 OC1PE Disabled Preload register on CCRx disabled. New values written to CCRx are taken into account immediately 0 Enabled Preload register on CCRx enabled. Preload value is loaded into active register on each update event 1 1 0x0 1-1 OC%sFE Output compare %s fast enable 2 1 OC1FE Disabled Fast output disabled 0 Enabled Fast output enabled 1 1 0x0 1-1 CC%sS Capture/Compare %s selection 0 2 CC1S Output CCx channel is configured as output 0 CCMR1_Input CCMR1_Input capture/compare mode register 1 (input mode) CCMR1_Output 0x18 0x20 read-write 0x00000000 1 0x0 1-1 IC%sF Input capture %s filter 4 4 ICFilter NoFilter No filter, sampling is done at fDTS 0 FCK_INT_N2 fSAMPLING=fCK_INT, N=2 1 FCK_INT_N4 fSAMPLING=fCK_INT, N=4 2 FCK_INT_N8 fSAMPLING=fCK_INT, N=8 3 FDTS_Div2_N6 fSAMPLING=fDTS/2, N=6 4 FDTS_Div2_N8 fSAMPLING=fDTS/2, N=8 5 FDTS_Div4_N6 fSAMPLING=fDTS/4, N=6 6 FDTS_Div4_N8 fSAMPLING=fDTS/4, N=8 7 FDTS_Div8_N6 fSAMPLING=fDTS/8, N=6 8 FDTS_Div8_N8 fSAMPLING=fDTS/8, N=8 9 FDTS_Div16_N5 fSAMPLING=fDTS/16, N=5 10 FDTS_Div16_N6 fSAMPLING=fDTS/16, N=6 11 FDTS_Div16_N8 fSAMPLING=fDTS/16, N=8 12 FDTS_Div32_N5 fSAMPLING=fDTS/32, N=5 13 FDTS_Div32_N6 fSAMPLING=fDTS/32, N=6 14 FDTS_Div32_N8 fSAMPLING=fDTS/32, N=8 15 1 0x0 1-1 IC%sPSC Input capture %s prescaler 2 2 ICPrescaler NoPrescaler No prescaler, capture is done each time an edge is detected on the capture input 0 TwoEvents Capture is done once every 2 events 1 FourEvents Capture is done once every 4 events 2 EightEvents Capture is done once every 8 events 3 CC1S Capture/Compare 1 selection 0 2 CC1S TI1 CC1 channel is configured as input, IC1 is mapped on TI1 1 CCER CCER capture/compare enable register 0x20 0x20 read-write 0x00000000 1 0x0 1-1 CC%sNP Capture/Compare %s output Polarity 3 1 CC1NP ActiveHigh OCxN active high 0 ActiveLow OCxN active low 1 1 0x0 1-1 CC%sNE Capture/Compare %s complementary output enable 2 1 CC1NE Disabled Complementary output disabled 0 Enabled Complementary output enabled 1 1 0x0 1-1 CC%sP Capture/Compare %s output Polarity 1 1 CC1P RisingEdge Noninverted/rising edge 0 FallingEdge Inverted/falling edge 1 1 0x0 1-1 CC%sE Capture/Compare %s output enable 0 1 CC1E Disabled Capture disabled 0 Enabled Capture enabled 1 CNT CNT counter 0x24 0x20 0x00000000 CNT counter value 0 16 read-write 0 65535 UIFCPY UIF Copy 31 1 read-only PSC PSC prescaler 0x28 0x20 read-write 0x00000000 PSC Prescaler value 0 16 0 65535 ARR ARR auto-reload register 0x2C 0x20 read-write 0x00000000 ARR Auto-reload value 0 16 0 65535 RCR RCR repetition counter register 0x30 0x20 read-write 0x00000000 REP Repetition counter value 0 8 0 255 1 0x4 1-1 CCR%s CCR%s capture/compare register 0x34 0x20 read-write 0x00000000 CCR Capture/Compare value 0 16 0 65535 BDTR BDTR break and dead-time register 0x44 0x20 read-write 0x00000000 DTG Dead-time generator setup 0 8 0 255 LOCK Lock configuration 8 2 LOCK Off No bit is write protected 0 Level1 Any bits except MOE, OSSR, OSSI and LOCK in TIMx_BDTR register, OISx and OISxN bits in TIMx_CR2 register can no longer be written 1 Level2 LOCK Level 1 + CC Polarity bits (CCxP/CCxNP bits in TIMx_CCER register, as long as the related channel is configured in output through the CCxS bits) as well as OSSR and OSSI bits can no longer be written 2 Level3 LOCK Level 2 + CC Control bits (OCxM and OCxPE bits in TIMx_CCMRx registers, as long as the related channel is configured in output through the CCxS bits) can no longer be written 3 OSSI Off-state selection for Idle mode 10 1 OSSI HiZ When inactive, OC/OCN outputs are disabled 0 IdleLevel When inactive, OC/OCN outputs are forced to idle level 1 OSSR Off-state selection for Run mode 11 1 OSSR HiZ When inactive, OC/OCN outputs are disabled 0 IdleLevel When inactive, OC/OCN outputs are enabled with their inactive level 1 BKE Break enable 12 1 BKE Disabled Break function x disabled 0 Enabled Break function x enabled 1 BKP Break polarity 13 1 BKP ActiveLow Break input BRKx is active low 0 ActiveHigh Break input BRKx is active high 1 AOE Automatic output enable 14 1 AOE Manual MOE can be set only by software 0 Automatic MOE can be set by software or automatically at the next update event (if none of the break inputs BRK and BRK2 is active) 1 MOE Main output enable 15 1 MOE DisabledIdle OC/OCN are disabled or forced idle depending on OSSI 0 Enabled OC/OCN are enabled if CCxE/CCxNE are set 1 BKF Break filter 16 4 BKDSRM Break Disarm 26 1 BKBID Break Bidirectional 28 1 DCR DCR DMA control register 0x48 0x20 read-write 0x00000000 DBL DMA burst length 8 5 DBA DMA base address 0 5 DMAR DMAR DMA address for full transfer 0x4C 0x20 read-write 0x00000000 DMAB DMA register for burst accesses 0 16 AF1 AF1 TIM17 option register 1 0x60 0x20 read-write 0x00000000 BKINE BRK BKIN input enable 0 1 BKCMP1E BRK COMP1 enable 1 1 BKCMP2E BRK COMP2 enable 2 1 BKDFBK1E BRK DFSDM_BREAK1 enable 8 1 BKINP BRK BKIN input polarity 9 1 BKCMP1P BRK COMP1 input polarity 10 1 BKCMP2P BRK COMP2 input polarit 11 1 TISEL TISEL input selection register 0x68 0x20 read-write 0x00000000 TI1SEL selects input 0 4 TIM17 TIM 0x40014800 TIM17 TIM17 global interrupt 22 TIM15 General purpose timers TIM 0x40014000 0x0 0x400 registers TIM15 Timer 15 global interrupt 20 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 CEN Counter enable Note: External clock and gated mode can work only if the CEN bit has been previously set by software. However trigger mode can set the CEN bit automatically by hardware. 0 1 read-write CEN Disabled Counter disabled 0 Enabled Counter enabled 1 UDIS Update disable This bit is set and cleared by software to enable/disable UEV event generation. Counter overflow/underflow Setting the UG bit Update generation through the slave mode controller Buffered registers are then loaded with their preload values. 1 1 read-write UDIS Enabled Update event enabled 0 Disabled Update event disabled 1 URS Update request source This bit is set and cleared by software to select the UEV event sources. Counter overflow/underflow Setting the UG bit Update generation through the slave mode controller 2 1 read-write URS AnyEvent Any of counter overflow/underflow, setting UG, or update through slave mode, generates an update interrupt or DMA request 0 CounterOnly Only counter overflow/underflow generates an update interrupt or DMA request 1 OPM One-pulse mode 3 1 read-write OPM Disabled Counter is not stopped at update event 0 Enabled Counter stops counting at the next update event (clearing the CEN bit) 1 ARPE Auto-reload preload enable 7 1 read-write ARPE Disabled TIMx_APRR register is not buffered 0 Enabled TIMx_APRR register is buffered 1 CKD Clock division This bitfield indicates the division ratio between the timer clock (CK_INT) frequency and the dead-time and sampling clock (tDTS) used by the dead-time generators and the digital filters (TIx) 8 2 read-write CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 Ã t_CK_INT 1 Div4 t_DTS = 4 Ã t_CK_INT 2 UIFREMAP UIF status bit remapping 11 1 read-write CR2 CR2 control register 2 0x4 0x20 read-write 0x00000000 CCPC Capture/compare preloaded control Note: This bit acts only on channels that have a complementary output. 0 1 read-write CCPC NotPreloaded CCxE, CCxNE and OCxM bits are not preloaded 0 Preloaded CCxE, CCxNE and OCxM bits are preloaded 1 CCUS Capture/compare control update selection Note: This bit acts only on channels that have a complementary output. 2 1 read-write CCUS Sw When capture/compare control bits are preloaded (CCPC=1), they are updated by setting the COMG bit only 0 SwOrEdge When capture/compare control bits are preloaded (CCPC=1), they are updated by setting the COMG bit or when an rising edge occurs on TRGI 1 CCDS Capture/compare DMA selection 3 1 read-write CCDS OnCompare CCx DMA request sent when CCx event occurs 0 OnUpdate CCx DMA request sent when update event occurs 1 MMS Master mode selection These bits allow to select the information to be sent in master mode to slave timers for synchronization (TRGO). The combination is as follows: 4 3 read-write TI1S TI1 selection 7 1 read-write 2 0x2 1-2 OIS%s Output Idle state (OC%s output) 8 1 read-write OIS1 Reset OCx=0 (after a dead-time if OCx(N) is implemented) when MOE=0 0 Set OCx=1 (after a dead-time if OCx(N) is implemented) when MOE=0 1 1 0x0 1-1 OIS%sN Output Idle state (OC%sN output) 9 1 read-write OIS1N Reset OCxN=0 after a dead-time when MOE=0 0 Set OCxN=1 after a dead-time when MOE=0 1 SMCR SMCR slave mode control register 0x8 0x20 read-write 0x00000000 SMS Slave mode selection When external signals are selected the active edge of the trigger signal (TRGI) is linked to the polarity selected on the external input (see Input Control register and Control Register description. Other codes: reserved. Note: The gated mode must not be used if TI1F_ED is selected as the trigger input (TS='00100'). Indeed, TI1F_ED outputs 1 pulse for each transition on TI1F, whereas the gated mode checks the level of the trigger signal. Note: The clock of the slave peripherals (timer, ADC, ...) receiving the TRGO or the TRGO2 signals must be enabled prior to receive events from the master timer, and the clock frequency (prescaler) must not be changed on-the-fly while triggers are received from the master timer. 0 3 read-write TS Trigger selection This bit field selects the trigger input to be used to synchronize the counter. Other: Reserved See for more details on ITRx meaning for each Timer. Note: These bits must be changed only when they are not used (e.g. when SMS=000) to avoid wrong edge detections at the transition. 4 3 read-write MSM Master/slave mode 7 1 read-write SMS_3 Slave mode selection When external signals are selected the active edge of the trigger signal (TRGI) is linked to the polarity selected on the external input (see Input Control register and Control Register description. Other codes: reserved. Note: The gated mode must not be used if TI1F_ED is selected as the trigger input (TS='00100'). Indeed, TI1F_ED outputs 1 pulse for each transition on TI1F, whereas the gated mode checks the level of the trigger signal. Note: The clock of the slave peripherals (timer, ADC, ...) receiving the TRGO or the TRGO2 signals must be enabled prior to receive events from the master timer, and the clock frequency (prescaler) must not be changed on-the-fly while triggers are received from the master timer. 16 1 read-write TS2 Trigger selection This bit field selects the trigger input to be used to synchronize the counter. Other: Reserved See for more details on ITRx meaning for each Timer. Note: These bits must be changed only when they are not used (e.g. when SMS=000) to avoid wrong edge detections at the transition. 20 2 read-write DIER DIER DMA/Interrupt enable register 0xC 0x20 read-write 0x00000000 UIE Update interrupt enable 0 1 read-write UIE Disabled Update interrupt disabled 0 Enabled Update interrupt enabled 1 2 0x1 1-2 CC%sIE Capture/Compare %s interrupt enable 1 1 read-write CC1IE Disabled CCx interrupt disabled 0 Enabled CCx interrupt enabled 1 COMIE COM interrupt enable 5 1 read-write COMIE Disabled COM interrupt disabled 0 Enabled COM interrupt enabled 1 TIE Trigger interrupt enable 6 1 read-write TIE Disabled Trigger interrupt disabled 0 Enabled Trigger interrupt enabled 1 BIE Break interrupt enable 7 1 read-write BIE Disabled Break interrupt disabled 0 Enabled Break interrupt enabled 1 UDE Update DMA request enable 8 1 read-write UDE Disabled Update DMA request disabled 0 Enabled Update DMA request enabled 1 2 0x1 1-2 CC%sDE Capture/Compare %s DMA request enable 9 1 read-write CC1DE Disabled CCx DMA request disabled 0 Enabled CCx DMA request enabled 1 COMDE COM DMA request enable 13 1 read-write COMDE Disabled COM DMA request disabled 0 Enabled COM DMA request enabled 1 TDE Trigger DMA request enable 14 1 read-write TDE Disabled Trigger DMA request disabled 0 Enabled Trigger DMA request enabled 1 SR SR status register 0x10 0x20 read-write 0x00000000 UIF Update interrupt flag This bit is set by hardware on an update event. It is cleared by software. At overflow regarding the repetition counter value (update if repetition counter = 0) and if the UDIS=0 in the TIMx_CR1 register. When CNT is reinitialized by software using the UG bit in TIMx_EGR register, if URS=0 and UDIS=0 in the TIMx_CR1 register. When CNT is reinitialized by a trigger event (refer to control register (TIM15_SMCR)), if URS=0 and UDIS=0 in the TIMx_CR1 register. 0 1 read-write zeroToClear UIFR read NoUpdateOccurred No update occurred 0 UpdatePending Update interrupt pending 1 UIFW write Clear Clear flag 0 2 0x1 1-2 CC%sIF Capture/compare %s interrupt flag 1 1 read-write zeroToClear CC1IFR read NoMatch No campture/compare has been detected 0 Match If CC1 is an output: The content of the counter TIMx_CNT matches the content of the TIMx_CCR1 register. If CC1 is an input: The counter value has been captured in TIMx_CCR1 register. 1 CC1IFW write Clear Clear flag 0 COMIF COM interrupt flag 5 1 read-write zeroToClear COMIFR read NoCOM No COM event occurred 0 COM COM interrupt pending 1 COMIFW write Clear Clear flag 0 TIF Trigger interrupt flag This flag is set by hardware on the TRG trigger event (active edge detected on TRGI input when the slave mode controller is enabled in all modes but gated mode, both edges in case gated mode is selected). It is set when the counter starts or stops when gated mode is selected. It is cleared by software. 6 1 read-write zeroToClear TIFR read NoTrigger No trigger event occurred 0 Trigger Trigger interrupt pending 1 TIFW write Clear Clear flag 0 BIF Break interrupt flag This flag is set by hardware as soon as the break input goes active. It can be cleared by software if the break input is not active. 7 1 read-write zeroToClear BIFR read NoTrigger No break event occurred 0 Trigger An active level has been detected on the break input. An interrupt is generated if BIE=1 in the TIMx_DIER register 1 BIFW write Clear Clear flag 0 2 0x1 1-2 CC%sOF Capture/Compare %s overcapture flag 9 1 read-write zeroToClear CC1OFR read NoOvercapture No overcapture has been detected 0 Overcapture The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set 1 CC1OFW write Clear Clear flag 0 EGR EGR event generation register 0x14 0x20 write-only 0x00000000 UG Update generation This bit can be set by software, it is automatically cleared by hardware. 0 1 write-only UG Update Re-initializes the timer counter and generates an update of the registers. 1 2 0x1 1-2 CC%sG Capture/compare %s generation 1 1 write-only CC1GW Trigger If CC1 is an output: CC1IF flag is set, Corresponding interrupt or DMA request is sent if enabled. If CC1 is an input: The current value of the counter is captured in TIMx_CCR1 register. 1 COMG Capture/Compare control update generation This bit can be set by software, it is automatically cleared by hardware. Note: This bit acts only on channels that have a complementary output. 5 1 read-write COMGW write Trigger When CCPC bit is set, it allows CCxE, CCxNE and OCxM bits to be updated 1 TG Trigger generation This bit is set by software in order to generate an event, it is automatically cleared by hardware. 6 1 write-only TGW Trigger The TIF flag is set in TIMx_SR register. Related interrupt or DMA transfer can occur if enabled. 1 BG Break generation This bit is set by software in order to generate an event, it is automatically cleared by hardware. 7 1 write-only BGW Trigger A break event is generated. MOE bit is cleared and BIF flag is set. Related interrupt or DMA transfer can occur if enabled 1 CCMR1_Output CCMR1_Output capture/compare mode register (output mode) 0x18 0x20 read-write 0x00000000 2 0x8 1-2 CC%sS Capture/Compare %s selection 0 2 read-write CC1S Output CCx channel is configured as output 0 2 0x8 1-2 OC%sFE Output compare %s fast enable 2 1 read-write OC1FE Disabled Fast output disabled 0 Enabled Fast output enabled 1 2 0x8 1-2 OC%sPE Output compare %s preload enable 3 1 read-write OC1PE Disabled Preload register on CCRx disabled. New values written to CCRx are taken into account immediately 0 Enabled Preload register on CCRx enabled. Preload value is loaded into active register on each update event 1 2 0x8 1-2 OC%sM Output compare %s mode 4 3 read-write OC1M Frozen The comparison between the output compare register TIMx_CCRy and the counter TIMx_CNT has no effect on the outputs / OpmMode1: Retriggerable OPM mode 1 - In up-counting mode, the channel is active until a trigger event is detected (on TRGI signal). In down-counting mode, the channel is inactive 0 ActiveOnMatch Set channel to active level on match. OCyREF signal is forced high when the counter matches the capture/compare register / OpmMode2: Inversely to OpmMode1 1 InactiveOnMatch Set channel to inactive level on match. OCyREF signal is forced low when the counter matches the capture/compare register / Reserved 2 Toggle OCyREF toggles when TIMx_CNT=TIMx_CCRy / Reserved 3 ForceInactive OCyREF is forced low / CombinedPwmMode1: OCyREF has the same behavior as in PWM mode 1. OCyREFC is the logical OR between OC1REF and OC2REF 4 ForceActive OCyREF is forced high / CombinedPwmMode2: OCyREF has the same behavior as in PWM mode 2. OCyREFC is the logical AND between OC1REF and OC2REF 5 PwmMode1 In upcounting, channel is active as long as TIMx_CNT<TIMx_CCRy else inactive. In downcounting, channel is inactive as long as TIMx_CNT>TIMx_CCRy else active / Reserved 6 PwmMode2 Inversely to PwmMode1 / Reserved 7 2 0x8 1-2 OC%sM_3 Output compare %s mode, bit 3 16 1 read-write OC1M_3 Normal Normal output compare mode (modes 0-7) 0 Extended Extended output compare mode (modes 7-15) 1 CCMR1_Input CCMR1_Input capture/compare mode register 1 (input mode) CCMR1_Output 0x18 0x20 read-write 0x00000000 CC1S Capture/Compare 1 Selection This bit-field defines the direction of the channel (input/output) as well as the used input. Note: CC1S bits are writable only when the channel is OFF (CC1E = '0' in TIMx_CCER). 0 2 read-write CC1S TI1 CC1 channel is configured as input, IC1 is mapped on TI1 1 TI2 CC1 channel is configured as input, IC1 is mapped on TI2 2 TRC CC1 channel is configured as input, IC1 is mapped on TRC 3 2 0x8 1-2 IC%sPSC Input capture %s prescaler 2 2 read-write ICPrescaler NoPrescaler No prescaler, capture is done each time an edge is detected on the capture input 0 TwoEvents Capture is done once every 2 events 1 FourEvents Capture is done once every 4 events 2 EightEvents Capture is done once every 8 events 3 2 0x8 1-2 IC%sF Input capture %s filter 4 4 read-write ICFilter NoFilter No filter, sampling is done at fDTS 0 FCK_INT_N2 fSAMPLING=fCK_INT, N=2 1 FCK_INT_N4 fSAMPLING=fCK_INT, N=4 2 FCK_INT_N8 fSAMPLING=fCK_INT, N=8 3 FDTS_Div2_N6 fSAMPLING=fDTS/2, N=6 4 FDTS_Div2_N8 fSAMPLING=fDTS/2, N=8 5 FDTS_Div4_N6 fSAMPLING=fDTS/4, N=6 6 FDTS_Div4_N8 fSAMPLING=fDTS/4, N=8 7 FDTS_Div8_N6 fSAMPLING=fDTS/8, N=6 8 FDTS_Div8_N8 fSAMPLING=fDTS/8, N=8 9 FDTS_Div16_N5 fSAMPLING=fDTS/16, N=5 10 FDTS_Div16_N6 fSAMPLING=fDTS/16, N=6 11 FDTS_Div16_N8 fSAMPLING=fDTS/16, N=8 12 FDTS_Div32_N5 fSAMPLING=fDTS/32, N=5 13 FDTS_Div32_N6 fSAMPLING=fDTS/32, N=6 14 FDTS_Div32_N8 fSAMPLING=fDTS/32, N=8 15 CC2S Capture/Compare 2 selection This bit-field defines the direction of the channel (input/output) as well as the used input. Note: CC2S bits are writable only when the channel is OFF (CC2E = '0' in TIMx_CCER). 8 2 read-write CC2S TI2 CC2 channel is configured as input, IC2 is mapped on TI2 1 TI1 CC2 channel is configured as input, IC2 is mapped on TI1 2 TRC CC2 channel is configured as input, IC2 is mapped on TRC 3 CCER CCER capture/compare enable register 0x20 0x20 read-write 0x00000000 2 0x4 1-2 CC%sE Capture/Compare %s output enable 0 1 read-write CC1E Disabled Capture disabled 0 Enabled Capture enabled 1 2 0x4 1-2 CC%sP Capture/Compare %s output Polarity 1 1 read-write CC1P RisingEdge Noninverted/rising edge 0 FallingEdge Inverted/falling edge 1 1 0x0 1-1 CC%sNE Capture/Compare %s complementary output enable 2 1 read-write CC1NE Disabled Complementary output disabled 0 Enabled Complementary output enabled 1 2 0x4 1-2 CC%sNP Capture/Compare %s output Polarity 3 1 read-write CC1NP ActiveHigh OCxN active high 0 ActiveLow OCxN active low 1 CNT CNT counter 0x24 0x20 0x00000000 CNT counter value 0 16 read-write 0 65535 UIFCPY UIF Copy 31 1 read-only PSC PSC prescaler 0x28 0x20 read-write 0x00000000 PSC Prescaler value 0 16 0 65535 ARR ARR auto-reload register 0x2C 0x20 read-write 0x0000FFFF ARR Auto-reload value 0 16 0 65535 RCR RCR repetition counter register 0x30 0x20 read-write 0x00000000 REP Repetition counter value 0 8 0 255 2 0x4 1-2 CCR%s CCR%s capture/compare register 0x34 0x20 read-write 0x00000000 CCR Capture/Compare value 0 16 0 65535 BDTR BDTR break and dead-time register 0x44 0x20 read-write 0x00000000 DTG Dead-time generator setup 0 8 read-write 0 255 LOCK Lock configuration These bits offer a write protection against software errors. Note: The LOCK bits can be written only once after the reset. Once the TIMx_BDTR register has been written, their content is frozen until the next reset. 8 2 read-write LOCK Off No bit is write protected 0 Level1 Any bits except MOE, OSSR, OSSI and LOCK in TIMx_BDTR register, OISx and OISxN bits in TIMx_CR2 register can no longer be written 1 Level2 LOCK Level 1 + CC Polarity bits (CCxP/CCxNP bits in TIMx_CCER register, as long as the related channel is configured in output through the CCxS bits) as well as OSSR and OSSI bits can no longer be written 2 Level3 LOCK Level 2 + CC Control bits (OCxM and OCxPE bits in TIMx_CCMRx registers, as long as the related channel is configured in output through the CCxS bits) can no longer be written 3 OSSI Off-state selection for Idle mode This bit is used when MOE=0 on channels configured as outputs. See OC/OCN enable description for more details (enable register (TIM15_CCER) on page818). Note: This bit can not be modified as soon as the LOCK level 2 has been programmed (LOCK bits in TIMx_BDTR register). 10 1 read-write OSSI HiZ When inactive, OC/OCN outputs are disabled 0 IdleLevel When inactive, OC/OCN outputs are forced to idle level 1 OSSR Off-state selection for Run mode This bit is used when MOE=1 on channels that have a complementary output which are configured as outputs. OSSR is not implemented if no complementary output is implemented in the timer. See OC/OCN enable description for more details (enable register (TIM15_CCER) on page818). Note: This bit can not be modified as soon as the LOCK level 2 has been programmed (LOCK bits in TIMx_BDTR register). 11 1 read-write OSSR HiZ When inactive, OC/OCN outputs are disabled 0 IdleLevel When inactive, OC/OCN outputs are enabled with their inactive level 1 BKE Break enable 1; Break inputs (BRK and CCS clock failure event) enabled This bit cannot be modified when LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). Note: Any write operation to this bit takes a delay of 1 APB clock cycle to become effective. 12 1 read-write BKE Disabled Break function x disabled 0 Enabled Break function x enabled 1 BKP Break polarity Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). Any write operation to this bit takes a delay of 1 APB clock cycle to become effective. 13 1 read-write BKP ActiveLow Break input BRKx is active low 0 ActiveHigh Break input BRKx is active high 1 AOE Automatic output enable Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 14 1 read-write AOE Manual MOE can be set only by software 0 Automatic MOE can be set by software or automatically at the next update event (if none of the break inputs BRK and BRK2 is active) 1 MOE Main output enable This bit is cleared asynchronously by hardware as soon as the break input is active. It is set by software or automatically depending on the AOE bit. It is acting only on the channels which are configured in output. See OC/OCN enable description for more details (enable register (TIM15_CCER) on page818). 15 1 read-write MOE DisabledIdle OC/OCN are disabled or forced idle depending on OSSI 0 Enabled OC/OCN are enabled if CCxE/CCxNE are set 1 BKF Break filter This bit-field defines the frequency used to sample the BRK input signal and the length of the digital filter applied to BRK. The digital filter is made of an event counter in which N events are needed to validate a transition on the output: Note: This bit cannot be modified when LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 16 4 read-write BKDSRM Break Disarm This bit is cleared by hardware when no break source is active. The BKDSRM bit must be set by software to release the bidirectional output control (open-drain output in Hi-Z state) and then be polled it until it is reset by hardware, indicating that the fault condition has disappeared. Note: Any write operation to this bit takes a delay of 1 APB clock cycle to become effective. 26 1 read-write BKBID Break Bidirectional In the bidirectional mode (BKBID bit set to 1), the break input is configured both in input mode and in open drain output mode. Any active break event asserts a low logic level on the Break input to indicate an internal break event to external devices. Note: This bit cannot be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). Note: Any write operation to this bit takes a delay of 1 APB clock cycle to become effective. 28 1 read-write DCR DCR DMA control register 0x48 0x20 read-write 0x00000000 DBA DMA base address This 5-bit field defines the base-address for DMA transfers (when read/write access are done through the TIMx_DMAR address). DBA is defined as an offset starting from the address of the TIMx_CR1 register. Example: ... 0 5 read-write DBL DMA burst length This 5-bit field defines the length of DMA transfers (the timer recognizes a burst transfer when a read or a write access is done to the TIMx_DMAR address). ... 8 5 read-write DMAR DMAR DMA address for full transfer 0x4C 0x20 read-write 0x00000000 DMAB DMA register for burst accesses 0 16 AF1 AF1 TIM15 alternate register 1 0x60 0x20 read-write 0x00000001 BKINE BRK BKIN input enable This bit enables the BKIN alternate function input for the timer's BRK input. BKIN input is 'ORed' with the other BRK sources. Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 0 1 read-write BKCMP1E BRK COMP1 enable This bit enables the COMP1 for the timer's BRK input. COMP1 output is 'ORed' with the other BRK sources. Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 1 1 read-write BKCMP2E BRK COMP2 enable This bit enables the COMP2 for the timer's BRK input. COMP2 output is 'ORed' with the other BRK sources. Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 2 1 read-write BKCMP3E BRK COMP3 enable This bit enables the COMP3 for the timer's BRK input. COMP3 output is 'ORed' with the other BRK sources. Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 3 1 read-write BKINP BRK BKIN input polarity This bit selects the BKIN alternate function input sensitivity. It must be programmed together with the BKP polarity bit. Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 9 1 read-write BKCMP1P BRK COMP1 input polarity This bit selects the COMP1 input sensitivity. It must be programmed together with the BKP polarity bit. Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 10 1 read-write BKCMP2P BRK COMP2 input polarity This bit selects the COMP2 input sensitivity. It must be programmed together with the BKP polarity bit. Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 11 1 read-write BKCMP3P BRK COMP3 input polarity This bit selects the COMP3 input sensitivity. It must be programmed together with the BKP polarity bit. Note: This bit can not be modified as long as LOCK level 1 has been programmed (LOCK bits in TIMx_BDTR register). 12 1 read-write TISEL TISEL input selection register 0x68 0x20 read-write 0x00000000 TI1SEL selects TI1[0] to TI1[15] input Others: Reserved 0 4 read-write TI2SEL selects TI2[0] to TI2[15] input Others: Reserved 8 4 read-write USART1 Universal synchronous asynchronous receiver transmitter USART 0x40013800 0x0 0x400 registers USART1 USART1 global interrupt 27 CR1 CR1 Control register 1 0x0 0x20 read-write 0x00000000 RXFFIE RXFIFO Full interrupt enable 31 1 RXFFIE Disabled Interrupt inhibited 0 Enabled USART interrupt generated when RXFF = 1 in the USART_ISR register 1 TXFEIE TXFIFO empty interrupt enable 30 1 TXFEIE Disabled Interrupt inhibited 0 Enabled USART interrupt generated when TXFE = 1 in the USART_ISR register 1 FIFOEN FIFO mode enable 29 1 FIFOEN Disabled FIFO mode is disabled 0 Enabled FIFO mode is enabled 1 M1 Word length 28 1 M1 M0 Use M0 to set the data bits 0 Bit7 1 start bit, 7 data bits, n stop bits 1 EOBIE End of Block interrupt enable 27 1 EOBIE Disabled Interrupt is inhibited 0 Enabled A USART interrupt is generated when the EOBF flag is set in the ISR register 1 RTOIE Receiver timeout interrupt enable 26 1 RTOIE Disabled Interrupt is inhibited 0 Enabled An USART interrupt is generated when the RTOF bit is set in the ISR register 1 DEAT DEAT 21 5 0 31 DEDT DEDT 16 5 0 31 OVER8 Oversampling mode 15 1 OVER8 Oversampling16 Oversampling by 16 0 Oversampling8 Oversampling by 8 1 CMIE Character match interrupt enable 14 1 CMIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated when the CMF bit is set in the ISR register 1 MME Mute mode enable 13 1 MME Disabled Receiver in active mode permanently 0 Enabled Receiver can switch between mute mode and active mode 1 M0 Word length 12 1 M0 Bit8 1 start bit, 8 data bits, n stop bits 0 Bit9 1 start bit, 9 data bits, n stop bits 1 WAKE Receiver wakeup method 11 1 WAKE Idle Idle line 0 Address Address mask 1 PCE Parity control enable 10 1 PCE Disabled Parity control disabled 0 Enabled Parity control enabled 1 PS Parity selection 9 1 PS Even Even parity 0 Odd Odd parity 1 PEIE PE interrupt enable 8 1 PEIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever PE=1 in the ISR register 1 TXEIE interrupt enable 7 1 TXEIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever TXE=1 in the ISR register 1 TCIE Transmission complete interrupt enable 6 1 TCIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever TC=1 in the ISR register 1 RXNEIE RXNE interrupt enable 5 1 RXNEIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever ORE=1 or RXNE=1 in the ISR register 1 IDLEIE IDLE interrupt enable 4 1 IDLEIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever IDLE=1 in the ISR register 1 TE Transmitter enable 3 1 TE Disabled Transmitter is disabled 0 Enabled Transmitter is enabled 1 RE Receiver enable 2 1 RE Disabled Receiver is disabled 0 Enabled Receiver is enabled 1 UESM USART enable in Stop mode 1 1 UESM Disabled USART not able to wake up the MCU from Stop mode 0 Enabled USART able to wake up the MCU from Stop mode 1 UE USART enable 0 1 UE Disabled UART is disabled 0 Enabled UART is enabled 1 CR2 CR2 Control register 2 0x4 0x20 read-write 0x00000000 RTOEN Receiver timeout enable 23 1 RTOEN Disabled Receiver timeout feature disabled 0 Enabled Receiver timeout feature enabled 1 ABRMOD Auto baud rate mode 21 2 ABRMOD Start Measurement of the start bit is used to detect the baud rate 0 Edge Falling edge to falling edge measurement 1 Frame7F 0x7F frame detection 2 Frame55 0x55 frame detection 3 ABREN Auto baud rate enable 20 1 ABREN Disabled Auto baud rate detection is disabled 0 Enabled Auto baud rate detection is enabled 1 MSBFIRST Most significant bit first 19 1 MSBFIRST LSB data is transmitted/received with data bit 0 first, following the start bit 0 MSB data is transmitted/received with MSB (bit 7/8/9) first, following the start bit 1 DATAINV Binary data inversion 18 1 DATAINV Positive Logical data from the data register are send/received in positive/direct logic 0 Negative Logical data from the data register are send/received in negative/inverse logic 1 TXINV TX pin active level inversion 17 1 TXINV Standard TX pin signal works using the standard logic levels 0 Inverted TX pin signal values are inverted 1 RXINV RX pin active level inversion 16 1 RXINV Standard RX pin signal works using the standard logic levels 0 Inverted RX pin signal values are inverted 1 SWAP Swap TX/RX pins 15 1 SWAP Standard TX/RX pins are used as defined in standard pinout 0 Swapped The TX and RX pins functions are swapped 1 LINEN LIN mode enable 14 1 LINEN Disabled LIN mode disabled 0 Enabled LIN mode enabled 1 STOP STOP bits 12 2 STOP Stop1 1 stop bit 0 Stop0p5 0.5 stop bit 1 Stop2 2 stop bit 2 Stop1p5 1.5 stop bit 3 CLKEN Clock enable 11 1 CLKEN Disabled CK pin disabled 0 Enabled CK pin enabled 1 CPOL Clock polarity 10 1 CPOL Low Steady low value on CK pin outside transmission window 0 High Steady high value on CK pin outside transmission window 1 CPHA Clock phase 9 1 CPHA First The first clock transition is the first data capture edge 0 Second The second clock transition is the first data capture edge 1 LBCL Last bit clock pulse 8 1 LBCL NotOutput The clock pulse of the last data bit is not output to the CK pin 0 Output The clock pulse of the last data bit is output to the CK pin 1 LBDIE LIN break detection interrupt enable 6 1 LBDIE Disabled Interrupt is inhibited 0 Enabled An interrupt is generated whenever LBDF=1 in the ISR register 1 LBDL LIN break detection length 5 1 LBDL Bit10 10-bit break detection 0 Bit11 11-bit break detection 1 ADDM7 7-bit Address Detection/4-bit Address Detection 4 1 ADDM7 Bit4 4-bit address detection 0 Bit7 7-bit address detection 1 DIS_NSS When the DSI_NSS bit is set, the NSS pin input will be ignored 3 1 DIS_NSS Disabled SPI slave selection depends on NSS input pin 0 Enabled SPI slave is always selected and NSS input pin is ignored 1 SLVEN Synchronous Slave mode enable 0 1 SLVEN Disabled Slave mode disabled 0 Enabled Slave mode enabled 1 ADD Address of the USART node 24 8 0 255 CR3 CR3 Control register 3 0x8 0x20 read-write 0x00000000 TXFTCFG TXFIFO threshold configuration 29 3 TXFTCFG Depth_1_8 TXFIFO reaches 1/8 of its depth 0 Depth_1_4 TXFIFO reaches 1/4 of its depth 1 Depth_1_2 TXFIFO reaches 1/2 of its depth 2 Depth_3_4 TXFIFO reaches 3/4 of its depth 3 Depth_7_8 TXFIFO reaches 7/8 of its depth 4 Empty TXFIFO becomes empty 5 RXFTIE RXFIFO threshold interrupt enable 28 1 RXFTIE Disabled Interrupt inhibited 0 Enabled USART interrupt generated when Receive FIFO reaches the threshold programmed in RXFTCFG 1 RXFTCFG Receive FIFO threshold configuration 25 3 RXFTCFG Depth_1_8 RXFIFO reaches 1/8 of its depth 0 Depth_1_4 RXFIFO reaches 1/4 of its depth 1 Depth_1_2 RXFIFO reaches 1/2 of its depth 2 Depth_3_4 RXFIFO reaches 3/4 of its depth 3 Depth_7_8 RXFIFO reaches 7/8 of its depth 4 Full RXFIFO becomes full 5 TCBGTIE Tr Complete before guard time, interrupt enable 24 1 TCBGTIE Disabled Interrupt inhibited 0 Enabled USART interrupt generated whenever TCBGT=1 in the USART_ISR register 1 TXFTIE threshold interrupt enable 23 1 TXFTIE Disabled Interrupt inhibited 0 Enabled USART interrupt generated when Transmit FIFO reaches the threshold programmed in TXFTCFG 1 WUFIE Wakeup from Stop mode interrupt enable 22 1 WUFIE Disabled Interrupt is inhibited 0 Enabled An USART interrupt is generated whenever WUF=1 in the ISR register 1 WUS Wakeup from Stop mode interrupt flag selection 20 2 WUS Address WUF active on address match 0 Start WuF active on Start bit detection 2 RXNE WUF active on RXNE 3 SCARCNT Smartcard auto-retry count 17 3 0 7 DEP Driver enable polarity selection 15 1 DEP High DE signal is active high 0 Low DE signal is active low 1 DEM Driver enable mode 14 1 DEM Disabled DE function is disabled 0 Enabled The DE signal is output on the RTS pin 1 DDRE DMA Disable on Reception Error 13 1 DDRE NotDisabled DMA is not disabled in case of reception error 0 Disabled DMA is disabled following a reception error 1 OVRDIS Overrun Disable 12 1 OVRDIS Enabled Overrun Error Flag, ORE, is set when received data is not read before receiving new data 0 Disabled Overrun functionality is disabled. If new data is received while the RXNE flag is still set the ORE flag is not set and the new received data overwrites the previous content of the RDR register 1 ONEBIT One sample bit method enable 11 1 ONEBIT Sample3 Three sample bit method 0 Sample1 One sample bit method 1 CTSIE CTS interrupt enable 10 1 CTSIE Disabled Interrupt is inhibited 0 Enabled An interrupt is generated whenever CTSIF=1 in the ISR register 1 CTSE CTS enable 9 1 CTSE Disabled CTS hardware flow control disabled 0 Enabled CTS mode enabled, data is only transmitted when the CTS input is asserted 1 RTSE RTS enable 8 1 RTSE Disabled RTS hardware flow control disabled 0 Enabled RTS output enabled, data is only requested when there is space in the receive buffer 1 DMAT DMA enable transmitter 7 1 DMAT Disabled DMA mode is disabled for transmission 0 Enabled DMA mode is enabled for transmission 1 DMAR DMA enable receiver 6 1 DMAR Disabled DMA mode is disabled for reception 0 Enabled DMA mode is enabled for reception 1 SCEN Smartcard mode enable 5 1 SCEN Disabled Smartcard Mode disabled 0 Enabled Smartcard Mode enabled 1 NACK Smartcard NACK enable 4 1 NACK Disabled NACK transmission in case of parity error is disabled 0 Enabled NACK transmission during parity error is enabled 1 HDSEL Half-duplex selection 3 1 HDSEL NotSelected Half duplex mode is not selected 0 Selected Half duplex mode is selected 1 IRLP Ir low-power 2 1 IRLP Normal Normal mode 0 LowPower Low-power mode 1 IREN Ir mode enable 1 1 IREN Disabled IrDA disabled 0 Enabled IrDA enabled 1 EIE Error interrupt enable 0 1 EIE Disabled Interrupt is inhibited 0 Enabled An interrupt is generated when FE=1 or ORE=1 or NF=1 in the ISR register 1 BRR BRR Baud rate register 0xC 0x20 read-write 0x00000000 BRR Baud rate 0 16 0 65535 GTPR GTPR Guard time and prescaler register 0x10 0x20 read-write 0x00000000 GT Guard time value 8 8 0 255 PSC Prescaler value 0 8 0 255 RTOR RTOR Receiver timeout register 0x14 0x20 read-write 0x00000000 BLEN Block Length 24 8 0 255 RTO Receiver timeout value 0 24 0 16777215 RQR RQR Request register 0x18 0x20 write-only 0x00000000 TXFRQ Transmit data flush request 4 1 TXFRQ Discard Set the TXE flags. This allows to discard the transmit data 1 RXFRQ Receive data flush request 3 1 RXFRQ Discard clears the RXNE flag. This allows to discard the received data without reading it, and avoid an overrun condition 1 MMRQ Mute mode request 2 1 MMRQ Mute Puts the USART in mute mode and sets the RWU flag 1 SBKRQ Send break request 1 1 SBKRQ Break sets the SBKF flag and request to send a BREAK on the line, as soon as the transmit machine is available 1 ABRRQ Auto baud rate request 0 1 ABRRQ Request resets the ABRF flag in the USART_ISR and request an automatic baud rate measurement on the next received data frame 1 ISR ISR Interrupt & status register 0x1C 0x20 read-only 0x000000C0 TXFT TXFIFO threshold flag 27 1 TXFT NotReached TXFIFO does not reach the programmed threshold. 0 Reached TXFIFO reached the programmed threshold. 1 RXFT RXFIFO threshold flag 26 1 RXFT NotReached Receive FIFO does not reach the programmed threshold. 0 Reached Receive FIFO reached the programmed threshold. 1 TCBGT Transmission complete before guard time flag 25 1 TCBGT NotCompleted Transmission is not complete or transmission is complete unsuccessfully (i.e. a NACK is received from the card) 0 Completed Transmission is complete successfully (before Guard time completion and there is no NACK from the smart card) 1 RXFF RXFIFO Full 24 1 RXFF NotFull RXFIFO not full. 0 Full RXFIFO Full. 1 TXFE TXFIFO Empty 23 1 TXFE NotEmpty TXFIFO not empty. 0 Empty TXFIFO empty. 1 REACK REACK 22 1 TEACK TEACK 21 1 WUF WUF 20 1 RWU RWU 19 1 RWU Active Receiver in Active mode 0 Mute Receiver in Mute mode 1 SBKF SBKF 18 1 SBKF NoBreak No break character transmitted 0 Break Break character transmitted 1 CMF CMF 17 1 CMF NoMatch No Character match detected 0 Match Character match detected 1 BUSY BUSY 16 1 BUSY Idle USART is idle (no reception) 0 Busy Reception on going 1 ABRF ABRF 15 1 ABRE ABRE 14 1 UDR SPI slave underrun error flag 13 1 UDR NoUnderrun No underrun error 0 Underrun underrun error 1 EOBF EOBF 12 1 EOBF NotReached End of Block not reached 0 Reached End of Block (number of characters) reached 1 RTOF RTOF 11 1 RTOF NotReached Timeout value not reached 0 Reached Timeout value reached without any data reception 1 CTS CTS 10 1 CTS Set CTS line set 0 Reset CTS line reset 1 CTSIF CTSIF 9 1 CTSIF NotChanged No change occurred on the CTS status line 0 Changed A change occurred on the CTS status line 1 LBDF LBDF 8 1 LBDF NotDetected LIN break not detected 0 Detected LIN break detected 1 TXE TXE 7 1 TXE Full Transmit FIFO is full 0 NotFull Transmit FIFO is not full 1 TC TC 6 1 TC TxNotComplete Transmission is not complete 0 TxComplete Transmission is complete 1 RXNE RXNE 5 1 RXNE NoData Data is not received 0 DataReady Received data is ready to be read 1 IDLE IDLE 4 1 IDLE NoIdle No Idle Line is detected 0 Idle Idle Line is detected 1 ORE ORE 3 1 ORE NoOverrun No Overrun error 0 Overrun Overrun error is detected 1 NF NF 2 1 NF NoNoise No noise is detected 0 Noise Noise is detected 1 FE FE 1 1 FE NoError No Framing error is detected 0 Error Framing error or break character is detected 1 PE PE 0 1 PE NoError No parity error 0 Error Parity error 1 ICR ICR Interrupt flag clear register 0x20 0x20 write-only 0x00000000 WUCF Wakeup from Stop mode clear flag 20 1 oneToClear WUCF Clear Clears the WUF flag in the ISR register 1 CMCF Character match clear flag 17 1 oneToClear CMCF Clear Clears the CMF flag in the ISR register 1 UDRCF SPI slave underrun clear flag 13 1 oneToClear UDRCF Clear Clear the UDR flag in the ISR register 1 EOBCF End of block clear flag 12 1 oneToClear EOBCF Clear Clears the EOBF flag in the ISR register 1 RTOCF Receiver timeout clear flag 11 1 oneToClear RTOCF Clear Clears the RTOF flag in the ISR register 1 CTSCF CTS clear flag 9 1 oneToClear CTSCF Clear Clears the CTSIF flag in the ISR register 1 LBDCF LIN break detection clear flag 8 1 oneToClear LBDCF Clear Clears the LBDF flag in the ISR register 1 TCBGTCF Transmission complete before Guard time clear flag 7 1 oneToClear TCBGTCF Clear Clear the TCBGT flag in the ISR register 1 TCCF Transmission complete clear flag 6 1 oneToClear TCCF Clear Clears the TC flag in the ISR register 1 TXFECF TXFIFO empty clear flag 5 1 oneToClear TXFECF Clear Clear the TXFE flag in the ISR register 1 IDLECF Idle line detected clear flag 4 1 oneToClear IDLECF Clear Clears the IDLE flag in the ISR register 1 ORECF Overrun error clear flag 3 1 oneToClear ORECF Clear Clears the ORE flag in the ISR register 1 NCF Noise detected clear flag 2 1 oneToClear NCF Clear Clears the NF flag in the ISR register 1 FECF Framing error clear flag 1 1 oneToClear FECF Clear Clears the FE flag in the ISR register 1 PECF Parity error clear flag 0 1 oneToClear PECF Clear Clears the PE flag in the ISR register 1 RDR RDR Receive data register 0x24 0x20 read-only 0x00000000 RDR Receive data value 0 9 0 511 TDR TDR Transmit data register 0x28 0x20 read-write 0x00000000 TDR Transmit data value 0 9 0 511 PRESC PRESC Prescaler register 0x2C 0x20 read-write 0x00000000 PRESCALER Clock prescaler 0 4 PRESCALER Div1 Input clock divided by 1 0 Div2 Input clock divided by 2 1 Div4 Input clock divided by 4 2 Div6 Input clock divided by 6 3 Div8 Input clock divided by 8 4 Div10 Input clock divided by 10 5 Div12 Input clock divided by 12 6 Div16 Input clock divided by 16 7 Div32 Input clock divided by 32 8 Div64 Input clock divided by 64 9 Div128 Input clock divided by 128 10 Div256 Input clock divided by 256 11 USART2 0x40004400 USART2 USART2 global interrupt 28 USART3 0x40004800 USART3_USART4_LPUART1 USART3 + USART4 + LPUART1 29 USART4 0x40004C00 SPI1 Serial peripheral interface/Inter-IC sound SPI 0x40013000 0x0 0x400 registers SPI1 SPI1 global interrupt 25 CR1 CR1 control register 1 0x0 0x10 read-write 0x00000000 BIDIMODE Bidirectional data mode enable 15 1 BIDIMODE Unidirectional 2-line unidirectional data mode selected 0 Bidirectional 1-line bidirectional data mode selected 1 BIDIOE Output enable in bidirectional mode 14 1 BIDIOE OutputDisabled Output disabled (receive-only mode) 0 OutputEnabled Output enabled (transmit-only mode) 1 CRCEN Hardware CRC calculation enable 13 1 CRCEN Disabled CRC calculation disabled 0 Enabled CRC calculation enabled 1 CRCNEXT CRC transfer next 12 1 CRCNEXT TxBuffer Next transmit value is from Tx buffer 0 CRC Next transmit value is from Tx CRC register 1 CRCL CRC length 11 1 CRCL EightBit 8-bit CRC length 0 SixteenBit 16-bit CRC length 1 RXONLY Receive only 10 1 RXONLY FullDuplex Full duplex (Transmit and receive) 0 OutputDisabled Output disabled (Receive-only mode) 1 SSM Software slave management 9 1 SSM Disabled Software slave management disabled 0 Enabled Software slave management enabled 1 SSI Internal slave select 8 1 SSI SlaveSelected 0 is forced onto the NSS pin and the I/O value of the NSS pin is ignored 0 SlaveNotSelected 1 is forced onto the NSS pin and the I/O value of the NSS pin is ignored 1 LSBFIRST Frame format 7 1 LSBFIRST MSBFirst Data is transmitted/received with the MSB first 0 LSBFirst Data is transmitted/received with the LSB first 1 SPE SPI enable 6 1 SPE Disabled Peripheral disabled 0 Enabled Peripheral enabled 1 BR Baud rate control 3 3 BR Div2 f_PCLK / 2 0 Div4 f_PCLK / 4 1 Div8 f_PCLK / 8 2 Div16 f_PCLK / 16 3 Div32 f_PCLK / 32 4 Div64 f_PCLK / 64 5 Div128 f_PCLK / 128 6 Div256 f_PCLK / 256 7 MSTR Master selection 2 1 MSTR Slave Slave configuration 0 Master Master configuration 1 CPOL Clock polarity 1 1 CPOL IdleLow CK to 0 when idle 0 IdleHigh CK to 1 when idle 1 CPHA Clock phase 0 1 CPHA FirstEdge The first clock transition is the first data capture edge 0 SecondEdge The second clock transition is the first data capture edge 1 CR2 CR2 control register 2 0x4 0x10 read-write 0x00000000 RXDMAEN Rx buffer DMA enable 0 1 RXDMAEN Disabled Rx buffer DMA disabled 0 Enabled Rx buffer DMA enabled 1 TXDMAEN Tx buffer DMA enable 1 1 TXDMAEN Disabled Tx buffer DMA disabled 0 Enabled Tx buffer DMA enabled 1 SSOE SS output enable 2 1 SSOE Disabled SS output is disabled in master mode 0 Enabled SS output is enabled in master mode 1 NSSP NSS pulse management 3 1 NSSP NoPulse No NSS pulse 0 PulseGenerated NSS pulse generated 1 FRF Frame format 4 1 FRF Motorola SPI Motorola mode 0 TI SPI TI mode 1 ERRIE Error interrupt enable 5 1 ERRIE Masked Error interrupt masked 0 NotMasked Error interrupt not masked 1 RXNEIE RX buffer not empty interrupt enable 6 1 RXNEIE Masked RXE interrupt masked 0 NotMasked RXE interrupt not masked 1 TXEIE Tx buffer empty interrupt enable 7 1 TXEIE Masked TXE interrupt masked 0 NotMasked TXE interrupt not masked 1 DS Data size 8 4 DS FourBit 4-bit 3 FiveBit 5-bit 4 SixBit 6-bit 5 SevenBit 7-bit 6 EightBit 8-bit 7 NineBit 9-bit 8 TenBit 10-bit 9 ElevenBit 11-bit 10 TwelveBit 12-bit 11 ThirteenBit 13-bit 12 FourteenBit 14-bit 13 FifteenBit 15-bit 14 SixteenBit 16-bit 15 FRXTH FIFO reception threshold 12 1 FRXTH Half RXNE event is generated if the FIFO level is greater than or equal to 1/2 (16-bit) 0 Quarter RXNE event is generated if the FIFO level is greater than or equal to 1/4 (8-bit) 1 LDMA_RX Last DMA transfer for reception 13 1 LDMA_RX Even Number of data to transfer for receive is even 0 Odd Number of data to transfer for receive is odd 1 LDMA_TX Last DMA transfer for transmission 14 1 LDMA_TX Even Number of data to transfer for transmit is even 0 Odd Number of data to transfer for transmit is odd 1 SR SR status register 0x8 0x10 0x00000002 RXNE Receive buffer not empty 0 1 read-only RXNE Empty Rx buffer empty 0 NotEmpty Rx buffer not empty 1 TXE Transmit buffer empty 1 1 read-only TXE NotEmpty Tx buffer not empty 0 Empty Tx buffer empty 1 CHSIDE Channel side 2 1 read-only CHSIDE Left Channel left has to be transmitted or has been received 0 Right Channel right has to be transmitted or has been received 1 UDR Underrun flag 3 1 read-only UDRR NoUnderrun No underrun occurred 0 Underrun Underrun occurred 1 CRCERR CRC error flag 4 1 read-write zeroToClear CRCERRR read Match CRC value received matches the SPIx_RXCRCR value 0 NoMatch CRC value received does not match the SPIx_RXCRCR value 1 CRCERRW write Clear Clear flag 0 MODF Mode fault 5 1 read-only MODFR NoFault No mode fault occurred 0 Fault Mode fault occurred 1 OVR Overrun flag 6 1 read-only OVRR NoOverrun No overrun occurred 0 Overrun Overrun occurred 1 BSY Busy flag 7 1 read-only BSYR NotBusy SPI not busy 0 Busy SPI busy 1 FRE Frame format error 8 1 read-only FRER NoError No frame format error 0 Error A frame format error occurred 1 FRLVL FIFO reception level 9 2 read-only FRLVLR Empty Rx FIFO Empty 0 Quarter Rx 1/4 FIFO 1 Half Rx 1/2 FIFO 2 Full Rx FIFO full 3 FTLVL FIFO transmission level 11 2 read-only FTLVLR Empty Tx FIFO Empty 0 Quarter Tx 1/4 FIFO 1 Half Tx 1/2 FIFO 2 Full Tx FIFO full 3 DR DR data register 0xC 0x10 read-write 0x00000000 DR Data register 0 16 0 65535 DR8 Direct 8-bit access to data register DR 0xC 0x8 read-write DR Data register 0 8 0 255 CRCPR CRCPR CRC polynomial register 0x10 0x10 read-write 0x00000007 CRCPOLY CRC polynomial register 0 16 0 65535 RXCRCR RXCRCR RX CRC register 0x14 0x10 read-only 0x00000000 RxCRC Rx CRC register 0 16 0 65535 TXCRCR TXCRCR TX CRC register 0x18 0x10 read-only 0x00000000 TxCRC Tx CRC register 0 16 0 65535 I2SCFGR I2SCFGR configuration register 0x1C 0x10 read-write 0x00000000 CHLEN Channel length (number of bits per audio channel) 0 1 CHLEN SixteenBit 16-bit wide 0 ThirtyTwoBit 32-bit wide 1 DATLEN Data length to be transferred 1 2 DATLEN SixteenBit 16-bit data length 0 TwentyFourBit 24-bit data length 1 ThirtyTwoBit 32-bit data length 2 CKPOL Inactive state clock polarity 3 1 CKPOL IdleLow I2S clock inactive state is low level 0 IdleHigh I2S clock inactive state is high level 1 I2SSTD standard selection 4 2 I2SSTD Philips I2S Philips standard 0 MSB MSB justified standard 1 LSB LSB justified standard 2 PCM PCM standard 3 PCMSYNC PCM frame synchronization 7 1 PCMSYNC Short Short frame synchronisation 0 Long Long frame synchronisation 1 I2SCFG I2S configuration mode 8 2 I2SCFG SlaveTx Slave - transmit 0 SlaveRx Slave - receive 1 MasterTx Master - transmit 2 MasterRx Master - receive 3 I2SE I2S enable 10 1 I2SE Disabled I2S peripheral is disabled 0 Enabled I2S peripheral is enabled 1 I2SMOD I2S mode selection 11 1 I2SMOD SPIMode SPI mode is selected 0 I2SMode I2S mode is selected 1 I2SPR I2SPR prescaler register 0x20 0x10 read-write 0x00000000 I2SDIV linear prescaler 0 8 2 255 ODD Odd factor for the prescaler 8 1 ODD Even Real divider value is I2SDIV * 2 0 Odd Real divider value is (I2SDIV * 2) + 1 1 MCKOE Master clock output enable 9 1 MCKOE Disabled Master clock output is disabled 0 Enabled Master clock output is enabled 1 HWCFGR HWCFGR hardware configuration register 0x3F0 0x20 read-only 0x00000000 CRCCFG CRC capable at SPI mode 0 4 I2SCFG I2S mode implementation 4 4 I2SCKCFG I2S master clock generator at I2S mode 8 4 DSCFG SPI data size configuration 12 4 NSSCFG NSS pulse feature enhancement at SPI master 16 4 VERR VERR EXTI IP Version register 0x3F4 0x20 read-only 0x00000000 MINREV Minor Revision number 0 4 MAJREV Major Revision number 4 4 IPIDR IPIDR EXTI Identification register 0x3F8 0x20 read-only 0x00000000 IPID IP Identification 0 32 SIDR SIDR EXTI Size ID register 0x3FC 0x20 read-only 0x00000000 SID Size Identification 0 32 SPI2 0x40003800 SPI2 SPI2 global interrupt 26 TIM1 Advanced-timers TIM 0x40012C00 0x0 0x400 registers TIM1_BRK_UP_TRG_COM TIM1 break, update, trigger and commutation interrupts 13 TIM1_CC TIM1 Capture Compare interrupt 14 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 CEN Counter enable 0 1 CEN Disabled Counter disabled 0 Enabled Counter enabled 1 OPM One-pulse mode 3 1 OPM Disabled Counter is not stopped at update event 0 Enabled Counter stops counting at the next update event (clearing the CEN bit) 1 UDIS Update disable 1 1 UDIS Enabled Update event enabled 0 Disabled Update event disabled 1 URS Update request source 2 1 URS AnyEvent Any of counter overflow/underflow, setting UG, or update through slave mode, generates an update interrupt or DMA request 0 CounterOnly Only counter overflow/underflow generates an update interrupt or DMA request 1 DIR Direction 4 1 DIR Up Counter used as upcounter 0 Down Counter used as downcounter 1 CMS Center-aligned mode selection 5 2 CMS EdgeAligned The counter counts up or down depending on the direction bit 0 CenterAligned1 The counter counts up and down alternatively. Output compare interrupt flags are set only when the counter is counting down. 1 CenterAligned2 The counter counts up and down alternatively. Output compare interrupt flags are set only when the counter is counting up. 2 CenterAligned3 The counter counts up and down alternatively. Output compare interrupt flags are set both when the counter is counting up or down. 3 ARPE Auto-reload preload enable 7 1 ARPE Disabled TIMx_APRR register is not buffered 0 Enabled TIMx_APRR register is buffered 1 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 Ã t_CK_INT 1 Div4 t_DTS = 4 Ã t_CK_INT 2 UIFREMAP UIF status bit remapping 11 1 CR2 CR2 control register 2 0x4 0x20 read-write 0x00000000 MMS2 Master mode selection 2 20 4 6 0x2 1-6 OIS%s Output Idle state (OC%s output) 8 1 OIS1 Reset OCx=0 (after a dead-time if OCx(N) is implemented) when MOE=0 0 Set OCx=1 (after a dead-time if OCx(N) is implemented) when MOE=0 1 3 0x2 1-3 OIS%sN Output Idle state (OC%sN output) 9 1 OIS1N Reset OCxN=0 after a dead-time when MOE=0 0 Set OCxN=1 after a dead-time when MOE=0 1 TI1S TI1 selection 7 1 TI1S Normal The TIMx_CH1 pin is connected to TI1 input 0 XOR The TIMx_CH1, CH2, CH3 pins are connected to TI1 input 1 MMS Master mode selection 4 3 CCDS Capture/compare DMA selection 3 1 CCDS OnCompare CCx DMA request sent when CCx event occurs 0 OnUpdate CCx DMA request sent when update event occurs 1 CCUS Capture/compare control update selection 2 1 CCUS Sw When capture/compare control bits are preloaded (CCPC=1), they are updated by setting the COMG bit only 0 SwOrEdge When capture/compare control bits are preloaded (CCPC=1), they are updated by setting the COMG bit or when an rising edge occurs on TRGI 1 CCPC Capture/compare preloaded control 0 1 CCPC NotPreloaded CCxE, CCxNE and OCxM bits are not preloaded 0 Preloaded CCxE, CCxNE and OCxM bits are preloaded 1 SMCR SMCR slave mode control register 0x8 0x20 read-write 0x00000000 SMS Slave mode selection 0 3 OCCS OCREF clear selection 3 1 TS Trigger selection 4 3 MSM Master/Slave mode 7 1 MSM NoSync No action 0 Sync The effect of an event on the trigger input (TRGI) is delayed to allow a perfect synchronization between the current timer and its slaves (through TRGO). It is useful if we want to synchronize several timers on a single external event. 1 ETF External trigger filter 8 4 ETF NoFilter No filter, sampling is done at fDTS 0 FCK_INT_N2 fSAMPLING=fCK_INT, N=2 1 FCK_INT_N4 fSAMPLING=fCK_INT, N=4 2 FCK_INT_N8 fSAMPLING=fCK_INT, N=8 3 FDTS_Div2_N6 fSAMPLING=fDTS/2, N=6 4 FDTS_Div2_N8 fSAMPLING=fDTS/2, N=8 5 FDTS_Div4_N6 fSAMPLING=fDTS/4, N=6 6 FDTS_Div4_N8 fSAMPLING=fDTS/4, N=8 7 FDTS_Div8_N6 fSAMPLING=fDTS/8, N=6 8 FDTS_Div8_N8 fSAMPLING=fDTS/8, N=8 9 FDTS_Div16_N5 fSAMPLING=fDTS/16, N=5 10 FDTS_Div16_N6 fSAMPLING=fDTS/16, N=6 11 FDTS_Div16_N8 fSAMPLING=fDTS/16, N=8 12 FDTS_Div32_N5 fSAMPLING=fDTS/32, N=5 13 FDTS_Div32_N6 fSAMPLING=fDTS/32, N=6 14 FDTS_Div32_N8 fSAMPLING=fDTS/32, N=8 15 ETPS External trigger prescaler 12 2 ETPS Div1 Prescaler OFF 0 Div2 ETRP frequency divided by 2 1 Div4 ETRP frequency divided by 4 2 Div8 ETRP frequency divided by 8 3 ECE External clock enable 14 1 ECE Disabled External clock mode 2 disabled 0 Enabled External clock mode 2 enabled. The counter is clocked by any active edge on the ETRF signal. 1 ETP External trigger polarity 15 1 ETP NotInverted ETR is noninverted, active at high level or rising edge 0 Inverted ETR is inverted, active at low level or falling edge 1 SMS_3 Slave mode selection - bit 3 16 1 TS2 Trigger selection 20 2 DIER DIER DMA/Interrupt enable register 0xC 0x20 read-write 0x00000000 UIE Update interrupt enable 0 1 UIE Disabled Update interrupt disabled 0 Enabled Update interrupt enabled 1 4 0x1 1-4 CC%sIE Capture/Compare %s interrupt enable 1 1 CC1IE Disabled CCx interrupt disabled 0 Enabled CCx interrupt enabled 1 COMIE COM interrupt enable 5 1 COMIE Disabled COM interrupt disabled 0 Enabled COM interrupt enabled 1 TIE Trigger interrupt enable 6 1 TIE Disabled Trigger interrupt disabled 0 Enabled Trigger interrupt enabled 1 BIE Break interrupt enable 7 1 BIE Disabled Break interrupt disabled 0 Enabled Break interrupt enabled 1 UDE Update DMA request enable 8 1 UDE Disabled Update DMA request disabled 0 Enabled Update DMA request enabled 1 4 0x1 1-4 CC%sDE Capture/Compare %s DMA request enable 9 1 CC1DE Disabled CCx DMA request disabled 0 Enabled CCx DMA request enabled 1 COMDE COM DMA request enable 13 1 COMDE Disabled COM DMA request disabled 0 Enabled COM DMA request enabled 1 TDE Trigger DMA request enable 14 1 TDE Disabled Trigger DMA request disabled 0 Enabled Trigger DMA request enabled 1 SR SR status register 0x10 0x20 read-write 0x00000000 UIF Update interrupt flag 0 1 zeroToClear UIFR read NoUpdateOccurred No update occurred 0 UpdatePending Update interrupt pending 1 UIFW write Clear Clear flag 0 4 0x1 1-4 CC%sIF Capture/compare %s interrupt flag 1 1 zeroToClear CC1IFR read NoMatch No campture/compare has been detected 0 Match If CC1 is an output: The content of the counter TIMx_CNT matches the content of the TIMx_CCR1 register. If CC1 is an input: The counter value has been captured in TIMx_CCR1 register. 1 CC1IFW write Clear Clear flag 0 COMIF COM interrupt flag 5 1 zeroToClear COMIFR read NoCOM No COM event occurred 0 COM COM interrupt pending 1 COMIFW write Clear Clear flag 0 TIF Trigger interrupt flag 6 1 zeroToClear TIFR read NoTrigger No trigger event occurred 0 Trigger Trigger interrupt pending 1 TIFW write Clear Clear flag 0 BIF Break interrupt flag 7 1 zeroToClear BIFR read NoTrigger No break event occurred 0 Trigger An active level has been detected on the break input. An interrupt is generated if BIE=1 in the TIMx_DIER register 1 BIFW write Clear Clear flag 0 B2IF Break 2 interrupt flag 8 1 zeroToClear B2IFR read NoTrigger No break event occurred 0 Trigger An active level has been detected on the break 2 input. An interrupt is generated if BIE=1 in the TIMx_DIER register 1 B2IFW write Clear Clear flag 0 4 0x1 1-4 CC%sOF Capture/Compare %s overcapture flag 9 1 zeroToClear CC1OFR read NoOvercapture No overcapture has been detected 0 Overcapture The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set 1 CC1OFW write Clear Clear flag 0 SBIF System Break interrupt flag 13 1 zeroToClear SBIFR read NoTrigger No break event occurred 0 Trigger An active level has been detected on the system break input. An interrupt is generated if BIE=1 in the TIMx_DIER register 1 SBIFW write Clear Clear flag 0 CC5IF Compare 5 interrupt flag 16 1 zeroToClear read write CC6IF Compare 6 interrupt flag 17 1 zeroToClear read write EGR EGR event generation register 0x14 0x20 write-only 0x00000000 UG Update generation 0 1 UG Update Re-initializes the timer counter and generates an update of the registers. 1 4 0x1 1-4 CC%sG Capture/compare %s generation 1 1 CC1GW Trigger If CC1 is an output: CC1IF flag is set, Corresponding interrupt or DMA request is sent if enabled. If CC1 is an input: The current value of the counter is captured in TIMx_CCR1 register. 1 COMG Capture/Compare control update generation 5 1 COMGW Trigger When CCPC bit is set, it allows CCxE, CCxNE and OCxM bits to be updated 1 TG Trigger generation 6 1 TGW Trigger The TIF flag is set in TIMx_SR register. Related interrupt or DMA transfer can occur if enabled. 1 BG Break generation 7 1 BGW Trigger A break event is generated. MOE bit is cleared and BIF flag is set. Related interrupt or DMA transfer can occur if enabled 1 B2G Break 2 generation 8 1 B2GW Trigger A break 2 event is generated. MOE bit is cleared and B2IF flag is set. Related interrupt can occur if enabled 1 CCMR1_Output CCMR1_Output capture/compare mode register 1 (output mode) 0x18 0x20 read-write 0x00000000 2 0x8 1-2 CC%sS Capture/Compare %s selection 0 2 CC1S Output CCx channel is configured as output 0 2 0x8 1-2 OC%sFE Output compare %s fast enable 2 1 OC1FE Disabled Fast output disabled 0 Enabled Fast output enabled 1 2 0x8 1-2 OC%sPE Output compare %s preload enable 3 1 OC1PE Disabled Preload register on CCRx disabled. New values written to CCRx are taken into account immediately 0 Enabled Preload register on CCRx enabled. Preload value is loaded into active register on each update event 1 2 0x8 1-2 OC%sM Output compare %s mode 4 3 OC1M Frozen The comparison between the output compare register TIMx_CCRy and the counter TIMx_CNT has no effect on the outputs / OpmMode1: Retriggerable OPM mode 1 - In up-counting mode, the channel is active until a trigger event is detected (on TRGI signal). In down-counting mode, the channel is inactive 0 ActiveOnMatch Set channel to active level on match. OCyREF signal is forced high when the counter matches the capture/compare register / OpmMode2: Inversely to OpmMode1 1 InactiveOnMatch Set channel to inactive level on match. OCyREF signal is forced low when the counter matches the capture/compare register / Reserved 2 Toggle OCyREF toggles when TIMx_CNT=TIMx_CCRy / Reserved 3 ForceInactive OCyREF is forced low / CombinedPwmMode1: OCyREF has the same behavior as in PWM mode 1. OCyREFC is the logical OR between OC1REF and OC2REF 4 ForceActive OCyREF is forced high / CombinedPwmMode2: OCyREF has the same behavior as in PWM mode 2. OCyREFC is the logical AND between OC1REF and OC2REF 5 PwmMode1 In upcounting, channel is active as long as TIMx_CNT<TIMx_CCRy else inactive. In downcounting, channel is inactive as long as TIMx_CNT>TIMx_CCRy else active / AsymmetricPwmMode1: OCyREF has the same behavior as in PWM mode 1. OCyREFC outputs OC1REF when the counter is counting up, OC2REF when it is counting down 6 PwmMode2 Inversely to PwmMode1 / AsymmetricPwmMode2: Inversely to AsymmetricPwmMode1 7 2 0x8 1-2 OC%sCE Output compare %s clear enable 7 1 OC1CE Disabled OCxRef is not affected by the ETRF signal 0 Enabled OCxRef is cleared as soon as a High level is detected on ETRF signal 1 2 0x8 1-2 OC%sM_3 Output compare %s mode, bit 3 16 1 OC1M_3 Normal Normal output compare mode (modes 0-7) 0 Extended Extended output compare mode (modes 7-15) 1 CCMR1_Input CCMR1_Input capture/compare mode register 1 (output mode) CCMR1_Output 0x18 0x20 read-write 0x00000000 CC1S Capture/Compare 1 selection 0 2 CC1S TI1 CC1 channel is configured as input, IC1 is mapped on TI1 1 TI2 CC1 channel is configured as input, IC1 is mapped on TI2 2 TRC CC1 channel is configured as input, IC1 is mapped on TRC 3 CC2S Capture/Compare 2 selection 8 2 CC2S TI2 CC2 channel is configured as input, IC2 is mapped on TI2 1 TI1 CC2 channel is configured as input, IC2 is mapped on TI1 2 TRC CC2 channel is configured as input, IC2 is mapped on TRC 3 2 0x8 1-2 IC%sPSC Input capture %s prescaler 2 2 ICPrescaler NoPrescaler No prescaler, capture is done each time an edge is detected on the capture input 0 TwoEvents Capture is done once every 2 events 1 FourEvents Capture is done once every 4 events 2 EightEvents Capture is done once every 8 events 3 2 0x8 1-2 IC%sF Input capture %s filter 4 4 ICFilter NoFilter No filter, sampling is done at fDTS 0 FCK_INT_N2 fSAMPLING=fCK_INT, N=2 1 FCK_INT_N4 fSAMPLING=fCK_INT, N=4 2 FCK_INT_N8 fSAMPLING=fCK_INT, N=8 3 FDTS_Div2_N6 fSAMPLING=fDTS/2, N=6 4 FDTS_Div2_N8 fSAMPLING=fDTS/2, N=8 5 FDTS_Div4_N6 fSAMPLING=fDTS/4, N=6 6 FDTS_Div4_N8 fSAMPLING=fDTS/4, N=8 7 FDTS_Div8_N6 fSAMPLING=fDTS/8, N=6 8 FDTS_Div8_N8 fSAMPLING=fDTS/8, N=8 9 FDTS_Div16_N5 fSAMPLING=fDTS/16, N=5 10 FDTS_Div16_N6 fSAMPLING=fDTS/16, N=6 11 FDTS_Div16_N8 fSAMPLING=fDTS/16, N=8 12 FDTS_Div32_N5 fSAMPLING=fDTS/32, N=5 13 FDTS_Div32_N6 fSAMPLING=fDTS/32, N=6 14 FDTS_Div32_N8 fSAMPLING=fDTS/32, N=8 15 CCMR2_Output CCMR2_Output capture/compare mode register 2 (output mode) 0x1C 0x20 read-write 0x00000000 2 0x8 3-4 CC%sS Capture/Compare %s selection 0 2 2 0x8 3-4 OC%sFE Output compare %s fast enable 2 1 2 0x8 3-4 OC%sPE Output compare %s preload enable 3 1 2 0x8 3-4 OC%sM Output compare %s mode 4 3 2 0x8 3-4 OC%sCE Output compare %s clear enable 7 1 2 0x8 3-4 OC%sM_3 Output compare %s mode, bit 3 16 1 CCMR2_Input CCMR2_Input capture/compare mode register 2 (output mode) CCMR2_Output 0x1C 0x20 read-write 0x00000000 CC3S Capture/Compare 3 selection 0 2 CC3S TI3 CC3 channel is configured as input, IC3 is mapped on TI3 1 TI4 CC3 channel is configured as input, IC3 is mapped on TI4 2 TRC CC3 channel is configured as input, IC3 is mapped on TRC 3 CC4S Capture/Compare 4 selection 8 2 CC4S TI4 CC4 channel is configured as input, IC4 is mapped on TI4 1 TI3 CC4 channel is configured as input, IC4 is mapped on TI3 2 TRC CC4 channel is configured as input, IC4 is mapped on TRC 3 2 0x8 3-4 IC%sPSC Input capture %s prescaler 2 2 2 0x8 3-4 IC%sF Input capture %s filter 4 4 CCER CCER capture/compare enable register 0x20 0x20 read-write 0x00000000 6 0x4 1-6 CC%sE Capture/Compare %s output enable 0 1 CC1E Disabled Capture disabled 0 Enabled Capture enabled 1 6 0x4 1-6 CC%sP Capture/Compare %s output Polarity 1 1 CC1P RisingEdge Noninverted/rising edge 0 FallingEdge Inverted/falling edge 1 3 0x4 1-3 CC%sNE Capture/Compare %s complementary output enable 2 1 CC1NE Disabled Complementary output disabled 0 Enabled Complementary output enabled 1 4 0x4 1-4 CC%sNP Capture/Compare %s output Polarity 3 1 CC1NP ActiveHigh OCxN active high 0 ActiveLow OCxN active low 1 CNT CNT counter 0x24 0x20 0x00000000 CNT counter value 0 16 read-write 0 65535 UIFCPY UIF copy 31 1 read-only PSC PSC prescaler 0x28 0x20 read-write 0x00000000 PSC Prescaler value 0 16 0 65535 ARR ARR auto-reload register 0x2C 0x20 read-write 0x00000000 ARR Auto-reload value 0 16 0 65535 RCR RCR repetition counter register 0x30 0x20 read-write 0x00000000 REP Repetition counter value 0 16 0 65535 4 0x4 1-4 CCR%s CCR%s capture/compare register 0x34 0x20 read-write 0x00000000 CCR Capture/Compare value 0 16 0 65535 BDTR BDTR break and dead-time register 0x44 0x20 read-write 0x00000000 DTG Dead-time generator setup 0 8 0 255 LOCK Lock configuration 8 2 LOCK Off No bit is write protected 0 Level1 Any bits except MOE, OSSR, OSSI and LOCK in TIMx_BDTR register, OISx and OISxN bits in TIMx_CR2 register can no longer be written 1 Level2 LOCK Level 1 + CC Polarity bits (CCxP/CCxNP bits in TIMx_CCER register, as long as the related channel is configured in output through the CCxS bits) as well as OSSR and OSSI bits can no longer be written 2 Level3 LOCK Level 2 + CC Control bits (OCxM and OCxPE bits in TIMx_CCMRx registers, as long as the related channel is configured in output through the CCxS bits) can no longer be written 3 OSSI Off-state selection for Idle mode 10 1 OSSI HiZ When inactive, OC/OCN outputs are disabled 0 IdleLevel When inactive, OC/OCN outputs are forced to idle level 1 OSSR Off-state selection for Run mode 11 1 OSSR HiZ When inactive, OC/OCN outputs are disabled 0 IdleLevel When inactive, OC/OCN outputs are enabled with their inactive level 1 BKE Break enable 12 1 BKE Disabled Break function x disabled 0 Enabled Break function x enabled 1 BKP Break polarity 13 1 BKP ActiveLow Break input BRKx is active low 0 ActiveHigh Break input BRKx is active high 1 AOE Automatic output enable 14 1 AOE Manual MOE can be set only by software 0 Automatic MOE can be set by software or automatically at the next update event (if none of the break inputs BRK and BRK2 is active) 1 MOE Main output enable 15 1 MOE DisabledIdle OC/OCN are disabled or forced idle depending on OSSI 0 Enabled OC/OCN are enabled if CCxE/CCxNE are set 1 BKF Break filter 16 4 BK2F Break 2 filter 20 4 BK2E Break 2 enable 24 1 BK2P Break 2 polarity 25 1 BKDSRM Break Disarm 26 1 BK2DSRM Break2 Disarm 27 1 BKBID Break Bidirectional 28 1 BK2ID Break2 bidirectional 29 1 DCR DCR DMA control register 0x48 0x20 read-write 0x00000000 DBL DMA burst length 8 5 0 18 DBA DMA base address 0 5 0 31 DMAR DMAR DMA address for full transfer 0x4C 0x20 read-write 0x00000000 DMAB DMA register for burst accesses 0 32 OR1 OR1 option register 1 0x50 0x20 read-write 0x00000000 OCREF_CLR Ocref_clr source selection 0 1 CCMR3_Output CCMR3_Output capture/compare mode register 2 (output mode) 0x54 0x20 read-write 0x00000000 2 0x8 5-6 OC%sM_3 Output compare %s mode, bit 3 16 1 2 0x8 5-6 OC%sCE Output compare %s clear enable 7 1 2 0x8 5-6 OC%sM Output compare %s mode 4 3 2 0x8 5-6 OC%sPE Output compare %s preload enable 3 1 2 0x8 5-6 OC%sFE Output compare %s fast enable 2 1 CCR5 CCR5 capture/compare register 0x58 0x20 read-write 0x00000000 CCR Capture/Compare value 0 16 0 65535 GC5C1 Group Channel 5 and Channel 1 29 1 GC5C2 Group Channel 5 and Channel 2 30 1 GC5C3 Group Channel 5 and Channel 3 31 1 CCR6 CCR6 capture/compare register 0x5C 0x20 read-write 0x00000000 CCR Capture/Compare value 0 16 0 65535 AF1 AF1 DMA address for full transfer 0x60 0x20 read-write 0x00000001 BKINE BRK BKIN input enable 0 1 BKCMP1E BRK COMP1 enable 1 1 BKCMP2E BRK COMP2 enable 2 1 BKINP BRK BKIN input polarity 9 1 BKCMP1P BRK COMP1 input polarity 10 1 BKCMP2P BRK COMP2 input polarity 11 1 ETRSEL ETR source selection 14 3 AF2 AF2 DMA address for full transfer 0x64 0x20 read-write 0x00000001 BK2INE BRK2 BKIN input enable 0 1 BK2CMP1E BRK2 COMP1 enable 1 1 BK2CMP2E BRK2 COMP2 enable 2 1 BK2DFBK0E BRK2 DFSDM_BREAK0 enable 8 1 BK2INP BRK2 BKIN input polarity 9 1 BK2CMP1P BRK2 COMP1 input polarity 10 1 BK2CMP2P BRK2 COMP2 input polarity 11 1 ADC Analog to Digital Converter instance 1 ADC 0x40012400 0x0 0x400 registers ADC_COMP ADC and COMP interrupts 12 ISR ISR ADC interrupt and status register 0x0 0x20 read-write 0x00000000 ADRDY ADC ready This bit is set by hardware after the ADC has been enabled (ADEN=1) and when the ADC reaches a state where it is ready to accept conversion requests. It is cleared by software writing 1 to it. 0 1 read-write oneToClear ADRDYR read NotReady ADC not yet ready to start conversion 0 Ready ADC ready to start conversion 1 ADRDYW write Clear Clear the ADC ready flag 1 EOSMP End of sampling flag This bit is set by hardware during the conversion, at the end of the sampling phase.It is cleared by software by programming it to '1'. 1 1 read-write oneToClear EOSMPR read NotAtEnd Not at the end of the samplings phase 0 AtEnd End of sampling phase reached 1 EOSMPW write Clear Clear the sampling phase flag 1 EOC End of conversion flag This bit is set by hardware at the end of each conversion of a channel when a new data result is available in the ADC_DR register. It is cleared by software writing 1 to it or by reading the ADC_DR register. 2 1 read-write oneToClear EOCR read NotComplete Channel conversion is not complete 0 Complete Channel conversion complete 1 EOCW write Clear Clear the channel conversion flag 1 EOS End of sequence flag This bit is set by hardware at the end of the conversion of a sequence of channels selected by the CHSEL bits. It is cleared by software writing 1 to it. 3 1 read-write oneToClear EOSR read NotComplete Conversion sequence is not complete 0 Complete Conversion sequence complete 1 EOSW write Clear Clear the conversion sequence flag 1 OVR ADC overrun This bit is set by hardware when an overrun occurs, meaning that a new conversion has complete while the EOC flag was already set. It is cleared by software writing 1 to it. 4 1 read-write oneToClear OVRR read NoOverrun No overrun occurred 0 Overrun Overrun occurred 1 OVRW write Clear Clear the overrun flag 1 3 0x1 1-3 AWD%s Analog watchdog %s flag 7 1 read-write oneToClear AWD1R read NoEvent No analog watchdog event occurred 0 Event Analog watchdog event occurred 1 AWD1W write Clear Clear the analog watchdog event flag 1 EOCAL End Of Calibration flag This bit is set by hardware when calibration is complete. It is cleared by software writing 1 to it. 11 1 read-write oneToClear EOCALR read NotComplete Calibration is not complete 0 Complete Calibration complete 1 EOCALW write Clear Clear the calibration flag 1 CCRDY Channel Configuration Ready flag This flag bit is set by hardware when the channel configuration is applied after programming to ADC_CHSELR register or changing CHSELRMOD or SCANDIR. It is cleared by software by programming it to it. Note: When the software configures the channels (by programming ADC_CHSELR or changing CHSELRMOD or SCANDIR), it must wait until the CCRDY flag rises before configuring again or starting conversions, otherwise the new configuration (or the START bit) is ignored. Once the flag is asserted, if the software needs to configure again the channels, it must clear the CCRDY flag before proceeding with a new configuration. 13 1 read-write oneToClear CCRDYR read NotComplete Channel configuration update not applied 0 Complete Channel configuration update is applied 1 CCRDYW write Clear Clear the channel configuration flag 1 IER IER ADC interrupt enable register 0x4 0x20 read-write 0x00000000 ADRDYIE ADC ready interrupt enable This bit is set and cleared by software to enable/disable the ADC Ready interrupt. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 0 1 read-write ADRDYIE Disabled ADRDY interrupt disabled 0 Enabled ADRDY interrupt enabled. An interrupt is generated when the ADRDY bit is set. 1 EOSMPIE End of sampling flag interrupt enable This bit is set and cleared by software to enable/disable the end of the sampling phase interrupt. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 1 1 read-write EOSMPIE Disabled EOSMP interrupt disabled 0 Enabled EOSMP interrupt enabled. An interrupt is generated when the EOSMP bit is set. 1 EOCIE End of conversion interrupt enable This bit is set and cleared by software to enable/disable the end of conversion interrupt. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 2 1 read-write EOCIE Disabled EOC interrupt disabled 0 Enabled EOC interrupt enabled. An interrupt is generated when the EOC bit is set. 1 EOSIE End of conversion sequence interrupt enable This bit is set and cleared by software to enable/disable the end of sequence of conversions interrupt. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 3 1 read-write EOSIE Disabled EOS interrupt disabled 0 Enabled EOS interrupt enabled. An interrupt is generated when the EOS bit is set. 1 OVRIE Overrun interrupt enable This bit is set and cleared by software to enable/disable the overrun interrupt. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 4 1 read-write OVRIE Disabled Overrun interrupt disabled 0 Enabled Overrun interrupt enabled. An interrupt is generated when the OVR bit is set. 1 3 0x1 1-3 AWD%sIE Analog watchdog %s interrupt enable 7 1 read-write AWD1IE Disabled Analog watchdog interrupt disabled 0 Enabled Analog watchdog interrupt enabled 1 EOCALIE End of calibration interrupt enable This bit is set and cleared by software to enable/disable the end of calibration interrupt. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 11 1 read-write EOCALIE Disabled End of calibration interrupt disabled 0 Enabled End of calibration interrupt enabled 1 CCRDYIE Channel Configuration Ready Interrupt enable This bit is set and cleared by software to enable/disable the channel configuration ready interrupt. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 13 1 read-write CCRDYIE Disabled Channel configuration ready interrupt disabled 0 Enabled Channel configuration ready interrupt enabled 1 CR CR ADC control register 0x8 0x20 read-write 0x00000000 ADEN ADC enable command This bit is set by software to enable the ADC. The ADC is effectively ready to operate once the ADRDY flag has been set. It is cleared by hardware when the ADC is disabled, after the execution of the ADDIS command. Note: The software is allowed to set ADEN only when all bits of ADC_CR registers are 0 (ADCAL=0, ADSTP=0, ADSTART=0, ADDIS=0 and ADEN=0) 0 1 read-write oneToSet ADENR read Disabled ADC disabled 0 Enabled ADC enabled 1 ADENW write Enabled Enable the ADC 1 ADDIS ADC disable command This bit is set by software to disable the ADC (ADDIS command) and put it into power-down state (OFF state). It is cleared by hardware once the ADC is effectively disabled (ADEN is also cleared by hardware at this time). Note: Setting ADDIS to '1' is only effective when ADEN=1 and ADSTART=0 (which ensures that no conversion is ongoing) 1 1 read-write oneToSet ADDISR read NotDisabling No disable command active 0 Disabling ADC disabling 1 ADDISW write Disable Disable the ADC 1 ADSTART ADC start conversion command This bit is set by software to start ADC conversion. Depending on the EXTEN [1:0] configuration bits, a conversion either starts immediately (software trigger configuration) or once a hardware trigger event occurs (hardware trigger configuration). It is cleared by hardware: In single conversion mode (CONT=0, DISCEN=0), when software trigger is selected (EXTEN=00): at the assertion of the end of Conversion Sequence (EOS) flag. In discontinuous conversion mode(CONT=0, DISCEN=1), when the software trigger is selected (EXTEN=00): at the assertion of the end of Conversion (EOC) flag. In all other cases: after the execution of the ADSTP command, at the same time as the ADSTP bit is cleared by hardware. Note: The software is allowed to set ADSTART only when ADEN=1 and ADDIS=0 (ADC is enabled and there is no pending request to disable the ADC). After writing to ADC_CHSELR register or changing CHSELRMOD or SCANDIRW, it is mandatory to wait until CCRDY flag is asserted before setting ADSTART, otherwise, the value written to ADSTART is ignored. 2 1 read-write oneToSet ADSTARTR read NotActive No conversion ongoing 0 Active ADC operating and may be converting 1 ADSTARTW write StartConversion Start the ADC conversion (may be delayed for hardware triggers) 1 ADSTP ADC stop conversion command This bit is set by software to stop and discard an ongoing conversion (ADSTP Command). It is cleared by hardware when the conversion is effectively discarded and the ADC is ready to accept a new start conversion command. Note: Setting ADSTP to '1' is only effective when ADSTART=1 and ADDIS=0 (ADC is enabled and may be converting and there is no pending request to disable the ADC) 4 1 read-write oneToSet ADSTPR read NotStopping No stop command active 0 Stopping ADC stopping conversion 1 ADSTPW write StopConversion Stop the active conversion 1 ADVREGEN ADC Voltage Regulator Enable This bit is set by software, to enable the ADC internal voltage regulator. The voltage regulator output is available after tADCVREG_SETUP. It is cleared by software to disable the voltage regulator. It can be cleared only if ADEN is et to 0. Note: The software is allowed to program this bit field only when the ADC is disabled (ADCAL=0, ADSTART=0, ADSTP=0, ADDIS=0 and ADEN=0). 28 1 read-write ADVREGEN Disabled ADC voltage regulator disabled 0 Enabled ADC voltage regulator enabled 1 ADCAL ADC calibration This bit is set by software to start the calibration of the ADC. It is cleared by hardware after calibration is complete. Note: The software is allowed to set ADCAL only when the ADC is disabled (ADCAL=0, ADSTART=0, ADSTP=0, ADDIS=0 and ADEN=0). The software is allowed to update the calibration factor by writing ADC_CALFACT only when ADEN=1 and ADSTART=0 (ADC enabled and no conversion is ongoing). 31 1 read-write oneToSet ADCALR read NotCalibrating ADC calibration either not yet performed or completed 0 Calibrating ADC calibration in progress 1 ADCALW write StartCalibration Start the ADC calibration sequence 1 CFGR1 CFGR1 ADC configuration register 1 0xC 0x20 read-write 0x00000000 DMAEN Direct memory access enable This bit is set and cleared by software to enable the generation of DMA requests. This allows the DMA controller to be used to manage automatically the converted data. For more details, refer to . Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 0 1 read-write DMAEN Disabled DMA disabled 0 Enabled DMA enabled 1 DMACFG Direct memory access configuration This bit is set and cleared by software to select between two DMA modes of operation and is effective only when DMAEN=1. For more details, refer to page391 Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 1 1 read-write DMACFG OneShot DMA one shot mode selected 0 Circular DMA circular mode selected 1 SCANDIR Scan sequence direction This bit is set and cleared by software to select the direction in which the channels is scanned in the sequence. It is effective only if CHSELMOD bit is cleared to 0. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). If CCRDY is not yet asserted after channel configuration (writing ADC_CHSELR register or changing CHSELRMOD or SCANDIR), the value written to this bit is ignored. 2 1 read-write SCANDIR Upward Upward scan (from CHSEL0 to CHSEL17) 0 Backward Backward scan (from CHSEL17 to CHSEL0) 1 RES Data resolution These bits are written by software to select the resolution of the conversion. Note: The software is allowed to write these bits only when ADEN=0. 3 2 read-write RES Bits12 12 bits 0 Bits10 10 bits 1 Bits8 8 bits 2 Bits6 6 bits 3 ALIGN Data alignment This bit is set and cleared by software to select right or left alignment. Refer to Data alignment and resolution (oversampling disabled: OVSE = 0) on page389 Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 5 1 read-write ALIGN Right Right alignment 0 Left Left alignment 1 EXTSEL External trigger selection These bits select the external event used to trigger the start of conversion (refer to External triggers for details): Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 6 3 read-write EXTSEL TIM1_TRGO Timer 1 TRGO event 0 TIM1_CC4 Timer 1 CC4 event 1 TIM2_TRGO Timer 2 TRGO event 2 TIM2_CH4 Timer 2 CH4 event 3 TIM2_CH3 Timer 2 CH3 event 5 EXTI_LINE11 EXTI line 11 event 7 EXTEN External trigger enable and polarity selection These bits are set and cleared by software to select the external trigger polarity and enable the trigger. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 10 2 read-write EXTEN Disabled Hardware trigger detection disabled 0 RisingEdge Hardware trigger detection on the rising edge 1 FallingEdge Hardware trigger detection on the falling edge 2 BothEdges Hardware trigger detection on both the rising and falling edges 3 OVRMOD Overrun management mode This bit is set and cleared by software and configure the way data overruns are managed. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 12 1 read-write OVRMOD Preserve ADC_DR register is preserved with the old data when an overrun is detected 0 Overwrite ADC_DR register is overwritten with the last conversion result when an overrun is detected 1 CONT Single / continuous conversion mode This bit is set and cleared by software. If it is set, conversion takes place continuously until it is cleared. Note: It is not possible to have both discontinuous mode and continuous mode enabled: it is forbidden to set both bits DISCEN=1 and CONT=1. The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 13 1 read-write CONT Single Single conversion mode 0 Continuous Continuous conversion mode 1 WAIT Wait conversion mode This bit is set and cleared by software to enable/disable wait conversion mode.. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 14 1 read-write WAIT Disabled Wait conversion mode off 0 Enabled Wait conversion mode on 1 AUTOFF Auto-off mode This bit is set and cleared by software to enable/disable auto-off mode.. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 15 1 read-write AUTOFF Disabled Auto-off mode disabled 0 Enabled Auto-off mode enabled 1 DISCEN Discontinuous mode This bit is set and cleared by software to enable/disable discontinuous mode. Note: It is not possible to have both discontinuous mode and continuous mode enabled: it is forbidden to set both bits DISCEN=1 and CONT=1. The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 16 1 read-write DISCEN Disabled Discontinuous mode disabled 0 Enabled Discontinuous mode enabled 1 CHSELRMOD Mode selection of the ADC_CHSELR register This bit is set and cleared by software to control the ADC_CHSELR feature: Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). If CCRDY is not yet asserted after channel configuration (writing ADC_CHSELR register or changing CHSELRMOD or SCANDIR), the value written to this bit is ignored. 21 1 read-write CHSELRMOD BitPerInput Each bit of the ADC_CHSELR register enables an input 0 Sequence ADC_CHSELR register is able to sequence up to 8 channels 1 AWD1SGL Enable the watchdog on a single channel or on all channels This bit is set and cleared by software to enable the analog watchdog on the channel identified by the AWDCH[4:0] bits or on all the channels Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 22 1 read-write AWD1SGL AllChannels Analog watchdog 1 enabled on all channels 0 SingleChannel Analog watchdog 1 enabled on a single channel 1 AWD1EN Analog watchdog enable This bit is set and cleared by software. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 23 1 read-write AWD1EN Disabled Analog watchdog 1 disabled 0 Enabled Analog watchdog 1 enabled 1 AWD1CH Analog watchdog channel selection These bits are set and cleared by software. They select the input channel to be guarded by the analog watchdog. ..... Others: Reserved Note: The channel selected by the AWDCH[4:0] bits must be also set into the CHSELR register. The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 26 5 read-write 0 17 CFGR2 CFGR2 ADC configuration register 2 0x10 0x20 read-write 0x00000000 OVSE Oversampler Enable This bit is set and cleared by software. Note: Software is allowed to write this bit only when ADSTART=0 (which ensures that no conversion is ongoing). 0 1 read-write OVSE Disabled Oversampler disabled 0 Enabled Oversampler enabled 1 OVSR Oversampling ratio This bit filed defines the number of oversampling ratio. Note: The software is allowed to write this bit only when ADSTART=0 (which ensures that no conversion is ongoing). 2 3 read-write OVSR Mul2 2x 0 Mul4 4x 1 Mul8 8x 2 Mul16 16x 3 Mul32 32x 4 Mul64 64x 5 Mul128 128x 6 Mul256 256x 7 OVSS Oversampling shift This bit is set and cleared by software. Others: Reserved Note: The software is allowed to write this bit only when ADSTART=0 (which ensures that no conversion is ongoing). 5 4 read-write OVSS NoShift No shift 0 Shift1 Shift 1-bit 1 Shift2 Shift 2-bits 2 Shift3 Shift 3-bits 3 Shift4 Shift 4-bits 4 Shift5 Shift 5-bits 5 Shift6 Shift 6-bits 6 Shift7 Shift 7-bits 7 Shift8 Shift 8-bits 8 TOVS Triggered Oversampling This bit is set and cleared by software. Note: The software is allowed to write this bit only when ADSTART=0 (which ensures that no conversion is ongoing). 9 1 read-write TOVS TriggerAll All oversampled conversions for a channel are done consecutively after a trigger 0 TriggerEach Each oversampled conversion for a channel needs a trigger 1 LFTRIG Low frequency trigger mode enable This bit is set and cleared by software. Note: The software is allowed to write this bit only when ADSTART bit is cleared to 0 (this ensures that no conversion is ongoing). 29 1 read-write LFTRIG Disabled Low Frequency Trigger Mode disabled 0 Enabled Low Frequency Trigger Mode enabled 1 CKMODE ADC clock mode These bits are set and cleared by software to define how the analog ADC is clocked: In all synchronous clock modes, there is no jitter in the delay from a timer trigger to the start of a conversion. Note: The software is allowed to write these bits only when the ADC is disabled (ADCAL=0, ADSTART=0, ADSTP=0, ADDIS=0 and ADEN=0). 30 2 read-write CKMODE ADCLK ADCCLK (Asynchronous clock mode) 0 PCLK_Div2 PCLK/2 (Synchronous clock mode) 1 PCLK_Div4 PCLK/4 (Synchronous clock mode) 2 PCLK PCLK (Synchronous clock mode) 3 SMPR SMPR ADC sampling time register 0x14 0x20 read-write 0x00000000 2 0x4 1-2 SMP%s Sampling time selection %s 0 3 read-write SMP1 Cycles1_5 1.5 ADC clock cycles 0 Cycles3_5 3.5 ADC clock cycles 1 Cycles7_5 7.5 ADC clock cycles 2 Cycles12_5 12.5 ADC clock cycles 3 Cycles19_5 19.5 ADC clock cycles 4 Cycles39_5 39.5 ADC clock cycles 5 Cycles79_5 79.5 ADC clock cycles 6 Cycles160_5 160.5 ADC clock cycles 7 19 0x1 0-18 SMPSEL%s Channel-%s sampling time selection 8 1 read-write SMPSEL0 Smp1 Sampling time of CHANNELx use the setting of SMP1 register 0 Smp2 Sampling time of CHANNELx use the setting of SMP2 register 1 AWD1TR AWD1TR ADC watchdog threshold register 0x20 0x20 read-write 0x0FFF0000 LT1 Analog watchdog 1 lower threshold These bits are written by software to define the lower threshold for the analog watchdog. Refer to ADC_AWDxTR) on page395. 0 12 read-write 0 4095 HT1 Analog watchdog 1 higher threshold These bits are written by software to define the higher threshold for the analog watchdog. Refer to ADC_AWDxTR) on page395. 16 12 read-write 0 4095 AWD2TR AWD2TR ADC watchdog threshold register 0x24 0x20 read-write 0x0FFF0000 LT2 Analog watchdog 2 lower threshold These bits are written by software to define the lower threshold for the analog watchdog. Refer to ADC_AWDxTR) on page395. 0 12 read-write 0 4095 HT2 Analog watchdog 2 higher threshold These bits are written by software to define the higher threshold for the analog watchdog. Refer to ADC_AWDxTR) on page395. 16 12 read-write 0 4095 CHSELR0 CHSELRMOD0 ADC channel selection register 0x28 0x20 read-write 0x00000000 19 0x1 0-18 CHSEL%s Channel-%s selection 0 1 read-write CHSEL0 NotSelected Input Channel is not selected for conversion 0 Selected Input Channel is selected for conversion 1 CHSELR1 CHSELRMOD1 ADC channel selection register CHSELR0 0x28 0x20 read-write 0x00000000 8 0x4 1-8 SQ%s %s conversion of the sequence 0 4 read-write SQ1 Ch0 Channel 0 selected for the Nth conversion 0 Ch1 Channel 1 selected for the Nth conversion 1 Ch2 Channel 2 selected for the Nth conversion 2 Ch3 Channel 3 selected for the Nth conversion 3 Ch4 Channel 4 selected for the Nth conversion 4 Ch5 Channel 5 selected for the Nth conversion 5 Ch6 Channel 6 selected for the Nth conversion 6 Ch7 Channel 7 selected for the Nth conversion 7 Ch8 Channel 8 selected for the Nth conversion 8 Ch9 Channel 9 selected for the Nth conversion 9 Ch10 Channel 10 selected for the Nth conversion 10 Ch11 Channel 11 selected for the Nth conversion 11 Ch12 Channel 12 selected for the Nth conversion 12 Ch13 Channel 13 selected for the Nth conversion 13 Ch14 Channel 14 selected for the Nth conversion 14 EOS End of sequence 15 AWD3TR AWD3TR ADC watchdog threshold register 0x2C 0x20 read-write 0x0FFF0000 LT3 Analog watchdog 3lower threshold These bits are written by software to define the lower threshold for the analog watchdog. Refer to ADC_AWDxTR) on page395. 0 12 read-write 0 4095 HT3 Analog watchdog 3 higher threshold These bits are written by software to define the higher threshold for the analog watchdog. Refer to ADC_AWDxTR) on page395. 16 12 read-write 0 4095 DR DR ADC data register 0x40 0x20 read-only 0x00000000 DATA Converted data These bits are read-only. They contain the conversion result from the last converted channel. The data are left- or right-aligned as shown in OVSE = 0) on page389. Just after a calibration is complete, DATA[6:0] contains the calibration factor. 0 16 read-only 0 65535 AWD2CR AWD2CR ADC Analog Watchdog 2 Configuration register 0xA0 0x20 read-write 0x00000000 19 0x1 0-18 AWD2CH%s Analog watchdog channel selection These bits are set and cleared by software. They enable and select the input channels to be guarded by analog watchdog 2 (AWD2). Note: The channels selected through ADC_AWD2CR must be also configured into the ADC_CHSELR registers. Refer to SQ8[3:0] for a definition of channel selection. The software is allowed to write this bit only when ADSTART=0 (which ensures that no conversion is ongoing). 0 1 read-write AWD2CH0 NotMonitored ADC analog channel-x is not monitored by AWD2 0 Monitored ADC analog channel-x is monitored by AWD2 1 AWD3CR AWD3CR ADC Analog Watchdog 3 Configuration register 0xA4 0x20 read-write 0x00000000 19 0x1 0-18 AWD3CH%s Analog watchdog channel selection These bits are set and cleared by software. They enable and select the input channels to be guarded by analog watchdog 3 (AWD3). Note: The channels selected through ADC_AWD3CR must be also configured into the ADC_CHSELR registers. Refer to SQ8[3:0] for a definition of channel selection. The software is allowed to write this bit only when ADSTART=0 (which ensures that no conversion is ongoing). 0 1 read-write AWD3CH0 NotMonitored ADC analog channel-x is not monitored by AWD3 0 Monitored ADC analog channel-x is monitored by AWD3 1 CALFACT CALFACT ADC Calibration factor 0xB4 0x20 read-write 0x00000000 CALFACT Calibration factor These bits are written by hardware or by software. Once a calibration is complete,they are updated by hardware with the calibration factors. Software can write these bits with a new calibration factor. If the new calibration factor is different from the current one stored into the analog ADC, it is then applied once a new calibration is launched. Just after a calibration is complete, DATA[6:0] contains the calibration factor. Note: Software can write these bits only when ADEN=1 (ADC is enabled and no calibration is ongoing and no conversion is ongoing). Refer to SQ8[3:0] for a definition of channel selection. 0 7 read-write 0 127 CCR CCR ADC common configuration register 0x308 0x20 read-write 0x00000000 PRESC ADC prescaler Set and cleared by software to select the frequency of the clock to the ADC. Other: Reserved Note: Software is allowed to write these bits only when the ADC is disabled (ADCAL=0, ADSTART=0, ADSTP=0, ADDIS=0 and ADEN=0). 18 4 read-write PRESC Div1 Input ADC clock not divided 0 Div2 Input ADC clock divided by 2 1 Div4 Input ADC clock divided by 4 2 Div6 Input ADC clock divided by 6 3 Div8 Input ADC clock divided by 8 4 Div10 Input ADC clock divided by 10 5 Div12 Input ADC clock divided by 12 6 Div16 Input ADC clock divided by 16 7 Div32 Input ADC clock divided by 32 8 Div64 Input ADC clock divided by 64 9 Div128 Input ADC clock divided by 128 10 Div256 Input ADC clock divided by 256 11 VREFEN VREFINT enable This bit is set and cleared by software to enable/disable the VREFINT. Note: Software is allowed to write this bit only when ADSTART=0 (which ensures that no conversion is ongoing). 22 1 read-write VREFEN Disabled The selected ADC channel disabled 0 Enabled The selected ADC channel enabled 1 TSEN Temperature sensor enable This bit is set and cleared by software to enable/disable the temperature sensor. Note: Software is allowed to write this bit only when ADSTART=0 (which ensures that no conversion is ongoing). 23 1 read-write VBATEN VBAT enable This bit is set and cleared by software to enable/disable the VBAT channel. Note: The software is allowed to write this bit only when ADSTART=0 (which ensures that no conversion is ongoing) 24 1 read-write COMP COMP1 COMP 0x40010200 0x0 0x200 registers COMP1_CSR COMP1_CSR Comparator 1 control and status register 0x0 0x20 read-write 0x00000000 EN COMP channel 1 enable bit 0 1 INMSEL Comparator 2 signal selector for inverting input INM 4 4 INPSEL Comparator 2 signal selector for non-inverting input 8 2 WINMODE Comparator 2 non-inverting input selector for window mode 11 1 WINOUT Comparator 2 output selector 14 1 POLARITY Comparator 2 polarity selector 15 1 HYST Comparator 2 hysteresis selector 16 2 PWRMODE Comparator 2 power mode selector 18 2 BLANKSEL Comparator 2 blanking source selector 20 5 VALUE Comparator 2 output status 30 1 LOCK COMP2_CSR register lock 31 1 COMP2_CSR COMP2_CSR Comparator 2 control and status register 0x4 0x20 read-write 0x00000000 EN COMP channel 1 enable bit 0 1 INMSEL Comparator 2 signal selector for inverting input INM 4 4 INPSEL Comparator 2 signal selector for non-inverting input 8 2 WINMODE Comparator 2 non-inverting input selector for window mode 11 1 WINOUT Comparator 2 output selector 14 1 POLARITY Comparator 2 polarity selector 15 1 HYST Comparator 2 hysteresis selector 16 2 PWRMODE Comparator 2 power mode selector 18 2 BLANKSEL Comparator 2 blanking source selector 20 5 VALUE Comparator 2 output status 30 1 LOCK COMP2_CSR register lock 31 1 SYSCFG System configuration controller SYSCFG 0x40010000 0x0 0x100 registers CFGR1 CFGR1 SYSCFG configuration register 1 0x0 0x20 read-write 0x00000000 I2C_PBx_FMP Fast Mode Plus (FM+) driving capability activation bits 16 1 I2C_PBx_FMP Disabled Uses normal GPIO drive 0 Enabled Uses I2C FastMode+ drive 1 I2C3_FMP I2C3_FMP 24 1 I2C_PA10_FMP Fast Mode Plus (FM+) driving capability activation bits 23 1 I2C_PA9_FMP Fast Mode Plus (FM+) driving capability activation bits 22 1 I2C2_FMP FM+ driving capability activation for I2C2 21 1 I2C1_FMP FM+ driving capability activation for I2C1 20 1 I2C_PB9_FMP I2C_PB9_FMP 19 1 I2C_PB8_FMP I2C_PB8_FMP 18 1 I2C_PB7_FMP I2C_PB7_FMP 17 1 UCPD1_STROBE Strobe signal bit for UCPD1 9 1 UCPD1_STROBE Disconnect Disconnect the UCPD pull-down resistors 1 UCPD2_STROBE Strobe signal bit for UCPD2 10 1 BOOSTEN I/O analog switch voltage booster enable 8 1 BOOSTEN VDD supply analog switches from VDD 0 BOOST supply analog switches from dedicated voltage booster 1 IR_MOD IR Modulation Envelope signal selection. 6 2 IR_MOD TIM16 IR modulation envelope from TIM16 0 USART1 IR modulation envelope from USART1 1 USART4 IR modulation envelope from USART4 2 IR_POL IR output polarity selection 5 1 IR_POL Normal Output of IRTIM is not inverted 0 Inverted Output of IRTIM is inverted 1 PA12_RMP PA11 and PA12 remapping bit. 4 1 PA12_RMP Normal PA12 pin connected to PA12 GPIO 0 Remap PA12 pin connected to PA10 GPIO 1 PA11_RMP PA11_RMP 3 1 PA11_RMP Normal PA11 pin connected to PA11 GPIO 0 Remap PA11 pin connected to PA9 GPIO 1 MEM_MODE Memory mapping selection bits 0 2 MEM_MODE MainFlash Main flash memory mapped at zero address 0 SystemFlash System flash memory mapped at zero address 2 SRAM Embedded SRAM mapped at zero address 3 CFGR2 CFGR2 SYSCFG configuration register 1 0x18 0x20 read-write 0x00000000 LOCKUP_LOCK Cortex-M0+ LOCKUP bit enable bit 0 1 LOCKUP_LOCK Disabled error not connected to timers 0 Enabled error triggers TIM1/15/16/17 break input 1 SRAM_PARITY_LOCK SRAM parity lock bit 1 1 ECC_LOCK ECC error lock bit 3 1 SRAM_PEF SRAM parity error flag 8 1 SRAM_PEF Normal No SRAM parity error detected 0 Error SRAM parity error detected 1 ITLINE0 ITLINE0 interrupt line 0 status register 0x80 0x20 read-only 0x00000000 WWDG Window watchdog interrupt pending flag 0 1 WWDG NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE2 ITLINE2 interrupt line 2 status register 0x88 0x20 read-only 0x00000000 TAMP TAMP 0 1 TAMP NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 RTC RTC 1 1 ITLINE3 ITLINE3 interrupt line 3 status register 0x8C 0x20 read-only 0x00000000 FLASH_ITF FLASH_ITF 0 1 FLASH_ITF NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 FLASH_ECC FLASH_ECC 1 1 ITLINE4 ITLINE4 interrupt line 4 status register 0x90 0x20 read-only 0x00000000 RCC RCC 0 1 RCC NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 CRS CRS 1 1 ITLINE5 ITLINE5 interrupt line 5 status register 0x94 0x20 read-only 0x00000000 EXTI0 EXTI0 0 1 EXTI0 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 EXTI1 EXTI1 1 1 ITLINE6 ITLINE6 interrupt line 6 status register 0x98 0x20 read-only 0x00000000 EXTI2 EXTI2 0 1 EXTI2 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 EXTI3 EXTI3 1 1 ITLINE7 ITLINE7 interrupt line 7 status register 0x9C 0x20 read-only 0x00000000 EXTI4 EXTI4 0 1 EXTI4 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 EXTI5 EXTI5 1 1 EXTI6 EXTI6 2 1 EXTI7 EXTI7 3 1 EXTI8 EXTI8 4 1 EXTI9 EXTI9 5 1 EXTI10 EXTI10 6 1 EXTI11 EXTI11 7 1 EXTI12 EXTI12 8 1 EXTI13 EXTI13 9 1 EXTI14 EXTI14 10 1 EXTI15 EXTI15 11 1 ITLINE8 ITLINE8 interrupt line 8 status register 0xA0 0x20 read-only 0x00000000 UCPD1 UCPD1 0 1 UCPD1 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 UCPD2 UCPD2 1 1 USB USB 2 1 ITLINE9 ITLINE9 interrupt line 9 status register 0xA4 0x20 read-only 0x00000000 DMA1_CH1 DMA1_CH1 0 1 DMA1_CH1 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE10 ITLINE10 interrupt line 10 status register 0xA8 0x20 read-only 0x00000000 DMA1_CH2 DMA1_CH1 0 1 DMA1_CH2 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 DMA1_CH3 DMA1_CH3 1 1 ITLINE11 ITLINE11 interrupt line 11 status register 0xAC 0x20 read-only 0x00000000 DMAMUX DMAMUX 0 1 DMAMUX NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 DMA1_CH4 DMA1_CH4 1 1 DMA1_CH5 DMA1_CH5 2 1 DMA1_CH6 DMA1_CH6 3 1 DMA1_CH7 DMA1_CH7 4 1 ITLINE12 ITLINE12 interrupt line 12 status register 0xB0 0x20 read-only 0x00000000 ADC ADC 0 1 ADC NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 COMP1 COMP1 1 1 COMP2 COMP2 2 1 COMP3 COMP3 3 1 ITLINE13 ITLINE13 interrupt line 13 status register 0xB4 0x20 read-only 0x00000000 TIM1_CCU TIM1_CCU 0 1 TIM1_CCU NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 TIM1_TRG TIM1_TRG 1 1 TIM1_UPD TIM1_UPD 2 1 TIM1_BRK TIM1_BRK 3 1 ITLINE14 ITLINE14 interrupt line 14 status register 0xB8 0x20 read-only 0x00000000 TIM1_CC TIM1_CC 0 1 TIM1_CC NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE15 ITLINE15 interrupt line 15 status register 0xBC 0x20 read-only 0x00000000 TIM2 TIM2 0 1 TIM2 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE16 ITLINE16 interrupt line 16 status register 0xC0 0x20 read-only 0x00000000 TIM3 TIM3 0 1 TIM3 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 TIM4 TIM4 1 1 ITLINE17 ITLINE17 interrupt line 17 status register 0xC4 0x20 read-only 0x00000000 TIM6 TIM6 0 1 TIM6 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 DAC DAC 1 1 LPTIM1 LPTIM1 2 1 ITLINE18 ITLINE18 interrupt line 18 status register 0xC8 0x20 read-only 0x00000000 TIM7 TIM7 0 1 TIM7 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 LPTIM2 LPTIM2 1 1 ITLINE19 ITLINE19 interrupt line 19 status register 0xCC 0x20 read-only 0x00000000 TIM14 TIM14 0 1 TIM14 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE20 ITLINE20 interrupt line 20 status register 0xD0 0x20 read-only 0x00000000 TIM15 TIM15 0 1 TIM15 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE21 ITLINE21 interrupt line 21 status register 0xD4 0x20 read-only 0x00000000 TIM16 TIM16 0 1 TIM16 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 FDCAN1_IT0 FDCAN1_IT0 1 1 FDCAN2_IT0 FDCAN2_IT0 2 1 ITLINE22 ITLINE22 interrupt line 22 status register 0xD8 0x20 read-only 0x00000000 TIM17 TIM17 0 1 TIM17 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 FDCAN1_IT1 FDCAN1_IT1 1 1 FDCAN2_IT1 FDCAN2_IT1 2 1 ITLINE23 ITLINE23 interrupt line 23 status register 0xDC 0x20 read-only 0x00000000 I2C1 I2C1 0 1 I2C1 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE24 ITLINE24 interrupt line 24 status register 0xE0 0x20 read-only 0x00000000 I2C2 I2C2 0 1 I2C2 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 I2C3 I2C3 1 1 ITLINE25 ITLINE25 interrupt line 25 status register 0xE4 0x20 read-only 0x00000000 SPI1 SPI1 0 1 SPI1 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE26 ITLINE26 interrupt line 26 status register 0xE8 0x20 read-only 0x00000000 SPI2 SPI2 0 1 SPI2 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 SPI3 SPI3 14 1 ITLINE27 ITLINE27 interrupt line 27 status register 0xEC 0x20 read-only 0x00000000 USART1 USART1 0 1 USART1 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE28 ITLINE28 interrupt line 28 status register 0xF0 0x20 read-only 0x00000000 USART2 USART2 0 1 USART2 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 LPUART2 LPUART2 1 1 ITLINE29 ITLINE29 interrupt line 29 status register 0xF4 0x20 read-only 0x00000000 USART3 USART3 0 1 USART3 NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 USART4 USART4 1 1 LPUART1 LPUART1 2 1 USART5 USART5 3 1 USART6 USART6 4 1 ITLINE30 SYSCFG_ITLINE30 interrupt line 25 status register 0xF8 0x20 read-only 0x00000000 CEC CEC 0 1 CEC NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 ITLINE31 SYSCFG_ITLINE31 interrupt line 25 status register 0xFC 0x20 read-only 0x00000000 RNG RNG 0 1 RNG NotInterrupted Interrupt not triggered 0 Interrupted Interrup triggered 1 AES AES 1 1 TAMP Tamper and backup registers TAMP 0x4000B000 0x0 0x400 registers CR1 CR1 control register 1 0x0 0x20 read-write 0xFFFF0000 TAMP1E TAMP1E 0 1 TAMP2E TAMP2E 1 1 ITAMP1E ITAMP1E 16 1 ITAMP3E ITAMP3E 18 1 ITAMP4E ITAMP4E 19 1 ITAMP5E ITAMP5E 20 1 ITAMP6E ITAMP6E 21 1 CR2 CR2 control register 2 0x4 0x20 read-write 0x00000000 TAMP1NOER TAMP1NOER 0 1 TAMP2NOER TAMP2NOER 1 1 TAMP1MSK TAMP1MSK 16 1 TAMP2MSK TAMP2MSK 17 1 TAMP1TRG TAMP1TRG 24 1 TAMP2TRG TAMP2TRG 25 1 FLTCR FLTCR TAMP filter control register 0xC 0x20 read-write 0x00000000 TAMPFREQ TAMPFREQ 0 3 TAMPFLT TAMPFLT 3 2 TAMPPRCH TAMPPRCH 5 2 TAMPPUDIS TAMPPUDIS 7 1 IER IER TAMP interrupt enable register 0x2C 0x20 read-write 0x00000000 TAMP1IE TAMP1IE 0 1 TAMP2IE TAMP2IE 1 1 ITAMP1IE ITAMP1IE 16 1 ITAMP3IE ITAMP3IE 18 1 ITAMP4IE ITAMP4IE 19 1 ITAMP5IE ITAMP5IE 20 1 ITAMP6IE ITAMP6IE 21 1 SR SR TAMP status register 0x30 0x20 read-only 0x00000000 TAMP1F TAMP1F 0 1 TAMP2F TAMP2F 1 1 ITAMP1F ITAMP1F 16 1 ITAMP3F ITAMP3F 18 1 ITAMP4F ITAMP4F 19 1 ITAMP5F ITAMP5F 20 1 ITAMP6F ITAMP6F 21 1 ITAMP7F ITAMP7F 22 1 MISR MISR TAMP masked interrupt status register 0x34 0x20 read-only 0x00000000 TAMP1MF TAMP1MF: 0 1 TAMP2MF TAMP2MF 1 1 ITAMP1MF ITAMP1MF 16 1 ITAMP3MF ITAMP3MF 18 1 ITAMP4MF ITAMP4MF 19 1 ITAMP5MF ITAMP5MF 20 1 ITAMP6MF ITAMP6MF 21 1 SCR SCR TAMP status clear register 0x3C 0x20 write-only 0x00000000 CTAMP1F CTAMP1F 0 1 CTAMP2F CTAMP2F 1 1 CITAMP1F CITAMP1F 16 1 CITAMP3F CITAMP3F 18 1 CITAMP4F CITAMP4F 19 1 CITAMP5F CITAMP5F 20 1 CITAMP6F CITAMP6F 21 1 CITAMP7F CITAMP7F 22 1 5 0x4 0-4 BKP%sR BKP%sR TAMP backup register 0x100 0x20 read-write 0x00000000 BKP BKP 0 32 HWCFGR2 HWCFGR2 TAMP hardware configuration register 2 0x3EC 0x20 read-only 0x00000000 PTIONREG_OUT PTIONREG_OUT 0 8 TRUST_ZONE TRUST_ZONE 8 4 HWCFGR1 HWCFGR1 TAMP hardware configuration register 1 0x3F0 0x20 read-only 0x00000000 BACKUP_REGS BACKUP_REGS 0 8 TAMPER TAMPER 8 4 ACTIVE_TAMPER ACTIVE_TAMPER 12 4 INT_TAMPER INT_TAMPER 16 16 VERR VERR EXTI IP Version register 0x3F4 0x20 read-only 0x00000000 MINREV Minor Revision number 0 4 MAJREV Major Revision number 4 4 IPIDR IPIDR EXTI Identification register 0x3F8 0x20 read-only 0x00000000 IPID IP Identification 0 32 SIDR SIDR EXTI Size ID register 0x3FC 0x20 read-only 0x00000000 SID Size Identification 0 32 UCPD1 USB Power Delivery interface UCPD 0x4000A000 0x0 0x400 registers UCPD1_UCPD2 UCPD global interrupt 8 CFGR1 CFG1 UCPD configuration register 0x0 0x20 read-write 0x00000000 HBITCLKDIV HBITCLKDIV 0 6 0 63 IFRGAP IFRGAP 6 5 1 31 TRANSWIN TRANSWIN 11 5 1 31 PSC_USBPDCLK PSC_USBPDCLK 17 3 PSC_USBPDCLK Div1 Divide by 1 0 Div2 Divide by 2 1 Div4 Divide by 4 2 Div8 Divide by 8 3 Div16 Divide by 16 4 TXDMAEN TXDMAEN 29 1 TXDMAEN Disabled DMA mode for transmission disabled 0 Enabled DMA mode for transmission enabled 1 RXDMAEN RXDMAEN: 30 1 RXDMAEN Disabled DMA mode for reception disabled 0 Enabled DMA mode for reception enabled 1 UCPDEN UCPDEN 31 1 UCPDEN Disabled UCPD peripheral disabled 0 Enabled UCPD peripheral enabled 1 RXORDSETEN0 SOP detection 20 1 RXORDSETEN0 Disabled Flag disabled 0 Enabled Flag enabled 1 RXORDSETEN1 SOP' detection 21 1 RXORDSETEN2 SOP'' detection 22 1 RXORDSETEN3 Hard Reset detection 23 1 RXORDSETEN4 Cable Detect reset 24 1 RXORDSETEN5 SOP'_Debug 25 1 RXORDSETEN6 SOP'' Debug 26 1 RXORDSETEN7 SOP extension #1 27 1 RXORDSETEN8 SOP extension #2 28 1 CFGR2 CFG2 UCPD configuration register 2 0x4 0x20 read-write 0x00000000 RXFILTDIS RXFILTDIS 0 1 RXFILTDIS Enabled Rx pre-filter enabled 0 Disabled Rx pre-filter disabled 1 RXFILT2N3 RXFILT2N3 1 1 RXFILT2N3 Samp3 3 samples 0 Samp2 2 samples 1 FORCECLK FORCECLK 2 1 FORCECLK NoForce Do not force clock request 0 Force Force clock request 1 WUPEN WUPEN 3 1 WUPEN Disabled Disabled 0 Enabled Enabled 1 CFGR3 CFG3 UCPD configuration register 3 0x8 0x20 read-write 0x00000000 TRIM1_NG_CCRPD TRIM1_NG_CCRPD 0 4 0 15 TRIM1_NG_CC1A5 TRIM1_NG_CC1A5 4 5 0 15 TRIM1_NG_CC3A0 TRIM1_NG_CC3A0 9 4 0 15 TRIM2_NG_CCRPD TRIM2_NG_CCRPD 16 4 0 15 TRIM2_NG_CC1A5 TRIM2_NG_CC1A5 20 5 0 15 TRIM2_NG_CC3A0 TRIM2_NG_CC3A0 25 4 0 15 CR CR UCPD control register 0xC 0x20 read-write 0x00000000 TXMODE TXMODE 0 2 TXMODE RegisterSet Transmission of Tx packet previously defined in other registers 0 CableReset Cable Reset sequence 1 BISTTest BIST test sequence (BIST Carrier Mode 2) 2 TXSEND TXSEND 2 1 TXSEND NoEffect No effect 0 Start Start Tx packet transmission 1 TXHRST TXHRST 3 1 TXHRST NoEffect No effect 0 Start Start Tx Hard Reset message 1 RXMODE RXMODE 4 1 RXMODE Normal Normal receive mode 0 BIST BIST receive mode (BIST test data mode) 1 PHYRXEN PHYRXEN 5 1 PHYRXEN Disabled USB Power Delivery receiver disabled 0 Enabled USB Power Delivery receiver enabled 1 PHYCCSEL PHYCCSEL 6 1 PHYCCSEL CC1 Use CC1 IO for Power Delivery communication 0 CC2 Use CC2 IO for Power Delivery communication 1 ANASUBMODE ANASUBMODE 7 2 ANASUBMODE Disabled Disabled 0 Rp_DefaultUSB Default USB Rp 1 Rp_1_5A 1.5A Rp 2 Rp_3A 3A Rp 3 ANAMODE ANAMODE 9 1 ANAMODE Source Source 0 Sink Sink 1 CCENABLE CCENABLE 10 2 CCENABLE Disabled Both PHYs disabled 0 CC1Enabled CC1 PHY enabled 1 CC2Enabled CC2 PHY enabled 2 BothEnabled CC1 and CC2 PHYs enabled 3 DBATTEN DBATTEN 15 1 DBATTEN Disabled Dead battery function disabled 0 Enabled Dead battery function enabled 1 FRSRXEN FRSRXEN 16 1 FRSRXEN Disabled FRS Rx event detection disabled 0 Enabled FRS Rx event detection enabled 1 FRSTX FRSTX 17 1 FRSTX NoEffect No effect 0 Enabled FRS Tx signaling enabled 1 RDCH RDCH 18 1 RDCH NoEffect No effect 0 ConditionDrive Rdch condition drive 1 CC1TCDIS CC1TCDIS 20 1 CC1TCDIS Enabled Type-C detector on the CCx line enabled 0 Disabled Type-C detector on the CCx line disabled 1 CC2TCDIS CC2TCDIS 21 1 IMR IMR UCPD Interrupt Mask Register 0x10 0x20 read-write 0x00000000 TXISIE TXISIE 0 1 TXISIE Disabled Interrupt disabled 0 Enabled Interrupt enabled 1 TXMSGDISCIE TXMSGDISCIE 1 1 TXMSGSENTIE TXMSGSENTIE 2 1 TXMSGABTIE TXMSGABTIE 3 1 HRSTDISCIE HRSTDISCIE 4 1 HRSTSENTIE HRSTSENTIE 5 1 TXUNDIE TXUNDIE 6 1 RXNEIE RXNEIE 8 1 RXORDDETIE RXORDDETIE 9 1 RXHRSTDETIE RXHRSTDETIE 10 1 RXOVRIE RXOVRIE 11 1 RXMSGENDIE RXMSGENDIE 12 1 TYPECEVT1IE TYPECEVT1IE 14 1 TYPECEVT2IE TYPECEVT2IE 15 1 FRSEVTIE FRSEVTIE 20 1 SR SR UCPD Status Register 0x14 0x20 read-only 0x00000000 TXIS TXIS 0 1 TXIS NotRequired New Tx data write not required 0 Required New Tx data write required 1 TXMSGDISC TXMSGDISC 1 1 TXMSGDISC NotDiscarded No Tx message discarded 0 Discarded Tx message discarded 1 TXMSGSENT TXMSGSENT 2 1 TXMSGSENT NotCompleted No Tx message completed 0 Completed Tx message completed 1 TXMSGABT TXMSGABT 3 1 TXMSGABT NoAbort No transmit message abort 0 Abort Transmit message abort 1 HRSTDISC HRSTDISC 4 1 HRSTDISC NotDiscarded No Hard Reset discarded 0 Discarded Hard Reset discarded 1 HRSTSENT HRSTSENT 5 1 HRSTSENT NotSent No Hard Reset message sent 0 Sent Hard Reset message sent 1 TXUND TXUND 6 1 TXUND NoUnderrun No Tx data underrun detected 0 Underrun Tx data underrun detected 1 RXNE RXNE 8 1 RXNE Empty Rx data register empty 0 NotEmpty Rx data register not empty 1 RXORDDET RXORDDET 9 1 RXORDDET NoOrderedSet No ordered set detected 0 OrderedSet Ordered set detected 1 RXHRSTDET RXHRSTDET 10 1 RXHRSTDET NoHardReset Hard Reset not received 0 HardReset Hard Reset received 1 RXOVR RXOVR 11 1 RXOVR NoOverflow No overflow 0 Overflow Overflow 1 RXMSGEND RXMSGEND 12 1 RXMSGEND NoNewMessage No new Rx message received 0 NewMessage A new Rx message received 1 RXERR RXERR 13 1 RXERR NoError No error detected 0 Error Error(s) detected 1 TYPECEVT1 TYPECEVT1 14 1 TYPECEVT1 NoNewEvent No new event 0 NewEvent A new Type-C event occurred 1 TYPECEVT2 TYPECEVT2 15 1 TYPEC_VSTATE_CC1 TYPEC_VSTATE_CC1 16 2 TYPEC_VSTATE_CC1 Lowest Lowest 0 Low Low 1 High High 2 Highest Highest 3 TYPEC_VSTATE_CC2 TYPEC_VSTATE_CC2 18 2 FRSEVT FRSEVT 20 1 FRSEVT NoNewEvent No new event 0 NewEvent New FRS receive event occurred 1 ICR ICR UCPD Interrupt Clear Register 0x18 0x20 read-write 0x00000000 TXMSGDISCCF TXMSGDISCCF 1 1 TXMSGDISCCFW write Clear Clear flag in UCPD_SR 1 TXMSGSENTCF TXMSGSENTCF 2 1 TXMSGABTCF TXMSGABTCF 3 1 HRSTDISCCF HRSTDISCCF 4 1 HRSTSENTCF HRSTSENTCF 5 1 TXUNDCF TXUNDCF 6 1 RXORDDETCF RXORDDETCF 9 1 RXHRSTDETCF RXHRSTDETCF 10 1 RXOVRCF RXOVRCF 11 1 RXMSGENDCF RXMSGENDCF 12 1 TYPECEVT1CF TYPECEVT1CF 14 1 TYPECEVT2CF TYPECEVT2CF 15 1 FRSEVTCF FRSEVTCF 20 1 TX_ORDSETR TX_ORDSET UCPD Tx Ordered Set Type Register 0x1C 0x20 read-write 0x00000000 TXORDSET TXORDSET 0 20 0 1048575 TX_PAYSZR TX_PAYSZ UCPD Tx Paysize Register 0x20 0x20 read-write 0x00000000 TXPAYSZ TXPAYSZ 0 10 0 1023 TXDR TXDR UCPD Tx Data Register 0x24 0x20 read-write 0x00000000 TXDATA TXDATA 0 8 0 255 RX_ORDSETR RX_ORDSET UCPD Rx Ordered Set Register 0x28 0x20 read-only 0x00000000 RXORDSET RXORDSET 0 3 RXORDSET SOP SOP code detected in receiver 0 SOPPrime SOP' code detected in receiver 1 SOPDoublePrime SOP'' code detected in receiver 2 SOPPrimeDebug SOP'_Debug detected in receiver 3 SOPDoublePrimeDebug SOP''_Debug detected in receiver 4 CableReset Cable Reset detected in receiver 5 SOPExtension1 SOP extension #1 detected in receiver 6 SOPExtension2 SOP extension #2 detected in receiver 7 RXSOP3OF4 RXSOP3OF4 3 1 RXSOP3OF4 AllCorrect 4 correct K-codes out of 4 0 OneIncorrect 3 correct K-codes out of 4 1 RXSOPKINVALID RXSOPKINVALID 4 3 RXSOPKINVALID Valid No K-code corrupted 0 FirstCorrupted First K-code corrupted 1 SecondCorrupted Second K-code corrupted 2 ThirdCorrupted Third K-code corrupted 3 FourthCorrupted Fourth K-code corrupted 4 RX_PAYSZR RX_PAYSZ UCPD Rx Paysize Register 0x2C 0x20 read-write 0x00000000 RXPAYSZ RXPAYSZ 0 10 0 1023 RXDR RXDR UCPD Receive Data Register 0x30 0x20 read-only 0x00000000 RXDATA RXDATA 0 8 0 255 RX_ORDEXTR1 RX_ORDEXT1 UCPD Rx Ordered Set Extension Register 0x34 0x20 read-write 0x00000000 RXSOPX1 RXSOPX1 0 20 0 1048575 RX_ORDEXTR2 RX_ORDEXT2 UCPD Rx Ordered Set Extension Register 0x38 0x20 read-write 0x00000000 RXSOPX2 RXSOPX2 0 20 0 1048575 IPVER IPVER UCPD IP ID register 0x3F4 0x20 read-only 0x00000010 IPVER IPVER 0 32 IPID IPID UCPD IP ID register 0x3F8 0x20 read-only 0x00150021 IPID IPID 0 32 MID MID UCPD IP ID register 0x3FC 0x20 read-only 0xA3C5DD01 IPID IPID 0 32 UCPD2 0x4000A400 LPTIM1 Low power timer LPTIM 0x40007C00 0x0 0x400 registers ISR ISR Interrupt and Status Register 0x0 0x20 read-only 0x00000000 DOWN Counter direction change up to down 6 1 DOWNR Set Counter direction change up to down 1 UP Counter direction change down to up 5 1 UPR Set Counter direction change down to up 1 ARROK Autoreload register update OK 4 1 ARROKR Set Autoreload register update OK 1 CMPOK Compare register update OK 3 1 CMPOKR Set Compare register update OK 1 EXTTRIG External trigger edge event 2 1 EXTTRIGR Set External trigger edge event 1 ARRM Autoreload match 1 1 ARRMR Set Autoreload match 1 CMPM Compare match 0 1 CMPMR Set Compare match 1 ICR ICR Interrupt Clear Register 0x4 0x20 write-only 0x00000000 DOWNCF Direction change to down Clear Flag 6 1 DOWNCFW Clear Direction change to down Clear Flag 1 UPCF Direction change to UP Clear Flag 5 1 UPCFW Clear Direction change to up Clear Flag 1 ARROKCF Autoreload register update OK Clear Flag 4 1 ARROKCFW Clear Autoreload register update OK Clear Flag 1 CMPOKCF Compare register update OK Clear Flag 3 1 CMPOKCFW Clear Compare register update OK Clear Flag 1 EXTTRIGCF External trigger valid edge Clear Flag 2 1 EXTTRIGCFW Clear External trigger valid edge Clear Flag 1 ARRMCF Autoreload match Clear Flag 1 1 ARRMCFW Clear Autoreload match Clear Flag 1 CMPMCF compare match Clear Flag 0 1 CMPMCFW Clear Compare match Clear Flag 1 IER IER Interrupt Enable Register 0x8 0x20 read-write 0x00000000 DOWNIE Direction change to down Interrupt Enable 6 1 DOWNIE Disabled DOWN interrupt disabled 0 Enabled DOWN interrupt enabled 1 UPIE Direction change to UP Interrupt Enable 5 1 UPIE Disabled UP interrupt disabled 0 Enabled UP interrupt enabled 1 ARROKIE Autoreload register update OK Interrupt Enable 4 1 ARROKIE Disabled ARROK interrupt disabled 0 Enabled ARROK interrupt enabled 1 CMPOKIE Compare register update OK Interrupt Enable 3 1 CMPOKIE Disabled CMPOK interrupt disabled 0 Enabled CMPOK interrupt enabled 1 EXTTRIGIE External trigger valid edge Interrupt Enable 2 1 EXTTRIGIE Disabled EXTTRIG interrupt disabled 0 Enabled EXTTRIG interrupt enabled 1 ARRMIE Autoreload match Interrupt Enable 1 1 ARRMIE Disabled ARRM interrupt disabled 0 Enabled ARRM interrupt enabled 1 CMPMIE Compare match Interrupt Enable 0 1 CMPMIE Disabled CMPM interrupt disabled 0 Enabled CMPM interrupt enabled 1 CFGR CFGR Configuration Register 0xC 0x20 read-write 0x00000000 ENC Encoder mode enable 24 1 ENC Disabled Encoder mode disabled 0 Enabled Encoder mode enabled 1 COUNTMODE counter mode enabled 23 1 COUNTMODE Internal The counter is incremented following each internal clock pulse 0 External The counter is incremented following each valid clock pulse on the LPTIM external Input1 1 PRELOAD Registers update mode 22 1 PRELOAD Immediate Registers are updated after each APB bus write access 0 EndOfPeriod Registers are updated at the end of the current LPTIM period 1 WAVPOL Waveform shape polarity 21 1 WAVPOL Positive The LPTIM output reflects the compare results between LPTIM_ARR and LPTIM_CMP registers 0 Negative The LPTIM output reflects the inverse of the compare results between LPTIM_ARR and LPTIM_CMP registers 1 WAVE Waveform shape 20 1 WAVE Inactive Deactivate Set-once mode, PWM / One Pulse waveform (depending on OPMODE bit) 0 Active Activate the Set-once mode 1 TIMOUT Timeout enable 19 1 TIMOUT Disabled A trigger event arriving when the timer is already started will be ignored 0 Enabled A trigger event arriving when the timer is already started will reset and restart the counter 1 TRIGEN Trigger enable and polarity 17 2 TRIGEN SW Software trigger (counting start is initiated by software) 0 RisingEdge Rising edge is the active edge 1 FallingEdge Falling edge is the active edge 2 BothEdges Both edges are active edges 3 TRIGSEL Trigger selector 13 3 TRIGSEL Trig0 lptim_ext_trig0 0 Trig1 lptim_ext_trig1 1 Trig2 lptim_ext_trig2 2 Trig3 lptim_ext_trig3 3 Trig4 lptim_ext_trig4 4 Trig5 lptim_ext_trig5 5 Trig6 lptim_ext_trig6 6 Trig7 lptim_ext_trig7 7 PRESC Clock prescaler 9 3 PRESC Div1 /1 0 Div2 /2 1 Div4 /4 2 Div8 /8 3 Div16 /16 4 Div32 /32 5 Div64 /64 6 Div128 /128 7 TRGFLT Configurable digital filter for trigger 6 2 TRGFLT Immediate Any trigger active level change is considered as a valid trigger 0 Clocks2 Trigger active level change must be stable for at least 2 clock periods before it is considered as valid trigger 1 Clocks4 Trigger active level change must be stable for at least 4 clock periods before it is considered as valid trigger 2 Clocks8 Trigger active level change must be stable for at least 8 clock periods before it is considered as valid trigger 3 CKFLT Configurable digital filter for external clock 3 2 CKFLT Immediate Any external clock signal level change is considered as a valid transition 0 Clocks2 External clock signal level change must be stable for at least 2 clock periods before it is considered as valid transition 1 Clocks4 External clock signal level change must be stable for at least 4 clock periods before it is considered as valid transition 2 Clocks8 External clock signal level change must be stable for at least 8 clock periods before it is considered as valid transition 3 CKPOL Clock Polarity 1 2 CKPOL RisingEdge The rising edge is the active edge used for counting. If LPTIM is in encoder mode: Encoder sub-mode 1 is active. 0 FallingEdge The falling edge is the active edge used for counting. If LPTIM is in encoder mode: Encoder sub-mode 2 is active. 1 BothEdges Both edges are active edge. If LPTIM is in encoder mode: Encoder sub-mode 3 is active. 2 CKSEL Clock selector 0 1 CKSEL Internal LPTIM is clocked by internal clock source (APB clock or any of the embedded oscillators) 0 External LPTIM is clocked by an external clock source through the LPTIM external Input1 1 CR CR Control Register 0x10 0x20 read-write 0x00000000 RSTARE Reset after read enable 4 1 RSTARE Disabled CNT Register reads do not trigger reset 0 Enabled CNT Register reads trigger reset of LPTIM 1 COUNTRST Counter reset 3 1 COUNTRSTR read Idle Triggering of reset is possible 0 Busy Reset in progress, do not write 1 to this field 1 COUNTRSTW write Reset Trigger synchronous reset of CNT (3 LPTimer core clock cycles) 1 CNTSTRT Timer start in continuous mode 2 1 CNTSTRTW write Start Timer start in Continuous mode 1 SNGSTRT LPTIM start in single mode 1 1 SNGSTRTW write Start LPTIM start in Single mode 1 ENABLE LPTIM Enable 0 1 ENABLE Disabled LPTIM is disabled 0 Enabled LPTIM is enabled 1 CMP CMP Compare Register 0x14 0x20 read-write 0x00000000 CMP Compare value 0 16 0 65535 ARR ARR Autoreload Register 0x18 0x20 read-write 0x00000001 ARR Auto reload value 0 16 0 65535 CNT CNT Counter Register 0x1C 0x20 read-only 0x00000000 CNT Counter value 0 16 0 65535 CFGR2 CFGR2 LPTIM configuration register 2 0x24 0x20 read-write 0x00000000 IN2SEL LPTIM1 Input 2 selection 4 2 IN1SEL LPTIMx Input 1 selection 0 2 LPTIM2 0x40009400 LPUART Universal synchronous asynchronous receiver transmitter USART 0x40008000 0x0 0x400 registers CR1 CR1 Control register 1 0x0 0x20 read-write 0x00000000 RXFFIE RXFIFO Full interrupt enable 31 1 RXFFIE Disabled Interrupt inhibited 0 Enabled USART interrupt generated when RXFF = 1 in the USART_ISR register 1 TXFEIE TXFIFO empty interrupt enable 30 1 TXFEIE Disabled Interrupt inhibited 0 Enabled USART interrupt generated when TXFE = 1 in the USART_ISR register 1 FIFOEN FIFO mode enable 29 1 FIFOEN Disabled FIFO mode is disabled 0 Enabled FIFO mode is enabled 1 M1 Word length 28 1 M1 M0 Use M0 to set the data bits 0 Bit7 1 start bit, 7 data bits, n stop bits 1 DEAT DEAT0 21 5 0 31 DEDT DEDT0 16 5 0 31 CMIE Character match interrupt enable 14 1 CMIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated when the CMF bit is set in the ISR register 1 MME Mute mode enable 13 1 MME Disabled Receiver in active mode permanently 0 Enabled Receiver can switch between mute mode and active mode 1 M0 Word length 12 1 M0 Bit8 1 start bit, 8 data bits, n stop bits 0 Bit9 1 start bit, 9 data bits, n stop bits 1 WAKE Receiver wakeup method 11 1 WAKE Idle Idle line 0 Address Address mask 1 PCE Parity control enable 10 1 PCE Disabled Parity control disabled 0 Enabled Parity control enabled 1 PS Parity selection 9 1 PS Even Even parity 0 Odd Odd parity 1 PEIE PE interrupt enable 8 1 PEIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever PE=1 in the ISR register 1 TXEIE interrupt enable 7 1 TXEIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever TXE=1 in the ISR register 1 TCIE Transmission complete interrupt enable 6 1 TCIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever TC=1 in the ISR register 1 RXNEIE RXNE interrupt enable 5 1 RXNEIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever ORE=1 or RXNE=1 in the ISR register 1 IDLEIE IDLE interrupt enable 4 1 IDLEIE Disabled Interrupt is disabled 0 Enabled Interrupt is generated whenever IDLE=1 in the ISR register 1 TE Transmitter enable 3 1 TE Disabled Transmitter is disabled 0 Enabled Transmitter is enabled 1 RE Receiver enable 2 1 RE Disabled Receiver is disabled 0 Enabled Receiver is enabled 1 UESM USART enable in Stop mode 1 1 UESM Disabled USART not able to wake up the MCU from Stop mode 0 Enabled USART able to wake up the MCU from Stop mode 1 UE USART enable 0 1 UE Disabled UART is disabled 0 Enabled UART is enabled 1 CR2 CR2 Control register 2 0x4 0x20 read-write 0x00000000 ADD Address of the USART node 24 8 0 255 MSBFIRST Most significant bit first 19 1 MSBFIRST LSB data is transmitted/received with data bit 0 first, following the start bit 0 MSB data is transmitted/received with MSB (bit 7/8/9) first, following the start bit 1 DATAINV Binary data inversion 18 1 DATAINV Positive Logical data from the data register are send/received in positive/direct logic 0 Negative Logical data from the data register are send/received in negative/inverse logic 1 TXINV TX pin active level inversion 17 1 TXINV Standard TX pin signal works using the standard logic levels 0 Inverted TX pin signal values are inverted 1 RXINV RX pin active level inversion 16 1 RXINV Standard RX pin signal works using the standard logic levels 0 Inverted RX pin signal values are inverted 1 SWAP Swap TX/RX pins 15 1 SWAP Standard TX/RX pins are used as defined in standard pinout 0 Swapped The TX and RX pins functions are swapped 1 STOP STOP bits 12 2 STOP Stop1 1 stop bit 0 Stop2 2 stop bit 2 ADDM7 7-bit Address Detection/4-bit Address Detection 4 1 ADDM7 Bit4 4-bit address detection 0 Bit7 7-bit address detection 1 CR3 CR3 Control register 3 0x8 0x20 read-write 0x00000000 TXFTCFG TXFIFO threshold configuration 29 3 TXFTCFG Depth_1_8 TXFIFO reaches 1/8 of its depth 0 Depth_1_4 TXFIFO reaches 1/4 of its depth 1 Depth_1_2 TXFIFO reaches 1/2 of its depth 2 Depth_3_4 TXFIFO reaches 3/4 of its depth 3 Depth_7_8 TXFIFO reaches 7/8 of its depth 4 Empty TXFIFO becomes empty 5 RXFTIE RXFIFO threshold interrupt enable 28 1 RXFTIE Disabled Interrupt inhibited 0 Enabled USART interrupt generated when Receive FIFO reaches the threshold programmed in RXFTCFG 1 RXFTCFG Receive FIFO threshold configuration 25 3 RXFTCFG Depth_1_8 RXFIFO reaches 1/8 of its depth 0 Depth_1_4 RXFIFO reaches 1/4 of its depth 1 Depth_1_2 RXFIFO reaches 1/2 of its depth 2 Depth_3_4 RXFIFO reaches 3/4 of its depth 3 Depth_7_8 RXFIFO reaches 7/8 of its depth 4 Full RXFIFO becomes full 5 TXFTIE threshold interrupt enable 23 1 TXFTIE Disabled Interrupt inhibited 0 Enabled USART interrupt generated when Transmit FIFO reaches the threshold programmed in TXFTCFG 1 WUFIE Wakeup from Stop mode interrupt enable 22 1 WUFIE Disabled Interrupt is inhibited 0 Enabled An USART interrupt is generated whenever WUF=1 in the ISR register 1 WUS Wakeup from Stop mode interrupt flag selection 20 2 WUS Address WUF active on address match 0 Start WuF active on Start bit detection 2 RXNE WUF active on RXNE 3 DEP Driver enable polarity selection 15 1 DEP High DE signal is active high 0 Low DE signal is active low 1 DEM Driver enable mode 14 1 DEM Disabled DE function is disabled 0 Enabled The DE signal is output on the RTS pin 1 DDRE DMA Disable on Reception Error 13 1 DDRE NotDisabled DMA is not disabled in case of reception error 0 Disabled DMA is disabled following a reception error 1 OVRDIS Overrun Disable 12 1 OVRDIS Enabled Overrun Error Flag, ORE, is set when received data is not read before receiving new data 0 Disabled Overrun functionality is disabled. If new data is received while the RXNE flag is still set the ORE flag is not set and the new received data overwrites the previous content of the RDR register 1 CTSIE CTS interrupt enable 10 1 CTSIE Disabled Interrupt is inhibited 0 Enabled An interrupt is generated whenever CTSIF=1 in the ISR register 1 CTSE CTS enable 9 1 CTSE Disabled CTS hardware flow control disabled 0 Enabled CTS mode enabled, data is only transmitted when the CTS input is asserted 1 RTSE RTS enable 8 1 RTSE Disabled RTS hardware flow control disabled 0 Enabled RTS output enabled, data is only requested when there is space in the receive buffer 1 DMAT DMA enable transmitter 7 1 DMAT Disabled DMA mode is disabled for transmission 0 Enabled DMA mode is enabled for transmission 1 DMAR DMA enable receiver 6 1 DMAR Disabled DMA mode is disabled for reception 0 Enabled DMA mode is enabled for reception 1 HDSEL Half-duplex selection 3 1 HDSEL NotSelected Half duplex mode is not selected 0 Selected Half duplex mode is selected 1 EIE Error interrupt enable 0 1 EIE Disabled Interrupt is inhibited 0 Enabled An interrupt is generated when FE=1 or ORE=1 or NF=1 in the ISR register 1 BRR BRR Baud rate register 0xC 0x20 read-write 0x00000000 BRR BRR 0 20 0 1048575 RQR RQR Request register 0x18 0x20 write-only 0x00000000 TXFRQ Transmit data flush request 4 1 TXFRQ Discard Set the TXE flags. This allows to discard the transmit data 1 RXFRQ Receive data flush request 3 1 RXFRQ Discard clears the RXNE flag. This allows to discard the received data without reading it, and avoid an overrun condition 1 MMRQ Mute mode request 2 1 MMRQ Mute Puts the USART in mute mode and sets the RWU flag 1 SBKRQ Send break request 1 1 SBKRQ Break sets the SBKF flag and request to send a BREAK on the line, as soon as the transmit machine is available 1 ABRRQ Auto baud rate request 0 1 ISR ISR Interrupt & status register 0x1C 0x20 read-only 0x000000C0 TXFT TXFIFO threshold flag 27 1 TXFT NotReached TXFIFO does not reach the programmed threshold. 0 Reached TXFIFO reached the programmed threshold. 1 RXFT RXFIFO threshold flag 26 1 RXFT NotReached Receive FIFO does not reach the programmed threshold. 0 Reached Receive FIFO reached the programmed threshold. 1 RXFF RXFIFO Full 24 1 RXFF NotFull RXFIFO not full. 0 Full RXFIFO Full. 1 TXFE TXFIFO Empty 23 1 TXFE NotEmpty TXFIFO not empty. 0 Empty TXFIFO empty. 1 REACK REACK 22 1 TEACK TEACK 21 1 WUF WUF 20 1 RWU RWU 19 1 RWU Active Receiver in Active mode 0 Mute Receiver in Mute mode 1 SBKF SBKF 18 1 SBKF NoBreak No break character transmitted 0 Break Break character transmitted 1 CMF CMF 17 1 CMF NoMatch No Character match detected 0 Match Character match detected 1 BUSY BUSY 16 1 BUSY Idle USART is idle (no reception) 0 Busy Reception on going 1 CTS CTS 10 1 CTS Set CTS line set 0 Reset CTS line reset 1 CTSIF CTSIF 9 1 CTSIF NotChanged No change occurred on the CTS status line 0 Changed A change occurred on the CTS status line 1 TXE TXE 7 1 TXE Full Transmit FIFO is full 0 NotFull Transmit FIFO is not full 1 TC TC 6 1 TC TxNotComplete Transmission is not complete 0 TxComplete Transmission is complete 1 RXNE RXNE 5 1 RXNE NoData Data is not received 0 DataReady Received data is ready to be read 1 IDLE IDLE 4 1 IDLE NoIdle No Idle Line is detected 0 Idle Idle Line is detected 1 ORE ORE 3 1 ORE NoOverrun No Overrun error 0 Overrun Overrun error is detected 1 NF NF 2 1 NF NoNoise No noise is detected 0 Noise Noise is detected 1 FE FE 1 1 FE NoError No Framing error is detected 0 Error Framing error or break character is detected 1 PE PE 0 1 PE NoError No parity error 0 Error Parity error 1 ICR ICR Interrupt flag clear register 0x20 0x20 write-only 0x00000000 WUCF Wakeup from Stop mode clear flag 20 1 oneToClear WUCF Clear Clears the WUF flag in the ISR register 1 CMCF Character match clear flag 17 1 oneToClear CMCF Clear Clears the CMF flag in the ISR register 1 CTSCF CTS clear flag 9 1 oneToClear CTSCF Clear Clears the CTSIF flag in the ISR register 1 TCCF Transmission complete clear flag 6 1 oneToClear TCCF Clear Clears the TC flag in the ISR register 1 IDLECF Idle line detected clear flag 4 1 oneToClear IDLECF Clear Clears the IDLE flag in the ISR register 1 ORECF Overrun error clear flag 3 1 oneToClear ORECF Clear Clears the ORE flag in the ISR register 1 NCF Noise detected clear flag 2 1 oneToClear NCF Clear Clears the NF flag in the ISR register 1 FECF Framing error clear flag 1 1 oneToClear FECF Clear Clears the FE flag in the ISR register 1 PECF Parity error clear flag 0 1 oneToClear PECF Clear Clears the PE flag in the ISR register 1 RDR RDR Receive data register 0x24 0x20 read-only 0x00000000 RDR Receive data value 0 9 0 511 TDR TDR Transmit data register 0x28 0x20 read-write 0x00000000 TDR Transmit data value 0 9 0 511 PRESC PRESC Prescaler register 0x2C 0x20 read-write 0x00000000 PRESCALER Clock prescaler 0 4 PRESCALER Div1 /1 0 Div2 /2 1 Div4 /4 2 Div6 /6 3 Div8 /8 4 Div10 /10 5 Div12 /12 6 Div16 /16 7 Div32 /32 8 Div64 /64 9 Div128 /128 10 Div256 /256 11 HWCFGR2 HWCFGR2 LPUART Hardware Configuration register 2 0x3EC 0x20 read-write 0x00000013 CFG1 LUART hardware configuration 1 0 4 CFG2 LUART hardware configuration 2 4 4 HWCFGR1 HWCFGR1 LPUART Hardware Configuration register 1 0x3F0 0x20 read-write 0x31100000 CFG1 LUART hardware configuration 1 0 4 CFG2 LUART hardware configuration 2 4 4 CFG3 LUART hardware configuration 1 8 4 CFG4 LUART hardware configuration 2 12 4 CFG5 LUART hardware configuration 2 16 4 CFG6 LUART hardware configuration 2 20 4 CFG7 LUART hardware configuration 2 24 4 CFG8 LUART hardware configuration 2 28 4 VERR VERR EXTI IP Version register 0x3F4 0x20 read-only 0x00000023 MINREV Minor Revision number 0 4 MAJREV Major Revision number 4 4 IPIDR IPIDR EXTI Identification register 0x3F8 0x20 read-only 0x00130003 IPID IP Identification 0 32 SIDR SIDR EXTI Size ID register 0x3FC 0x20 read-only 0xA3C5DD01 SID Size Identification 0 32 HDMI_CEC HDMI-CEC CEC 0x40007800 0x0 0x400 registers CR CR CEC control register 0x0 0x20 read-write 0x00000000 CECEN CEC Enable The CECEN bit is set and cleared by software. CECEN=1 starts message reception and enables the TXSOM control. CECEN=0 disables the CEC peripheral, clears all bits of CEC_CR register and aborts any on-going reception or transmission. 0 1 TXSOM Tx Start Of Message TXSOM is set by software to command transmission of the first byte of a CEC message. If the CEC message consists of only one byte, TXEOM must be set before of TXSOM. Start-Bit is effectively started on the CEC line after SFT is counted. If TXSOM is set while a message reception is ongoing, transmission will start after the end of reception. TXSOM is cleared by hardware after the last byte of the message is sent with a positive acknowledge (TXEND=1), in case of transmission underrun (TXUDR=1), negative acknowledge (TXACKE=1), and transmission error (TXERR=1). It is also cleared by CECEN=0. It is not cleared and transmission is automatically retried in case of arbitration lost (ARBLST=1). TXSOM can be also used as a status bit informing application whether any transmission request is pending or under execution. The application can abort a transmission request at any time by clearing the CECEN bit. Note: TXSOM must be set when CECEN=1 TXSOM must be set when transmission data is available into TXDR HEADERs first four bits containing own peripheral address are taken from TXDR[7:4], not from CEC_CFGR.OAR which is used only for reception 1 1 TXEOM Tx End Of Message The TXEOM bit is set by software to command transmission of the last byte of a CEC message. TXEOM is cleared by hardware at the same time and under the same conditions as for TXSOM. Note: TXEOM must be set when CECEN=1 TXEOM must be set before writing transmission data to TXDR If TXEOM is set when TXSOM=0, transmitted message will consist of 1 byte (HEADER) only (PING message) 2 1 CFGR CFGR This register is used to configure the HDMI-CEC controller. It is mandatory to write CEC_CFGR only when CECEN=0. 0x4 0x20 read-write 0x00000000 SFT Signal Free Time SFT bits are set by software. In the SFT=0x0 configuration the number of nominal data bit periods waited before transmission is ruled by hardware according to the transmission history. In all the other configurations the SFT number is determined by software. * 0x0 ** 2.5 Data-Bit periods if CEC is the last bus initiator with unsuccessful transmission (ARBLST=1, TXERR=1, TXUDR=1 or TXACKE= 1) ** 4 Data-Bit periods if CEC is the new bus initiator ** 6 Data-Bit periods if CEC is the last bus initiator with successful transmission (TXEOM=1) * 0x1: 0.5 nominal data bit periods * 0x2: 1.5 nominal data bit periods * 0x3: 2.5 nominal data bit periods * 0x4: 3.5 nominal data bit periods * 0x5: 4.5 nominal data bit periods * 0x6: 5.5 nominal data bit periods * 0x7: 6.5 nominal data bit periods 0 3 RXTOL Rx-Tolerance 3 1 BRESTP Rx-Stop on Bit Rising Error The BRESTP bit is set and cleared by software. 4 1 BREGEN Generate Error-Bit on Bit Rising Error The BREGEN bit is set and cleared by software. Note: If BRDNOGEN=0, an Error-bit is generated upon BRE detection with BRESTP=1 in broadcast even if BREGEN=0 5 1 LBPEGEN Generate Error-Bit on Long Bit Period Error The LBPEGEN bit is set and cleared by software. Note: If BRDNOGEN=0, an Error-bit is generated upon LBPE detection in broadcast even if LBPEGEN=0 6 1 BRDNOGEN Avoid Error-Bit Generation in Broadcast The BRDNOGEN bit is set and cleared by software. 7 1 SFTOPT SFT Option Bit The SFTOPT bit is set and cleared by software. 8 1 OAR Own addresses configuration The OAR bits are set by software to select which destination logical addresses has to be considered in receive mode. Each bit, when set, enables the CEC logical address identified by the given bit position. At the end of HEADER reception, the received destination address is compared with the enabled addresses. In case of matching address, the incoming message is acknowledged and received. In case of non-matching address, the incoming message is received only in listen mode (LSTN=1), but without acknowledge sent. Broadcast messages are always received. Example: OAR = 0b000 0000 0010 0001 means that CEC acknowledges addresses 0x0 and 0x5. Consequently, each message directed to one of these addresses is received. 16 15 LSTN Listen mode LSTN bit is set and cleared by software. 31 1 TXDR TXDR CEC Tx data register 0x8 0x20 write-only 0x00000000 TXD Tx Data register. TXD is a write-only register containing the data byte to be transmitted. Note: TXD must be written when TXSTART=1 0 8 RXDR RXDR CEC Rx Data Register 0xC 0x20 read-only 0x00000000 RXD Rx Data register. RXD is read-only and contains the last data byte which has been received from the CEC line. 0 8 ISR ISR CEC Interrupt and Status Register 0x10 0x20 read-write 0x00000000 RXBR Rx-Byte Received The RXBR bit is set by hardware to inform application that a new byte has been received from the CEC line and stored into the RXD buffer. RXBR is cleared by software write at 1. 0 1 RXEND End Of Reception RXEND is set by hardware to inform application that the last byte of a CEC message is received from the CEC line and stored into the RXD buffer. RXEND is set at the same time of RXBR. RXEND is cleared by software write at 1. 1 1 RXOVR Rx-Overrun RXOVR is set by hardware if RXBR is not yet cleared at the time a new byte is received on the CEC line and stored into RXD. RXOVR assertion stops message reception so that no acknowledge is sent. In case of broadcast, a negative acknowledge is sent. RXOVR is cleared by software write at 1. 2 1 BRE Rx-Bit Rising Error BRE is set by hardware in case a Data-Bit waveform is detected with Bit Rising Error. BRE is set either at the time the misplaced rising edge occurs, or at the end of the maximum BRE tolerance allowed by RXTOL, in case rising edge is still longing. BRE stops message reception if BRESTP=1. BRE generates an Error-Bit on the CEC line if BREGEN=1. BRE is cleared by software write at 1. 3 1 SBPE Rx-Short Bit Period Error SBPE is set by hardware in case a Data-Bit waveform is detected with Short Bit Period Error. SBPE is set at the time the anticipated falling edge occurs. SBPE generates an Error-Bit on the CEC line. SBPE is cleared by software write at 1. 4 1 LBPE Rx-Long Bit Period Error LBPE is set by hardware in case a Data-Bit waveform is detected with Long Bit Period Error. LBPE is set at the end of the maximum bit-extension tolerance allowed by RXTOL, in case falling edge is still longing. LBPE always stops reception of the CEC message. LBPE generates an Error-Bit on the CEC line if LBPEGEN=1. In case of broadcast, Error-Bit is generated even in case of LBPEGEN=0. LBPE is cleared by software write at 1. 5 1 RXACKE Rx-Missing Acknowledge In receive mode, RXACKE is set by hardware to inform application that no acknowledge was seen on the CEC line. RXACKE applies only for broadcast messages and in listen mode also for not directly addressed messages (destination address not enabled in OAR). RXACKE aborts message reception. RXACKE is cleared by software write at 1. 6 1 ARBLST Arbitration Lost ARBLST is set by hardware to inform application that CEC device is switching to reception due to arbitration lost event following the TXSOM command. ARBLST can be due either to a contending CEC device starting earlier or starting at the same time but with higher HEADER priority. After ARBLST assertion TXSOM bit keeps pending for next transmission attempt. ARBLST is cleared by software write at 1. 7 1 TXBR Tx-Byte Request TXBR is set by hardware to inform application that the next transmission data has to be written to TXDR. TXBR is set when the 4th bit of currently transmitted byte is sent. Application must write the next byte to TXDR within 6 nominal data-bit periods before transmission underrun error occurs (TXUDR). TXBR is cleared by software write at 1. 8 1 TXEND End of Transmission TXEND is set by hardware to inform application that the last byte of the CEC message has been successfully transmitted. TXEND clears the TXSOM and TXEOM control bits. TXEND is cleared by software write at 1. 9 1 TXUDR Tx-Buffer Underrun In transmission mode, TXUDR is set by hardware if application was not in time to load TXDR before of next byte transmission. TXUDR aborts message transmission and clears TXSOM and TXEOM control bits. TXUDR is cleared by software write at 1 10 1 TXERR Tx-Error In transmission mode, TXERR is set by hardware if the CEC initiator detects low impedance on the CEC line while it is released. TXERR aborts message transmission and clears TXSOM and TXEOM controls. TXERR is cleared by software write at 1. 11 1 TXACKE Tx-Missing Acknowledge Error In transmission mode, TXACKE is set by hardware to inform application that no acknowledge was received. In case of broadcast transmission, TXACKE informs application that a negative acknowledge was received. TXACKE aborts message transmission and clears TXSOM and TXEOM controls. TXACKE is cleared by software write at 1. 12 1 IER IER CEC interrupt enable register 0x14 0x20 read-write 0x00000000 RXBRIE Rx-Byte Received Interrupt Enable The RXBRIE bit is set and cleared by software. 0 1 RXENDIE End Of Reception Interrupt Enable The RXENDIE bit is set and cleared by software. 1 1 RXOVRIE Rx-Buffer Overrun Interrupt Enable The RXOVRIE bit is set and cleared by software. 2 1 BREIE Bit Rising Error Interrupt Enable The BREIE bit is set and cleared by software. 3 1 SBPEIE Short Bit Period Error Interrupt Enable The SBPEIE bit is set and cleared by software. 4 1 LBPEIE Long Bit Period Error Interrupt Enable The LBPEIE bit is set and cleared by software. 5 1 RXACKIE Rx-Missing Acknowledge Error Interrupt Enable The RXACKIE bit is set and cleared by software. 6 1 ARBLSTIE Arbitration Lost Interrupt Enable The ARBLSTIE bit is set and cleared by software. 7 1 TXBRIE Tx-Byte Request Interrupt Enable The TXBRIE bit is set and cleared by software. 8 1 TXENDIE Tx-End Of Message Interrupt Enable The TXENDIE bit is set and cleared by software. 9 1 TXUDRIE Tx-Underrun Interrupt Enable The TXUDRIE bit is set and cleared by software. 10 1 TXERRIE Tx-Error Interrupt Enable The TXERRIE bit is set and cleared by software. 11 1 TXACKIE Tx-Missing Acknowledge Error Interrupt Enable The TXACKEIE bit is set and cleared by software. 12 1 DAC DAC DAC 0x40007400 0x0 0x400 registers CR CR DAC control register 0x0 0x20 read-write 0x00000000 2 0x10 1-2 EN%s DAC channel%s enable 0 1 EN1 Disabled DAC Channel X disabled 0 Enabled DAC Channel X enabled 1 2 0x10 1-2 TEN%s DAC channel%s trigger enable 1 1 TEN1 Disabled DAC Channel X trigger disabled 0 Enabled DAC Channel X trigger enabled 1 TSEL1 DAC channel1 trigger selection These bits select the external event used to trigger DAC channel1. Note: Only used if bit TEN1 = 1 (DAC channel1 trigger enabled). 2 4 TSEL1 Swtrig Software trigger 0 Tim1Trgo Timer 1 TRGO event 1 Tim2Trgo Timer 2 TRGO event 2 Tim3Trgo Timer 3 TRGO event 3 Tim6Trgo Timer 6 TRGO event 5 Tim7Trgo Timer 7 TRGO event 6 Tim15Trgo Timer 15 TRGO event 8 Lptim1Out LPTIM1 OUT event 11 Lptim2Out LPTIM2 OUT event 12 Exti9 EXTI line 9 13 2 0x10 1-2 WAVE%s DAC channel%s noise/triangle wave generation enable 6 2 WAVE1 Disabled Wave generation disabled 0 Noise Noise wave generation enabled 1 Triangle Triangle wave generation enabled true 2 0x10 1-2 MAMP%s DAC channel%s mask/amplitude selector 8 4 MAMP1 Amp1 Unmask bit0 of LFSR/ triangle amplitude equal to 1 0 Amp3 Unmask bits[1:0] of LFSR/ triangle amplitude equal to 3 1 Amp7 Unmask bits[2:0] of LFSR/ triangle amplitude equal to 7 2 Amp15 Unmask bits[3:0] of LFSR/ triangle amplitude equal to 15 3 Amp31 Unmask bits[4:0] of LFSR/ triangle amplitude equal to 31 4 Amp63 Unmask bits[5:0] of LFSR/ triangle amplitude equal 63 5 Amp127 Unmask bits[6:0] of LFSR/ triangle amplitude equal to 127 6 Amp255 Unmask bits[7:0] of LFSR/ triangle amplitude equal to 255 7 Amp511 Unmask bits[8:0] of LFSR/ triangle amplitude equal to 511 8 Amp1023 Unmask bits[9:0] of LFSR/ triangle amplitude equal to 1023 9 Amp2047 Unmask bits[10:0] of LFSR/ triangle amplitude equal to 2047 10 Amp4095 Unmask bits[11:0] of LFSR/ triangle amplitude equal to 4095 true 2 0x10 1-2 DMAEN%s DAC channel%s DMA enable 12 1 DMAEN1 Disabled DAC Channel X DMA mode disabled 0 Enabled DAC Channel X DMA mode enabled 1 2 0x10 1-2 DMAUDRIE%s DAC channel%s DMA Underrun Interrupt enable 13 1 DMAUDRIE1 Disabled DAC channel X DMA Underrun Interrupt disabled 0 Enabled DAC channel X DMA Underrun Interrupt enabled 1 2 0x10 1-2 CEN%s DAC channel%s calibration enable 14 1 CEN1 Normal DAC Channel X Normal operating mode 0 Calibration DAC Channel X calibration mode 1 TSEL2 DAC channel2 trigger selection These bits select the external event used to trigger DAC channel2 Note: Only used if bit TEN2 = 1 (DAC channel2 trigger enabled). 18 4 SWTRGR SWTRGR DAC software trigger register 0x4 0x20 write-only 0x00000000 2 0x1 1-2 SWTRIG%s DAC channel%s software trigger 0 1 SWTRIG1 NoTrigger No trigger 0 Trigger Trigger 1 2 0xC 1-2 DHR12R%s DHR12R%s channel%s 12-bit right-aligned data holding register 0x8 0x20 read-write 0x00000000 DACCDHR DAC channel1 12-bit right-aligned data These bits are written by software which specifies 12-bit data for DAC channel1. 0 12 0 4095 2 0xC 1-2 DHR12L%s DHR12L%s channel%s 12-bit left aligned data holding register 0xC 0x20 read-write 0x00000000 DACCDHR DAC channel1 12-bit left-aligned data These bits are written by software which specifies 12-bit data for DAC channel1. 4 12 0 4095 2 0xC 1-2 DHR8R%s DHR8R%s channel%s 8-bit right aligned data holding register 0x10 0x20 read-write 0x00000000 DACCDHR DAC channel1 8-bit right-aligned data These bits are written by software which specifies 8-bit data for DAC channel1. 0 8 0 255 DHR12RD DHR12RD Dual DAC 12-bit right-aligned data holding register 0x20 0x20 read-write 0x00000000 2 0x10 1-2 DACC%sDHR DAC channel%s 12-bit right-aligned data 0 12 0 4095 DHR12LD DHR12LD DUAL DAC 12-bit left aligned data holding register 0x24 0x20 read-write 0x00000000 2 0x10 1-2 DACC%sDHR DAC channel%s 12-bit left-aligned data 4 12 0 4095 DHR8RD DHR8RD DUAL DAC 8-bit right aligned data holding register 0x28 0x20 read-write 0x00000000 2 0x8 1-2 DACC%sDHR DAC channel%s 8-bit right-aligned data 0 8 0 255 2 0x4 1-2 DOR%s DOR%s channel%s data output register 0x2C 0x20 read-only 0x00000000 DACCDOR DAC channel1 data output These bits are read-only, they contain data output for DAC channel1. 0 12 0 4095 SR SR DAC status register 0x34 0x20 0x00000000 2 0x10 1-2 DMAUDR%s DAC channel%s DMA underrun flag 13 1 read-write DMAUDR1 NoUnderrun No DMA underrun error condition occurred for DAC channel x 0 Underrun DMA underrun error condition occurred for DAC channel x (the currently selected trigger is driving DAC channel1 conversion at a frequency higher than the DMA service capability rate) 1 2 0x10 1-2 CAL_FLAG%s DAC channel%s calibration offset status 14 1 read-only CAL_FLAG1 Lower Calibration trimming value is lower than the offset correction value 0 Equal_Higher Calibration trimming value is equal or greater than the offset correction value 1 2 0x10 1-2 BWST%s DAC channel%s busy writing sample time flag 15 1 read-only BWST1 Idle There is no write operation of DAC_SHSR1 ongoing: DAC_SHSR1 can be written 0 Busy There is a write operation of DAC_SHSR1 ongoing: DAC_SHSR1 cannot be written 1 CCR CCR DAC calibration control register 0x38 0x20 read-write 0x00000000 2 0x10 1-2 OTRIM%s DAC channel%s offset trimming value 0 5 0 31 MCR MCR DAC mode control register 0x3C 0x20 read-write 0x00000000 2 0x10 1-2 MODE%s DAC channel%s mode 0 3 MODE1 NormalPinBuffer Normal mode - DAC channelx is connected to external pin with Buffer enabled 0 NormalPinChipBuffer Normal mode - DAC channelx is connected to external pin and to on chip peripherals with Buffer enabled 1 NormalPinNoBuffer Normal mode - DAC channelx is connected to external pin with Buffer disabled 2 NormalChipNoBuffer Normal mode - DAC channelx is connected to on chip peripherals with Buffer disabled 3 SHPinBuffer S&H mode - DAC channelx is connected to external pin with Buffer enabled 4 SHPinChipBuffer S&H mode - DAC channelx is connected to external pin and to on chip peripherals with Buffer enabled 5 SHPinNoBuffer S&H mode - DAC channelx is connected to external pin and to on chip peripherals with Buffer disabled 6 SHChipNoBuffer S&H mode - DAC channelx is connected to on chip peripherals with Buffer disabled 7 2 0x4 1-2 SHSR%s SHSR%s DAC channel%s sample and hold sample time register 0x40 0x20 read-write 0x00000000 TSAMPLE DAC Channel 1 sample Time (only valid in sample & hold mode) These bits can be written when the DAC channel1 is disabled or also during normal operation. in the latter case, the write can be done only when BWSTx of DAC_SR register is low, If BWSTx=1, the write operation is ignored. 0 10 0 1023 SHHR SHHR DAC Sample and Hold hold time register 0x48 0x20 read-write 0x00010001 2 0x10 1-2 THOLD%s DAC channel%s hold time (only valid in Sample and hold mode) 0 10 0 1023 SHRR SHRR DAC Sample and Hold refresh time register 0x4C 0x20 read-write 0x00010001 2 0x10 1-2 TREFRESH%s DAC channel%s refresh time (only valid in Sample and hold mode) 0 8 0 255 IP_HWCFGR0 IP_HWCFGR0 DAC IP Hardware Configuration Register 0x3F0 0x20 read-write 0x00001111 DUAL Dual DAC capability 0 4 LFSR Pseudonoise wave generation capability 4 4 TRIANGLE Triangle wave generation capability 8 4 SAMPLE Sample and hold mode capability 12 4 OR_CFG option register bit width 16 8 VERR VERR EXTI IP Version register 0x3F4 0x20 read-only 0x00000031 MINREV Minor Revision number 0 4 MAJREV Major Revision number 4 4 IPIDR IPIDR EXTI Identification register 0x3F8 0x20 read-only 0x00110011 IPID IP Identification 0 32 SIDR SIDR EXTI Size ID register 0x3FC 0x20 read-only 0xA3C5DD01 SID Size Identification 0 32 I2C1 Inter-integrated circuit I2C 0x40005400 0x0 0x400 registers I2C1 I2C1 global interrupt 23 CR1 CR1 Control register 1 0x0 0x20 read-write 0x00000000 PE Peripheral enable 0 1 PE Disabled Peripheral disabled 0 Enabled Peripheral enabled 1 TXIE TX Interrupt enable 1 1 TXIE Disabled Transmit (TXIS) interrupt disabled 0 Enabled Transmit (TXIS) interrupt enabled 1 RXIE RX Interrupt enable 2 1 RXIE Disabled Receive (RXNE) interrupt disabled 0 Enabled Receive (RXNE) interrupt enabled 1 ADDRIE Address match interrupt enable (slave only) 3 1 ADDRIE Disabled Address match (ADDR) interrupts disabled 0 Enabled Address match (ADDR) interrupts enabled 1 NACKIE Not acknowledge received interrupt enable 4 1 NACKIE Disabled Not acknowledge (NACKF) received interrupts disabled 0 Enabled Not acknowledge (NACKF) received interrupts enabled 1 STOPIE STOP detection Interrupt enable 5 1 STOPIE Disabled Stop detection (STOPF) interrupt disabled 0 Enabled Stop detection (STOPF) interrupt enabled 1 TCIE Transfer Complete interrupt enable 6 1 TCIE Disabled Transfer Complete interrupt disabled 0 Enabled Transfer Complete interrupt enabled 1 ERRIE Error interrupts enable 7 1 ERRIE Disabled Error detection interrupts disabled 0 Enabled Error detection interrupts enabled 1 DNF Digital noise filter 8 4 DNF NoFilter Digital filter disabled 0 Filter1 Digital filter enabled and filtering capability up to 1 tI2CCLK 1 Filter2 Digital filter enabled and filtering capability up to 2 tI2CCLK 2 Filter3 Digital filter enabled and filtering capability up to 3 tI2CCLK 3 Filter4 Digital filter enabled and filtering capability up to 4 tI2CCLK 4 Filter5 Digital filter enabled and filtering capability up to 5 tI2CCLK 5 Filter6 Digital filter enabled and filtering capability up to 6 tI2CCLK 6 Filter7 Digital filter enabled and filtering capability up to 7 tI2CCLK 7 Filter8 Digital filter enabled and filtering capability up to 8 tI2CCLK 8 Filter9 Digital filter enabled and filtering capability up to 9 tI2CCLK 9 Filter10 Digital filter enabled and filtering capability up to 10 tI2CCLK 10 Filter11 Digital filter enabled and filtering capability up to 11 tI2CCLK 11 Filter12 Digital filter enabled and filtering capability up to 12 tI2CCLK 12 Filter13 Digital filter enabled and filtering capability up to 13 tI2CCLK 13 Filter14 Digital filter enabled and filtering capability up to 14 tI2CCLK 14 Filter15 Digital filter enabled and filtering capability up to 15 tI2CCLK 15 ANFOFF Analog noise filter OFF 12 1 ANFOFF Enabled Analog noise filter enabled 0 Disabled Analog noise filter disabled 1 TXDMAEN DMA transmission requests enable 14 1 TXDMAEN Disabled DMA mode disabled for transmission 0 Enabled DMA mode enabled for transmission 1 RXDMAEN DMA reception requests enable 15 1 RXDMAEN Disabled DMA mode disabled for reception 0 Enabled DMA mode enabled for reception 1 SBC Slave byte control 16 1 SBC Disabled Slave byte control disabled 0 Enabled Slave byte control enabled 1 NOSTRETCH Clock stretching disable 17 1 NOSTRETCH Enabled Clock stretching enabled 0 Disabled Clock stretching disabled 1 WUPEN Wakeup from STOP enable 18 1 WUPEN Disabled Wakeup from Stop mode disabled 0 Enabled Wakeup from Stop mode enabled 1 GCEN General call enable 19 1 GCEN Disabled General call disabled. Address 0b00000000 is NACKed 0 Enabled General call enabled. Address 0b00000000 is ACKed 1 SMBHEN SMBus Host address enable 20 1 SMBHEN Disabled Host address disabled. Address 0b0001000x is NACKed 0 Enabled Host address enabled. Address 0b0001000x is ACKed 1 SMBDEN SMBus Device Default address enable 21 1 SMBDEN Disabled Device default address disabled. Address 0b1100001x is NACKed 0 Enabled Device default address enabled. Address 0b1100001x is ACKed 1 ALERTEN SMBUS alert enable 22 1 ALERTEN Disabled In device mode (SMBHEN=Disabled) Releases SMBA pin high and Alert Response Address Header disabled (0001100x) followed by NACK. In host mode (SMBHEN=Enabled) SMBus Alert pin (SMBA) not supported 0 Enabled In device mode (SMBHEN=Disabled) Drives SMBA pin low and Alert Response Address Header enabled (0001100x) followed by ACK.In host mode (SMBHEN=Enabled) SMBus Alert pin (SMBA) supported 1 PECEN PEC enable 23 1 PECEN Disabled PEC calculation disabled 0 Enabled PEC calculation enabled 1 CR2 CR2 Control register 2 0x4 0x20 read-write 0x00000000 PECBYTE Packet error checking byte 26 1 oneToSet PECBYTER read NoPec No PEC transfer 0 Pec PEC transmission/reception is requested 1 PECBYTEW write Pec PEC transmission/reception is requested 1 AUTOEND Automatic end mode (master mode) 25 1 AUTOEND Software Software end mode: TC flag is set when NBYTES data are transferred, stretching SCL low 0 Automatic Automatic end mode: a STOP condition is automatically sent when NBYTES data are transferred 1 RELOAD NBYTES reload mode 24 1 RELOAD Completed The transfer is completed after the NBYTES data transfer (STOP or RESTART will follow) 0 NotCompleted The transfer is not completed after the NBYTES data transfer (NBYTES will be reloaded) 1 NBYTES Number of bytes 16 8 0 255 NACK NACK generation (slave mode) 15 1 oneToSet NACKR read Ack an ACK is sent after current received byte 0 Nack a NACK is sent after current received byte 1 NACKW write Nack a NACK is sent after current received byte 1 STOP Stop generation (master mode) 14 1 oneToSet STOPR read NoStop No Stop generation 0 Stop Stop generation after current byte transfer 1 STOPW write Stop Stop generation after current byte transfer 1 START Start generation 13 1 oneToSet STARTR read NoStart No Start generation 0 Start Restart/Start generation 1 STARTW write Start Restart/Start generation 1 HEAD10R 10-bit address header only read direction (master receiver mode) 12 1 HEAD10R Complete The master sends the complete 10 bit slave address read sequence 0 Partial The master only sends the 1st 7 bits of the 10 bit address, followed by Read direction 1 ADD10 10-bit addressing mode (master mode) 11 1 ADD10 Bit7 The master operates in 7-bit addressing mode 0 Bit10 The master operates in 10-bit addressing mode 1 RD_WRN Transfer direction (master mode) 10 1 RD_WRN Write Master requests a write transfer 0 Read Master requests a read transfer 1 SADD Slave address bit (master mode) 0 10 0 1023 OAR1 OAR1 Own address register 1 0x8 0x20 read-write 0x00000000 OA1MODE Own Address 1 10-bit mode 10 1 OA1MODE Bit7 Own address 1 is a 7-bit address 0 Bit10 Own address 1 is a 10-bit address 1 OA1EN Own Address 1 enable 15 1 OA1EN Disabled Own address 1 disabled. The received slave address OA1 is NACKed 0 Enabled Own address 1 enabled. The received slave address OA1 is ACKed 1 OA1 Interface address 0 10 0 1023 OAR2 OAR2 Own address register 2 0xC 0x20 read-write 0x00000000 OA2 Interface address 1 7 0 127 OA2MSK Own Address 2 masks 8 3 OA2MSK NoMask No mask 0 Mask1 OA2[1] is masked and donât care. Only OA2[7:2] are compared 1 Mask2 OA2[2:1] are masked and donât care. Only OA2[7:3] are compared 2 Mask3 OA2[3:1] are masked and donât care. Only OA2[7:4] are compared 3 Mask4 OA2[4:1] are masked and donât care. Only OA2[7:5] are compared 4 Mask5 OA2[5:1] are masked and donât care. Only OA2[7:6] are compared 5 Mask6 OA2[6:1] are masked and donât care. Only OA2[7] is compared. 6 Mask7 OA2[7:1] are masked and donât care. No comparison is done, and all (except reserved) 7-bit received addresses are acknowledged 7 OA2EN Own Address 2 enable 15 1 OA2EN Disabled Own address 2 disabled. The received slave address OA2 is NACKed 0 Enabled Own address 2 enabled. The received slave address OA2 is ACKed 1 TIMINGR TIMINGR Timing register 0x10 0x20 read-write 0x00000000 SCLL SCL low period (master mode) 0 8 0 255 SCLH SCL high period (master mode) 8 8 0 255 SDADEL Data hold time 16 4 0 15 SCLDEL Data setup time 20 4 0 15 PRESC Timing prescaler 28 4 0 15 TIMEOUTR TIMEOUTR Status register 1 0x14 0x20 read-write 0x00000000 TIMEOUTA Bus timeout A 0 12 0 4095 TIDLE Idle clock timeout detection 12 1 TIDLE Disabled TIMEOUTA is used to detect SCL low timeout 0 Enabled TIMEOUTA is used to detect both SCL and SDA high timeout (bus idle condition) 1 TIMOUTEN Clock timeout enable 15 1 TIMOUTEN Disabled SCL timeout detection is disabled 0 Enabled SCL timeout detection is enabled 1 TIMEOUTB Bus timeout B 16 12 0 4095 TEXTEN Extended clock timeout enable 31 1 TEXTEN Disabled Extended clock timeout detection is disabled 0 Enabled Extended clock timeout detection is enabled 1 ISR ISR Interrupt and Status register 0x18 0x20 0x00000001 ADDCODE Address match code (Slave mode) 17 7 read-only 0 127 DIR Transfer direction (Slave mode) 16 1 read-only DIR Write Write transfer, slave enters receiver mode 0 Read Read transfer, slave enters transmitter mode 1 BUSY Bus busy 15 1 read-only BUSY NotBusy No communication is in progress on the bus 0 Busy A communication is in progress on the bus 1 ALERT SMBus alert 13 1 read-only ALERT NoAlert SMBA alert is not detected 0 Alert SMBA alert event is detected on SMBA pin 1 TIMEOUT Timeout or t_low detection flag 12 1 read-only TIMEOUT NoTimeout No timeout occured 0 Timeout Timeout occured 1 PECERR PEC Error in reception 11 1 read-only PECERR Match Received PEC does match with PEC register 0 NoMatch Received PEC does not match with PEC register 1 OVR Overrun/Underrun (slave mode) 10 1 read-only OVR NoOverrun No overrun/underrun error occurs 0 Overrun slave mode with NOSTRETCH=1, when an overrun/underrun error occurs 1 ARLO Arbitration lost 9 1 read-only ARLO NotLost No arbitration lost 0 Lost Arbitration lost 1 BERR Bus error 8 1 read-only BERR NoError No bus error 0 Error Misplaced Start and Stop condition is detected 1 TCR Transfer Complete Reload 7 1 read-only TCR NotComplete Transfer is not complete 0 Complete NBYTES has been transfered 1 TC Transfer Complete (master mode) 6 1 read-only TC NotComplete Transfer is not complete 0 Complete NBYTES has been transfered 1 STOPF Stop detection flag 5 1 read-only STOPF NoStop No Stop condition detected 0 Stop Stop condition detected 1 NACKF Not acknowledge received flag 4 1 read-only NACKF NoNack No NACK has been received 0 Nack NACK has been received 1 ADDR Address matched (slave mode) 3 1 read-only ADDR NotMatch Adress mismatched or not received 0 Match Received slave address matched with one of the enabled slave addresses 1 RXNE Receive data register not empty (receivers) 2 1 read-only RXNE Empty The RXDR register is empty 0 NotEmpty Received data is copied into the RXDR register, and is ready to be read 1 TXIS Transmit interrupt status (transmitters) 1 1 read-write oneToSet TXISR read NotEmpty The TXDR register is not empty 0 Empty The TXDR register is empty and the data to be transmitted must be written in the TXDR register 1 TXISW write Trigger Generate a TXIS event 1 TXE Transmit data register empty (transmitters) 0 1 read-write oneToSet TXER read NotEmpty TXDR register not empty 0 Empty TXDR register empty 1 TXEW write Flush Flush the transmit data register 1 ICR ICR Interrupt clear register 0x1C 0x20 write-only 0x00000000 ALERTCF Alert flag clear 13 1 oneToClear ALERTCF Clear Clears the ALERT flag in ISR register 1 TIMOUTCF Timeout detection flag clear 12 1 oneToClear TIMOUTCF Clear Clears the TIMOUT flag in ISR register 1 PECCF PEC Error flag clear 11 1 oneToClear PECCF Clear Clears the PEC flag in ISR register 1 OVRCF Overrun/Underrun flag clear 10 1 oneToClear OVRCF Clear Clears the OVR flag in ISR register 1 ARLOCF Arbitration lost flag clear 9 1 oneToClear ARLOCF Clear Clears the ARLO flag in ISR register 1 BERRCF Bus error flag clear 8 1 oneToClear BERRCF Clear Clears the BERR flag in ISR register 1 STOPCF Stop detection flag clear 5 1 oneToClear STOPCF Clear Clears the STOP flag in ISR register 1 NACKCF Not Acknowledge flag clear 4 1 oneToClear NACKCF Clear Clears the NACK flag in ISR register 1 ADDRCF Address Matched flag clear 3 1 oneToClear ADDRCF Clear Clears the ADDR flag in ISR register 1 PECR PECR PEC register 0x20 0x20 read-only 0x00000000 PEC Packet error checking register 0 8 0 255 RXDR RXDR Receive data register 0x24 0x20 read-only 0x00000000 RXDATA 8-bit receive data 0 8 0 255 TXDR TXDR Transmit data register 0x28 0x20 read-write 0x00000000 TXDATA 8-bit transmit data 0 8 0 255 I2C2 0x40005800 I2C2 I2C2 global interrupt 24 RTC Real-time clock RTC 0x40002800 0x0 0x400 registers RTC_STAMP RTC and TAMP interrupts 2 TR TR time register 0x0 0x20 read-write 0x00000000 PM AM/PM notation 22 1 PM AM AM or 24-hour format 0 PM PM 1 HT Hour tens in BCD format 20 2 0 3 HU Hour units in BCD format 16 4 0 15 MNT Minute tens in BCD format 12 3 0 7 MNU Minute units in BCD format 8 4 0 15 ST Second tens in BCD format 4 3 0 7 SU Second units in BCD format 0 4 0 15 DR DR date register 0x4 0x20 read-write 0x00002101 YT Year tens in BCD format 20 4 0 15 YU Year units in BCD format 16 4 0 15 WDU Week day units 13 3 1 7 MT Month tens in BCD format 12 1 0 1 MU Month units in BCD format 8 4 0 15 DT Date tens in BCD format 4 2 0 3 DU Date units in BCD format 0 4 0 15 SSR SSR sub second register 0x8 0x20 read-only 0x00000000 SS Sub second value 0 16 0 65535 ICSR ICSR initialization and status register 0xC 0x20 0x00000007 2 0x1 A,B ALR%sWF Alarm %s write flag 0 1 read-only WUTWF Wakeup timer write flag 2 1 read-only WUTWFR UpdateNotAllowed Wakeup timer configuration update not allowed 0 UpdateAllowed Wakeup timer configuration update allowed 1 SHPF Shift operation pending 3 1 read-write SHPFR read NoShiftPending No shift operation is pending 0 ShiftPending A shift operation is pending 1 INITS Initialization status flag 4 1 read-only INITSR NotInitalized Calendar has not been initialized 0 Initalized Calendar has been initialized 1 RSF Registers synchronization flag 5 1 read-write zeroToClear RSFR read NotSynced Calendar shadow registers not yet synchronized 0 Synced Calendar shadow registers synchronized 1 RSFW write Clear This flag is cleared by software by writing 0 0 INITF Initialization flag 6 1 read-only INITFR NotAllowed Calendar registers update is not allowed 0 Allowed Calendar registers update is allowed 1 INIT Initialization mode 7 1 read-write INIT FreeRunningMode Free running mode 0 InitMode Initialization mode used to program time and date register (RTC_TR and RTC_DR), and prescaler register (RTC_PRER). Counters are stopped and start counting from the new value when INIT is reset. 1 RECALPF Recalibration pending Flag 16 1 read-only RECALPFR Pending The RECALPF status flag is automatically set to 1 when software writes to the RTC_CALR register, indicating that the RTC_CALR register is blocked. When the new calibration settings are taken into account, this bit returns to 0 1 PRER PRER prescaler register 0x10 0x20 read-write 0x007F00FF PREDIV_A Asynchronous prescaler factor 16 7 0 127 PREDIV_S Synchronous prescaler factor 0 15 0 32767 WUTR WUTR wakeup timer register 0x14 0x20 read-write 0x0000FFFF WUT Wakeup auto-reload value bits 0 16 0 65535 CR CR control register 0x18 0x20 read-write 0x00000000 WUCKSEL WUCKSEL 0 3 WUCKSEL Div16 RTC/16 clock is selected 0 Div8 RTC/8 clock is selected 1 Div4 RTC/4 clock is selected 2 Div2 RTC/2 clock is selected 3 ClockSpare ck_spre (usually 1 Hz) clock is selected 4 ClockSpareWithOffset ck_spre (usually 1 Hz) clock is selected and 2^16 is added to the WUT counter value 6 TSEDGE TSEDGE 3 1 TSEDGE RisingEdge RTC_TS input rising edge generates a time-stamp event 0 FallingEdge RTC_TS input falling edge generates a time-stamp event 1 REFCKON REFCKON 4 1 REFCKON Disabled RTC_REFIN detection disabled 0 Enabled RTC_REFIN detection enabled 1 BYPSHAD BYPSHAD 5 1 BYPSHAD ShadowReg Calendar values (when reading from RTC_SSR, RTC_TR, and RTC_DR) are taken from the shadow registers, which are updated once every two RTCCLK cycles 0 BypassShadowReg Calendar values (when reading from RTC_SSR, RTC_TR, and RTC_DR) are taken directly from the calendar counters 1 FMT FMT 6 1 FMT TwentyFourHour 24 hour/day format 0 AmPm AM/PM hour format 1 2 0x1 A,B ALR%sE Alarm %s enable 8 1 ALRAE Disabled Alarm disabled 0 Enabled Alarm enabled 1 WUTE WUTE 10 1 WUTE Disabled Wakeup timer disabled 0 Enabled Wakeup timer enabled 1 TSE TSE 11 1 TSE Disabled Timestamp disabled 0 Enabled Timestamp enabled 1 2 0x1 A,B ALR%sIE Alarm %s interrupt enable 12 1 ALRAIE Disabled Alarm Interrupt disabled 0 Enabled Alarm Interrupt enabled 1 WUTIE WUTIE 14 1 WUTIE Disabled Wakeup timer interrupt disabled 0 Enabled Wakeup timer interrupt enabled 1 TSIE TSIE 15 1 TSIE Disabled Time-stamp Interrupt disabled 0 Enabled Time-stamp Interrupt enabled 1 ADD1H ADD1H 16 1 ADD1HW write Add1 Adds 1 hour to the current time. This can be used for summer time change outside initialization mode 1 SUB1H SUB1H 17 1 SUB1HW write Sub1 Subtracts 1 hour to the current time. This can be used for winter time change outside initialization mode 1 BKP BKP 18 1 BKP DSTNotChanged Daylight Saving Time change has not been performed 0 DSTChanged Daylight Saving Time change has been performed 1 COSEL COSEL 19 1 COSEL CalFreq_512Hz Calibration output is 512 Hz (with default prescaler setting) 0 CalFreq_1Hz Calibration output is 1 Hz (with default prescaler setting) 1 POL POL 20 1 POL High The pin is high when ALRAF/ALRBF/WUTF is asserted (depending on OSEL[1:0]) 0 Low The pin is low when ALRAF/ALRBF/WUTF is asserted (depending on OSEL[1:0]) 1 OSEL OSEL 21 2 OSEL Disabled Output disabled 0 AlarmA Alarm A output enabled 1 AlarmB Alarm B output enabled 2 Wakeup Wakeup output enabled 3 COE COE 23 1 COE Disabled Calibration output disabled 0 Enabled Calibration output enabled 1 ITSE ITSE 24 1 ITSE Disabled Internal event timestamp disabled 0 Enabled Internal event timestamp enabled 1 TAMPTS TAMPTS 25 1 TAMPTS Disabled Tamper detection event does not cause a RTC timestamp to be saved 0 Enabled Save RTC timestamp on tamper detection event 1 TAMPOE TAMPOE 26 1 TAMPOE Disabled The tamper flag is not routed on TAMPALRM 0 Enabled The tamper flag is routed on TAMPALRM, combined with the signal provided by OSEL and with the polarity provided by POL 1 TAMPALRM_PU TAMPALRM_PU 29 1 TAMPALRM_PU NoPullUp No pull-up is applied on TAMPALRM output 0 PullUp A pull-up is applied on TAMPALRM output 1 TAMPALRM_TYPE TAMPALRM_TYPE 30 1 TAMPALRM_TYPE PushPull TAMPALRM is push-pull output 0 OpenDrain TAMPALRM is open-drain output 1 OUT2EN OUT2EN 31 1 OUT2EN Disabled RTC output 2 disable 0 Enabled RTC output 2 enable 1 WPR WPR write protection register 0x24 0x20 write-only 0x00000000 KEY Write protection key 0 8 KEY Activate Activate write protection (any value that is not the keys) 0 Deactivate2 Key 2 83 Deactivate1 Key 1 202 CALR CALR calibration register 0x28 0x20 read-write 0x00000000 CALP Increase frequency of RTC by 488.5 ppm 15 1 CALP NoChange No RTCCLK pulses are added 0 IncreaseFreq One RTCCLK pulse is effectively inserted every 2^11 pulses (frequency increased by 488.5 ppm) 1 CALW8 Use an 8-second calibration cycle period 14 1 CALW8 EightSeconds When CALW8 is set to â1â, the 8-second calibration cycle period is selected 1 CALW16 Use a 16-second calibration cycle period 13 1 CALW16 SixteenSeconds When CALW16 is set to â1â, the 16-second calibration cycle period is selected.This bit must not be set to â1â if CALW8=1 1 CALM Calibration minus 0 9 0 511 SHIFTR SHIFTR shift control register 0x2C 0x20 write-only 0x00000000 ADD1S Add one second 31 1 ADD1SW Add1 Add one second to the clock/calendar 1 SUBFS Subtract a fraction of a second 0 15 0 32767 TSTR TSTR time stamp time register 0x30 TSDR TSDR time stamp date register 0x34 TSSSR TSSSR timestamp sub second register 0x38 2 0x8 A,B ALRM%sR ALRM%sR Alarm %s register 0x40 0x20 read-write 0x00000000 MSK1 Alarm seconds mask 7 1 MSK1 Mask Alarm set if the date/day match 0 NotMask Date/day donât care in Alarm comparison 1 MSK4 Alarm date mask 31 1 WDSEL Week day selection 30 1 WDSEL DateUnits DU[3:0] represents the date units 0 WeekDay DU[3:0] represents the week day. DT[1:0] is donât care. 1 DT Date tens in BCD format 28 2 0 3 DU Date units or day in BCD format 24 4 0 15 MSK3 Alarm hours mask 23 1 PM AM/PM notation 22 1 PM AM AM or 24-hour format 0 PM PM 1 HT Hour tens in BCD format 20 2 0 3 HU Hour units in BCD format 16 4 0 15 MSK2 Alarm minutes mask 15 1 MNT Minute tens in BCD format 12 3 0 7 MNU Minute units in BCD format 8 4 0 15 ST Second tens in BCD format 4 3 0 7 SU Second units in BCD format 0 4 0 15 2 0x8 A,B ALRM%sSSR ALRM%sSSR Alarm %s sub-second register 0x44 0x20 read-write 0x00000000 MASKSS Mask the most-significant bits starting at this bit 24 4 SS Sub seconds value 0 15 0 32767 SR SR status register 0x50 0x20 read-only 0x00000000 2 0x1 A,B ALR%sF Alarm %s flag 0 1 ALRAF Match This flag is set by hardware when the time/date registers (RTC_TR and RTC_DR) match the Alarm register (RTC_ALRxBR) 1 WUTF WUTF 2 1 WUTF Zero This flag is set by hardware when the wakeup auto-reload counter reaches 0 1 TSF TSF 3 1 TSF TimestampEvent This flag is set by hardware when a time-stamp event occurs 1 TSOVF TSOVF 4 1 TSOVF Overflow This flag is set by hardware when a time-stamp event occurs while TSF is already set 1 ITSF ITSF 5 1 ITSF TimestampEvent This flag is set by hardware when a timestamp on the internal event occurs 1 MISR MISR masked interrupt status register 0x54 0x20 read-only 0x00000000 2 0x1 A,B ALR%sMF Alarm %s masked flag 0 1 ALRAMF Match This flag is set by hardware when the time/date registers (RTC_TR and RTC_DR) match the Alarm register (RTC_ALRMxR) 1 WUTMF WUTMF 2 1 WUTMF Zero This flag is set by hardware when the wakeup auto-reload counter reaches 0 1 TSMF TSMF 3 1 TSMF TimestampEvent This flag is set by hardware when a time-stamp event occurs 1 TSOVMF TSOVMF 4 1 TSOVMF Overflow This flag is set by hardware when a time-stamp event occurs while TSF is already set 1 ITSMF ITSMF 5 1 ITSMF TimestampEvent This flag is set by hardware when a timestamp on the internal event occurs 1 SCR SCR status clear register 0x5C 0x20 read-write 0x00000000 CALRAF CALRAF 0 1 CALRAF Clear Clear interrupt flag 1 CALRBF CALRBF 1 1 CWUTF CWUTF 2 1 CTSF CTSF 3 1 CTSOVF CTSOVF 4 1 CITSF CITSF 5 1 HWCFGR HWCFGR hardware configuration register 0x3F0 0x20 read-write 0x00000000 ALARMB ALARMB 0 4 WAKEUP WAKEUP 4 4 SMOOTH_CALIB SMOOTH_CALIB 8 4 TIMESTAMP TIMESTAMP 12 4 OPTIONREG_OUT OPTIONREG_OUT 16 8 TRUST_ZONE TRUST_ZONE 24 4 VERR VERR EXTI IP Version register 0x3F4 0x20 read-only 0x00000010 MINREV Minor Revision number 0 4 MAJREV Major Revision number 4 4 IPIDR IPIDR EXTI Identification register 0x3F8 0x20 read-only 0x00120033 IPID IP Identification 0 32 SIDR SIDR EXTI Size ID register 0x3FC 0x20 read-only 0xA3C5DD01 SID Size Identification 0 32 TIM14 General purpose timers TIM 0x40002000 0x0 0x400 registers TIM14 TIM14 global interrupt 19 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 UIFREMAP UIF status bit remapping 11 1 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 Ã t_CK_INT 1 Div4 t_DTS = 4 Ã t_CK_INT 2 ARPE Auto-reload preload enable 7 1 ARPE Disabled TIMx_APRR register is not buffered 0 Enabled TIMx_APRR register is buffered 1 OPM One-pulse mode 3 1 OPM Disabled Counter is not stopped at update event 0 Enabled Counter stops counting at the next update event (clearing the CEN bit) 1 URS Update request source 2 1 URS AnyEvent Any of counter overflow/underflow, setting UG, or update through slave mode, generates an update interrupt or DMA request 0 CounterOnly Only counter overflow/underflow generates an update interrupt or DMA request 1 UDIS Update disable 1 1 UDIS Enabled Update event enabled 0 Disabled Update event disabled 1 CEN Counter enable 0 1 CEN Disabled Counter disabled 0 Enabled Counter enabled 1 DIER DIER DMA/Interrupt enable register 0xC 0x20 read-write 0x00000000 1 0x0 1-1 CC%sIE Capture/Compare %s interrupt enable 1 1 CC1IE Disabled CCx interrupt disabled 0 Enabled CCx interrupt enabled 1 UIE Update interrupt enable 0 1 UIE Disabled Update interrupt disabled 0 Enabled Update interrupt enabled 1 SR SR status register 0x10 0x20 read-write 0x00000000 1 0x0 1-1 CC%sOF Capture/Compare %s overcapture flag 9 1 zeroToClear CC1OFR read NoOvercapture No overcapture has been detected 0 Overcapture The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set 1 CC1OFW write Clear Clear flag 0 1 0x0 1-1 CC%sIF Capture/compare %s interrupt flag 1 1 zeroToClear CC1IFR read NoMatch No campture/compare has been detected 0 Match If CC1 is an output: The content of the counter TIMx_CNT matches the content of the TIMx_CCR1 register. If CC1 is an input: The counter value has been captured in TIMx_CCR1 register. 1 CC1IFW write Clear Clear flag 0 UIF Update interrupt flag 0 1 zeroToClear UIFR read NoUpdateOccurred No update occurred 0 UpdatePending Update interrupt pending 1 UIFW write Clear Clear flag 0 EGR EGR event generation register 0x14 0x20 write-only 0x00000000 1 0x0 1-1 CC%sG Capture/compare %s generation 1 1 CC1GW Trigger If CC1 is an output: CC1IF flag is set, Corresponding interrupt or DMA request is sent if enabled. If CC1 is an input: The current value of the counter is captured in TIMx_CCR1 register. 1 UG Update generation 0 1 UG Update Re-initializes the timer counter and generates an update of the registers. 1 CCMR1_Output CCMR1_Output capture/compare mode register 1 (output mode) 0x18 0x20 read-write 0x00000000 1 0x0 1-1 CC%sS Capture/Compare %s selection 0 2 CC1S Output CCx channel is configured as output 0 1 0x0 1-1 OC%sFE Output compare %s fast enable 2 1 OC1FE Disabled Fast output disabled 0 Enabled Fast output enabled 1 1 0x0 1-1 OC%sPE Output compare %s preload enable 3 1 OC1PE Disabled Preload register on CCRx disabled. New values written to CCRx are taken into account immediately 0 Enabled Preload register on CCRx enabled. Preload value is loaded into active register on each update event 1 1 0x0 1-1 OC%sM Output compare %s mode 4 3 OC1M Frozen The comparison between the output compare register TIMx_CCRy and the counter TIMx_CNT has no effect on the outputs 0 ActiveOnMatch Set channel to active level on match. OCyREF signal is forced high when the counter matches the capture/compare register 1 InactiveOnMatch Set channel to inactive level on match. OCyREF signal is forced low when the counter matches the capture/compare register 2 Toggle OCyREF toggles when TIMx_CNT=TIMx_CCRy 3 ForceInactive OCyREF is forced low 4 ForceActive OCyREF is forced high 5 PwmMode1 In upcounting, channel is active as long as TIMx_CNT<TIMx_CCRy else inactive. In downcounting, channel is inactive as long as TIMx_CNT>TIMx_CCRy else active 6 PwmMode2 Inversely to PwmMode1 7 1 0x0 1-1 OC%sCE Output compare %s clear enable 7 1 1 0x0 1-1 OC%sM_3 Output compare %s mode, bit 3 16 1 CCMR1_Input CCMR1_Input capture/compare mode register 1 (input mode) CCMR1_Output 0x18 0x20 read-write 0x00000000 1 0x0 1-1 IC%sF Input capture %s filter 4 4 ICFilter NoFilter No filter, sampling is done at fDTS 0 FCK_INT_N2 fSAMPLING=fCK_INT, N=2 1 FCK_INT_N4 fSAMPLING=fCK_INT, N=4 2 FCK_INT_N8 fSAMPLING=fCK_INT, N=8 3 FDTS_Div2_N6 fSAMPLING=fDTS/2, N=6 4 FDTS_Div2_N8 fSAMPLING=fDTS/2, N=8 5 FDTS_Div4_N6 fSAMPLING=fDTS/4, N=6 6 FDTS_Div4_N8 fSAMPLING=fDTS/4, N=8 7 FDTS_Div8_N6 fSAMPLING=fDTS/8, N=6 8 FDTS_Div8_N8 fSAMPLING=fDTS/8, N=8 9 FDTS_Div16_N5 fSAMPLING=fDTS/16, N=5 10 FDTS_Div16_N6 fSAMPLING=fDTS/16, N=6 11 FDTS_Div16_N8 fSAMPLING=fDTS/16, N=8 12 FDTS_Div32_N5 fSAMPLING=fDTS/32, N=5 13 FDTS_Div32_N6 fSAMPLING=fDTS/32, N=6 14 FDTS_Div32_N8 fSAMPLING=fDTS/32, N=8 15 1 0x0 1-1 IC%sPSC Input capture %s prescaler 2 2 ICPrescaler NoPrescaler No prescaler, capture is done each time an edge is detected on the capture input 0 TwoEvents Capture is done once every 2 events 1 FourEvents Capture is done once every 4 events 2 EightEvents Capture is done once every 8 events 3 CC1S Capture/Compare 1 selection 0 2 CC1S TI1 CC1 channel is configured as input, IC1 is mapped on TI1 1 CCER CCER capture/compare enable register 0x20 0x20 read-write 0x00000000 1 0x0 1-1 CC%sNP Capture/Compare %s output Polarity 3 1 1 0x0 1-1 CC%sP Capture/Compare %s output Polarity 1 1 CC1P RisingEdge Noninverted/rising edge 0 FallingEdge Inverted/falling edge 1 1 0x0 1-1 CC%sE Capture/Compare %s output enable 0 1 CC1E Disabled Capture disabled 0 Enabled Capture enabled 1 CNT CNT counter 0x24 0x20 read-write 0x00000000 CNT low counter value 0 16 0 65535 UIFCPY UIF Copy 31 1 PSC PSC prescaler 0x28 0x20 read-write 0x00000000 PSC Prescaler value 0 16 0 65535 ARR ARR auto-reload register 0x2C 0x20 read-write 0x00000000 ARR Low Auto-reload value 0 16 0 65535 1 0x4 1-1 CCR%s CCR%s capture/compare register 0x34 0x20 read-write 0x00000000 CCR Capture/Compare value 0 16 0 65535 TISEL TISEL TIM timer input selection register 0x68 0x20 read-write 0x00000000 TISEL TI1[0] to TI1[15] input selection 0 4 TIM6 Basic timers TIM 0x40001000 0x0 0x400 registers TIM6_DAC_LPTIM1 TIM6 + LPTIM1 and DAC global interrupt 17 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 UIFREMAP UIF status bit remapping 11 1 ARPE Auto-reload preload enable 7 1 ARPE Disabled TIMx_APRR register is not buffered 0 Enabled TIMx_APRR register is buffered 1 OPM One-pulse mode 3 1 OPM Disabled Counter is not stopped at update event 0 Enabled Counter stops counting at the next update event (clearing the CEN bit) 1 URS Update request source 2 1 URS AnyEvent Any of counter overflow/underflow, setting UG, or update through slave mode, generates an update interrupt or DMA request 0 CounterOnly Only counter overflow/underflow generates an update interrupt or DMA request 1 UDIS Update disable 1 1 UDIS Enabled Update event enabled 0 Disabled Update event disabled 1 CEN Counter enable 0 1 CEN Disabled Counter disabled 0 Enabled Counter enabled 1 CR2 CR2 control register 2 0x4 0x20 read-write 0x00000000 MMS Master mode selection 4 3 MMS Reset Use UG bit from TIMx_EGR register 0 Enable Use CNT bit from TIMx_CEN register 1 Update Use the update event 2 DIER DIER DMA/Interrupt enable register 0xC 0x20 read-write 0x00000000 UDE Update DMA request enable 8 1 UDE Disabled Update DMA request disabled 0 Enabled Update DMA request enabled 1 UIE Update interrupt enable 0 1 UIE Disabled Update interrupt disabled 0 Enabled Update interrupt enabled 1 SR SR status register 0x10 0x20 read-write 0x00000000 UIF Update interrupt flag 0 1 zeroToClear UIFR read NoUpdateOccurred No update occurred 0 UpdatePending Update interrupt pending 1 UIFW write Clear Clear flag 0 EGR EGR event generation register 0x14 0x20 write-only 0x00000000 UG Update generation 0 1 UG Update Re-initializes the timer counter and generates an update of the registers. 1 CNT CNT counter 0x24 0x20 read-write 0x00000000 CNT Low counter value 0 16 0 65535 UIFCPY UIF Copy 31 1 PSC PSC prescaler 0x28 0x20 read-write 0x00000000 PSC Prescaler value 0 16 0 65535 ARR ARR auto-reload register 0x2C 0x20 read-write 0x00000000 ARR Low Auto-reload value 0 16 0 65535 TIM7 TIM 0x40001400 TIM7_LPTIM2 TIM7 + LPTIM2 global interrupt 18 TIM2 General-purpose-timers TIM 0x40000000 0x0 0x400 registers TIM2 TIM2 global interrupt 15 TIM3 TIM3 global interrupt 16 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 UIFREMAP UIF status bit remapping 11 1 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 Ã t_CK_INT 1 Div4 t_DTS = 4 Ã t_CK_INT 2 ARPE Auto-reload preload enable 7 1 ARPE Disabled TIMx_APRR register is not buffered 0 Enabled TIMx_APRR register is buffered 1 CMS Center-aligned mode selection 5 2 CMS EdgeAligned The counter counts up or down depending on the direction bit 0 CenterAligned1 The counter counts up and down alternatively. Output compare interrupt flags are set only when the counter is counting down. 1 CenterAligned2 The counter counts up and down alternatively. Output compare interrupt flags are set only when the counter is counting up. 2 CenterAligned3 The counter counts up and down alternatively. Output compare interrupt flags are set both when the counter is counting up or down. 3 DIR Direction 4 1 DIR Up Counter used as upcounter 0 Down Counter used as downcounter 1 OPM One-pulse mode 3 1 OPM Disabled Counter is not stopped at update event 0 Enabled Counter stops counting at the next update event (clearing the CEN bit) 1 URS Update request source 2 1 URS AnyEvent Any of counter overflow/underflow, setting UG, or update through slave mode, generates an update interrupt or DMA request 0 CounterOnly Only counter overflow/underflow generates an update interrupt or DMA request 1 UDIS Update disable 1 1 UDIS Enabled Update event enabled 0 Disabled Update event disabled 1 CEN Counter enable 0 1 CEN Disabled Counter disabled 0 Enabled Counter enabled 1 CR2 CR2 control register 2 0x4 0x20 read-write 0x00000000 TI1S TI1 selection 7 1 TI1S Normal The TIMx_CH1 pin is connected to TI1 input 0 XOR The TIMx_CH1, CH2, CH3 pins are connected to TI1 input 1 MMS Master mode selection 4 3 CCDS Capture/compare DMA selection 3 1 CCDS OnCompare CCx DMA request sent when CCx event occurs 0 OnUpdate CCx DMA request sent when update event occurs 1 SMCR SMCR slave mode control register 0x8 0x20 read-write 0x00000000 TS2 Trigger selection 20 2 SMS_3 Slave mode selection - bit 3 16 1 ETP External trigger polarity 15 1 ETP NotInverted ETR is noninverted, active at high level or rising edge 0 Inverted ETR is inverted, active at low level or falling edge 1 ECE External clock enable 14 1 ECE Disabled External clock mode 2 disabled 0 Enabled External clock mode 2 enabled. The counter is clocked by any active edge on the ETRF signal. 1 ETPS External trigger prescaler 12 2 ETPS Div1 Prescaler OFF 0 Div2 ETRP frequency divided by 2 1 Div4 ETRP frequency divided by 4 2 Div8 ETRP frequency divided by 8 3 ETF External trigger filter 8 4 ETF NoFilter No filter, sampling is done at fDTS 0 FCK_INT_N2 fSAMPLING=fCK_INT, N=2 1 FCK_INT_N4 fSAMPLING=fCK_INT, N=4 2 FCK_INT_N8 fSAMPLING=fCK_INT, N=8 3 FDTS_Div2_N6 fSAMPLING=fDTS/2, N=6 4 FDTS_Div2_N8 fSAMPLING=fDTS/2, N=8 5 FDTS_Div4_N6 fSAMPLING=fDTS/4, N=6 6 FDTS_Div4_N8 fSAMPLING=fDTS/4, N=8 7 FDTS_Div8_N6 fSAMPLING=fDTS/8, N=6 8 FDTS_Div8_N8 fSAMPLING=fDTS/8, N=8 9 FDTS_Div16_N5 fSAMPLING=fDTS/16, N=5 10 FDTS_Div16_N6 fSAMPLING=fDTS/16, N=6 11 FDTS_Div16_N8 fSAMPLING=fDTS/16, N=8 12 FDTS_Div32_N5 fSAMPLING=fDTS/32, N=5 13 FDTS_Div32_N6 fSAMPLING=fDTS/32, N=6 14 FDTS_Div32_N8 fSAMPLING=fDTS/32, N=8 15 MSM Master/Slave mode 7 1 MSM NoSync No action 0 Sync The effect of an event on the trigger input (TRGI) is delayed to allow a perfect synchronization between the current timer and its slaves (through TRGO). It is useful if we want to synchronize several timers on a single external event. 1 TS Trigger selection 4 3 OCCS OCREF clear selection 3 1 SMS Slave mode selection 0 3 DIER DIER DMA/Interrupt enable register 0xC 0x20 read-write 0x00000000 TDE Trigger DMA request enable 14 1 TDE Disabled Trigger DMA request disabled 0 Enabled Trigger DMA request enabled 1 4 0x1 1-4 CC%sDE Capture/Compare %s DMA request enable 9 1 CC1DE Disabled CCx DMA request disabled 0 Enabled CCx DMA request enabled 1 UDE Update DMA request enable 8 1 UDE Disabled Update DMA request disabled 0 Enabled Update DMA request enabled 1 TIE Trigger interrupt enable 6 1 TIE Disabled Trigger interrupt disabled 0 Enabled Trigger interrupt enabled 1 4 0x1 1-4 CC%sIE Capture/Compare %s interrupt enable 1 1 CC1IE Disabled CCx interrupt disabled 0 Enabled CCx interrupt enabled 1 UIE Update interrupt enable 0 1 UIE Disabled Update interrupt disabled 0 Enabled Update interrupt enabled 1 SR SR status register 0x10 0x20 read-write 0x00000000 4 0x1 1-4 CC%sOF Capture/Compare %s overcapture flag 9 1 zeroToClear CC1OFR read NoOvercapture No overcapture has been detected 0 Overcapture The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set 1 CC1OFW write Clear Clear flag 0 TIF Trigger interrupt flag 6 1 zeroToClear TIFR read NoTrigger No trigger event occurred 0 Trigger Trigger interrupt pending 1 TIFW write Clear Clear flag 0 4 0x1 1-4 CC%sIF Capture/compare %s interrupt flag 1 1 zeroToClear CC1IFR read NoMatch No campture/compare has been detected 0 Match If CC1 is an output: The content of the counter TIMx_CNT matches the content of the TIMx_CCR1 register. If CC1 is an input: The counter value has been captured in TIMx_CCR1 register. 1 CC1IFW write Clear Clear flag 0 UIF Update interrupt flag 0 1 zeroToClear UIFR read NoUpdateOccurred No update occurred 0 UpdatePending Update interrupt pending 1 UIFW write Clear Clear flag 0 EGR EGR event generation register 0x14 0x20 write-only 0x00000000 TG Trigger generation 6 1 TGW Trigger The TIF flag is set in TIMx_SR register. Related interrupt or DMA transfer can occur if enabled. 1 4 0x1 1-4 CC%sG Capture/compare %s generation 1 1 CC1GW Trigger If CC1 is an output: CC1IF flag is set, Corresponding interrupt or DMA request is sent if enabled. If CC1 is an input: The current value of the counter is captured in TIMx_CCR1 register. 1 UG Update generation 0 1 UG Update Re-initializes the timer counter and generates an update of the registers. 1 CCMR1_Output CCMR1_Output capture/compare mode register 1 (output mode) 0x18 0x20 read-write 0x00000000 2 0x8 1-2 OC%sM_3 Output compare %s mode, bit 3 16 1 OC1M_3 Normal Normal output compare mode (modes 0-7) 0 Extended Extended output compare mode (modes 7-15) 1 2 0x8 1-2 OC%sCE Output compare %s clear enable 7 1 OC1CE Disabled OCxRef is not affected by the ETRF signal 0 Enabled OCxRef is cleared as soon as a High level is detected on ETRF signal 1 2 0x8 1-2 OC%sM Output compare %s mode 4 3 OC1M Frozen The comparison between the output compare register TIMx_CCRy and the counter TIMx_CNT has no effect on the outputs / OpmMode1: Retriggerable OPM mode 1 - In up-counting mode, the channel is active until a trigger event is detected (on TRGI signal). In down-counting mode, the channel is inactive 0 ActiveOnMatch Set channel to active level on match. OCyREF signal is forced high when the counter matches the capture/compare register / OpmMode2: Inversely to OpmMode1 1 InactiveOnMatch Set channel to inactive level on match. OCyREF signal is forced low when the counter matches the capture/compare register / Reserved 2 Toggle OCyREF toggles when TIMx_CNT=TIMx_CCRy / Reserved 3 ForceInactive OCyREF is forced low / CombinedPwmMode1: OCyREF has the same behavior as in PWM mode 1. OCyREFC is the logical OR between OC1REF and OC2REF 4 ForceActive OCyREF is forced high / CombinedPwmMode2: OCyREF has the same behavior as in PWM mode 2. OCyREFC is the logical AND between OC1REF and OC2REF 5 PwmMode1 In upcounting, channel is active as long as TIMx_CNT<TIMx_CCRy else inactive. In downcounting, channel is inactive as long as TIMx_CNT>TIMx_CCRy else active / AsymmetricPwmMode1: OCyREF has the same behavior as in PWM mode 1. OCyREFC outputs OC1REF when the counter is counting up, OC2REF when it is counting down 6 PwmMode2 Inversely to PwmMode1 / AsymmetricPwmMode2: Inversely to AsymmetricPwmMode1 7 2 0x8 1-2 OC%sPE Output compare %s preload enable 3 1 OC1PE Disabled Preload register on CCRx disabled. New values written to CCRx are taken into account immediately 0 Enabled Preload register on CCRx enabled. Preload value is loaded into active register on each update event 1 2 0x8 1-2 OC%sFE Output compare %s fast enable 2 1 OC1FE Disabled Fast output disabled 0 Enabled Fast output enabled 1 2 0x8 1-2 CC%sS Capture/Compare %s selection 0 2 CC1S Output CCx channel is configured as output 0 CCMR1_Input CCMR1_Input capture/compare mode register 1 (input mode) CCMR1_Output 0x18 0x20 read-write 0x00000000 2 0x8 1-2 IC%sF Input capture %s filter 4 4 ICFilter NoFilter No filter, sampling is done at fDTS 0 FCK_INT_N2 fSAMPLING=fCK_INT, N=2 1 FCK_INT_N4 fSAMPLING=fCK_INT, N=4 2 FCK_INT_N8 fSAMPLING=fCK_INT, N=8 3 FDTS_Div2_N6 fSAMPLING=fDTS/2, N=6 4 FDTS_Div2_N8 fSAMPLING=fDTS/2, N=8 5 FDTS_Div4_N6 fSAMPLING=fDTS/4, N=6 6 FDTS_Div4_N8 fSAMPLING=fDTS/4, N=8 7 FDTS_Div8_N6 fSAMPLING=fDTS/8, N=6 8 FDTS_Div8_N8 fSAMPLING=fDTS/8, N=8 9 FDTS_Div16_N5 fSAMPLING=fDTS/16, N=5 10 FDTS_Div16_N6 fSAMPLING=fDTS/16, N=6 11 FDTS_Div16_N8 fSAMPLING=fDTS/16, N=8 12 FDTS_Div32_N5 fSAMPLING=fDTS/32, N=5 13 FDTS_Div32_N6 fSAMPLING=fDTS/32, N=6 14 FDTS_Div32_N8 fSAMPLING=fDTS/32, N=8 15 2 0x8 1-2 IC%sPSC Input capture %s prescaler 2 2 ICPrescaler NoPrescaler No prescaler, capture is done each time an edge is detected on the capture input 0 TwoEvents Capture is done once every 2 events 1 FourEvents Capture is done once every 4 events 2 EightEvents Capture is done once every 8 events 3 CC2S Capture/compare 2 selection 8 2 CC2S TI2 CC2 channel is configured as input, IC2 is mapped on TI2 1 TI1 CC2 channel is configured as input, IC2 is mapped on TI1 2 TRC CC2 channel is configured as input, IC2 is mapped on TRC 3 CC1S Capture/Compare 1 selection 0 2 CC1S TI1 CC1 channel is configured as input, IC1 is mapped on TI1 1 TI2 CC1 channel is configured as input, IC1 is mapped on TI2 2 TRC CC1 channel is configured as input, IC1 is mapped on TRC 3 CCMR2_Output CCMR2_Output capture/compare mode register 2 (output mode) 0x1C 0x20 read-write 0x00000000 2 0x8 3-4 OC%sM_3 Output compare %s mode, bit 3 16 1 2 0x8 3-4 OC%sCE Output compare %s clear enable 7 1 2 0x8 3-4 OC%sM Output compare %s mode 4 3 2 0x8 3-4 OC%sPE Output compare %s preload enable 3 1 2 0x8 3-4 OC%sFE Output compare %s fast enable 2 1 2 0x8 3-4 CC%sS Capture/Compare %s selection 0 2 CCMR2_Input CCMR2_Input capture/compare mode register 2 (input mode) CCMR2_Output 0x1C 0x20 read-write 0x00000000 2 0x8 3-4 IC%sF Input capture %s filter 4 4 2 0x8 3-4 IC%sPSC Input capture %s prescaler 2 2 CC4S Capture/Compare 4 selection 8 2 CC4S TI4 CC4 channel is configured as input, IC4 is mapped on TI4 1 TI3 CC4 channel is configured as input, IC4 is mapped on TI3 2 TRC CC4 channel is configured as input, IC4 is mapped on TRC 3 CC3S Capture/Compare 3 selection 0 2 CC3S TI3 CC3 channel is configured as input, IC3 is mapped on TI3 1 TI4 CC3 channel is configured as input, IC3 is mapped on TI4 2 TRC CC3 channel is configured as input, IC3 is mapped on TRC 3 CCER CCER capture/compare enable register 0x20 0x20 read-write 0x00000000 4 0x4 1-4 CC%sNP Capture/Compare %s output Polarity 3 1 4 0x4 1-4 CC%sP Capture/Compare %s output Polarity 1 1 CC1P RisingEdge Noninverted/rising edge 0 FallingEdge Inverted/falling edge 1 4 0x4 1-4 CC%sE Capture/Compare %s output enable 0 1 CC1E Disabled Capture disabled 0 Enabled Capture enabled 1 CNT CNT counter 0x24 0x20 read-write 0x00000000 CNT Counter value 0 32 0 4294967295 PSC PSC prescaler 0x28 0x20 read-write 0x00000000 PSC Prescaler value 0 16 0 65535 ARR ARR auto-reload register 0x2C 0x20 read-write 0x00000000 ARR Auto-reload value 0 32 0 4294967295 4 0x4 1-4 CCR%s CCR%s capture/compare register 0x34 0x20 read-write 0x00000000 CCR Capture/Compare value 0 32 0 4294967295 DCR DCR DMA control register 0x48 0x20 read-write 0x00000000 DBL DMA burst length 8 5 0 18 DBA DMA base address 0 5 0 31 DMAR DMAR DMA address for full transfer 0x4C 0x20 read-write 0x00000000 DMAB DMA register for burst accesses 0 16 OR1 OR1 TIM option register 0x50 0x20 read-write 0x00000000 IOCREF_CLR IOCREF_CLR 0 1 AF1 AF1 TIM alternate function option register 1 0x60 0x20 read-write 0x00000000 ETRSEL External trigger source selection 14 4 TISEL TISEL TIM alternate function option register 1 0x68 0x20 read-write 0x00000000 TI1SEL TI1SEL 0 4 TI2SEL TI2SEL 8 4 TIM3 General-purpose-timers TIM 0x40000400 0x0 0x400 registers CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 UIFREMAP UIF status bit remapping 11 1 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 Ã t_CK_INT 1 Div4 t_DTS = 4 Ã t_CK_INT 2 ARPE Auto-reload preload enable 7 1 ARPE Disabled TIMx_APRR register is not buffered 0 Enabled TIMx_APRR register is buffered 1 CMS Center-aligned mode selection 5 2 CMS EdgeAligned The counter counts up or down depending on the direction bit 0 CenterAligned1 The counter counts up and down alternatively. Output compare interrupt flags are set only when the counter is counting down. 1 CenterAligned2 The counter counts up and down alternatively. Output compare interrupt flags are set only when the counter is counting up. 2 CenterAligned3 The counter counts up and down alternatively. Output compare interrupt flags are set both when the counter is counting up or down. 3 DIR Direction 4 1 DIR Up Counter used as upcounter 0 Down Counter used as downcounter 1 OPM One-pulse mode 3 1 OPM Disabled Counter is not stopped at update event 0 Enabled Counter stops counting at the next update event (clearing the CEN bit) 1 URS Update request source 2 1 URS AnyEvent Any of counter overflow/underflow, setting UG, or update through slave mode, generates an update interrupt or DMA request 0 CounterOnly Only counter overflow/underflow generates an update interrupt or DMA request 1 UDIS Update disable 1 1 UDIS Enabled Update event enabled 0 Disabled Update event disabled 1 CEN Counter enable 0 1 CEN Disabled Counter disabled 0 Enabled Counter enabled 1 CR2 CR2 control register 2 0x4 0x20 read-write 0x00000000 TI1S TI1 selection 7 1 TI1S Normal The TIMx_CH1 pin is connected to TI1 input 0 XOR The TIMx_CH1, CH2, CH3 pins are connected to TI1 input 1 MMS Master mode selection 4 3 CCDS Capture/compare DMA selection 3 1 CCDS OnCompare CCx DMA request sent when CCx event occurs 0 OnUpdate CCx DMA request sent when update event occurs 1 SMCR SMCR slave mode control register 0x8 0x20 read-write 0x00000000 TS2 Trigger selection 20 2 SMS_3 Slave mode selection - bit 3 16 1 ETP External trigger polarity 15 1 ETP NotInverted ETR is noninverted, active at high level or rising edge 0 Inverted ETR is inverted, active at low level or falling edge 1 ECE External clock enable 14 1 ECE Disabled External clock mode 2 disabled 0 Enabled External clock mode 2 enabled. The counter is clocked by any active edge on the ETRF signal. 1 ETPS External trigger prescaler 12 2 ETPS Div1 Prescaler OFF 0 Div2 ETRP frequency divided by 2 1 Div4 ETRP frequency divided by 4 2 Div8 ETRP frequency divided by 8 3 ETF External trigger filter 8 4 ETF NoFilter No filter, sampling is done at fDTS 0 FCK_INT_N2 fSAMPLING=fCK_INT, N=2 1 FCK_INT_N4 fSAMPLING=fCK_INT, N=4 2 FCK_INT_N8 fSAMPLING=fCK_INT, N=8 3 FDTS_Div2_N6 fSAMPLING=fDTS/2, N=6 4 FDTS_Div2_N8 fSAMPLING=fDTS/2, N=8 5 FDTS_Div4_N6 fSAMPLING=fDTS/4, N=6 6 FDTS_Div4_N8 fSAMPLING=fDTS/4, N=8 7 FDTS_Div8_N6 fSAMPLING=fDTS/8, N=6 8 FDTS_Div8_N8 fSAMPLING=fDTS/8, N=8 9 FDTS_Div16_N5 fSAMPLING=fDTS/16, N=5 10 FDTS_Div16_N6 fSAMPLING=fDTS/16, N=6 11 FDTS_Div16_N8 fSAMPLING=fDTS/16, N=8 12 FDTS_Div32_N5 fSAMPLING=fDTS/32, N=5 13 FDTS_Div32_N6 fSAMPLING=fDTS/32, N=6 14 FDTS_Div32_N8 fSAMPLING=fDTS/32, N=8 15 MSM Master/Slave mode 7 1 MSM NoSync No action 0 Sync The effect of an event on the trigger input (TRGI) is delayed to allow a perfect synchronization between the current timer and its slaves (through TRGO). It is useful if we want to synchronize several timers on a single external event. 1 TS Trigger selection 4 3 OCCS OCREF clear selection 3 1 SMS Slave mode selection 0 3 DIER DIER DMA/Interrupt enable register 0xC 0x20 read-write 0x00000000 TDE Trigger DMA request enable 14 1 TDE Disabled Trigger DMA request disabled 0 Enabled Trigger DMA request enabled 1 4 0x1 1-4 CC%sDE Capture/Compare %s DMA request enable 9 1 CC1DE Disabled CCx DMA request disabled 0 Enabled CCx DMA request enabled 1 UDE Update DMA request enable 8 1 UDE Disabled Update DMA request disabled 0 Enabled Update DMA request enabled 1 TIE Trigger interrupt enable 6 1 TIE Disabled Trigger interrupt disabled 0 Enabled Trigger interrupt enabled 1 4 0x1 1-4 CC%sIE Capture/Compare %s interrupt enable 1 1 CC1IE Disabled CCx interrupt disabled 0 Enabled CCx interrupt enabled 1 UIE Update interrupt enable 0 1 UIE Disabled Update interrupt disabled 0 Enabled Update interrupt enabled 1 SR SR status register 0x10 0x20 read-write 0x00000000 4 0x1 1-4 CC%sOF Capture/Compare %s overcapture flag 9 1 zeroToClear CC1OFR read NoOvercapture No overcapture has been detected 0 Overcapture The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set 1 CC1OFW write Clear Clear flag 0 TIF Trigger interrupt flag 6 1 zeroToClear TIFR read NoTrigger No trigger event occurred 0 Trigger Trigger interrupt pending 1 TIFW write Clear Clear flag 0 4 0x1 1-4 CC%sIF Capture/compare %s interrupt flag 1 1 zeroToClear CC1IFR read NoMatch No campture/compare has been detected 0 Match If CC1 is an output: The content of the counter TIMx_CNT matches the content of the TIMx_CCR1 register. If CC1 is an input: The counter value has been captured in TIMx_CCR1 register. 1 CC1IFW write Clear Clear flag 0 UIF Update interrupt flag 0 1 zeroToClear UIFR read NoUpdateOccurred No update occurred 0 UpdatePending Update interrupt pending 1 UIFW write Clear Clear flag 0 EGR EGR event generation register 0x14 0x20 write-only 0x00000000 TG Trigger generation 6 1 TGW Trigger The TIF flag is set in TIMx_SR register. Related interrupt or DMA transfer can occur if enabled. 1 4 0x1 1-4 CC%sG Capture/compare %s generation 1 1 CC1GW Trigger If CC1 is an output: CC1IF flag is set, Corresponding interrupt or DMA request is sent if enabled. If CC1 is an input: The current value of the counter is captured in TIMx_CCR1 register. 1 UG Update generation 0 1 UG Update Re-initializes the timer counter and generates an update of the registers. 1 CCMR1_Output CCMR1_Output capture/compare mode register 1 (output mode) 0x18 0x20 read-write 0x00000000 2 0x8 1-2 OC%sM_3 Output compare %s mode, bit 3 16 1 OC1M_3 Normal Normal output compare mode (modes 0-7) 0 Extended Extended output compare mode (modes 7-15) 1 2 0x8 1-2 OC%sCE Output compare %s clear enable 7 1 OC1CE Disabled OCxRef is not affected by the ETRF signal 0 Enabled OCxRef is cleared as soon as a High level is detected on ETRF signal 1 2 0x8 1-2 OC%sM Output compare %s mode 4 3 OC1M Frozen The comparison between the output compare register TIMx_CCRy and the counter TIMx_CNT has no effect on the outputs / OpmMode1: Retriggerable OPM mode 1 - In up-counting mode, the channel is active until a trigger event is detected (on TRGI signal). In down-counting mode, the channel is inactive 0 ActiveOnMatch Set channel to active level on match. OCyREF signal is forced high when the counter matches the capture/compare register / OpmMode2: Inversely to OpmMode1 1 InactiveOnMatch Set channel to inactive level on match. OCyREF signal is forced low when the counter matches the capture/compare register / Reserved 2 Toggle OCyREF toggles when TIMx_CNT=TIMx_CCRy / Reserved 3 ForceInactive OCyREF is forced low / CombinedPwmMode1: OCyREF has the same behavior as in PWM mode 1. OCyREFC is the logical OR between OC1REF and OC2REF 4 ForceActive OCyREF is forced high / CombinedPwmMode2: OCyREF has the same behavior as in PWM mode 2. OCyREFC is the logical AND between OC1REF and OC2REF 5 PwmMode1 In upcounting, channel is active as long as TIMx_CNT<TIMx_CCRy else inactive. In downcounting, channel is inactive as long as TIMx_CNT>TIMx_CCRy else active / AsymmetricPwmMode1: OCyREF has the same behavior as in PWM mode 1. OCyREFC outputs OC1REF when the counter is counting up, OC2REF when it is counting down 6 PwmMode2 Inversely to PwmMode1 / AsymmetricPwmMode2: Inversely to AsymmetricPwmMode1 7 2 0x8 1-2 OC%sPE Output compare %s preload enable 3 1 OC1PE Disabled Preload register on CCRx disabled. New values written to CCRx are taken into account immediately 0 Enabled Preload register on CCRx enabled. Preload value is loaded into active register on each update event 1 2 0x8 1-2 OC%sFE Output compare %s fast enable 2 1 OC1FE Disabled Fast output disabled 0 Enabled Fast output enabled 1 2 0x8 1-2 CC%sS Capture/Compare %s selection 0 2 CC1S Output CCx channel is configured as output 0 CCMR1_Input CCMR1_Input capture/compare mode register 1 (input mode) CCMR1_Output 0x18 0x20 read-write 0x00000000 2 0x8 1-2 IC%sF Input capture %s filter 4 4 ICFilter NoFilter No filter, sampling is done at fDTS 0 FCK_INT_N2 fSAMPLING=fCK_INT, N=2 1 FCK_INT_N4 fSAMPLING=fCK_INT, N=4 2 FCK_INT_N8 fSAMPLING=fCK_INT, N=8 3 FDTS_Div2_N6 fSAMPLING=fDTS/2, N=6 4 FDTS_Div2_N8 fSAMPLING=fDTS/2, N=8 5 FDTS_Div4_N6 fSAMPLING=fDTS/4, N=6 6 FDTS_Div4_N8 fSAMPLING=fDTS/4, N=8 7 FDTS_Div8_N6 fSAMPLING=fDTS/8, N=6 8 FDTS_Div8_N8 fSAMPLING=fDTS/8, N=8 9 FDTS_Div16_N5 fSAMPLING=fDTS/16, N=5 10 FDTS_Div16_N6 fSAMPLING=fDTS/16, N=6 11 FDTS_Div16_N8 fSAMPLING=fDTS/16, N=8 12 FDTS_Div32_N5 fSAMPLING=fDTS/32, N=5 13 FDTS_Div32_N6 fSAMPLING=fDTS/32, N=6 14 FDTS_Div32_N8 fSAMPLING=fDTS/32, N=8 15 2 0x8 1-2 IC%sPSC Input capture %s prescaler 2 2 ICPrescaler NoPrescaler No prescaler, capture is done each time an edge is detected on the capture input 0 TwoEvents Capture is done once every 2 events 1 FourEvents Capture is done once every 4 events 2 EightEvents Capture is done once every 8 events 3 CC2S Capture/compare 2 selection 8 2 CC2S TI2 CC2 channel is configured as input, IC2 is mapped on TI2 1 TI1 CC2 channel is configured as input, IC2 is mapped on TI1 2 TRC CC2 channel is configured as input, IC2 is mapped on TRC 3 CC1S Capture/Compare 1 selection 0 2 CC1S TI1 CC1 channel is configured as input, IC1 is mapped on TI1 1 TI2 CC1 channel is configured as input, IC1 is mapped on TI2 2 TRC CC1 channel is configured as input, IC1 is mapped on TRC 3 CCMR2_Output CCMR2_Output capture/compare mode register 2 (output mode) 0x1C 0x20 read-write 0x00000000 2 0x8 3-4 OC%sM_3 Output compare %s mode, bit 3 16 1 2 0x8 3-4 OC%sCE Output compare %s clear enable 7 1 2 0x8 3-4 OC%sM Output compare %s mode 4 3 2 0x8 3-4 OC%sPE Output compare %s preload enable 3 1 2 0x8 3-4 OC%sFE Output compare %s fast enable 2 1 2 0x8 3-4 CC%sS Capture/Compare %s selection 0 2 CCMR2_Input CCMR2_Input capture/compare mode register 2 (input mode) CCMR2_Output 0x1C 0x20 read-write 0x00000000 2 0x8 3-4 IC%sF Input capture %s filter 4 4 2 0x8 3-4 IC%sPSC Input capture %s prescaler 2 2 CC4S Capture/Compare 4 selection 8 2 CC4S TI4 CC4 channel is configured as input, IC4 is mapped on TI4 1 TI3 CC4 channel is configured as input, IC4 is mapped on TI3 2 TRC CC4 channel is configured as input, IC4 is mapped on TRC 3 CC3S Capture/Compare 3 selection 0 2 CC3S TI3 CC3 channel is configured as input, IC3 is mapped on TI3 1 TI4 CC3 channel is configured as input, IC3 is mapped on TI4 2 TRC CC3 channel is configured as input, IC3 is mapped on TRC 3 CCER CCER capture/compare enable register 0x20 0x20 read-write 0x00000000 4 0x4 1-4 CC%sNP Capture/Compare %s output Polarity 3 1 4 0x4 1-4 CC%sP Capture/Compare %s output Polarity 1 1 CC1P RisingEdge Noninverted/rising edge 0 FallingEdge Inverted/falling edge 1 4 0x4 1-4 CC%sE Capture/Compare %s output enable 0 1 CC1E Disabled Capture disabled 0 Enabled Capture enabled 1 CNT CNT counter 0x24 0x20 read-write 0x00000000 CNT Counter value 0 16 0 65535 PSC PSC prescaler 0x28 0x20 read-write 0x00000000 PSC Prescaler value 0 16 0 65535 ARR ARR auto-reload register 0x2C 0x20 read-write 0x00000000 ARR Auto-reload value 0 16 0 65535 4 0x4 1-4 CCR%s CCR%s capture/compare register 0x34 0x20 read-write 0x00000000 CCR Capture/Compare value 0 16 0 65535 DCR DCR DMA control register 0x48 0x20 read-write 0x00000000 DBL DMA burst length 8 5 0 18 DBA DMA base address 0 5 0 31 DMAR DMAR DMA address for full transfer 0x4C 0x20 read-write 0x00000000 DMAB DMA register for burst accesses 0 16 OR1 OR1 TIM option register 0x50 0x20 read-write 0x00000000 IOCREF_CLR IOCREF_CLR 0 1 AF1 AF1 TIM alternate function option register 1 0x60 0x20 read-write 0x00000000 ETRSEL External trigger source selection 14 4 TISEL TISEL TIM alternate function option register 1 0x68 0x20 read-write 0x00000000 TI1SEL TI1SEL 0 4 TI2SEL TI2SEL 8 4 VREFBUF System configuration controller VREFBUF 0x40010030 0x0 0x400 registers CSR CSR VREFBUF control and status register 0x0 0x20 0x00000002 ENVR Voltage reference buffer mode enable This bit is used to enable the voltage reference buffer mode. 0 1 read-write HIZ High impedance mode This bit controls the analog switch to connect or not the VREF+ pin. Refer to for the mode descriptions depending on ENVR bit configuration. 1 1 read-write VRS Voltage reference scale This bit selects the value generated by the voltage reference buffer. 2 1 read-write VRR Voltage reference buffer ready 3 1 read-only CCR CCR VREFBUF calibration control register 0x4 0x20 read-write 0x00000000 TRIM Trimming code These bits are automatically initialized after reset with the trimming value stored in the Flash memory during the production test. Writing into these bits allows the tuning of the internal reference buffer voltage. 0 6 read-write

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