Showing content from https://stm32-rs.github.io/stm32-rs/stm32f413.svd.patched below:
STM32F413 1.9 STM32F413 CM4 r0p1 little true true 4 false 8 32 0x20 0x00000000 0xFFFFFFFF AES Advanced encryption standard hardware accelerator AES 0x50060000 0x0 0x31 registers CRYPTO AES global interrupt 79 SAI1 SAI1 global interrupt 87 CR CR control register 0x0 0x20 read-write 0x00000000 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 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 KEYSIZE Key size selection 18 1 KEYSIZE AES128 128 0 AES256 256 1 CHMOD_2 Chaining mode selection, bit [2] 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 GCM or CCM phase selection 13 2 GCMPH Init Init phase 0 Header Header phase 1 Payload Payload phase 2 Final Final Phase 3 SR SR status register 0x4 0x20 read-only 0x00000000 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 BUSY Busy 3 1 BUSY Idle Idle 0 Busy Busy 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 key register 4 0x30 0x20 read-write 0x00000000 KEY Cryptographic key, bits [159:128] 0 32 0 4294967295 KEYR5 key register 5 0x34 0x20 read-write 0x00000000 KEY Cryptographic key, bits [191:160] 0 32 0 4294967295 KEYR6 key register 6 0x38 0x20 read-write 0x00000000 KEY Cryptographic key, bits [223:192] 0 32 0 4294967295 KEYR7 key register 7 0x3C 0x20 read-write 0x00000000 KEY Cryptographic key, bits [255:224] 0 32 0 4294967295 SUSP0R suspend registers 0x40 0x20 read-write 0x00000000 SUSP AES suspend 0 32 0 4294967295 SUSP1R suspend registers 0x44 0x20 read-write 0x00000000 SUSP AES suspend 0 32 0 4294967295 SUSP2R suspend registers 0x48 0x20 read-write 0x00000000 SUSP AES suspend 0 32 0 4294967295 SUSP3R suspend registers 0x4C 0x20 read-write 0x00000000 SUSP AES suspend 0 32 0 4294967295 SUSP4R suspend registers 0x50 0x20 read-write 0x00000000 SUSP AES suspend 0 32 0 4294967295 SUSP5R suspend registers 0x54 0x20 read-write 0x00000000 SUSP AES suspend 0 32 0 4294967295 SUSP6R suspend registers 0x58 0x20 read-write 0x00000000 SUSP AES suspend 0 32 0 4294967295 SUSP7R suspend registers 0x5C 0x20 read-write 0x00000000 SUSP AES suspend 0 32 0 4294967295 TIM1 Advanced-timers TIM 0x40010000 0x0 0x51 registers TIM1_CC TIM1 Capture Compare interrupt 27 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 à t_CK_INT 1 Div4 t_DTS = 4 à 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 4 0x2 1-4 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 MMS Reset The UG bit from the TIMx_EGR register is used as trigger output 0 Enable The counter enable signal, CNT_EN, is used as trigger output 1 Update The update event is selected as trigger output 2 ComparePulse The trigger output send a positive pulse when the CC1IF flag it to be set, as soon as a capture or a compare match occurred 3 CompareOC1 OC1REF signal is used as trigger output 4 CompareOC2 OC2REF signal is used as trigger output 5 CompareOC3 OC3REF signal is used as trigger output 6 CompareOC4 OC4REF signal is used as trigger output 7 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 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 TS ITR0 Internal Trigger 0 (ITR0) 0 ITR1 Internal Trigger 1 (ITR1) 1 ITR2 Internal Trigger 2 (ITR2) 2 TI1F_ED TI1 Edge Detector (TI1F_ED) 4 TI1FP1 Filtered Timer Input 1 (TI1FP1) 5 TI2FP2 Filtered Timer Input 2 (TI2FP2) 6 ETRF External Trigger input (ETRF) 7 SMS Slave mode selection 0 3 SMS Disabled Slave mode disabled - if CEN = â1 then the prescaler is clocked directly by the internal clock. 0 Encoder_Mode_1 Encoder mode 1 - Counter counts up/down on TI2FP1 edge depending on TI1FP2 level. 1 Encoder_Mode_2 Encoder mode 2 - Counter counts up/down on TI1FP2 edge depending on TI2FP1 level. 2 Encoder_Mode_3 Encoder mode 3 - Counter counts up/down on both TI1FP1 and TI2FP2 edges depending on the level of the other input. 3 Reset_Mode Reset Mode - Rising edge of the selected trigger input (TRGI) reinitializes the counter and generates an update of the registers. 4 Gated_Mode Gated Mode - The counter clock is enabled when the trigger input (TRGI) is high. The counter stops (but is not reset) as soon as the trigger becomes low. Both start and stop of the counter are controlled. 5 Trigger_Mode Trigger Mode - The counter starts at a rising edge of the trigger TRGI (but it is not reset). Only the start of the counter is controlled. 6 Ext_Clock_Mode External Clock Mode 1 - Rising edges of the selected trigger (TRGI) clock the counter. 7 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 COMDE COM DMA request enable 13 1 COMDE Disabled COM DMA request disabled 0 Enabled COM 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 BIE Break interrupt enable 7 1 BIE Disabled Break interrupt disabled 0 Enabled Break interrupt enabled 1 TIE Trigger interrupt enable 6 1 TIE Disabled Trigger interrupt disabled 0 Enabled Trigger interrupt enabled 1 COMIE COM interrupt enable 5 1 COMIE Disabled COM interrupt disabled 0 Enabled COM 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 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 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 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 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 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 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 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 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%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 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 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%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%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 3 0x4 1-3 CC%sNP Capture/Compare %s output Polarity 3 1 CC1NP ActiveHigh OCxN active high 0 ActiveLow OCxN active low 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 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 32 RCR RCR repetition counter register 0x30 0x20 read-write 0x00000000 REP Repetition counter value 0 8 0 255 BDTR BDTR break and dead-time register 0x44 0x20 read-write 0x00000000 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 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 BKP Break polarity 13 1 BKP ActiveLow Break input BRKx is active low 0 ActiveHigh Break input BRKx is active high 1 BKE Break enable 12 1 BKE Disabled Break function x disabled 0 Enabled Break function x enabled 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 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 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 DTG Dead-time generator setup 0 8 0 255 TIM8 TIM 0x40010400 TIM8_CC TIM8 Cap/Com interrupt 46 ADC1 Analog-to-digital converter ADC 0x40012000 0x0 0x51 registers ADC ADC1 global interrupt 18 SR SR status register 0x0 0x20 read-write 0x00000000 OVR Overrun 5 1 zeroToClear OVRR read NoOverrun No overrun occurred 0 Overrun Overrun occurred 1 OVRW write Clear Clear flag 0 STRT Regular channel start flag 4 1 zeroToClear STRTR read NotStarted No regular channel conversion started 0 Started Regular channel conversion has started 1 STRTW write Clear Clear flag 0 JSTRT Injected channel start flag 3 1 zeroToClear JSTRTR read NotStarted No injected channel conversion started 0 Started Injected channel conversion has started 1 JSTRTW write Clear Clear flag 0 JEOC Injected channel end of conversion 2 1 zeroToClear JEOCR read NotComplete Conversion is not complete 0 Complete Conversion complete 1 JEOCW write Clear Clear flag 0 EOC Regular channel end of conversion 1 1 zeroToClear EOCR read NotComplete Conversion is not complete 0 Complete Conversion complete 1 EOCW write Clear Clear flag 0 AWD Analog watchdog flag 0 1 zeroToClear AWDR read NoEvent No analog watchdog event occurred 0 Event Analog watchdog event occurred 1 AWDW write Clear Clear flag 0 CR1 CR1 control register 1 0x4 0x20 read-write 0x00000000 OVRIE Overrun interrupt enable 26 1 OVRIE Disabled Overrun interrupt disabled 0 Enabled Overrun interrupt enabled 1 RES Resolution 24 2 RES TwelveBit 12-bit (15 ADCCLK cycles) 0 TenBit 10-bit (13 ADCCLK cycles) 1 EightBit 8-bit (11 ADCCLK cycles) 2 SixBit 6-bit (9 ADCCLK cycles) 3 AWDEN Analog watchdog enable on regular channels 23 1 AWDEN Disabled Analog watchdog disabled on regular channels 0 Enabled Analog watchdog enabled on regular channels 1 JAWDEN Analog watchdog enable on injected channels 22 1 JAWDEN Disabled Analog watchdog disabled on injected channels 0 Enabled Analog watchdog enabled on injected channels 1 DISCNUM Discontinuous mode channel count 13 3 0 7 JDISCEN Discontinuous mode on injected channels 12 1 JDISCEN Disabled Discontinuous mode on injected channels disabled 0 Enabled Discontinuous mode on injected channels enabled 1 DISCEN Discontinuous mode on regular channels 11 1 DISCEN Disabled Discontinuous mode on regular channels disabled 0 Enabled Discontinuous mode on regular channels enabled 1 JAUTO Automatic injected group conversion 10 1 JAUTO Disabled Automatic injected group conversion disabled 0 Enabled Automatic injected group conversion enabled 1 AWDSGL Enable the watchdog on a single channel in scan mode 9 1 AWDSGL AllChannels Analog watchdog enabled on all channels 0 SingleChannel Analog watchdog enabled on a single channel 1 SCAN Scan mode 8 1 SCAN Disabled Scan mode disabled 0 Enabled Scan mode enabled 1 JEOCIE Interrupt enable for injected channels 7 1 JEOCIE Disabled JEOC interrupt disabled 0 Enabled JEOC interrupt enabled 1 AWDIE Analog watchdog interrupt enable 6 1 AWDIE Disabled Analogue watchdog interrupt disabled 0 Enabled Analogue watchdog interrupt enabled 1 EOCIE Interrupt enable for EOC 5 1 EOCIE Disabled EOC interrupt disabled 0 Enabled EOC interrupt enabled 1 AWDCH Analog watchdog channel select bits 0 5 0 18 CR2 CR2 control register 2 0x8 0x20 read-write 0x00000000 SWSTART Start conversion of regular channels 30 1 SWSTARTW write Start Starts conversion of regular channels 1 EXTEN External trigger enable for regular channels 28 2 EXTEN Disabled Trigger detection disabled 0 RisingEdge Trigger detection on the rising edge 1 FallingEdge Trigger detection on the falling edge 2 BothEdges Trigger detection on both the rising and falling edges 3 EXTSEL External event select for regular group 24 4 EXTSEL TIM1CC1 Timer 1 CC1 event 0 TIM1CC2 Timer 1 CC2 event 1 TIM1CC3 Timer 1 CC3 event 2 TIM2CC2 Timer 2 CC2 event 3 TIM2CC3 Timer 2 CC3 event 4 TIM2CC4 Timer 2 CC4 event 5 TIM2TRGO Timer 2 TRGO event 6 TIM3CC1 Timer 3 CC1 event 7 TIM3TRGO Timer 3 TRGO event 8 TIM4CC4 Timer 4 CC4 event 9 TIM5CC1 Timer 5 CC1 event 10 TIM5CC2 Timer 5 CC2 event 11 TIM5CC3 Timer 5 CC3 event 12 TIM8CC1 Timer 8 CC1 event 13 TIM8TRGO Timer 8 TRGO event 14 EXTI11 EXTI line 11 15 JSWSTART Start conversion of injected channels 22 1 JSWSTARTW write Start Starts conversion of injected channels 1 JEXTEN External trigger enable for injected channels 20 2 JEXTEN Disabled Trigger detection disabled 0 RisingEdge Trigger detection on the rising edge 1 FallingEdge Trigger detection on the falling edge 2 BothEdges Trigger detection on both the rising and falling edges 3 JEXTSEL External event select for injected group 16 4 JEXTSEL TIM1CC4 Timer 1 CC4 event 0 TIM1TRGO Timer 1 TRGO event 1 TIM2CC1 Timer 2 CC1 event 2 TIM2TRGO Timer 2 TRGO event 3 TIM3CC2 Timer 3 CC2 event 4 TIM3CC4 Timer 3 CC4 event 5 TIM4CC1 Timer 4 CC1 event 6 TIM4CC2 Timer 4 CC2 event 7 TIM4CC3 Timer 4 CC3 event 8 TIM4TRGO Timer 4 TRGO event 9 TIM5CC4 Timer 5 CC4 event 10 TIM5TRGO Timer 5 TRGO event 11 TIM8CC2 Timer 8 CC2 event 12 TIM8CC3 Timer 8 CC3 event 13 TIM8CC4 Timer 8 CC4 event 14 EXTI15 EXTI line 15 15 ALIGN Data alignment 11 1 ALIGN Right Right alignment 0 Left Left alignment 1 EOCS End of conversion selection 10 1 EOCS EachSequence The EOC bit is set at the end of each sequence of regular conversions 0 EachConversion The EOC bit is set at the end of each regular conversion 1 DDS DMA disable selection (for single ADC mode) 9 1 DDS Single No new DMA request is issued after the last transfer 0 Continuous DMA requests are issued as long as data are converted and DMA=1 1 DMA Direct memory access mode (for single ADC mode) 8 1 DMA Disabled DMA mode disabled 0 Enabled DMA mode enabled 1 CONT Continuous conversion 1 1 CONT Single Single conversion mode 0 Continuous Continuous conversion mode 1 ADON A/D Converter ON / OFF 0 1 ADON Disabled Disable ADC conversion and go to power down mode 0 Enabled Enable ADC 1 SMPR1 SMPR1 sample time register 1 0xC 0x20 read-write 0x00000000 9 0x3 10-18 SMP%s Channel %s sample time selection 0 3 SMP10 Cycles3 3 cycles 0 Cycles15 15 cycles 1 Cycles28 28 cycles 2 Cycles56 56 cycles 3 Cycles84 84 cycles 4 Cycles112 112 cycles 5 Cycles144 144 cycles 6 Cycles480 480 cycles 7 SMPR2 SMPR2 sample time register 2 0x10 0x20 read-write 0x00000000 10 0x3 0-9 SMP%s Channel %s sample time selection 0 3 4 0x4 1-4 JOFR%s JOFR%s injected channel data offset register %s 0x14 0x20 read-write 0x00000000 JOFFSET Data offset for injected channel 0 12 0 4095 HTR HTR watchdog higher threshold register 0x24 0x20 read-write 0x00000FFF HT Analog watchdog higher threshold 0 12 0 4095 LTR LTR watchdog lower threshold register 0x28 0x20 read-write 0x00000000 LT Analog watchdog lower threshold 0 12 0 4095 SQR1 SQR1 regular sequence register 1 0x2C 0x20 read-write 0x00000000 L Regular channel sequence length 20 4 0 15 4 0x5 13-16 SQ%s %s conversion in regular sequence 0 5 0 18 SQR2 SQR2 regular sequence register 2 0x30 0x20 read-write 0x00000000 6 0x5 7-12 SQ%s %s conversion in regular sequence 0 5 SQR3 SQR3 regular sequence register 3 0x34 0x20 read-write 0x00000000 6 0x5 1-6 SQ%s %s conversion in regular sequence 0 5 JSQR JSQR injected sequence register 0x38 0x20 read-write 0x00000000 JL Injected sequence length 20 2 0 3 4 0x5 1-4 JSQ%s %s conversion in injected sequence 0 5 0 18 4 0x4 1-4 JDR%s JDR%s injected data register x 0x3C 0x20 read-only 0x00000000 JDATA Injected data 0 16 DR DR regular data register 0x4C 0x20 read-only 0x00000000 DATA Regular data 0 16 TIM7 Basic timers TIM 0x40001400 0x0 0x51 registers TIM7 TIM7 global interrupt 55 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 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 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 TIM6 TIM 0x40001000 TIM6_GLB_IT_DAC1_DAC2 TIM6 global and DAC12 underrun interrupts 54 DFSDM2_FILTER1 DFSDM2 SD filter 1 global interrupt 98 DFSDM2_FILTER3 DFSDM2 SD filter 3 global interrupt 100 CAN1 Controller area network CAN 0x40006400 0x0 0x321 registers CAN1_TX CAN1 TX interrupts 19 CAN1_RX0 CAN1 RX0 interrupts 20 CAN1_RX1 CAN1 RX1 interrupts 21 CAN1_SCE CAN1 SCE interrupt 22 RNG Rng global interrupt 80 MCR MCR master control register 0x0 0x20 read-write 0x00010002 DBF DBF 16 1 RESET RESET 15 1 TTCM TTCM 7 1 ABOM ABOM 6 1 AWUM AWUM 5 1 NART NART 4 1 RFLM RFLM 3 1 TXFP TXFP 2 1 SLEEP SLEEP 1 1 INRQ INRQ 0 1 MSR MSR master status register 0x4 0x20 0x00000C02 RX RX 11 1 read-only SAMP SAMP 10 1 read-only RXM RXM 9 1 read-only TXM TXM 8 1 read-only SLAKI SLAKI 4 1 read-write WKUI WKUI 3 1 read-write ERRI ERRI 2 1 read-write SLAK SLAK 1 1 read-only INAK INAK 0 1 read-only TSR TSR transmit status register 0x8 0x20 0x1C000000 3 0x1 0-2 LOW%s Lowest priority flag for mailbox %s 29 1 read-only 3 0x1 0-2 TME%s Lowest priority flag for mailbox %s 26 1 read-only CODE CODE 24 2 read-only 3 0x8 0-2 ABRQ%s ABRQ%s 7 1 read-write 3 0x8 0-2 TERR%s TERR%s 3 1 read-write 3 0x8 0-2 ALST%s ALST%s 2 1 read-write 3 0x8 0-2 TXOK%s TXOK%s 1 1 read-write 3 0x8 0-2 RQCP%s RQCP%s 0 1 read-write 2 0x4 0-1 RF%sR RF%sR receive FIFO %s register 0xC 0x20 0x00000000 RFOM RFOM0 5 1 read-write RFOM0W write Release Set by software to release the output mailbox of the FIFO 1 FOVR FOVR0 4 1 read-write FOVR0R read NoOverrun No FIFO x overrun 0 Overrun FIFO x overrun 1 FOVR0W write Clear Clear flag 1 FULL FULL0 3 1 read-write FULL0R read NotFull FIFO x is not full 0 Full FIFO x is full 1 FULL0W write Clear Clear flag 1 FMP FMP0 0 2 read-only IER IER interrupt enable register 0x14 0x20 read-write 0x00000000 SLKIE SLKIE 17 1 SLKIE Disabled No interrupt when SLAKI bit is set 0 Enabled Interrupt generated when SLAKI bit is set 1 WKUIE WKUIE 16 1 WKUIE Disabled No interrupt when WKUI is set 0 Enabled Interrupt generated when WKUI bit is set 1 ERRIE ERRIE 15 1 ERRIE Disabled No interrupt will be generated when an error condition is pending in the CAN_ESR 0 Enabled An interrupt will be generation when an error condition is pending in the CAN_ESR 1 LECIE LECIE 11 1 LECIE Disabled ERRI bit will not be set when the error code in LEC[2:0] is set by hardware on error detection 0 Enabled ERRI bit will be set when the error code in LEC[2:0] is set by hardware on error detection 1 BOFIE BOFIE 10 1 BOFIE Disabled ERRI bit will not be set when BOFF is set 0 Enabled ERRI bit will be set when BOFF is set 1 EPVIE EPVIE 9 1 EPVIE Disabled ERRI bit will not be set when EPVF is set 0 Enabled ERRI bit will be set when EPVF is set 1 EWGIE EWGIE 8 1 EWGIE Disabled ERRI bit will not be set when EWGF is set 0 Enabled ERRI bit will be set when EWGF is set 1 FOVIE1 FOVIE1 6 1 FOVIE1 Disabled No interrupt when FOVR is set 0 Enabled Interrupt generation when FOVR is set 1 FFIE1 FFIE1 5 1 FFIE1 Disabled No interrupt when FULL bit is set 0 Enabled Interrupt generated when FULL bit is set 1 FMPIE1 FMPIE1 4 1 FMPIE1 Disabled No interrupt generated when state of FMP[1:0] bits are not 00b 0 Enabled Interrupt generated when state of FMP[1:0] bits are not 00b 1 FOVIE0 FOVIE0 3 1 FOVIE0 Disabled No interrupt when FOVR bit is set 0 Enabled Interrupt generated when FOVR bit is set 1 FFIE0 FFIE0 2 1 FFIE0 Disabled No interrupt when FULL bit is set 0 Enabled Interrupt generated when FULL bit is set 1 FMPIE0 FMPIE0 1 1 FMPIE0 Disabled No interrupt generated when state of FMP[1:0] bits are not 00 0 Enabled Interrupt generated when state of FMP[1:0] bits are not 00b 1 TMEIE TMEIE 0 1 TMEIE Disabled No interrupt when RQCPx bit is set 0 Enabled Interrupt generated when RQCPx bit is set 1 ESR ESR interrupt enable register 0x18 0x20 0x00000000 REC REC 24 8 read-only TEC TEC 16 8 read-only LEC LEC 4 3 read-write LEC NoError No Error 0 Stuff Stuff Error 1 Form Form Error 2 Ack Acknowledgment Error 3 BitRecessive Bit recessive Error 4 BitDominant Bit dominant Error 5 Crc CRC Error 6 Custom Set by software 7 BOFF BOFF 2 1 read-only EPVF EPVF 1 1 read-only EWGF EWGF 0 1 read-only BTR BTR bit timing register 0x1C 0x20 read-write 0x00000000 SILM SILM 31 1 SILM Normal Normal operation 0 Silent Silent Mode 1 LBKM LBKM 30 1 LBKM Disabled Loop Back Mode disabled 0 Enabled Loop Back Mode enabled 1 SJW SJW 24 2 TS2 TS2 20 3 TS1 TS1 16 4 BRP BRP 0 10 3 0x10 0-2 TX%s CAN Transmit cluster 0x180 TIR TI0R TX mailbox identifier register 0x0 0x20 read-write 0x00000000 STID STID 21 11 EXID EXID 3 18 IDE IDE 2 1 IDE Standard Standard identifier 0 Extended Extended identifier 1 RTR RTR 1 1 RTR Data Data frame 0 Remote Remote frame 1 TXRQ TXRQ 0 1 TDTR TDT0R mailbox data length control and time stamp register 0x4 0x20 read-write 0x00000000 TIME TIME 16 16 TGT TGT 8 1 DLC DLC 0 4 0 8 TDLR TDL0R mailbox data low register 0x8 0x20 read-write 0x00000000 4 0x8 0-3 DATA%s DATA%s 0 8 TDHR TDH0R mailbox data high register 0xC 0x20 read-write 0x00000000 4 0x8 4-7 DATA%s DATA%s 0 8 2 0x10 0-1 RX%s CAN Receive cluster 0x1B0 RIR RI0R receive FIFO mailbox identifier register 0x0 0x20 read-only 0x00000000 STID STID 21 11 EXID EXID 3 18 IDE IDE 2 1 IDE Standard Standard identifier 0 Extended Extended identifier 1 RTR RTR 1 1 RTR Data Data frame 0 Remote Remote frame 1 RDTR RDT0R mailbox data high register 0x4 0x20 read-only 0x00000000 TIME TIME 16 16 FMI FMI 8 8 DLC DLC 0 4 0 8 RDLR RDL0R mailbox data high register 0x8 0x20 read-only 0x00000000 4 0x8 0-3 DATA%s DATA%s 0 8 RDHR RDH0R receive FIFO mailbox data high register 0xC 0x20 read-only 0x00000000 4 0x8 4-7 DATA%s DATA%s 0 8 FMR FMR filter master register 0x200 0x20 read-write 0x2A1C0E01 CAN2SB CAN2SB 8 6 FINIT FINIT 0 1 FM1R FM1R filter mode register 0x204 0x20 read-write 0x00000000 28 0x1 0-27 FBM%s Filter mode 0 1 FS1R FS1R filter scale register 0x20C 0x20 read-write 0x00000000 28 0x1 0-27 FSC%s Filter scale configuration 0 1 FFA1R FFA1R filter FIFO assignment register 0x214 0x20 read-write 0x00000000 28 0x1 0-27 FFA%s Filter FIFO assignment for filter %s 0 1 FA1R FA1R filter activation register 0x21C 0x20 read-write 0x00000000 28 0x1 0-27 FACT%s Filter active 0 1 28 0x8 0-27 FB%s CAN Filter Bank cluster 0x240 FR1 F0R1 Filter bank x register 1 0x0 0x20 read-write 0x00000000 FB Filter bits 0 32 FR2 F0R2 Filter bank x register 2 0x4 0x20 read-write 0x00000000 FB Filter bits 0 32 CAN2 0x40006800 CAN2_TX CAN2 TX interrupt 63 CAN2_RX0 BXCAN2 RX0 interrupt 64 CAN2_RX1 BXCAN2 RX1 interrupt 65 CAN2_SCE CAN2 SCE interrupt 66 CAN3 0x40006C00 CAN3_TX CAN 3 TX interrupt 74 CAN3_RX0 BxCAN 3 RX0 interrupt 75 CAN3_SCE CAN 3 SCE interrupt 77 CRC Cryptographic processor CRC 0x40023000 0x0 0xD registers DR DR Data register 0x0 0x20 read-write 0xFFFFFFFF DR Data Register 0 32 0 4294967295 IDR IDR Independent Data register 0x4 0x20 read-write 0x00000000 IDR Independent Data register 0 8 0 255 CR CR Control register 0x8 0x20 write-only 0x00000000 RESET Control regidter 0 1 RESETW Reset Resets the CRC calculation unit and sets the data register to 0xFFFF FFFF 1 DBGMCU Debug support DBG 0xE0042000 0x0 0x11 registers IDCODE IDCODE IDCODE 0x0 0x20 read-only 0x10006411 DEV_ID DEV_ID 0 12 REV_ID REV_ID 16 16 CR CR Control Register 0x4 0x20 read-write 0x00000000 DBG_SLEEP DBG_SLEEP 0 1 DBG_STOP DBG_STOP 1 1 DBG_STANDBY DBG_STANDBY 2 1 TRACE_IOEN TRACE_IOEN 5 1 TRACE_MODE TRACE_MODE 6 2 APB1_FZ APB1_FZ Debug MCU APB1 Freeze registe 0x8 0x20 read-write 0x00000000 DBG_TIM2_STOP DBG_TIM2_STOP 0 1 DBG_TIM3_STOP DBG_TIM3 _STOP 1 1 DBG_TIM4_STOP DBG_TIM4_STOP 2 1 DBG_TIM5_STOP DBG_TIM5_STOP 3 1 DBG_RTC_Stop RTC stopped when Core is halted 10 1 DBG_WWDG_STOP DBG_WWDG_STOP 11 1 DBG_IWDG_STOP DBG_IWDEG_STOP 12 1 DBG_I2C1_SMBUS_TIMEOUT DBG_J2C1_SMBUS_TIMEOUT 21 1 DBG_I2C2_SMBUS_TIMEOUT DBG_J2C2_SMBUS_TIMEOUT 22 1 DBG_I2C3SMBUS_TIMEOUT DBG_J2C3SMBUS_TIMEOUT 23 1 APB2_FZ APB2_FZ Debug MCU APB2 Freeze registe 0xC 0x20 read-write 0x00000000 DBG_TIM1_STOP TIM1 counter stopped when core is halted 0 1 DBG_TIM9_STOP TIM9 counter stopped when core is halted 16 1 DBG_TIM10_STOP TIM10 counter stopped when core is halted 17 1 DBG_TIM11_STOP TIM11 counter stopped when core is halted 18 1 DFSDM2 Digital filter for sigma delta modulators DFSDM 0x40016400 0x0 0x400 registers DFSDM2_FILTER2 DFSDM2 SD filter 2 global interrupt 99 DFSDM2_FILTER4 DFSDM2 SD filter 4 global interrupt 101 8 0x20 0-7 CH%s DFSDM Channel cluster: contains CH?CFGR1, CH?CFGR2, CH?AWSCDR, CH?WDATR and CH?DATINR registers 0x0 CFGR1 CH0CFGR1 channel configuration y register 0x0 0x20 read-write 0x00000000 DFSDMEN DFSDMEN 31 1 DFSDMEN Disabled DFSDM interface disabled 0 Enabled DFSDM interface enabled 1 CKOUTSRC CKOUTSRC 30 1 CKOUTSRC SYSCLK Source for output clock is from system clock 0 AUDCLK Source for output clock is from audio clock 1 CKOUTDIV CKOUTDIV 16 8 0 255 DATPACK DATPACK 14 2 DATPACK Standard Standard: input data in DFSDM_CHyDATINR register are stored only in INDAT0[15:0]. To empty DFSDM_CHyDATINR register one sample must be read by the DFSDM filter from channel y 0 Interleaved : Interleaved: input data in DFSDM_CHyDATINR register are stored as two samples: âfirst sample in INDAT0[15:0] (assigned to channel y) âsecond sample INDAT1[15:0] (assigned to channel y) 1 Dual Dual: input data in DFSDM_CHyDATINR register are stored as two samples: âfirst sample INDAT0[15:0] (assigned to channel y) âsecond sample INDAT1[15:0] (assigned to channel y+1) 2 DATMPX DATMPX 12 2 DATMPX External Data to channel y are taken from external serial inputs as 1-bit values. DFSDM_CHyDATINR register is write protected 0 ADC Data to channel y are taken from internal analog to digital converter ADCy+1 output register update as 16-bit values (if ADCy+1 is available). Data from ADCs are written into INDAT0[15:0] part of DFSDM_CHyDATINR register 1 Internal Data to channel y are taken from internal DFSDM_CHyDATINR register by direct CPU/DMA write. There can be written one or two 16-bit data samples according DATPACK[1:0] bit field setting 2 CHINSEL CHINSEL 8 1 CHINSEL SameChannel Channel inputs are taken from pins of the same channel y 0 FollowingChannel Channel inputs are taken from pins of the following channel (channel (y+1) modulo 8) 1 CHEN CHEN 7 1 CHEN Disabled Channel y disabled 0 Enabled Channel y enabled 1 CKABEN CKABEN 6 1 CKABEN Disabled Clock absence detector disabled on channel y 0 Enabled Clock absence detector enabled on channel y 1 SCDEN SCDEN 5 1 SCDEN Disabled Input channel y will not be guarded by the short-circuit detector 0 Enabled Input channel y will be continuously guarded by the short-circuit detector 1 SPICKSEL SPICKSEL 2 2 SPICKSEL CKIN Clock coming from external CKINy input - sampling point according SITP[1:0] 0 CKOUT Clock coming from internal CKOUT output - sampling point according SITP[1:0] 1 CKOUTSecondFalling Clock coming from internal CKOUT - sampling point on each second CKOUT falling edge. For connection to external Σâ modulator which divides its clock input (from CKOUT) by 2 to generate its output serial communication clock (and this output clock change is active on each clock input rising edge) 2 CKOUTSecondRising Clock coming from internal CKOUT output - sampling point on each second CKOUT rising edge. For connection to external Σâ modulator which divides its clock input (from CKOUT) by 2 to generate its output serial communication clock (and this output clock change is active on each clock input falling edge) 3 SITP SITP 0 2 SITP SPIRisingEdge SPI with rising edge to strobe data 0 SPIFallingEdge SPI with falling edge to strobe data 1 Manchester Manchester coded input on DATINy pin: rising edge = logic 0, falling edge = logic 1 2 ManchesterInverted Manchester coded input on DATINy pin: rising edge = logic 1, falling edge = logic 0 3 CFGR2 CH0CFGR2 channel configuration y register 0x4 0x20 read-write 0x00000000 OFFSET OFFSET 8 24 0 16777215 DTRBS DTRBS 3 5 0 31 AWSCDR CH0AWSCDR analog watchdog and short-circuit detector register 0x8 0x20 read-write 0x00000000 AWFORD AWFORD 22 2 AWFORD FastSinc FastSinc filter type 0 Sinc1 Sinc1 filter type 1 Sinc2 Sinc2 filter type 2 Sinc3 Sinc3 filter type 3 AWFOSR AWFOSR 16 5 0 31 BKSCD BKSCD 12 4 0 15 SCDT SCDT 0 8 0 255 WDATR CH0WDATR channel watchdog filter data register 0xC 0x20 read-write 0x00000000 WDATA WDATA 0 16 0 65535 DATINR CH0DATINR channel data input register 0x10 0x20 read-write 0x00000000 INDAT1 INDAT1 16 16 0 65535 INDAT0 INDAT0 0 16 0 65535 4 0x80 0-3 FLT%s Cluster FLT%s, containing FLT?CR1, FLT?CR2, FLT?ISR, FLT?ICR, FLT?JCHGR, FLT?FCR, FLT?JDATAR, FLT?RDATAR, FLT?AWHTR, FLT?AWLTR, FLT?AWSR, FLT?AWCFR, FLT?EXMAX, FLT?EXMIN, FLT?CNVTIMR 0x100 CR1 FLT0CR1 control register 1 0x0 0x20 read-write 0x00000000 AWFSEL Analog watchdog fast mode select 30 1 AWFSEL Output Analog watchdog on data output value (after the digital filter). The comparison is done after offset correction and shift 0 Transceiver Analog watchdog on channel transceivers value (after watchdog filter) 1 FAST Fast conversion mode selection for regular conversions 29 1 FAST Disabled Fast conversion mode disabled 0 Enabled Fast conversion mode enabled 1 RCH Regular channel selection 24 3 RCH Channel0 Channel 0 is selected as regular channel 0 Channel1 Channel 1 is selected as regular channel 1 Channel2 Channel 2 is selected as regular channel 2 Channel3 Channel 3 is selected as regular channel 3 Channel4 Channel 4 is selected as regular channel 4 Channel5 Channel 5 is selected as regular channel 5 Channel6 Channel 6 is selected as regular channel 6 Channel7 Channel 7 is selected as regular channel 7 RDMAEN DMA channel enabled to read data for the regular conversion 21 1 RDMAEN Disabled The DMA channel is not enabled to read regular data 0 Enabled The DMA channel is enabled to read regular data 1 RSYNC Launch regular conversion synchronously with DFSDM0 19 1 RSYNC NoLaunch Do not launch a regular conversion synchronously with DFSDM_FLT0 0 Launch Launch a regular conversion in this DFSDM_FLTx at the very moment when a regular conversion is launched in DFSDM_FLT0 1 RCONT Continuous mode selection for regular conversions 18 1 RCONT Once The regular channel is converted just once for each conversion request 0 Continuous The regular channel is converted repeatedly after each conversion request 1 RSWSTART Software start of a conversion on the regular channel 17 1 RSWSTARTW write Start Writing â1â makes a request to start a conversion on the regular channel and causes RCIP to become â1â. If RCIP=1 already, writing to RSWSTART has no effect. Writing â1â has no effect if RSYNC=1 1 JEXTEN Trigger enable and trigger edge selection for injected conversions 13 2 JEXTEN Disabled Trigger detection is disabled 0 RisingEdge Each rising edge on the selected trigger makes a request to launch an injected conversion 1 FallingEdge Each falling edge on the selected trigger makes a request to launch an injected conversion 2 BothEdges Both rising edges and falling edges on the selected trigger make requests to launch injected conversions 3 JEXTSEL Trigger signal selection for launching injected conversions 8 3 JDMAEN DMA channel enabled to read data for the injected channel group 5 1 JDMAEN Disabled The DMA channel is not enabled to read injected data 0 Enabled The DMA channel is enabled to read injected data 1 JSCAN Scanning conversion mode for injected conversions 4 1 JSCAN Single One channel conversion is performed from the injected channel group and next the selected channel from this group is selected 0 Series The series of conversions for the injected group channels is executed, starting over with the lowest selected channel 1 JSYNC Launch an injected conversion synchronously with the DFSDM0 JSWSTART trigger 3 1 JSYNC Disabled Do not launch an injected conversion synchronously with DFSDM_FLT0 0 Enabled Launch an injected conversion in this DFSDM_FLTx at the very moment when an injected conversion is launched in DFSDM_FLT0 by its JSWSTART trigger 1 JSWSTART Start a conversion of the injected group of channels 1 1 JSWSTARTW write Start Writing â1â makes a request to convert the channels in the injected conversion group, causing JCIP to become â1â at the same time. If JCIP=1 already, then writing to JSWSTART has no effect. Writing â1â has no effect if JSYNC=1 1 DFEN DFSDM enable 0 1 DFEN Disabled DFSDM_FLTx is disabled. All conversions of given DFSDM_FLTx are stopped immediately and all DFSDM_FLTx functions are stopped 0 Enabled DFSDM_FLTx is enabled. If DFSDM_FLTx is enabled, then DFSDM_FLTx starts operating according to its setting 1 CR2 FLT0CR2 control register 2 0x4 0x20 read-write 0x00000000 AWDCH Analog watchdog channel selection 16 8 AWDCH Disabled Analog watchdog is disabled on channel y 0 Enabled Analog watchdog is enabled on channel y 1 EXCH Extremes detector channel selection 8 8 EXCH Disabled Extremes detector does not accept data from channel y 0 Enabled Extremes detector accepts data from channel y 1 CKABIE Clock absence interrupt enable 6 1 CKABIE Disabled Detection of channel input clock absence interrupt is disabled 0 Enabled Detection of channel input clock absence interrupt is enabled 1 SCDIE Short-circuit detector interrupt enable 5 1 SCDIE Disabled Short-circuit detector interrupt is disabled 0 Enabled Short-circuit detector interrupt is enabled 1 AWDIE Analog watchdog interrupt enable 4 1 AWDIE Disabled Analog watchdog interrupt is disabled 0 Enabled Analog watchdog interrupt is enabled 1 ROVRIE Regular data overrun interrupt enable 3 1 ROVRIE Disabled Regular data overrun interrupt is disabled 0 Enabled Regular data overrun interrupt is enabled 1 JOVRIE Injected data overrun interrupt enable 2 1 JOVRIE Disabled Injected data overrun interrupt is disabled 0 Enabled Injected data overrun interrupt is enabled 1 REOCIE Regular end of conversion interrupt enable 1 1 REOCIE Disabled Regular end of conversion interrupt is disabled 0 Enabled Regular end of conversion interrupt is enabled 1 JEOCIE Injected end of conversion interrupt enable 0 1 JEOCIE Disabled Injected end of conversion interrupt is disabled 0 Enabled Injected end of conversion interrupt is enabled 1 ISR FLT0ISR interrupt and status register 0x8 0x20 read-only 0x00FF0000 SCDF short-circuit detector flag 24 8 SCDF Clear No short-circuit detector event occurred on channel y 0 Set The short-circuit detector counter reaches, on channel y, the value programmed in the DFSDM_CHyAWSCDR registers 1 CKABF Clock absence flag 16 8 CKABF Clear Clock signal on channel y is present. 0 Set Clock signal on channel y is not present 1 RCIP Regular conversion in progress status 14 1 RCIP NotInProgress No request to convert the regular channel has been issued 0 InProgress The conversion of the regular channel is in progress or a request for a regular conversion is pending 1 JCIP Injected conversion in progress status 13 1 JCIP NotInProgress No request to convert the injected channel group (neither by software nor by trigger) has been issued 0 InProgress The conversion of the injected channel group is in progress or a request for a injected conversion is pending, due either to â1â being written to JSWSTART or to a trigger detection 1 AWDF Analog watchdog 4 1 AWDF Clear No Analog watchdog event occurred 0 Set The analog watchdog block detected voltage which crosses the value programmed in the DFSDM_FLTxAWLTR or DFSDM_FLTxAWHTR registers 1 ROVRF Regular conversion overrun flag 3 1 ROVRF Clear No regular conversion overrun has occurred 0 Set A regular conversion overrun has occurred, which means that a regular conversion finished while REOCF was already â1â. RDATAR is not affected by overruns 1 JOVRF Injected conversion overrun flag 2 1 JOVRF Clear No injected conversion overrun has occurred 0 Set An injected conversion overrun has occurred, which means that an injected conversion finished while JEOCF was already â1â. JDATAR is not affected by overruns 1 REOCF End of regular conversion flag 1 1 REOCF Clear No regular conversion has completed 0 Set A regular conversion has completed and its data may be read 1 JEOCF End of injected conversion flag 0 1 JEOCF Clear No injected conversion has completed 0 Set An injected conversion has completed and its data may be read 1 ICR FLT0ICR interrupt flag clear register 0xC 0x20 read-write 0x00000000 CLRSCDF Clear the short-circuit detector flag 24 8 0 255 CLRCKABF Clear the clock absence flag 16 8 0 255 CLRROVRF Clear the regular conversion overrun flag 3 1 CLRROVRFW write Clear Writing â1â clears the ROVRF bit in the DFSDM_FLTxISR register 1 CLRJOVRF Clear the injected conversion overrun flag 2 1 CLRJOVRFW write Clear Writing â1â clears the JOVRF bit in the DFSDM_FLTxISR register 1 JCHGR FLT0JCHGR injected channel group selection register 0x10 0x20 read-write 0x00000001 JCHG Injected channel group selection 0 8 0 255 FCR FLT0FCR filter control register 0x14 0x20 read-write 0x00000000 FORD Sinc filter order 29 3 FORD FastSinc FastSinc filter type 0 Sinc1 Sinc1 filter type 1 Sinc2 Sinc2 filter type 2 Sinc3 Sinc3 filter type 3 Sinc4 Sinc4 filter type 4 Sinc5 Sinc5 filter type 5 FOSR Sinc filter oversampling ratio (decimation rate) 16 10 0 1023 IOSR Integrator oversampling ratio (averaging length) 0 8 0 255 JDATAR FLT0JDATAR data register for injected group 0x18 0x20 read-only 0x00000000 JDATA Injected group conversion data 8 24 0 16777215 JDATACH Injected channel most recently converted 0 3 0 7 RDATAR FLT0RDATAR data register for the regular channel 0x1C 0x20 read-only 0x00000000 RDATA Regular channel conversion data 8 24 0 16777215 RPEND Regular channel pending data 4 1 RDATACH Regular channel most recently converted 0 3 0 7 AWHTR FLT0AWHTR analog watchdog high threshold register 0x20 0x20 read-write 0x00000000 AWHT Analog watchdog high threshold 8 24 0 16777215 4 0x1 0-3 BKAWH%s Break signal assignment to analog watchdog high threshold event 0 1 BKAWH0 NotAssigned Break i signal is not assigned to an analog watchdog high threshold event 0 Assigned Break i signal is assigned to an analog watchdog high threshold event 1 AWLTR FLT0AWLTR analog watchdog low threshold register 0x24 0x20 read-write 0x00000000 AWLT Analog watchdog low threshold 8 24 0 16777215 4 0x1 0-3 BKAWL%s Break signal assignment to analog watchdog low threshold event 0 1 BKAWL0 NotAssigned Break i signal is not assigned to an analog watchdog low threshold event 0 Assigned Break i signal is assigned to an analog watchdog low threshold event 1 AWSR FLT0AWSR analog watchdog status register 0x28 0x20 read-only 0x00000000 8 0x1 0-7 AWHTF%s Analog watchdog high threshold flag 8 1 AWHTF0 NoError No high threshold error 0 Error A high threshold error on channel y 1 8 0x1 0-7 AWLTF%s Analog watchdog low threshold flag 0 1 AWLTF0 NoError No low threshold error 0 Error A low threshold error on channel y 1 AWCFR FLT0AWCFR analog watchdog clear flag register 0x2C 0x20 read-write 0x00000000 8 0x1 0-7 CLRAWHTF%s Clear the analog watchdog high threshold flag 8 1 oneToClear CLRAWHTF0W write Clear Clear the corresponding AWHTF[y] bit 1 8 0x1 0-7 CLRAWLTF%s Clear the analog watchdog low threshold flag 0 1 oneToClear CLRAWLTF0W write Clear Clear the corresponding AWLTF[y] bit 1 EXMAX FLT0EXMAX Extremes detector maximum register 0x30 0x20 read-only 0x80000000 EXMAX Extremes detector maximum value 8 24 0 16777215 EXMAXCH Extremes detector maximum data channel 0 3 0 7 EXMIN FLT0EXMIN Extremes detector minimum register 0x34 0x20 read-only 0x7FFFFF00 EXMIN EXMIN 8 24 0 16777215 EXMINCH Extremes detector minimum data channel 0 3 0 7 CNVTIMR FLT0CNVTIMR conversion timer register 0x38 0x20 read-only 0x00000000 CNVCNT 28-bit timer counting conversion time t = CNVCNT[27:0] / fDFSDM_CKIN 4 28 0 268435455 DFSDM1 0x40016000 DFSDM1_FLT0 SD filter0 global interrupt 61 DFSDM1_FLT1 SD filter1 global interrupt 62 DAC Digital-to-analog converter DAC 0x40007400 0x0 0x39 registers CR CR control register 0x0 0x20 read-write 0x00000000 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 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 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 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 TSEL1 DAC channel1 trigger selection 3 3 TSEL1 Tim6Trgo Timer 6 TRGO event 0 Tim8Trgo Timer 8 TRGO event 1 Tim7Trgo Timer 7 TRGO event 2 Tim5Trgo Timer 5 TRGO event 3 Tim2Trgo Timer 2 TRGO event 4 Tim4Trgo Timer 4 TRGO event 5 Exti9 EXTI line 9 6 Swtrig Software trigger 7 TSEL2 DAC channel2 trigger selection 19 3 2 0x10 1-2 TEN%s DAC channel%s trigger enable 2 1 TEN1 Disabled DAC channel X trigger disabled 0 Enabled DAC channel X trigger enabled 1 2 0x10 1-2 BOFF%s DAC channel%s output buffer disable 1 1 BOFF1 Enabled DAC channel X output buffer enabled 0 Disabled DAC channel X output buffer disabled 1 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 SWTRIGR SWTRIGR software trigger register 0x4 0x20 write-only 0x00000000 2 0x1 1-2 SWTRIG%s DAC channel%s software trigger 0 1 SWTRIG1 Disabled DAC channel X software trigger disabled 0 Enabled DAC channel X software trigger enabled 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 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 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 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 0 12 SR SR status register 0x34 0x20 read-write 0x00000000 2 0x10 1-2 DMAUDR%s DAC channel%s DMA underrun flag 13 1 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 DMA1 DMA controller DMA 0x40026000 0x0 0x400 registers DMA1_Stream0 DMA1 Stream0 global interrupt 11 DMA1_Stream1 DMA1 Stream1 global interrupt 12 DMA1_Stream2 DMA1 Stream2 global interrupt 13 DMA1_Stream3 DMA1 Stream3 global interrupt 14 DMA1_Stream4 DMA1 Stream4 global interrupt 15 DMA1_Stream5 DMA1 Stream5 global interrupt 16 DMA1_Stream7 DMA1 global interrupt Channel 7 47 LISR LISR low interrupt status register 0x0 0x20 read-only 0x00000000 TCIF0 Stream x transfer complete interrupt flag (x = 3..0) 5 1 TCIF0 NotComplete No transfer complete event on stream x 0 Complete A transfer complete event occurred on stream x 1 TCIF3 Stream x transfer complete interrupt flag (x = 3..0) 27 1 HTIF0 Stream x half transfer interrupt flag (x=3..0) 4 1 HTIF0 NotHalf No half transfer event on stream x 0 Half A half transfer event occurred on stream x 1 HTIF3 Stream x half transfer interrupt flag (x=3..0) 26 1 TEIF0 Stream x transfer error interrupt flag (x=3..0) 3 1 TEIF0 NoError No transfer error on stream x 0 Error A transfer error occurred on stream x 1 TEIF3 Stream x transfer error interrupt flag (x=3..0) 25 1 DMEIF0 Stream x direct mode error interrupt flag (x=3..0) 2 1 DMEIF0 NoError No Direct Mode error on stream x 0 Error A Direct Mode error occurred on stream x 1 DMEIF3 Stream x direct mode error interrupt flag (x=3..0) 24 1 FEIF0 Stream x FIFO error interrupt flag (x=3..0) 0 1 FEIF0 NoError No FIFO error event on stream x 0 Error A FIFO error event occurred on stream x 1 FEIF3 Stream x FIFO error interrupt flag (x=3..0) 22 1 TCIF2 Stream x transfer complete interrupt flag (x = 3..0) 21 1 HTIF2 Stream x half transfer interrupt flag (x=3..0) 20 1 TEIF2 Stream x transfer error interrupt flag (x=3..0) 19 1 DMEIF2 Stream x direct mode error interrupt flag (x=3..0) 18 1 FEIF2 Stream x FIFO error interrupt flag (x=3..0) 16 1 TCIF1 Stream x transfer complete interrupt flag (x = 3..0) 11 1 HTIF1 Stream x half transfer interrupt flag (x=3..0) 10 1 TEIF1 Stream x transfer error interrupt flag (x=3..0) 9 1 DMEIF1 Stream x direct mode error interrupt flag (x=3..0) 8 1 FEIF1 Stream x FIFO error interrupt flag (x=3..0) 6 1 HISR HISR high interrupt status register 0x4 0x20 read-only 0x00000000 TCIF4 Stream x transfer complete interrupt flag (x=7..4) 5 1 TCIF4 NotComplete No transfer complete event on stream x 0 Complete A transfer complete event occurred on stream x 1 TCIF7 Stream x transfer complete interrupt flag (x=7..4) 27 1 HTIF4 Stream x half transfer interrupt flag (x=7..4) 4 1 HTIF4 NotHalf No half transfer event on stream x 0 Half A half transfer event occurred on stream x 1 HTIF7 Stream x half transfer interrupt flag (x=7..4) 26 1 TEIF4 Stream x transfer error interrupt flag (x=7..4) 3 1 TEIF4 NoError No transfer error on stream x 0 Error A transfer error occurred on stream x 1 TEIF7 Stream x transfer error interrupt flag (x=7..4) 25 1 DMEIF4 Stream x direct mode error interrupt flag (x=7..4) 2 1 DMEIF4 NoError No Direct Mode error on stream x 0 Error A Direct Mode error occurred on stream x 1 DMEIF7 Stream x direct mode error interrupt flag (x=7..4) 24 1 FEIF4 Stream x FIFO error interrupt flag (x=7..4) 0 1 FEIF4 NoError No FIFO error event on stream x 0 Error A FIFO error event occurred on stream x 1 FEIF7 Stream x FIFO error interrupt flag (x=7..4) 22 1 TCIF6 Stream x transfer complete interrupt flag (x=7..4) 21 1 HTIF6 Stream x half transfer interrupt flag (x=7..4) 20 1 TEIF6 Stream x transfer error interrupt flag (x=7..4) 19 1 DMEIF6 Stream x direct mode error interrupt flag (x=7..4) 18 1 FEIF6 Stream x FIFO error interrupt flag (x=7..4) 16 1 TCIF5 Stream x transfer complete interrupt flag (x=7..4) 11 1 HTIF5 Stream x half transfer interrupt flag (x=7..4) 10 1 TEIF5 Stream x transfer error interrupt flag (x=7..4) 9 1 DMEIF5 Stream x direct mode error interrupt flag (x=7..4) 8 1 FEIF5 Stream x FIFO error interrupt flag (x=7..4) 6 1 LIFCR LIFCR low interrupt flag clear register 0x8 0x20 write-only 0x00000000 CTCIF0 Stream x clear transfer complete interrupt flag (x = 3..0) 5 1 CTCIF0 Clear Clear the corresponding TCIFx flag 1 CTCIF3 Stream x clear transfer complete interrupt flag (x = 3..0) 27 1 CHTIF0 Stream x clear half transfer interrupt flag (x = 3..0) 4 1 CHTIF0 Clear Clear the corresponding HTIFx flag 1 CHTIF3 Stream x clear half transfer interrupt flag (x = 3..0) 26 1 CTEIF0 Stream x clear transfer error interrupt flag (x = 3..0) 3 1 CTEIF0 Clear Clear the corresponding TEIFx flag 1 CTEIF3 Stream x clear transfer error interrupt flag (x = 3..0) 25 1 CDMEIF0 Stream x clear direct mode error interrupt flag (x = 3..0) 2 1 CDMEIF0 Clear Clear the corresponding DMEIFx flag 1 CDMEIF3 Stream x clear direct mode error interrupt flag (x = 3..0) 24 1 CFEIF0 Stream x clear FIFO error interrupt flag (x = 3..0) 0 1 CFEIF0 Clear Clear the corresponding CFEIFx flag 1 CFEIF3 Stream x clear FIFO error interrupt flag (x = 3..0) 22 1 CTCIF2 Stream x clear transfer complete interrupt flag (x = 3..0) 21 1 CHTIF2 Stream x clear half transfer interrupt flag (x = 3..0) 20 1 CTEIF2 Stream x clear transfer error interrupt flag (x = 3..0) 19 1 CDMEIF2 Stream x clear direct mode error interrupt flag (x = 3..0) 18 1 CFEIF2 Stream x clear FIFO error interrupt flag (x = 3..0) 16 1 CTCIF1 Stream x clear transfer complete interrupt flag (x = 3..0) 11 1 CHTIF1 Stream x clear half transfer interrupt flag (x = 3..0) 10 1 CTEIF1 Stream x clear transfer error interrupt flag (x = 3..0) 9 1 CDMEIF1 Stream x clear direct mode error interrupt flag (x = 3..0) 8 1 CFEIF1 Stream x clear FIFO error interrupt flag (x = 3..0) 6 1 HIFCR HIFCR high interrupt flag clear register 0xC 0x20 write-only 0x00000000 CTCIF4 Stream x clear transfer complete interrupt flag (x = 7..4) 5 1 CTCIF4 Clear Clear the corresponding TCIFx flag 1 CTCIF7 Stream x clear transfer complete interrupt flag (x = 7..4) 27 1 CHTIF4 Stream x clear half transfer interrupt flag (x = 7..4) 4 1 CHTIF4 Clear Clear the corresponding HTIFx flag 1 CHTIF7 Stream x clear half transfer interrupt flag (x = 7..4) 26 1 CTEIF4 Stream x clear transfer error interrupt flag (x = 7..4) 3 1 CTEIF4 Clear Clear the corresponding TEIFx flag 1 CTEIF7 Stream x clear transfer error interrupt flag (x = 7..4) 25 1 CDMEIF4 Stream x clear direct mode error interrupt flag (x = 7..4) 2 1 CDMEIF4 Clear Clear the corresponding DMEIFx flag 1 CDMEIF7 Stream x clear direct mode error interrupt flag (x = 7..4) 24 1 CFEIF4 Stream x clear FIFO error interrupt flag (x = 7..4) 0 1 CFEIF4 Clear Clear the corresponding CFEIFx flag 1 CFEIF7 Stream x clear FIFO error interrupt flag (x = 7..4) 22 1 CTCIF6 Stream x clear transfer complete interrupt flag (x = 7..4) 21 1 CHTIF6 Stream x clear half transfer interrupt flag (x = 7..4) 20 1 CTEIF6 Stream x clear transfer error interrupt flag (x = 7..4) 19 1 CDMEIF6 Stream x clear direct mode error interrupt flag (x = 7..4) 18 1 CFEIF6 Stream x clear FIFO error interrupt flag (x = 7..4) 16 1 CTCIF5 Stream x clear transfer complete interrupt flag (x = 7..4) 11 1 CHTIF5 Stream x clear half transfer interrupt flag (x = 7..4) 10 1 CTEIF5 Stream x clear transfer error interrupt flag (x = 7..4) 9 1 CDMEIF5 Stream x clear direct mode error interrupt flag (x = 7..4) 8 1 CFEIF5 Stream x clear FIFO error interrupt flag (x = 7..4) 6 1 8 0x18 0-7 ST%s Stream cluster: S?CR, S?NDTR, S?M0AR, S?M1AR and S?FCR registers 0x10 CR S0CR stream x configuration register 0x0 0x20 read-write 0x00000000 CHSEL Channel selection 25 4 0 15 PBURST Peripheral burst transfer configuration 21 2 PBURST Single Single transfer 0 INCR4 Incremental burst of 4 beats 1 INCR8 Incremental burst of 8 beats 2 INCR16 Incremental burst of 16 beats 3 MBURST Memory burst transfer configuration 23 2 CT Current target (only in double buffer mode) 19 1 CT Memory0 The current target memory is Memory 0 0 Memory1 The current target memory is Memory 1 1 DBM Double buffer mode 18 1 DBM Disabled No buffer switching at the end of transfer 0 Enabled Memory target switched at the end of the DMA transfer 1 PL Priority level 16 2 PL Low Low 0 Medium Medium 1 High High 2 VeryHigh Very high 3 PINCOS Peripheral increment offset size 15 1 PINCOS PSIZE The offset size for the peripheral address calculation is linked to the PSIZE 0 Fixed4 The offset size for the peripheral address calculation is fixed to 4 (32-bit alignment) 1 PSIZE Peripheral data size 11 2 PSIZE Bits8 Byte (8-bit) 0 Bits16 Half-word (16-bit) 1 Bits32 Word (32-bit) 2 MSIZE Memory data size 13 2 PINC Peripheral increment mode 9 1 PINC Fixed Address pointer is fixed 0 Incremented Address pointer is incremented after each data transfer 1 MINC Memory increment mode 10 1 CIRC Circular mode 8 1 CIRC Disabled Circular mode disabled 0 Enabled Circular mode enabled 1 DIR Data transfer direction 6 2 DIR PeripheralToMemory Peripheral-to-memory 0 MemoryToPeripheral Memory-to-peripheral 1 MemoryToMemory Memory-to-memory 2 PFCTRL Peripheral flow controller 5 1 PFCTRL DMA The DMA is the flow controller 0 Peripheral The peripheral is the flow controller 1 TCIE Transfer complete interrupt enable 4 1 TCIE Disabled TC interrupt disabled 0 Enabled TC interrupt enabled 1 HTIE Half transfer interrupt enable 3 1 HTIE Disabled HT interrupt disabled 0 Enabled HT interrupt enabled 1 TEIE Transfer error interrupt enable 2 1 TEIE Disabled TE interrupt disabled 0 Enabled TE interrupt enabled 1 DMEIE Direct mode error interrupt enable 1 1 DMEIE Disabled DME interrupt disabled 0 Enabled DME interrupt enabled 1 EN Stream enable / flag stream ready when read low 0 1 EN Disabled Stream disabled 0 Enabled Stream enabled 1 NDTR S0NDTR stream x number of data register 0x4 0x20 read-write 0x00000000 NDT Number of data items to transfer 0 16 0 65535 PAR S0PAR stream x peripheral address register 0x8 0x20 read-write 0x00000000 PA Peripheral address 0 32 M0AR S0M0AR stream x memory 0 address register 0xC 0x20 read-write 0x00000000 M0A Memory 0 address 0 32 M1AR S0M1AR stream x memory 1 address register 0x10 0x20 read-write 0x00000000 M1A Memory 1 address (used in case of Double buffer mode) 0 32 FCR S0FCR stream x FIFO control register 0x14 0x20 0x00000021 FEIE FIFO error interrupt enable 7 1 read-write FEIE Disabled FE interrupt disabled 0 Enabled FE interrupt enabled 1 FS FIFO status 3 3 read-only FS Quarter1 0 < fifo_level < 1/4 0 Quarter2 1/4 <= fifo_level < 1/2 1 Quarter3 1/2 <= fifo_level < 3/4 2 Quarter4 3/4 <= fifo_level < full 3 Empty FIFO is empty 4 Full FIFO is full 5 DMDIS Direct mode disable 2 1 read-write DMDIS Enabled Direct mode is enabled 0 Disabled Direct mode is disabled 1 FTH FIFO threshold selection 0 2 read-write FTH Quarter 1/4 full FIFO 0 Half 1/2 full FIFO 1 ThreeQuarters 3/4 full FIFO 2 Full Full FIFO 3 DMA2 0x40026400 DMA2_Stream0 DMA2 Stream0 global interrupt 56 DMA2_Stream1 DMA2 Stream1 global interrupt 57 DMA2_Stream2 DMA2 Stream2 global interrupt 58 DMA2_Stream3 DMA2 Stream3 global interrupt 59 DMA2_Stream4 DMA2 Stream4 global interrupt 60 DMA2_Stream5 DMA2 Stream5 global interrupt 68 DMA2_Stream6 DMA2 Stream6 global interrupt 69 DMA2_Stream7 DMA2 Stream7 global interrupt 70 EXTI External interrupt/event controller EXTI 0x40013C00 0x0 0x19 registers TAMP_STAMP Tamper and TimeStamp interrupts through the EXTI line 2 EXTI0 EXTI Line0 interrupt 6 EXTI1 EXTI Line1 interrupt 7 EXTI2 EXTI Line2 interrupt 8 EXTI3 EXTI Line3 interrupt 9 EXTI4 EXTI Line4 interrupt 10 EXTI9_5 EXTI Line[9:5] interrupts 23 EXTI15_10 EXTI Line[15:10] interrupts 40 lptim1_OR_it_eit_23 LP Timer global interrupt or EXT1 interrupt line 23 97 FPU Floating point unit interrupt 81 IMR IMR Interrupt mask register (EXTI_IMR) 0x0 0x20 read-write 0x00000000 23 0x1 0-22 MR%s Interrupt Mask on line %s 0 1 InterruptMask Masked Interrupt request line is masked 0 Unmasked Interrupt request line is unmasked 1 EMR EMR Event mask register (EXTI_EMR) 0x4 0x20 read-write 0x00000000 23 0x1 0-22 MR%s Event Mask on line %s 0 1 EventMask Masked Event request line is masked 0 Unmasked Event request line is unmasked 1 RTSR RTSR Rising Trigger selection register (EXTI_RTSR) 0x8 0x20 read-write 0x00000000 23 0x1 0-22 TR%s Rising trigger event configuration of line %s 0 1 RisingTrigger Disabled Rising edge trigger is disabled 0 Enabled Rising edge trigger is enabled 1 FTSR FTSR Falling Trigger selection register (EXTI_FTSR) 0xC 0x20 read-write 0x00000000 23 0x1 0-22 TR%s Falling trigger event configuration of line %s 0 1 FallingTrigger Disabled Falling edge trigger is disabled 0 Enabled Falling edge trigger is enabled 1 SWIER SWIER Software interrupt event register (EXTI_SWIER) 0x10 0x20 read-write 0x00000000 23 0x1 0-22 SWIER%s Software Interrupt on line %s 0 1 SoftwareInterrupt write Pend Generates an interrupt request 1 PR PR Pending register (EXTI_PR) 0x14 0x20 read-write 0x00000000 23 0x1 0-22 PR%s Pending bit %s 0 1 oneToClear PR0R read NotPending No trigger request occurred 0 Pending Selected trigger request occurred 1 PR0W write Clear Clears pending bit 1 FMPI2C1 fast-mode Inter-integrated circuit I2C 0x40006000 0x0 0x2D registers CAN3_RX1 BxCAN 3 RX1 interrupt 76 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 TXIE 1 1 TXIE Disabled Transmit (TXIS) interrupt disabled 0 Enabled Transmit (TXIS) interrupt enabled 1 RXIE RXIE 2 1 RXIE Disabled Receive (RXNE) interrupt disabled 0 Enabled Receive (RXNE) interrupt enabled 1 ADDRIE ADDRE 3 1 ADDRIE Disabled Address match (ADDR) interrupts disabled 0 Enabled Address match (ADDR) interrupts enabled 1 NACKIE NACKIE 4 1 NACKIE Disabled Not acknowledge (NACKF) received interrupts disabled 0 Enabled Not acknowledge (NACKF) received interrupts enabled 1 STOPIE STOPIE 5 1 STOPIE Disabled Stop detection (STOPF) interrupt disabled 0 Enabled Stop detection (STOPF) interrupt enabled 1 TCIE TCIE 6 1 TCIE Disabled Transfer Complete interrupt disabled 0 Enabled Transfer Complete interrupt enabled 1 ERRIE ERRIE 7 1 ERRIE Disabled Error detection interrupts disabled 0 Enabled Error detection interrupts enabled 1 DNF DNF 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 ANFOFF 12 1 ANFOFF Enabled Analog noise filter enabled 0 Disabled Analog noise filter disabled 1 TXDMAEN TCDMAEN 14 1 TXDMAEN Disabled DMA mode disabled for transmission 0 Enabled DMA mode enabled for transmission 1 RXDMAEN RXDMAEN 15 1 RXDMAEN Disabled DMA mode disabled for reception 0 Enabled DMA mode enabled for reception 1 SBC SBC 16 1 SBC Disabled Slave byte control disabled 0 Enabled Slave byte control enabled 1 NOSTRETCH NOSTRETCH 17 1 NOSTRETCH Enabled Clock stretching enabled 0 Disabled Clock stretching disabled 1 GCEN GCEN 19 1 GCEN Disabled General call disabled. Address 0b00000000 is NACKed 0 Enabled General call enabled. Address 0b00000000 is ACKed 1 SMBHEN SMBHEN 20 1 SMBHEN Disabled Host address disabled. Address 0b0001000x is NACKed 0 Enabled Host address enabled. Address 0b0001000x is ACKed 1 SMBDEN SMBDEN 21 1 SMBDEN Disabled Device default address disabled. Address 0b1100001x is NACKed 0 Enabled Device default address enabled. Address 0b1100001x is ACKed 1 ALERTEN ALERTEN 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 PECEN 23 1 PECEN Disabled PEC calculation disabled 0 Enabled PEC calculation enabled 1 CR2 CR2 Control register 2 0x4 0x20 read-write 0x00000000 SADD Slave address bit 0 0 10 0 1023 RD_WRN Transfer direction 10 1 RD_WRN Write Master requests a write transfer 0 Read Master requests a read transfer 1 ADD10 10-bit addressing mode 11 1 ADD10 Bit7 The master operates in 7-bit addressing mode 0 Bit10 The master operates in 10-bit addressing mode 1 HEAD10R 10-bit address header only read direction 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 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 STOP Stop generation 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 NACK NACK generation 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 NBYTES Number of bytes 16 8 0 255 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 AUTOEND Automatic end 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 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 OAR1 OAR1 Own address register 1 0x8 0x20 read-write 0x00000000 OA1MODE OA1MODE 10 1 OA1MODE Bit7 Own address 1 is a 7-bit address 0 Bit10 Own address 1 is a 10-bit address 1 OA1EN OA1EN 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 own slave address 0 10 0 1023 OAR2 OAR2 Own address register 2 0xC 0x20 read-write 0x00000000 OA2 OA21_7 1 7 0 127 OA2MSK OA2MSK 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 OA2EN 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 SCLL 0 8 0 255 SCLH SCLH 8 8 0 255 SDADEL SDADEL 16 4 0 15 SCLDEL SCLDEL 20 4 0 15 PRESC PRESC 28 4 0 15 TIMEOUTR TIMEOUTR Timeout register 0x14 0x20 read-write 0x00000000 TIMEOUTA TIMEOUTA 0 12 0 4095 TIDLE TIDLE 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 TIMOUTEN 15 1 TIMOUTEN Disabled SCL timeout detection is disabled 0 Enabled SCL timeout detection is enabled 1 TIMEOUTB TIMEOUTB 16 12 0 4095 TEXTEN TEXTEN 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 TXE TXE 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 TXIS TXIS 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 RXNE RXNE 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 ADDR ADDR 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 NACKF NACKF 4 1 read-only NACKF NoNack No NACK has been received 0 Nack NACK has been received 1 STOPF STOPF 5 1 read-only STOPF NoStop No Stop condition detected 0 Stop Stop condition detected 1 TC TC 6 1 read-only TC NotComplete Transfer is not complete 0 Complete NBYTES has been transfered 1 TCR TCR 7 1 read-only TCR NotComplete Transfer is not complete 0 Complete NBYTES has been transfered 1 BERR BERR 8 1 read-only BERR NoError No bus error 0 Error Misplaced Start and Stop condition is detected 1 ARLO ARLO 9 1 read-only ARLO NotLost No arbitration lost 0 Lost Arbitration lost 1 OVR OVR 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 PECERR PECERR 11 1 read-only PECERR Match Received PEC does match with PEC register 0 NoMatch Received PEC does not match with PEC register 1 TIMEOUT TIMEOUT 12 1 read-only TIMEOUT NoTimeout No timeout occured 0 Timeout Timeout occured 1 ALERT ALERT 13 1 read-only ALERT NoAlert SMBA alert is not detected 0 Alert SMBA alert event is detected on SMBA pin 1 BUSY 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 DIR DIR 16 1 read-only DIR Write Write transfer, slave enters receiver mode 0 Read Read transfer, slave enters transmitter mode 1 ADDCODE ADDCODE 17 7 read-only 0 127 ICR ICR Interrupt clear register 0x1C 0x20 write-only 0x00000000 ADDRCF Address matched flag clear 3 1 oneToClear ADDRCF Clear Clears the ADDR flag in ISR register 1 NACKCF Not Acknowledge flag clear 4 1 oneToClear NACKCF Clear Clears the NACK flag in ISR register 1 STOPCF Stop detection flag clear 5 1 oneToClear STOPCF Clear Clears the STOP flag in ISR register 1 BERRCF Bus error flag clear 8 1 oneToClear BERRCF Clear Clears the BERR flag in ISR register 1 ARLOCF Arbitration Lost flag clear 9 1 oneToClear ARLOCF Clear Clears the ARLO flag in ISR register 1 OVRCF Overrun/Underrun flag clear 10 1 oneToClear OVRCF Clear Clears the OVR flag in ISR register 1 PECCF PEC Error flag clear 11 1 oneToClear PECCF Clear Clears the PEC flag in ISR register 1 TIMOUTCF Timeout detection flag clear 12 1 oneToClear TIMOUTCF Clear Clears the TIMOUT flag in ISR register 1 ALERTCF Alert flag clear 13 1 oneToClear ALERTCF Clear Clears the ALERT flag in ISR register 1 PECR PECR PEC register 0x20 0x20 read-only 0x00000000 PEC PEC 0 8 0 255 RXDR RXDR Receive data register 0x24 0x20 read-only 0x00000000 RXDATA RXDATA 0 8 0 255 TXDR TXDR Transmit data register 0x28 0x20 read-write 0x00000000 TXDATA TXDATA 0 8 0 255 FLASH FLASH FLASH 0x40023C00 0x0 0x19 registers FLASH FLASH global interrupt 4 ACR ACR Flash access control register 0x0 0x20 0x00000000 LATENCY Latency 0 4 read-write LATENCY WS0 0 wait states 0 WS1 1 wait states 1 WS2 2 wait states 2 WS3 3 wait states 3 WS4 4 wait states 4 WS5 5 wait states 5 WS6 6 wait states 6 WS7 7 wait states 7 WS8 8 wait states 8 WS9 9 wait states 9 WS10 10 wait states 10 WS11 11 wait states 11 WS12 12 wait states 12 WS13 13 wait states 13 WS14 14 wait states 14 WS15 15 wait states 15 PRFTEN Prefetch enable 8 1 read-write PRFTEN Disabled Prefetch is disabled 0 Enabled Prefetch is enabled 1 ICEN Instruction cache enable 9 1 read-write ICEN Disabled Instruction cache is disabled 0 Enabled Instruction cache is enabled 1 DCEN Data cache enable 10 1 read-write DCEN Disabled Data cache is disabled 0 Enabled Data cache is enabled 1 ICRST Instruction cache reset 11 1 write-only ICRST NoReset Instruction cache is not reset 0 Reset Instruction cache is reset 1 DCRST Data cache reset 12 1 read-write DCRST NoReset Data cache is not reset 0 Reset Data cache is reset 1 KEYR KEYR Flash key register 0x4 0x20 write-only 0x00000000 KEY FPEC key 0 32 0 4294967295 OPTKEYR OPTKEYR Flash option key register 0x8 0x20 write-only 0x00000000 OPTKEYR Option byte key 0 32 0 4294967295 SR SR Status register 0xC 0x20 0x00000000 EOP End of operation 0 1 read-write oneToClear EOPR read Inactive No error 0 Active One or more Flash operations has/have completed successfully 1 EOPW write Clear Clear error flag 1 OPERR Operation error 1 1 read-write oneToClear OPERRR read Inactive No error 0 Active A Flash operation request is detected and cannot be run because of parallelism 1 OPERRW write Clear Clear error flag 1 WRPERR Write protection error 4 1 read-write oneToClear WRPERRR read Inactive No error 0 Active The address to be erased/programmed belongs to a write-protected part of the Flash memory 1 WRPERRW write Clear Clear error flag 1 PGAERR Programming alignment error 5 1 read-write oneToClear PGAERRR read Inactive No error 0 Active The data to program cannot be contained in the same 128-bit Flash memory row 1 PGAERRW write Clear Clear error flag 1 PGPERR Programming parallelism error 6 1 read-write oneToClear PGPERRR read Inactive No error 0 Active The size of the access during the program sequence doesn't correspond to the parallelism configuration PSIZE 1 PGPERRW write Clear Clear error flag 1 PGSERR Programming sequence error 7 1 read-write oneToClear PGSERRR read Inactive No error 0 Active A write access to the Flash memory is performed by the code while the control register has not been correctly configured 1 PGSERRW write Clear Clear error flag 1 BSY Busy 16 1 read-only BSYR NotBusy No Flash memory operation ongoing 0 Busy Flash memory operation ongoing 1 RDERR Read Protection Error (PCROP) 8 1 oneToClear RDERRR read Inactive No error 0 Active A read access through the D-bus is performed to an address belonging to a proprietary readout protected Flash sector 1 RDERRW write Clear Clear error flag 1 CR CR Control register 0x10 0x20 read-write 0x80000000 PG Programming 0 1 PG Program Flash programming activated 1 SER Sector Erase 1 1 SER SectorErase Erase activated for selected sector 1 MER Mass Erase 2 1 MER MassErase Erase activated for all user sectors 1 SNB Sector number 3 4 0 11 PSIZE Program size 8 2 PSIZE PSIZE8 Program x8 0 PSIZE16 Program x16 1 PSIZE32 Program x32 2 PSIZE64 Program x64 3 STRT Start 16 1 STRT Start Trigger an erase operation 1 EOPIE End of operation interrupt enable 24 1 EOPIE Disabled End of operation interrupt disabled 0 Enabled End of operation interrupt enabled 1 ERRIE Error interrupt enable 25 1 ERRIE Disabled Error interrupt generation disabled 0 Enabled Error interrupt generation enabled 1 LOCK Lock 31 1 LOCK Unlocked FLASH_CR register is unlocked 0 Locked FLASH_CR register is locked 1 OPTCR OPTCR Flash option control register 0x14 0x20 read-write 0x00000014 OPTLOCK Option lock 0 1 OPTLOCKR read Unlocked The write and erase operations in the Option bytes area are disabled 0 Locked The write and erase operations in the Option bytes area are enabled 1 OPTLOCKW write Set Lock the FLASH_OPTCR register 1 OPTSTRT Option start 1 1 OPTSTRTR read Complete Cleared when BSY bit is cleared in SR 0 Requested Options modification requested 1 OPTSTRTW write Set This bit triggers an options operation when set 1 BOR_LEV BOR reset Level 2 2 BOR_LEV BOR_Off Reset threshold level for POR/PDR (around 1.7V) 0 BOR_Level1 Reset threshold level for VBOR1 (around 2.2 V) 1 BOR_Level2 Reset threshold level for VBOR2 (around 2.5 V) 2 BOR_Level3 Reset threshold level for VBOR3 (around 2.8 V) 3 WDG_SW WDG_SW User option bytes 5 1 WDG_SW Hardware Hardware watchdog 0 Software Software watchdog 1 nRST_STOP nRST_STOP User option bytes 6 1 nRST_STOP Reset Reset generated when entering Stop mode 0 NoReset No reset generated 1 nRST_STDBY nRST_STDBY User option bytes 7 1 nRST_STDBY Reset Reset generated when entering Standby mode 0 NoReset No reset generated 1 RDP Read protect 8 8 RDP Level0 Read protection not active 170 Level2 Chip read protection active 204 Level1 Read protection of memories active true SPRMOD Selection of Protection Mode of nWPR bits 31 1 SPRMOD Disabled nWPRi bits used for Write protection on sector i 0 Enabled nWPRi bits used for PCROP protection on sector i 1 12 0x1 0-11 nWRP%s Not write protect 16 1 nWRP0 Active Write protection active on sector %s 0 Inactive Write protection inactive on sector %s 1 TIM12 General purpose timers TIM 0x40001800 0x0 0x3D registers FSMC FSMC global interrupt 48 I2CFMP1event I2CFMP1 event interrupt 95 I2CFMP1error I2CFMP1 error interrupt 96 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 à t_CK_INT 1 Div4 t_DTS = 4 à 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 SMCR SMCR slave mode control register 0x8 0x20 read-write 0x00000000 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 SMS Slave mode selection 0 3 SMS Disabled Slave mode disabled - if CEN = â1 then the prescaler is clocked directly by the internal clock. 0 Reset_Mode Reset Mode - Rising edge of the selected trigger input (TRGI) reinitializes the counter and generates an update of the registers. 4 Gated_Mode Gated Mode - The counter clock is enabled when the trigger input (TRGI) is high. The counter stops (but is not reset) as soon as the trigger becomes low. Both start and stop of the counter are controlled. 5 Trigger_Mode Trigger Mode - The counter starts at a rising edge of the trigger TRGI (but it is not reset). Only the start of the counter is controlled. 6 Ext_Clock_Mode External Clock Mode 1 - Rising edges of the selected trigger (TRGI) clock the counter. 7 DIER DIER DMA/Interrupt enable register 0xC 0x20 read-write 0x00000000 TIE Trigger interrupt enable 6 1 TIE Disabled Trigger interrupt disabled 0 Enabled Trigger interrupt enabled 1 2 0x1 1-2 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 2 0x1 1-2 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 2 0x1 1-2 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 2 0x1 1-2 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 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 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 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 CCER CCER capture/compare enable register 0x20 0x20 read-write 0x00000000 2 0x4 1-2 CC%sNP Capture/Compare %s output Polarity 3 1 2 0x4 1-2 CC%sP Capture/Compare %s output Polarity 1 1 CC1P RisingEdge Noninverted/rising edge 0 FallingEdge Inverted/falling edge 1 2 0x4 1-2 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 2 0x4 1-2 CCR%s CCR%s capture/compare register 0x34 0x20 read-write 0x00000000 CCR Capture/Compare value 0 16 0 65535 TIM10 General-purpose-timers TIM 0x40014400 0x0 0x39 registers CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 à t_CK_INT 1 Div4 t_DTS = 4 à 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 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 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 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 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 1 0x4 1-1 CCR%s CCR%s capture/compare register 0x34 0x20 read-write 0x00000000 CCR Capture/Compare value 0 16 0 65535 TIM13 General purpose timers TIM 0x40001C00 TIM8_BRK_TIM12 Timer 12 global interrupt 43 TIM14 TIM 0x40002000 TIM8_UP_TIM13 Timer 13 global interrupt 44 TIM9 General purpose timers TIM 0x40014000 TIM8_TRG_COM_TIM14 Timer 14 global interrupt 45 TIM3 General purpose timers TIM 0x40000400 0x0 0x51 registers TIM1_BRK_TIM9 TIM1 Break interrupt and TIM9 global interrupt 24 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 à t_CK_INT 1 Div4 t_DTS = 4 à 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 MMS Reset The UG bit from the TIMx_EGR register is used as trigger output 0 Enable The counter enable signal, CNT_EN, is used as trigger output 1 Update The update event is selected as trigger output 2 ComparePulse The trigger output send a positive pulse when the CC1IF flag it to be set, as soon as a capture or a compare match occurred 3 CompareOC1 OC1REF signal is used as trigger output 4 CompareOC2 OC2REF signal is used as trigger output 5 CompareOC3 OC3REF signal is used as trigger output 6 CompareOC4 OC4REF signal is used as trigger output 7 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 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 TS ITR0 Internal Trigger 0 (ITR0) 0 ITR1 Internal Trigger 1 (ITR1) 1 ITR2 Internal Trigger 2 (ITR2) 2 TI1F_ED TI1 Edge Detector (TI1F_ED) 4 TI1FP1 Filtered Timer Input 1 (TI1FP1) 5 TI2FP2 Filtered Timer Input 2 (TI2FP2) 6 ETRF External Trigger input (ETRF) 7 SMS Slave mode selection 0 3 SMS Disabled Slave mode disabled - if CEN = â1 then the prescaler is clocked directly by the internal clock. 0 Encoder_Mode_1 Encoder mode 1 - Counter counts up/down on TI2FP1 edge depending on TI1FP2 level. 1 Encoder_Mode_2 Encoder mode 2 - Counter counts up/down on TI1FP2 edge depending on TI2FP1 level. 2 Encoder_Mode_3 Encoder mode 3 - Counter counts up/down on both TI1FP1 and TI2FP2 edges depending on the level of the other input. 3 Reset_Mode Reset Mode - Rising edge of the selected trigger input (TRGI) reinitializes the counter and generates an update of the registers. 4 Gated_Mode Gated Mode - The counter clock is enabled when the trigger input (TRGI) is high. The counter stops (but is not reset) as soon as the trigger becomes low. Both start and stop of the counter are controlled. 5 Trigger_Mode Trigger Mode - The counter starts at a rising edge of the trigger TRGI (but it is not reset). Only the start of the counter is controlled. 6 Ext_Clock_Mode External Clock Mode 1 - Rising edges of the selected trigger (TRGI) clock the counter. 7 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%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 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 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%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 TIM4 TIM 0x40000800 TIM3 TIM3 global interrupt 29 TIM2 General purpose timers TIM 0x40000000 0x0 0x55 registers TIM4 TIM4 global interrupt 30 CR1 CR1 control register 1 0x0 0x20 read-write 0x00000000 CKD Clock division 8 2 CKD Div1 t_DTS = t_CK_INT 0 Div2 t_DTS = 2 à t_CK_INT 1 Div4 t_DTS = 4 à 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 MMS Reset The UG bit from the TIMx_EGR register is used as trigger output 0 Enable The counter enable signal, CNT_EN, is used as trigger output 1 Update The update event is selected as trigger output 2 ComparePulse The trigger output send a positive pulse when the CC1IF flag it to be set, as soon as a capture or a compare match occurred 3 CompareOC1 OC1REF signal is used as trigger output 4 CompareOC2 OC2REF signal is used as trigger output 5 CompareOC3 OC3REF signal is used as trigger output 6 CompareOC4 OC4REF signal is used as trigger output 7 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 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 TS ITR0 Internal Trigger 0 (ITR0) 0 ITR1 Internal Trigger 1 (ITR1) 1 ITR2 Internal Trigger 2 (ITR2) 2 TI1F_ED TI1 Edge Detector (TI1F_ED) 4 TI1FP1 Filtered Timer Input 1 (TI1FP1) 5 TI2FP2 Filtered Timer Input 2 (TI2FP2) 6 ETRF External Trigger input (ETRF) 7 SMS Slave mode selection 0 3 SMS Disabled Slave mode disabled - if CEN = â1 then the prescaler is clocked directly by the internal clock. 0 Encoder_Mode_1 Encoder mode 1 - Counter counts up/down on TI2FP1 edge depending on TI1FP2 level. 1 Encoder_Mode_2 Encoder mode 2 - Counter counts up/down on TI1FP2 edge depending on TI2FP1 level. 2 Encoder_Mode_3 Encoder mode 3 - Counter counts up/down on both TI1FP1 and TI2FP2 edges depending on the level of the other input. 3 Reset_Mode Reset Mode - Rising edge of the selected trigger input (TRGI) reinitializes the counter and generates an update of the registers. 4 Gated_Mode Gated Mode - The counter clock is enabled when the trigger input (TRGI) is high. The counter stops (but is not reset) as soon as the trigger becomes low. Both start and stop of the counter are controlled. 5 Trigger_Mode Trigger Mode - The counter starts at a rising edge of the trigger TRGI (but it is not reset). Only the start of the counter is controlled. 6 Ext_Clock_Mode External Clock Mode 1 - Rising edges of the selected trigger (TRGI) clock the counter. 7 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%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 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 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%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 OR OR TIM5 option register 0x50 0x20 read-write 0x00000000 ITR1_RMP Timer Input 4 remap 10 2 GPIOF General-purpose I/Os GPIO 0x40021400 0x0 0x29 registers TIM2 TIM2 global interrupt 28 MODER MODER GPIO port mode register 0x0 0x20 read-write 0x00000000 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 GPIOH 0x40021C00 GPIOE 0x40021000 DMA1_Stream6 DMA1 Stream6 global interrupt 17 GPIOC 0x40020800 GPIOG 0x40021800 GPIOD 0x40020C00 GPIOB General-purpose I/Os GPIO 0x40020400 0x0 0x29 registers MODER MODER GPIO port mode register 0x0 0x20 read-write 0x00000280 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 0x000000C0 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 0x00000100 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 GPIOA General-purpose I/Os GPIO 0x40020000 0x0 0x29 registers MODER MODER GPIO port mode register 0x0 0x20 read-write 0xA8000000 16 0x2 0-15 MODER%s Port x configuration pin %s 0 2 Mode Input Input mode (reset state) 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 0x00000000 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 0x64000000 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 ODRx bit 1 16 0x1 0-15 BS%s Port x set pin %s 0 1 BitSet Set Sets the corresponding ODRx 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 L0,L1,L2,L3,L4,L5,L6,L7 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 AF8 AF8 8 AF9 AF9 9 AF10 AF10 10 AF11 AF11 11 AF12 AF12 12 AF13 AF13 13 AF14 AF14 14 AF15 AF15 15 AFRH AFRH GPIO alternate function high register 0x24 0x20 read-write 0x00000000 8 0x4 H8,H9,H10,H11,H12,H13,H14,H15 AFR%s Alternate function selection for port x bit y (y = 8..15) 0 4 TIM11 General-purpose-timers TIM 0x40014800 0x0 0x400 registers TIM1_UP_TIM10 TIM1 Update interrupt and TIM10 global interrupt 25 CR1 CR1 control register 1 0x0 DIER DIER DMA/Interrupt enable register 0xC SR SR status register 0x10 EGR EGR event generation register 0x14 CCMR1_Output CCMR1_Output capture/compare mode register 1 (output mode) 0x18 CCMR1_Input CCMR1_Input capture/compare mode register 1 (input mode) CCMR1_Output 0x18 CCER CCER capture/compare enable register 0x20 CNT CNT counter 0x24 PSC PSC prescaler 0x28 ARR ARR auto-reload register 0x2C 1 0x4 1-1 CCR%s CCR%s capture/compare register 0x34 OR OR option register 0x50 0x20 read-write 0x00000000 RMP Input 1 remapping capability 0 2 TIM5 General-purpose-timers TIM 0x40000C00 0x0 0x55 registers TIM1_TRG_COM_TIM11 TIM1 Trigger and Commutation interrupts and TIM11 global interrupt 26 CR1 CR1 control register 1 0x0 CR2 CR2 control register 2 0x4 SMCR SMCR slave mode control register 0x8 0x20 read-write 0x00000000 ETP External trigger polarity 15 1 ECE External clock enable 14 1 ETPS External trigger prescaler 12 2 ETF External trigger filter 8 4 MSM Master/Slave mode 7 1 TS Trigger selection 4 3 TS ITR0 Internal Trigger 0 (ITR0) 0 ITR1 Internal Trigger 1 (ITR1) 1 ITR2 Internal Trigger 2 (ITR2) 2 TI1F_ED TI1 Edge Detector (TI1F_ED) 4 TI1FP1 Filtered Timer Input 1 (TI1FP1) 5 TI2FP2 Filtered Timer Input 2 (TI2FP2) 6 ETRF External Trigger input (ETRF) 7 SMS Slave mode selection 0 3 DIER DIER DMA/Interrupt enable register 0xC SR SR status register 0x10 EGR EGR event generation register 0x14 CCMR1_Output CCMR1_Output capture/compare mode register 1 (output mode) 0x18 CCMR1_Input CCMR1_Input capture/compare mode register 1 (input mode) CCMR1_Output 0x18 CCMR2_Output CCMR2_Output capture/compare mode register 2 (output mode) 0x1C CCMR2_Input CCMR2_Input capture/compare mode register 2 (input mode) CCMR2_Output 0x1C CCER CCER capture/compare enable register 0x20 CNT CNT counter 0x24 PSC PSC prescaler 0x28 ARR ARR auto-reload register 0x2C 4 0x4 1-4 CCR%s CCR%s capture/compare register 0x34 DCR DCR DMA control register 0x48 DMAR DMAR DMA address for full transfer 0x4C OR OR TIM5 option register 0x50 0x20 read-write 0x00000000 IT4_RMP Timer Input 4 remap 6 2 IWDG Independent watchdog IWDG 0x40003000 0x0 0x11 registers TIM5 TIM5 global interrupt 50 KR KR Key register 0x0 0x10 write-only 0x00000000 KEY Key value 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 RVU Watchdog counter reload value update 1 1 PVU Watchdog prescaler value update 0 1 I2S2ext 0x40003400 I2C1 Inter-integrated circuit I2C 0x40005400 0x0 0x29 registers I2C2_EVT I2C2 event interrupt 33 I2C2_ERR I2C2 error interrupt 34 CR1 CR1 Control register 1 0x0 0x10 read-write 0x00000000 SWRST Software reset 15 1 SWRST NotReset I2C peripheral not under reset 0 Reset I2C peripheral under reset 1 ALERT SMBus alert 13 1 ALERT Release SMBA pin released high 0 Drive SMBA pin driven low 1 PEC Packet error checking 12 1 PEC Disabled No PEC transfer 0 Enabled PEC transfer 1 POS Acknowledge/PEC Position (for data reception) 11 1 POS Current ACK bit controls the (N)ACK of the current byte being received 0 Next ACK bit controls the (N)ACK of the next byte to be received 1 ACK Acknowledge enable 10 1 ACK NAK No acknowledge returned 0 ACK Acknowledge returned after a byte is received 1 STOP Stop generation 9 1 STOP NoStop No Stop generation 0 Stop In master mode: stop generation after current byte/start, in slave mode: release SCL and SDA after current byte 1 START Start generation 8 1 START NoStart No Start generation 0 Start In master mode: repeated start generation, in slave mode: start generation when bus is free 1 NOSTRETCH Clock stretching disable (Slave mode) 7 1 NOSTRETCH Enabled Clock stretching enabled 0 Disabled Clock stretching disabled 1 ENGC General call enable 6 1 ENGC Disabled General call disabled 0 Enabled General call enabled 1 ENPEC PEC enable 5 1 ENPEC Disabled PEC calculation disabled 0 Enabled PEC calculation enabled 1 ENARP ARP enable 4 1 ENARP Disabled ARP disabled 0 Enabled ARP enabled 1 SMBTYPE SMBus type 3 1 SMBTYPE Device SMBus Device 0 Host SMBus Host 1 SMBUS SMBus mode 1 1 SMBUS I2C I2C Mode 0 SMBus SMBus 1 PE Peripheral enable 0 1 PE Disabled Peripheral disabled 0 Enabled Peripheral enabled 1 CR2 CR2 Control register 2 0x4 0x10 read-write 0x00000000 LAST DMA last transfer 12 1 LAST NotLast Next DMA EOT is not the last transfer 0 Last Next DMA EOT is the last transfer 1 DMAEN DMA requests enable 11 1 DMAEN Disabled DMA requests disabled 0 Enabled DMA request enabled when TxE=1 or RxNE=1 1 ITBUFEN Buffer interrupt enable 10 1 ITBUFEN Disabled TxE=1 or RxNE=1 does not generate any interrupt 0 Enabled TxE=1 or RxNE=1 generates Event interrupt 1 ITEVTEN Event interrupt enable 9 1 ITEVTEN Disabled Event interrupt disabled 0 Enabled Event interrupt enabled 1 ITERREN Error interrupt enable 8 1 ITERREN Disabled Error interrupt disabled 0 Enabled Error interrupt enabled 1 FREQ Peripheral clock frequency 0 6 2 50 OAR1 OAR1 Own address register 1 0x8 0x10 read-write 0x00000000 ADDMODE Addressing mode (slave mode) 15 1 ADDMODE ADD7 7-bit slave address 0 ADD10 10-bit slave address 1 ADD Interface address 0 10 0 1023 OAR2 OAR2 Own address register 2 0xC 0x10 read-write 0x00000000 ADD2 Interface address 1 7 0 127 ENDUAL Dual addressing mode enable 0 1 ENDUAL Single Single addressing mode 0 Dual Dual addressing mode 1 DR DR Data register 0x10 0x10 read-write 0x00000000 DR 8-bit data register 0 8 0 255 SR1 SR1 Status register 1 0x14 0x10 0x00000000 SMBALERT SMBus alert 15 1 read-write zeroToClear SMBALERTR read NoAlert No SMBALERT occured 0 Alert SMBALERT occurred 1 SMBALERTW write Clear Clear flag 0 TIMEOUT Timeout or Tlow error 14 1 read-write zeroToClear TIMEOUTR read NoTimeout No Timeout error 0 Timeout SCL remained LOW for 25 ms 1 TIMEOUTW write Clear Clear flag 0 PECERR PEC Error in reception 12 1 read-write zeroToClear PECERRR read NoError no PEC error: receiver returns ACK after PEC reception (if ACK=1) 0 Error PEC error: receiver returns NACK after PEC reception (whatever ACK) 1 PECERRW write Clear Clear flag 0 OVR Overrun/Underrun 11 1 read-write zeroToClear OVRR read NoOverrun No overrun/underrun occured 0 Overrun Overrun/underrun occured 1 OVRW write Clear Clear flag 0 AF Acknowledge failure 10 1 read-write zeroToClear AFR read NoFailure No acknowledge failure 0 Failure Acknowledge failure 1 AFW write Clear Clear flag 0 ARLO Arbitration lost (master mode) 9 1 read-write zeroToClear ARLOR read NoLost No Arbitration Lost detected 0 Lost Arbitration Lost detected 1 ARLOW write Clear Clear flag 0 BERR Bus error 8 1 read-write zeroToClear BERRR read NoError No misplaced Start or Stop condition 0 Error Misplaced Start or Stop condition 1 BERRW write Clear Clear flag 0 TxE Data register empty (transmitters) 7 1 read-only TxE NotEmpty Data register not empty 0 Empty Data register empty 1 RxNE Data register not empty (receivers) 6 1 read-only RxNE Empty Data register empty 0 NotEmpty Data register not empty 1 STOPF Stop detection (slave mode) 4 1 read-only STOPF NoStop No Stop condition detected 0 Stop Stop condition detected 1 ADD10 10-bit header sent (Master mode) 3 1 read-only BTF Byte transfer finished 2 1 read-only BTF NotFinished Data byte transfer not done 0 Finished Data byte transfer successful 1 ADDR Address sent (master mode)/matched (slave mode) 1 1 read-only ADDR NotMatch Adress mismatched or not received 0 Match Received slave address matched with one of the enabled slave addresses 1 SB Start bit (Master mode) 0 1 read-only SB NoStart No Start condition 0 Start Start condition generated 1 SR2 SR2 Status register 2 0x18 0x10 read-only 0x00000000 PEC acket error checking register 8 8 DUALF Dual flag (Slave mode) 7 1 SMBHOST SMBus host header (Slave mode) 6 1 SMBDEFAULT SMBus device default address (Slave mode) 5 1 GENCALL General call address (Slave mode) 4 1 TRA Transmitter/receiver 2 1 BUSY Bus busy 1 1 MSL Master/slave 0 1 CCR CCR Clock control register 0x1C 0x10 read-write 0x00000000 F_S I2C master mode selection 15 1 F_S Standard Standard mode I2C 0 Fast Fast mode I2C 1 DUTY Fast mode duty cycle 14 1 DUTY Duty2_1 Duty cycle t_low/t_high = 2/1 0 Duty16_9 Duty cycle t_low/t_high = 16/9 1 CCR Clock control register in Fast/Standard mode (Master mode) 0 12 1 4095 TRISE TRISE TRISE register 0x20 0x10 read-write 0x00000002 TRISE Maximum rise time in Fast/Standard mode (Master mode) 0 6 0 63 FLTR FLTR FLTR register 0x24 0x10 read-write 0x00000000 DNF Digital noise filter 0 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 ANOFF Analog noise filter OFF 4 1 ANOFF Enabled Analog noise filter enabled 0 Disabled Analog noise filter disabled 1 I2C2 0x40005800 I2C3 0x40005C00 I2C1_EVT I2C1 event interrupt 31 I2C1_ERR I2C1 error interrupt 32 LPTIM Low power timer LPTIM 0x40002400 0x0 0x21 registers I2C3_EV I2C3 event interrupt 72 I2C3_ER I2C3 error interrupt 73 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 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 PWR Power control PWR 0x40007000 0x0 0x9 registers CR CR power control register 0x0 0x20 read-write 0x00000000 VOS Regulator voltage scaling output selection 14 2 VOS Scale3 Scale 3 mode <= 64 MHz 1 Scale2 Scale 2 mode (reset value) <= 84 MHz 2 Scale1 Scale 1 mode <= 100 MHz 3 ADCDC1 ADCDC1 13 1 0 1 FPDS Flash power down in Stop mode 9 1 FPDS Idle Flash memory not in power-down when the device is in Stop mode 0 PowerDown Flash memory in power-down when the device is in Stop mode 1 DBP Disable backup domain write protection 8 1 DBP Protected Access to RTC and RTC Backup registers and backup SRAM disabled 0 Writable Access to RTC and RTC Backup registers and backup SRAM enabled 1 PLS PVD level selection 5 3 0 7 PVDE Power voltage detector enable 4 1 PVDE Disabled PVD disabled 0 Enabled PVD enabled 1 CSBF Clear standby flag 3 1 CSBFR read Zero This bit is always read as 0 0 CSBFW write Clear Clear the SBF Standby Flag 1 CWUF Clear wakeup flag 2 1 CWUFR read Zero This bit is always read as 0 0 CWUFW write Clear Clear the WUPF Wakeup Flag **after 2 System clock cycles** 1 PDDS Power down deepsleep 1 1 PDDS EnterStop Enter Stop mode when the CPU enters deepsleep. The regulator status depends on the LPDS bit 0 EnterStandby Enter Standby mode when the CPU enters deepsleep 1 LPDS Low-power deep sleep 0 1 LPDS Main Main voltage regulator ON during Stop mode 0 LowPower Low-power voltage regulator ON during Stop mode 1 FISSR Flash Interface Stop while System Run 21 1 FISSR Run Flash Interface clock run (Default value) 0 Off Flash Interface clock off 1 FMSSR Flash Memory Sleep System Run 20 1 FMSSR Standard Flash standard mode (Default value) 0 Forced Flash forced to be in STOP or DeepPower Down mode (depending of FPDS value bit) by hardware 1 MRLVDS Main regulator Low Voltage in Deep Sleep 11 1 MRLVDS Scale3 Main regulator in Voltage scale 3 when the device is in Stop mode 0 LowVoltage Main regulator in Low Voltage and Flash memory in Deep Sleep mode when the device is in Stop mode 1 LPLVDS Low-power regulator Low Voltage in Deep Sleep 10 1 LPLVDS On Low-power regulator on if LPDS bit is set when the device is in Stop mode 0 UnderDrive Low-power regulator in Low Voltage and Flash memory in Deep Sleep mode if LPDS bit is set when device is in Stop mode 1 CSR CSR power control/status register 0x4 0x20 0x00000000 WUF Wakeup flag 0 1 read-only WUF NotOccurred No wakeup event occurred 0 Occurred A wakeup event was received from the WKUP pin or from the RTC alarm (Alarm A or Alarm B), RTC Tamper event, RTC TimeStamp event or RTC Wakeup) 1 SBF Standby flag 1 1 read-only SBF InStandby Device has not been in Standby mode 0 NotInStandby Device has been in Standby mode 1 PVDO PVD output 2 1 read-only PVDO Higher Vdd is higher than the PVD threshold selected with the PLS[2:0] bits 0 Lower Vdd is lower than the PVD threshold selected with the PLS[2:0] bits 1 BRR Backup regulator ready 3 1 read-only BRR NotReady Backup Regulator not ready 0 Ready Backup Regulator ready 1 EWUP1 Enable WKUP1 pin (PA0) 8 1 read-write EWUP1 GPIO WKUP1 pin is used for general purpose I/O. An event on the WKUP1 pin does not wakeup the device from Standby mode 0 WakeUp WKUP1 pin is used for wakeup from Standby mode and forced in input pull down configuration (rising edge or falling on WKUP1 pin wakes-up the system from Standby mode) 1 BRE Backup regulator enable 9 1 read-write BRE Disabled Backup regulator disabled 0 Enabled Backup regulator enabled 1 VOSRDY Regulator voltage scaling output selection ready bit 14 1 read-only VOSRDY NotReady Not ready 0 Ready Ready 1 EWUP2 Enable WKUP1 pin (PC0) 7 1 EWUP2 GPIO WKUP2 pin is used for general purpose I/O. An event on the WKUP2 pin does not wakeup the device from Standby mode 0 WakeUp WKUP2 pin is used for wakeup from Standby mode and forced in input pull down configuration (rising edge or falling on WKUP2 pin wakes-up the system from Standby mode) 1 EWUP3 Enable WKUP1 pin (PC1) 6 1 EWUP3 GPIO WKUP3 pin is used for general purpose I/O. An event on the WKUP3 pin does not wakeup the device from Standby mode 0 WakeUp WKUP3 pin is used for wakeup from Standby mode and forced in input pull down configuration (rising edge or falling on WKUP3 pin wakes-up the system from Standby mode) 1 QUADSPI QuadSPI interface QUADSPI 0xA0001000 0x0 0x35 registers PVD PVD through EXTI line detection interrupt 1 QuadSPI Quad-SPI global interrupt 92 CR CR control register 0x0 0x20 read-write 0x00000000 PRESCALER Clock prescaler 24 8 0 255 PMM Polling match mode 23 1 PMM AndMatch AND match mode. SMF is set if all the unmasked bits received from the Flash memory match the corresponding bits in the match register. 0 OrMatch OR match mode. SMF is set if any one of the unmasked bits received from the Flash memory matches its corresponding bit in the match register. 1 APMS Automatic poll mode stop 22 1 APMS NotStopOnMatch Automatic polling mode is stopped only by abort or by disabling the QUADSPI. 0 StopOnMatch Automatic polling mode stops as soon as there is a match. 1 TEIE Transfer error interrupt enable 16 1 TEIE Disabled Interrupt disable 0 Enabled Interrupt enabled 1 TOIE TimeOut interrupt enable 20 1 SMIE Status match interrupt enable 19 1 FTIE FIFO threshold interrupt enable 18 1 TCIE Transfer complete interrupt enable 17 1 FTHRES IFO threshold level 8 5 FSEL FLASH memory selection 7 1 FSEL SelectFlash1 FLASH 1 selected 0 SelectFlash2 FLASH 2 selected 1 DFM Dual-flash mode 6 1 DFM Disabled Dual-flash mode disabled 0 Enabled Dual-flash mode enabled 1 SSHIFT Sample shift 4 1 SSHIFT NoShift No shift 0 OneHalfCycleShift 1/2 cycle shift 1 TCEN Timeout counter enable 3 1 TCEN Disabled Timeout counter is disabled, and thus the chip select (nCS) remains active indefinitely after an access in memory-mapped mode. 0 Enabled Timeout counter is enabled, and thus the chip select is released in memory-mapped mode after TIMEOUT[15:0] cycles of Flash memory inactivity. 1 DMAEN DMA enable 2 1 DMAEN Disabled DMA is disabled for indirect mode 0 Enabled DMA is enabled for indirect mode 1 ABORT Abort request 1 1 ABORT NoAbortRequested No abort requested 0 AbortRequested Abort requested 1 EN Enable 0 1 EN Disabled QUADSPI is disabled 0 Enabled QUADSPI is enabled 1 DCR DCR device configuration register 0x4 0x20 read-write 0x00000000 FSIZE FLASH memory size 16 5 0 31 CSHT Chip select high time 8 3 0 7 CKMODE Mode 0 / mode 3 0 1 CKMODE Mode0 CLK must stay low while nCS is high (chip select released). This is referred to as mode 0. 0 Mode3 CLK must stay high while nCS is high (chip select released). This is referred to as mode 3. 1 SR SR status register 0x8 0x20 read-only 0x00000000 FLEVEL FIFO level 8 7 0 31 BUSY Busy 5 1 BUSY NotBusy 0 Busy 1 TOF Timeout flag 4 1 TOF NotTimeout 0 Timeout 1 SMF Status match flag 3 1 SMF NotMatched 0 Matched 1 FTF FIFO threshold flag 2 1 FTF NotReached 0 Reached 1 TCF Transfer complete flag 1 1 TCF NotComplete 0 Complete 1 TEF Transfer error flag 0 1 TEF NoError 0 Error 1 FCR FCR flag clear register 0xC 0x20 read-write 0x00000000 CTOF Clear timeout flag 4 1 CTOF Clear clears the TOF flag in the QUADSPI_SR register 1 CSMF Clear status match flag 3 1 CSMF Clear clears the SMF flag in the QUADSPI_SR register 1 CTCF Clear transfer complete flag 1 1 CTCF Clear clears the TCF flag in the QUADSPI_SR register 1 CTEF Clear transfer error flag 0 1 CTEF Clear clears the TEF flag in the QUADSPI_SR register 1 DLR DLR data length register 0x10 0x20 read-write 0x00000000 DL Data length 0 32 0 4294967295 CCR CCR communication configuration register 0x14 0x20 read-write 0x00000000 DDRM Double data rate mode 31 1 DDRM Disabled DDR Mode disabled 0 Enabled DDR Mode enabled 1 DHHC DDR hold half cycle 30 1 DHHC NoDelay Delay the data output using analog delay 0 Delayed Delay the data output by 1/4 of a QUADSPI output clock cycle. 1 SIOO Send instruction only once mode 28 1 SIOO SendEveryTransaction Send instruction on every transaction 0 SendFirstCommand Send instruction only for the first command 1 FMODE Functional mode 26 2 FMODE IndirectWrite Indirect write mode 0 IndirectRead Indirect read mode 1 AutomaticPolling Automatic polling mode 2 MemoryMapped Memory-mapped mode 3 DMODE Data mode 24 2 DMODE NoData No data 0 SingleLine Data on a single line 1 TwoLines Data on two lines 2 FourLines Data on four lines 3 DCYC Number of dummy cycles 18 5 0 31 ABSIZE Alternate bytes size 16 2 ABSIZE Bit8 8-bit alternate byte 0 Bit16 16-bit alternate bytes 1 Bit24 24-bit alternate bytes 2 Bit32 32-bit alternate bytes 3 ABMODE Alternate bytes mode 14 2 ABMODE NoAlternateBytes No alternate bytes 0 SingleLine Alternate bytes on a single line 1 TwoLines Alternate bytes on two lines 2 FourLines Alternate bytes on four lines 3 ADSIZE Address size 12 2 ADSIZE Bit8 8-bit address 0 Bit16 16-bit address 1 Bit24 24-bit address 2 Bit32 32-bit address 3 ADMODE Address mode 10 2 ADMODE NoAddress No address 0 SingleLine Address on a single line 1 TwoLines Address on two lines 2 FourLines Address on four lines 3 IMODE Instruction mode 8 2 IMODE NoInstruction No instruction 0 SingleLine Instruction on a single line 1 TwoLines Instruction on two lines 2 FourLines Instruction on four lines 3 INSTRUCTION Instruction 0 8 0 255 AR AR address register 0x18 0x20 read-write 0x00000000 ADDRESS Address 0 32 0 4294967295 ABR ABR ABR 0x1C 0x20 read-write 0x00000000 ALTERNATE ALTERNATE 0 32 0 4294967295 DR DR Data register: full word (32 bit) access 0x20 0x20 read-write 0x00000000 DATA Data 0 32 0 4294967295 DR16 Data register: half word (16 bit) access DR 0x20 0x10 DATA Data 0 16 0 65535 DR8 Data register: one byte (8 bit) access DR 0x20 0x8 DATA Data 0 8 0 255 PSMKR PSMKR polling status mask register 0x24 0x20 read-write 0x00000000 MASK Status mask 0 32 0 4294967295 PSMAR PSMAR polling status match register 0x28 0x20 read-write 0x00000000 MATCH Status match 0 32 0 4294967295 PIR PIR polling interval register 0x2C 0x20 read-write 0x00000000 INTERVAL Polling interval 0 16 0 65535 LPTR LPTR low-power timeout register 0x30 0x20 read-write 0x00000000 TIMEOUT Timeout period 0 16 0 65535 RNG Random number generator RNG 0x50060800 0x0 0x11 registers CR CR control register 0x0 0x20 read-write 0x00000000 IE Interrupt enable 3 1 RNGEN Random number generator enable 2 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 RTC Real-time clock RTC 0x40002800 0x0 0xA1 registers 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 MT Zero Month tens is 0 0 One Month tens is 1 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 CR CR control register 0x8 0x20 read-write 0x00000000 COE Calibration output enable 23 1 COE Disabled Calibration output disabled 0 Enabled Calibration output enabled 1 OSEL Output selection 21 2 OSEL Disabled Output disabled 0 AlarmA Alarm A output enabled 1 AlarmB Alarm B output enabled 2 Wakeup Wakeup output enabled 3 POL Output polarity 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 COSEL Calibration Output selection 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 BKP Backup 18 1 BKP DST_Not_Changed Daylight Saving Time change has not been performed 0 DST_Changed Daylight Saving Time change has been performed 1 SUB1H Subtract 1 hour (winter time change) 17 1 SUB1HW write Sub1 Subtracts 1 hour to the current time. This can be used for winter time change outside initialization mode 1 ADD1H Add 1 hour (summer time change) 16 1 ADD1HW write Add1 Adds 1 hour to the current time. This can be used for summer time change outside initialization mode 1 TSIE Time-stamp interrupt enable 15 1 TSIE Disabled Time-stamp Interrupt disabled 0 Enabled Time-stamp Interrupt enabled 1 WUTIE Wakeup timer interrupt enable 14 1 WUTIE Disabled Wakeup timer interrupt disabled 0 Enabled Wakeup timer interrupt 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 TSE Time stamp enable 11 1 TSE Disabled Timestamp disabled 0 Enabled Timestamp enabled 1 WUTE Wakeup timer enable 10 1 WUTE Disabled Wakeup timer disabled 0 Enabled Wakeup timer enabled 1 2 0x1 A,B ALR%sE Alarm %s enable 8 1 ALRAE Disabled Alarm disabled 0 Enabled Alarm enabled 1 DCE Coarse digital calibration enable 7 1 FMT Hour format 6 1 FMT Twenty_Four_Hour 24 hour/day format 0 AM_PM AM/PM hour format 1 BYPSHAD Bypass the shadow registers 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 REFCKON Reference clock detection enable (50 or 60 Hz) 4 1 REFCKON Disabled RTC_REFIN detection disabled 0 Enabled RTC_REFIN detection enabled 1 TSEDGE Time-stamp event active edge 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 WUCKSEL Wakeup clock selection 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 ISR ISR initialization and status register 0xC 0x20 0x00000007 2 0x1 A,B ALR%sWF Alarm %s write flag 0 1 read-only ALRAWFR UpdateNotAllowed Alarm update not allowed 0 UpdateAllowed Alarm update allowed 1 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 2 0x1 A,B ALR%sF Alarm %s flag 8 1 read-write zeroToClear ALRAFR read Match This flag is set by hardware when the time/date registers (RTC_TR and RTC_DR) match the Alarm register (RTC_ALRMxR) 1 ALRAFW write Clear This flag is cleared by software by writing 0 0 WUTF Wakeup timer flag 10 1 read-write zeroToClear WUTFR read Zero This flag is set by hardware when the wakeup auto-reload counter reaches 0 1 WUTFW write Clear This flag is cleared by software by writing 0 0 TSF Time-stamp flag 11 1 read-write zeroToClear TSFR read TimestampEvent This flag is set by hardware when a time-stamp event occurs 1 TSFW write Clear This flag is cleared by software by writing 0 0 TSOVF Time-stamp overflow flag 12 1 read-write zeroToClear TSOVFR read Overflow This flag is set by hardware when a time-stamp event occurs while TSF is already set 1 TSOVFW write Clear This flag is cleared by software by writing 0 0 TAMP1F Tamper detection flag 13 1 read-write zeroToClear TAMP1FR read Tampered This flag is set by hardware when a tamper detection event is detected on the RTC_TAMPx input 1 TAMP1FW write Clear Flag cleared by software writing 0 0 TAMP2F TAMPER2 detection flag 14 1 read-write zeroToClear read write 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 CALIBR CALIBR calibration register 0x18 0x20 read-write 0x00000000 DCS Digital calibration sign 7 1 DC Digital calibration 0 5 2 0x4 A,B ALRM%sR ALRM%sR Alarm %s register 0x1C 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 WPR WPR write protection register 0x24 0x20 write-only 0x00000000 KEY Write protection key 0 8 0 255 SSR SSR sub second register 0x28 0x20 read-only 0x00000000 SS Sub second value 0 16 0 65535 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 CALR CALR calibration register 0x3C 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 Eight_Second 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 Sixteen_Second 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 TAFCR TAFCR tamper and alternate function configuration register 0x40 0x20 read-write 0x00000000 ALARMOUTTYPE AFO_ALARM output type 18 1 TSINSEL TIMESTAMP mapping 17 1 TAMP1INSEL TAMPER1 mapping 16 1 TAMPPUDIS TAMPER pull-up disable 15 1 TAMPPRCH Tamper precharge duration 13 2 TAMPFLT Tamper filter count 11 2 TAMPFREQ Tamper sampling frequency 8 3 TAMPTS Activate timestamp on tamper detection event 7 1 TAMP2TRG Active level for tamper 2 4 1 TAMP2E Tamper 2 detection enable 3 1 TAMPIE Tamper interrupt enable 2 1 TAMP1TRG Active level for tamper 1 1 1 TAMP1E Tamper 1 detection enable 0 1 2 0x4 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 0 15 SS Sub seconds value 0 15 0 32767 20 0x4 0-19 BKP%sR BKP%sR backup register 0x50 0x20 read-write 0x00000000 BKP BKP 0 32 0 4294967295 RCC Reset and clock control RCC 0x40023800 0x0 0x99 registers RTC_WKUP RTC Wakeup interrupt through the EXTI line 3 EXTI17_RTC_Alarm RTC Alarms (A and B) through EXTI line interrupt 41 CR CR clock control register 0x0 0x20 read-write 0x00000083 HSION Internal high-speed clock enable 0 1 HSION Off Clock Off 0 On Clock On 1 HSIRDY Internal high-speed clock ready flag 1 1 HSIRDYR read NotReady Clock not ready 0 Ready Clock ready 1 HSITRIM Internal high-speed clock trimming 3 5 0 31 HSICAL Internal high-speed clock calibration 8 8 0 255 HSEON HSE clock enable 16 1 HSERDY HSE clock ready flag 17 1 HSEBYP HSE clock bypass 18 1 HSEBYP NotBypassed HSE crystal oscillator not bypassed 0 Bypassed HSE crystal oscillator bypassed with external clock 1 CSSON Clock security system enable 19 1 CSSON Off Clock security system disabled (clock detector OFF) 0 On Clock security system enable (clock detector ON if the HSE is ready, OFF if not) 1 PLLON Main PLL (PLL) enable 24 1 PLLRDY Main PLL (PLL) clock ready flag 25 1 PLLI2SON PLLI2S enable 26 1 PLLI2SRDY PLLI2S clock ready flag 27 1 PLLCFGR PLLCFGR PLL configuration register 0x4 0x20 read-write 0x24003010 PLLQ Main PLL (PLL) division factor for USB OTG FS, SDIO and random number generator clocks 24 4 2 15 PLLSRC Main PLL(PLL) and audio PLL (PLLI2S) entry clock source 22 1 PLLSRC HSI HSI clock selected as PLL and PLLI2S clock entry 0 HSE HSE oscillator clock selected as PLL and PLLI2S clock entry 1 PLLP Main PLL (PLL) division factor for main system clock 16 2 PLLP Div2 PLLP=2 0 Div4 PLLP=4 1 Div6 PLLP=6 2 Div8 PLLP=8 3 PLLN Main PLL (PLL) multiplication factor for VCO 6 9 50 432 PLLM Division factor for the main PLL (PLL) and audio PLL (PLLI2S) input clock 0 6 2 63 PLLR Main PLL (PLL) division factor for I2S, DFSDM clocks 28 3 2 7 CFGR CFGR clock configuration register 0x8 0x20 0x00000000 MCO2 Microcontroller clock output 2 30 2 read-write MCO2 SYSCLK System clock (SYSCLK) selected 0 PLLI2S PLLI2S clock selected 1 HSE HSE oscillator clock selected 2 PLL PLL clock selected 3 MCO1PRE MCO1 prescaler 24 3 read-write MCO1PRE Div2 Division by 2 4 Div3 Division by 3 5 Div4 Division by 4 6 Div5 Division by 5 7 Div1 No division true MCO2PRE MCO2 prescaler 27 3 read-write MCO1 Microcontroller clock output 1 21 2 read-write MCO1 HSI HSI clock selected 0 LSE LSE oscillator selected 1 HSE HSE oscillator clock selected 2 PLL PLL clock selected 3 RTCPRE HSE division factor for RTC clock 16 5 read-write 0 31 PPRE1 APB Low speed prescaler (APB1) 10 3 read-write PPRE1 Div2 HCLK divided by 2 4 Div4 HCLK divided by 4 5 Div8 HCLK divided by 8 6 Div16 HCLK divided by 16 7 Div1 HCLK not divided true PPRE2 APB high-speed prescaler (APB2) 13 3 read-write HPRE AHB prescaler 4 4 read-write HPRE Div2 SYSCLK divided by 2 8 Div4 SYSCLK divided by 4 9 Div8 SYSCLK divided by 8 10 Div16 SYSCLK divided by 16 11 Div64 SYSCLK divided by 64 12 Div128 SYSCLK divided by 128 13 Div256 SYSCLK divided by 256 14 Div512 SYSCLK divided by 512 15 Div1 SYSCLK not divided true SWS System clock switch status 2 2 SWSR read HSI HSI oscillator used as system clock 0 HSE HSE oscillator used as system clock 1 PLL PLL used as system clock 2 SW System clock switch 0 2 SW HSI HSI selected as system clock 0 HSE HSE selected as system clock 1 PLL PLL selected as system clock 2 CIR CIR clock interrupt register 0xC 0x20 0x00000000 CSSC Clock security system interrupt clear 23 1 write-only CSSCW Clear Clear CSSF flag 1 LSIRDYC LSI ready interrupt clear 16 1 write-only LSIRDYCW Clear Clear interrupt flag 1 PLLI2SRDYC PLLI2S ready interrupt clear 21 1 write-only PLLRDYC Main PLL(PLL) ready interrupt clear 20 1 write-only HSERDYC HSE ready interrupt clear 19 1 write-only HSIRDYC HSI ready interrupt clear 18 1 write-only LSERDYC LSE ready interrupt clear 17 1 write-only LSIRDYIE LSI ready interrupt enable 8 1 read-write LSIRDYIE Disabled Interrupt disabled 0 Enabled Interrupt enabled 1 PLLI2SRDYIE PLLI2S ready interrupt enable 13 1 read-write PLLRDYIE Main PLL (PLL) ready interrupt enable 12 1 read-write HSERDYIE HSE ready interrupt enable 11 1 read-write HSIRDYIE HSI ready interrupt enable 10 1 read-write LSERDYIE LSE ready interrupt enable 9 1 read-write CSSF Clock security system interrupt flag 7 1 read-only CSSFR NotInterrupted No clock security interrupt caused by HSE clock failure 0 Interrupted Clock security interrupt caused by HSE clock failure 1 LSIRDYF LSI ready interrupt flag 0 1 read-only LSIRDYFR NotInterrupted No clock ready interrupt 0 Interrupted Clock ready interrupt 1 PLLI2SRDYF PLLI2S ready interrupt flag 5 1 read-only PLLRDYF Main PLL (PLL) ready interrupt flag 4 1 read-only HSERDYF HSE ready interrupt flag 3 1 read-only HSIRDYF HSI ready interrupt flag 2 1 read-only LSERDYF LSE ready interrupt flag 1 1 read-only AHB1RSTR AHB1RSTR AHB1 peripheral reset register 0x10 0x20 read-write 0x00000000 GPIOARST IO port A reset 0 1 GPIOARST Reset Reset the selected module 1 GPIOBRST IO port B reset 1 1 GPIOCRST IO port C reset 2 1 GPIODRST IO port D reset 3 1 GPIOERST IO port E reset 4 1 GPIOFRST IO port F reset 5 1 GPIOGRST IO port G reset 6 1 GPIOHRST IO port H reset 7 1 CRCRST CRC reset 12 1 DMA1RST DMA2 reset 21 1 DMA2RST DMA2 reset 22 1 AHB2RSTR AHB2RSTR AHB2 peripheral reset register 0x14 0x20 read-write 0x00000000 CRYPRST CRYP module reset 4 1 CRYPRST Reset Reset the selected module 1 OTGFSRST USB OTG FS module reset 7 1 RNGRST RNGRST 6 1 APB1RSTR APB1RSTR APB1 peripheral reset register 0x20 0x20 read-write 0x00000000 TIM2RST TIM2 reset 0 1 TIM2RST Reset Reset the selected module 1 TIM3RST TIM3 reset 1 1 TIM4RST TIM4 reset 2 1 TIM5RST TIM5 reset 3 1 TIM6RST TIM6RST 4 1 TIM7RST TIM7RST 5 1 TIM12RST TIM12RST 6 1 TIM13RST TIM13RST 7 1 TIM14RST TIM14RST 8 1 WWDGRST Window watchdog reset 11 1 SPI2RST SPI 2 reset 14 1 SPI3RST SPI 3 reset 15 1 USART2RST USART 2 reset 17 1 USART3RST USART3RST 18 1 I2C1RST I2C 1 reset 21 1 I2C2RST I2C 2 reset 22 1 I2C3RST I2C3 reset 23 1 FMPI2C1RST FMPI2C1 reset 24 1 CAN1RST CAN1RST 25 1 CAN2RST CAN2RST 26 1 PWRRST Power interface reset 28 1 LPTIMER1RST LPTimer1 reset 9 1 UART4RST UART4 reset 19 1 UART5RST UART5 reset 20 1 CAN3RST CAN 3 reset 27 1 DACRST DAC reset 29 1 UART7RST UART 7 reset 30 1 UART8RST UART 8 reset 31 1 APB2RSTR APB2RSTR APB2 peripheral reset register 0x24 0x20 read-write 0x00000000 TIM1RST TIM1 reset 0 1 TIM1RST Reset Reset the selected module 1 TIM8RST TIM8RST 1 1 USART1RST USART1 reset 4 1 USART6RST USART6 reset 5 1 ADCRST ADC interface reset (common to all ADCs) 8 1 SDIORST SDIO reset 11 1 SPI1RST SPI 1 reset 12 1 SYSCFGRST System configuration controller reset 14 1 TIM9RST TIM9 reset 16 1 TIM10RST TIM10 reset 17 1 TIM11RST TIM11 reset 18 1 DFSDMRST DFSDMRST 24 1 UART9RST UART9 reset 6 1 UART10RST UART10 reset 7 1 SPI4RST SPI4 reset 13 1 SPI5RST SPI5RST 20 1 SAI1RST SAI1 reset 22 1 DFSDM2RST DFSDM2 reset 25 1 AHB1ENR AHB1ENR AHB1 peripheral clock register 0x30 0x20 read-write 0x00100000 GPIOAEN IO port A clock enable 0 1 GPIOAEN Disabled The selected clock is disabled 0 Enabled The selected clock is enabled 1 GPIOBEN IO port B clock enable 1 1 GPIOCEN IO port C clock enable 2 1 GPIODEN IO port D clock enable 3 1 GPIOEEN IO port E clock enable 4 1 GPIOFEN IO port F clock enable 5 1 GPIOGEN IO port G clock enable 6 1 GPIOHEN IO port H clock enable 7 1 CRCEN CRC clock enable 12 1 DMA1EN DMA1 clock enable 21 1 DMA2EN DMA2 clock enable 22 1 AHB2ENR AHB2ENR AHB2 peripheral clock enable register 0x34 0x20 read-write 0x00000000 CRYPEN CRYP clock enable 4 1 CRYPEN Disabled The selected clock is disabled 0 Enabled The selected clock is enabled 1 OTGFSEN USB OTG FS clock enable 7 1 RNGEN RNGEN 6 1 APB1ENR APB1ENR APB1 peripheral clock enable register 0x40 0x20 read-write 0x00000000 TIM2EN TIM2 clock enable 0 1 TIM2EN Disabled The selected clock is disabled 0 Enabled The selected clock is enabled 1 TIM3EN TIM3 clock enable 1 1 TIM4EN TIM4 clock enable 2 1 TIM5EN TIM5 clock enable 3 1 TIM6EN TIM6EN 4 1 TIM7EN TIM7EN 5 1 TIM12EN TIM12EN 6 1 TIM13EN TIM13EN 7 1 TIM14EN TIM14EN 8 1 WWDGEN Window watchdog clock enable 11 1 SPI2EN SPI2 clock enable 14 1 SPI3EN SPI3 clock enable 15 1 USART2EN USART 2 clock enable 17 1 USART3EN USART3EN 18 1 I2C1EN I2C1 clock enable 21 1 I2C2EN I2C2 clock enable 22 1 I2C3EN I2C3 clock enable 23 1 FMPI2C1EN FMPI2C1 clock enable 24 1 CAN1EN CAN1EN 25 1 CAN2EN CAN2EN 26 1 PWREN Power interface clock enable 28 1 LPTIMER1EN LPTimer 1 clock enable 9 1 RTCAPBEN clock enable 10 1 UART4EN UART 4 clock enable 19 1 UART5EN UART 5 clock enable 20 1 CAN3EN CAN 3 clock enable 27 1 DACEN DAC clock enable 29 1 UART7EN UART7 clock enable 30 1 UART8EN UART8 clock enable 31 1 APB2ENR APB2ENR APB2 peripheral clock enable register 0x44 0x20 read-write 0x00000000 TIM1EN TIM1 clock enable 0 1 TIM1EN Disabled The selected clock is disabled 0 Enabled The selected clock is enabled 1 TIM8EN TIM8EN 1 1 USART1EN USART1 clock enable 4 1 USART6EN USART6 clock enable 5 1 ADC1EN ADC1 clock enable 8 1 SDIOEN SDIO clock enable 11 1 SPI1EN SPI1 clock enable 12 1 SPI4EN SPI4 clock enable 13 1 SYSCFGEN System configuration controller clock enable 14 1 TIM9EN TIM9 clock enable 16 1 TIM10EN TIM10 clock enable 17 1 TIM11EN TIM11 clock enable 18 1 DFSDMEN DFSDMEN 24 1 SPI5EN SPI5 clock enable 20 1 SAI1EN SAI 1 clock enable 22 1 DFSDM2EN DFSDM2 clock enable 25 1 UART9EN UART9 clock enable 6 1 UART10EN UART10 clock enable 7 1 AHB1LPENR AHB1LPENR AHB1 peripheral clock enable in low power mode register 0x50 0x20 read-write 0x7E6791FF GPIOALPEN IO port A clock enable during sleep mode 0 1 GPIOALPEN DisabledInSleep Selected module is disabled during Sleep mode 0 EnabledInSleep Selected module is enabled during Sleep mode 1 GPIOBLPEN IO port B clock enable during Sleep mode 1 1 GPIOCLPEN IO port C clock enable during Sleep mode 2 1 GPIODLPEN IO port D clock enable during Sleep mode 3 1 GPIOELPEN IO port E clock enable during Sleep mode 4 1 GPIOFLPEN IO port F clock enable during sleep mode 5 1 GPIOGLPEN IO port G clock enable during sleep mode 6 1 GPIOHLPEN IO port H clock enable during Sleep mode 7 1 CRCLPEN CRC clock enable during Sleep mode 12 1 FLITFLPEN Flash interface clock enable during Sleep mode 15 1 SRAM1LPEN SRAM 1interface clock enable during Sleep mode 16 1 DMA1LPEN DMA1 clock enable during Sleep mode 21 1 DMA2LPEN DMA2 clock enable during Sleep mode 22 1 SRAM2LPEN SRAM2interface clock enable during Sleep mode 17 1 AHB2LPENR AHB2LPENR AHB2 peripheral clock enable in low power mode register 0x54 0x20 read-write 0x000000F1 FSMCLPEN Flexible memory controller module clock enable during Sleep mode 0 1 FSMCLPEN DisabledInSleep Selected module is disabled during Sleep mode 0 EnabledInSleep Selected module is enabled during Sleep mode 1 OTGFSLPEN USB OTG FS clock enable during Sleep mode 7 1 RNGLPEN RNGLPEN 6 1 QSPILPEN QUADSPI memory controller module clock enable during Sleep mode 1 1 APB1LPENR APB1LPENR APB1 peripheral clock enable in low power mode register 0x60 0x20 read-write 0x36FEC9FF TIM2LPEN TIM2 clock enable during Sleep mode 0 1 TIM2LPEN DisabledInSleep Selected module is disabled during Sleep mode 0 EnabledInSleep Selected module is enabled during Sleep mode 1 TIM3LPEN TIM3 clock enable during Sleep mode 1 1 TIM4LPEN TIM4 clock enable during Sleep mode 2 1 TIM5LPEN TIM5 clock enable during Sleep mode 3 1 TIM6LPEN TIM6LPEN 4 1 TIM7LPEN TIM7LPEN 5 1 TIM12LPEN TIM12LPEN 6 1 TIM13LPEN TIM13LPEN 7 1 TIM14LPEN TIM14LPEN 8 1 WWDGLPEN Window watchdog clock enable during Sleep mode 11 1 SPI2LPEN SPI2 clock enable during Sleep mode 14 1 SPI3LPEN SPI3 clock enable during Sleep mode 15 1 USART2LPEN USART2 clock enable during Sleep mode 17 1 USART3LPEN USART3LPEN 18 1 I2C1LPEN I2C1 clock enable during Sleep mode 21 1 I2C2LPEN I2C2 clock enable during Sleep mode 22 1 I2C3LPEN I2C3 clock enable during Sleep mode 23 1 FMPI2C1LPEN FMPI2C1 clock enable during Sleep 24 1 CAN1LPEN CAN1LPEN 25 1 CAN2LPEN CAN2LPEN 26 1 PWRLPEN Power interface clock enable during Sleep mode 28 1 LPTIMER1LPEN TIM14 clock enable during Sleep mode 9 1 RTCAPBLPEN RTC APB clock enable during Sleep mode 10 1 UART4LPEN UART4 clock enable during Sleep mode 19 1 UART5LPEN UART5 clock enable during Sleep mode 20 1 CAN3LPEN CAN3 clock enable during Sleep mode 27 1 DACLPEN DAC clock enable during Sleep mode 29 1 UART7LPEN UART7 clock enable during Sleep mode 30 1 UART8LPEN UART8 clock enable during Sleep mode 31 1 APB2LPENR APB2LPENR APB2 peripheral clock enabled in low power mode register 0x64 0x20 read-write 0x00075F33 TIM1LPEN TIM1 clock enable during Sleep mode 0 1 TIM1LPEN DisabledInSleep Selected module is disabled during Sleep mode 0 EnabledInSleep Selected module is enabled during Sleep mode 1 TIM8LPEN TIM8LPEN 1 1 USART1LPEN USART1 clock enable during Sleep mode 4 1 USART6LPEN USART6 clock enable during Sleep mode 5 1 ADC1LPEN ADC1 clock enable during Sleep mode 8 1 SDIOLPEN SDIO clock enable during Sleep mode 11 1 SPI1LPEN SPI 1 clock enable during Sleep mode 12 1 SPI4LPEN SPI4 clock enable during Sleep mode 13 1 SYSCFGLPEN System configuration controller clock enable during Sleep mode 14 1 TIM9LPEN TIM9 clock enable during sleep mode 16 1 TIM10LPEN TIM10 clock enable during Sleep mode 17 1 TIM11LPEN TIM11 clock enable during Sleep mode 18 1 DFSDMLPEN DFSDMLPEN 24 1 UART9LPEN UART9 clock enable during Sleep mode 6 1 UART10LPEN UART10 clock enable during Sleep mode 7 1 EXTITLPEN EXTIT APB and SYSCTRL PFREE clock enable during Sleep mode 15 1 SPI5LPEN SPI5 clock enable during Sleep mode 20 1 SAI1LPEN SAI1 clock enable during Sleep mode 22 1 DFSDM2LPEN DFSDM2 clock enable during Sleep mode 25 1 BDCR BDCR Backup domain control register 0x70 0x20 0x00000000 BDRST Backup domain software reset 16 1 read-write BDRST Disabled Reset not activated 0 Enabled Reset the entire RTC domain 1 RTCEN RTC clock enable 15 1 read-write RTCEN Disabled RTC clock disabled 0 Enabled RTC clock enabled 1 RTCSEL RTC clock source selection 8 2 RTCSEL NoClock No clock 0 LSE LSE oscillator clock used as RTC clock 1 LSI LSI oscillator clock used as RTC clock 2 HSE HSE oscillator clock divided by a prescaler used as RTC clock 3 LSEBYP External low-speed oscillator bypass 2 1 read-write LSEBYP NotBypassed LSE crystal oscillator not bypassed 0 Bypassed LSE crystal oscillator bypassed with external clock 1 LSERDY External low-speed oscillator ready 1 1 read-only LSERDYR NotReady LSE oscillator not ready 0 Ready LSE oscillator ready 1 LSEON External low-speed oscillator enable 0 1 read-write LSEON Off LSE oscillator Off 0 On LSE oscillator On 1 LSEMOD External low-speed oscillator bypass 3 1 read-write LSEMOD Low LSE oscillator low power mode selection 0 High LSE oscillator high drive mode selection 1 CSR CSR clock control & status register 0x74 0x20 0x0E000000 BORRSTF BOR reset flag 25 1 read-write BORRSTFR read NoReset No reset has occured 0 Reset A reset has occured 1 LPWRRSTF Low-power reset flag 31 1 read-write WWDGRSTF Window watchdog reset flag 30 1 read-write WDGRSTF Independent watchdog reset flag 29 1 read-write SFTRSTF Software reset flag 28 1 read-write PORRSTF POR/PDR reset flag 27 1 read-write PADRSTF PIN reset flag 26 1 read-write RMVF Remove reset flag 24 1 read-write RMVFW write Clear Clears the reset flag 1 LSIRDY Internal low-speed oscillator ready 1 1 read-only LSIRDYR NotReady LSI oscillator not ready 0 Ready LSI oscillator ready 1 LSION Internal low-speed oscillator enable 0 1 read-write LSION Off LSI oscillator Off 0 On LSI oscillator On 1 SSCGR SSCGR spread spectrum clock generation register 0x80 0x20 read-write 0x00000000 SSCGEN Spread spectrum modulation enable 31 1 SSCGEN Disabled Spread spectrum modulation disabled 0 Enabled Spread spectrum modulation enabled 1 SPREADSEL Spread Select 30 1 SPREADSEL Center Center spread 0 Down Down spread 1 INCSTEP Incrementation step 13 15 0 32767 MODPER Modulation period 0 13 0 8191 PLLI2SCFGR PLLI2SCFGR PLLI2S configuration register 0x84 0x20 read-write 0x20003000 PLLI2SR PLLI2S division factor for I2S clocks 28 3 2 7 PLLI2SN PLLI2S multiplication factor for VCO 6 9 50 432 PLLI2SM Division factor for the main PLL (PLL) and audio PLL (PLLI2S) input clock 0 6 2 63 PLLI2SSRC PLLI2S entry clock source 22 1 PLLI2SSRC HSE_HSI HSE or HSI depending on PLLSRC of PLLCFGR 0 External External AFI clock (CK_PLLI2S_EXT) selected as PLL clock entry 1 PLLI2SQ PLLI2S division factor for USB OTG FS/SDIO/RNG clock 24 4 2 15 AHB3RSTR AHB3RSTR peripheral reset register 0x18 0x20 read-write 0x00000000 FSMCRST Flexible memory controller module reset 0 1 FSMCRST Reset Reset the selected module 1 QSPIRST QUADSPI module reset 1 1 AHB3ENR AHB3ENR AHB3 peripheral clock enable register 0x38 0x20 read-write 0x00000000 FSMCEN Flexible memory controller module clock enable 0 1 FSMCEN Disabled The selected clock is disabled 0 Enabled The selected clock is enabled 1 QSPIEN QUADSPI memory controller module clock enable 1 1 AHB3LPENR AHB3LPENR AHB3 peripheral clock enable in low power mode register 0x58 0x20 read-write 0x00000003 FSMCLPEN Flexible memory controller module clock enable during Sleep mode 0 1 FSMCLPEN DisabledInSleep Selected module is disabled during Sleep mode 0 EnabledInSleep Selected module is enabled during Sleep mode 1 QSPILPEN QUADSPI memory controller module clock enable during Sleep mode 1 1 DCKCFGR DCKCFGR Dedicated Clocks Configuration Register 0x8C 0x20 read-write 0x00000000 CKDFSDM2ASEL DFSDM2 audio clock selection 14 1 CKDFSDM2ASEL I2S1 CK_I2S_APB1 selected as audio clock 0 I2S2 CK_I2S_APB2 selected as audio clock 1 CKDFSDM1ASEL DFSDM1 audio clock selection. 15 1 TIMPRE Timers clocks prescalers selection 24 1 TIMPRE Mul1Or2 If the APB prescaler is configured 1, TIMxCLK = PCLKx. Otherwise, TIMxCLK = 2xPCLKx 0 Mul1Or4 If the APB prescaler is configured 1, 2 or 4, TIMxCLK = HCLK. Otherwise, TIMxCLK = 4xPCLKx 1 I2S1SRC I2S APB1 clocks source selection (I2S2/3) 25 2 I2S1SRC PLLI2SR I2Sx clock frequency = f(PLLI2S_R) 0 I2S_CKIN I2Sx clock frequency = I2S_CKIN Alternate function input frequency 1 PLLR I2Sx clock frequency = f(PLL_R) 2 HSI_HSE I2Sx clock frequency = HSI/HSE depends on PLLSRC bit (PLLCFGR[22]) 3 I2S2SRC I2S APB2 clocks source selection (I2S1/4/5) 27 2 PLLI2SDIVR PLLI2S division factor for SAI1 A/B clock 0 5 PLLI2SDIVR Div1 PLLI2SDIVQ = /1 0 Div2 PLLI2SDIVQ = /2 1 Div3 PLLI2SDIVQ = /3 2 Div4 PLLI2SDIVQ = /4 3 Div5 PLLI2SDIVQ = /5 4 Div6 PLLI2SDIVQ = /6 5 Div7 PLLI2SDIVQ = /7 6 Div8 PLLI2SDIVQ = /8 7 Div9 PLLI2SDIVQ = /9 8 Div10 PLLI2SDIVQ = /10 9 Div11 PLLI2SDIVQ = /11 10 Div12 PLLI2SDIVQ = /12 11 Div13 PLLI2SDIVQ = /13 12 Div14 PLLI2SDIVQ = /14 13 Div15 PLLI2SDIVQ = /15 14 Div16 PLLI2SDIVQ = /16 15 Div17 PLLI2SDIVQ = /17 16 Div18 PLLI2SDIVQ = /18 17 Div19 PLLI2SDIVQ = /19 18 Div20 PLLI2SDIVQ = /20 19 Div21 PLLI2SDIVQ = /21 20 Div22 PLLI2SDIVQ = /22 21 Div23 PLLI2SDIVQ = /23 22 Div24 PLLI2SDIVQ = /24 23 Div25 PLLI2SDIVQ = /25 24 Div26 PLLI2SDIVQ = /26 25 Div27 PLLI2SDIVQ = /27 26 Div28 PLLI2SDIVQ = /28 27 Div29 PLLI2SDIVQ = /29 28 Div30 PLLI2SDIVQ = /30 29 Div31 PLLI2SDIVQ = /31 30 Div32 PLLI2SDIVQ = /32 31 PLLDIVR PLL division factor for SAI1 A/B clock 8 5 PLLDIVR Div1 PLLSAIDIVQ = /1 0 Div2 PLLSAIDIVQ = /2 1 Div3 PLLSAIDIVQ = /3 2 Div4 PLLSAIDIVQ = /4 3 Div5 PLLSAIDIVQ = /5 4 Div6 PLLSAIDIVQ = /6 5 Div7 PLLSAIDIVQ = /7 6 Div8 PLLSAIDIVQ = /8 7 Div9 PLLSAIDIVQ = /9 8 Div10 PLLSAIDIVQ = /10 9 Div11 PLLSAIDIVQ = /11 10 Div12 PLLSAIDIVQ = /12 11 Div13 PLLSAIDIVQ = /13 12 Div14 PLLSAIDIVQ = /14 13 Div15 PLLSAIDIVQ = /15 14 Div16 PLLSAIDIVQ = /16 15 Div17 PLLSAIDIVQ = /17 16 Div18 PLLSAIDIVQ = /18 17 Div19 PLLSAIDIVQ = /19 18 Div20 PLLSAIDIVQ = /20 19 Div21 PLLSAIDIVQ = /21 20 Div22 PLLSAIDIVQ = /22 21 Div23 PLLSAIDIVQ = /23 22 Div24 PLLSAIDIVQ = /24 23 Div25 PLLSAIDIVQ = /25 24 Div26 PLLSAIDIVQ = /26 25 Div27 PLLSAIDIVQ = /27 26 Div28 PLLSAIDIVQ = /28 27 Div29 PLLSAIDIVQ = /29 28 Div30 PLLSAIDIVQ = /30 29 Div31 PLLSAIDIVQ = /31 30 Div32 PLLSAIDIVQ = /32 31 SAI1ASRC SAI1-A clock source selection 20 2 SAI1ASRC PLLSAI SAI1-A clock frequency = f(PLLSAI_Q) / PLLSAIDIVQ 0 PLLI2S SAI1-A clock frequency = f(PLLI2S_Q) / PLLI2SDIVQ 1 I2S_CKIN SAI1-A clock frequency = Alternate function input frequency 2 SAI1BSRC SAI1-B clock source selection 22 2 SAI1BSRC PLLSAI SAI1-B clock frequency = f(PLLSAI_Q) / PLLSAIDIVQ 0 PLLI2S SAI1-B clock frequency = f(PLLI2S_Q) / PLLI2SDIVQ 1 I2S_CKIN SAI1-B clock frequency = Alternate function input frequency 2 CKDFSDM1SEL DFSDM1 Kernel clock selection 31 1 CKDFSDM1SEL APB2 APB2 clock used as Kernel clock 0 SYSCLK System clock used as Kernel clock 1 CKGATENR CKGATENR RCC clocks gated enable register 0x90 0x20 read-write 0x00000000 AHB2APB1_CKEN AHB to APB1 Bridge clock enable 0 1 AHB2APB1_CKEN Enabled The clock gating is enabled 0 Disabled The clock gating is disabled, the clock is always enabled 1 AHB2APB2_CKEN AHB to APB2 Bridge clock enable 1 1 CM4DBG_CKEN Cortex M4 ETM clock enable 2 1 SPARE_CKEN Spare clock enable 3 1 SRAM_CKEN SRQAM controller clock enable 4 1 FLITF_CKEN Flash Interface clock enable 5 1 RCC_CKEN RCC clock enable 6 1 EVTCL_CKEN EVTCL_CKEN 7 1 DCKCFGR2 DCKCFGR2 Dedicated Clocks Configuration Register 0x94 0x20 read-write 0x00000000 SDIOSEL SDIO clock selection. 28 1 SDIOSEL CK48M 48 MHz clock is selected as SD clock 0 SYSCLK System clock is selected as SD clock 1 CK48MSEL SDIO/USBFS clock selection. 27 1 CK48MSEL PLL 48MHz clock from PLL is selected 0 PLLSAI 48MHz clock from PLLSAI is selected 1 FMPI2C1SEL I2CFMP1 kernel clock source selection 22 2 FMPI2C1SEL APB APB clock selected as I2C clock 0 SYSCLK System clock selected as I2C clock 1 HSI HSI clock selected as I2C clock 2 LPTIM1SEL LPTIM1 kernel clock source selection 30 2 LPTIM1SEL APB1 APB1 clock (PCLK1) selected as LPTILM1 clock 0 LSI LSI clock is selected as LPTILM1 clock 1 HSI HSI clock is selected as LPTILM1 clock 2 LSE LSE clock is selected as LPTILM1 clock 3 SDIO Secure digital input/output interface SDIO 0x40012C00 0x0 0x85 registers RCC RCC global interrupt 5 FPU FPU global interrupt 81 POWER POWER power control register 0x0 0x20 read-write 0x00000000 PWRCTRL PWRCTRL 0 2 PWRCTRL PowerOff Power off 0 PowerOn Power on 3 CLKCR CLKCR SDI clock control register 0x4 0x20 read-write 0x00000000 HWFC_EN HW Flow Control enable 14 1 HWFC_EN Disabled HW Flow Control is disabled 0 Enabled HW Flow Control is enabled 1 NEGEDGE SDIO_CK dephasing selection bit 13 1 NEGEDGE Rising SDIO_CK generated on the rising edge 0 Falling SDIO_CK generated on the falling edge 1 WIDBUS Wide bus mode enable bit 11 2 WIDBUS BusWidth1 1 lane wide bus 0 BusWidth4 4 lane wide bus 1 BusWidth8 8 lane wide bus 2 BYPASS Clock divider bypass enable bit 10 1 BYPASS Disabled SDIOCLK is divided according to the CLKDIV value before driving the SDIO_CK output signal. 0 Enabled SDIOCLK directly drives the SDIO_CK output signal 1 PWRSAV Power saving configuration bit 9 1 PWRSAV Enabled SDIO_CK clock is always enabled 0 Disabled SDIO_CK is only enabled when the bus is active 1 CLKEN Clock enable bit 8 1 CLKEN Disabled Disable clock 0 Enabled Enable clock 1 CLKDIV Clock divide factor 0 8 0 255 ARG ARG argument register 0x8 0x20 read-write 0x00000000 CMDARG Command argument 0 32 0 4294967295 CMD CMD command register 0xC 0x20 read-write 0x00000000 CE_ATACMD CE-ATA command 14 1 CE_ATACMD Disabled CE-ATA command disabled 0 Enabled CE-ATA command enabled 1 nIEN not Interrupt Enable 13 1 nIEN Disabled Interrupts to the CE-ATA not disabled 0 Enabled Interrupt to the CE-ATA are disabled 1 ENCMDcompl Enable CMD completion 12 1 ENCMDcompl Disabled Command complete signal disabled 0 Enabled Command complete signal enabled 1 SDIOSuspend SD I/O suspend command 11 1 SDIOSuspend Disabled Next command is not a SDIO suspend command 0 Enabled Next command send is a SDIO suspend command 1 CPSMEN Command path state machine (CPSM) Enable bit 10 1 CPSMEN Disabled Command path state machine disabled 0 Enabled Command path state machine enabled 1 WAITPEND CPSM Waits for ends of data transfer (CmdPend internal signal). 9 1 WAITPEND Disabled Don't wait for data end 0 Enabled Wait for end of data transfer signal before sending command 1 WAITINT CPSM waits for interrupt request 8 1 WAITINT Disabled Don't wait for interrupt request 0 Enabled Wait for interrupt request 1 WAITRESP Wait for response bits 6 2 WAITRESP NoResponse No response 0 ShortResponse Short response 1 NoResponse2 No reponse 2 LongResponse Long reponse 3 CMDINDEX Command index 0 6 0 63 RESPCMD RESPCMD command response register 0x10 0x20 read-only 0x00000000 RESPCMD Response command index 0 6 0 63 4 0x4 1-4 RESP%s RESP%s SDIO response %s register 0x14 0x20 read-only 0x00000000 CARDSTATUS Status of a card, which is part of the received response 0 32 0 4294967295 DTIMER DTIMER data timer register 0x24 0x20 read-write 0x00000000 DATATIME Data timeout period 0 32 0 4294967295 DLEN DLEN data length register 0x28 0x20 read-write 0x00000000 DATALENGTH Data length value 0 25 0 33554431 DCTRL DCTRL data control register 0x2C 0x20 read-write 0x00000000 SDIOEN SD I/O enable functions 11 1 SDIOEN Disabled SDIO operations disabled 0 Enabled SDIO operations enabled 1 RWMOD Read wait mode 10 1 RWMOD D2 Read wait control stopping using SDIO_D2 0 Ck Read wait control using SDIO_CK 1 RWSTOP Read wait stop 9 1 RWSTOP Disabled Read wait in progress if RWSTART is enabled 0 Enabled Enable for read wait stop if RWSTART is enabled 1 RWSTART Read wait start 8 1 RWSTART Disabled Don't start read wait operation 0 Enabled Read wait operation starts 1 DBLOCKSIZE Data block size 4 4 0 15 DMAEN DMA enable bit 3 1 DMAEN Disabled Dma disabled 0 Enabled Dma enabled 1 DTMODE Data transfer mode selection 1: Stream or SDIO multibyte data transfer. 2 1 DTMODE BlockMode Bloack data transfer 0 StreamMode Stream or SDIO multibyte data transfer 1 DTDIR Data transfer direction selection 1 1 DTDIR ControllerToCard From controller to card 0 CardToController From card to controller 1 DTEN DTEN 0 1 DTEN Disabled Disabled 0 Enabled Start transfer 1 DCOUNT DCOUNT data counter register 0x30 0x20 read-only 0x00000000 DATACOUNT Data count value 0 25 0 33554431 STA STA status register 0x34 0x20 read-only 0x00000000 CEATAEND CE-ATA command completion signal received for CMD61 23 1 CEATAEND NotReceived Completion signal not received 0 Received CE-ATA command completion signal received for CMD61 1 SDIOIT SDIO interrupt received 22 1 SDIOIT NotReceived SDIO interrupt not receieved 0 Received SDIO interrupt received 1 RXDAVL Data available in receive FIFO 21 1 RXDAVL NotAvailable Data not available in receive FIFO 0 Available Data available in receive FIFO 1 TXDAVL Data available in transmit FIFO 20 1 TXDAVL NotAvailable Data not available in transmit FIFO 0 Available Data available in transmit FIFO 1 RXFIFOE Receive FIFO empty 19 1 RXFIFOE NotEmpty Receive FIFO not empty 0 Empty Receive FIFO empty 1 TXFIFOE Transmit FIFO empty 18 1 TXFIFOE NotEmpty Transmit FIFO not empty 0 Empty Transmit FIFO empty. When HW Flow Control is enabled, TXFIFOE signals becomes activated when the FIFO contains 2 words. 1 RXFIFOF Receive FIFO full 17 1 RXFIFOF NotFull Transmit FIFO not full 0 Full Receive FIFO full. When HW Flow Control is enabled, RXFIFOF signals becomes activated 2 words before the FIFO is full. 1 TXFIFOF Transmit FIFO full 16 1 TXFIFOF NotFull Transmit FIFO not full 0 Full Transmit FIFO full 1 RXFIFOHF Receive FIFO half full: there are at least 8 words in the FIFO 15 1 RXFIFOHF NotHalfFull Receive FIFO not half full 0 HalfFull Receive FIFO half full. At least 8 words in the FIFO 1 TXFIFOHE Transmit FIFO half empty: at least 8 words can be written into the FIFO 14 1 TXFIFOHE NotHalfEmpty Transmit FIFO not half empty 0 HalfEmpty Transmit FIFO half empty. At least 8 words can be written into the FIFO 1 RXACT Data receive in progress 13 1 RXACT NotInProgress Data receive not in progress 0 InProgress Data receive in progress 1 TXACT Data transmit in progress 12 1 TXACT NotInProgress Data transmit is not in progress 0 InProgress Data transmit in progress 1 CMDACT Command transfer in progress 11 1 CMDACT NotInProgress Command transfer not in progress 0 InProgress Command tranfer in progress 1 DBCKEND Data block sent/received (CRC check passed) 10 1 DBCKEND NotTransferred Data block not sent/received (CRC check failed) 0 Transferred Data block sent/received (CRC check passed) 1 STBITERR Start bit not detected on all data signals in wide bus mode 9 1 STBITERR Detected No start bit detected error 0 NotDetected Start bit not detected error 1 DATAEND Data end (data counter, SDIDCOUNT, is zero) 8 1 DATAEND NotDone Not done 0 Done Data end (DCOUNT, is zero) 1 CMDSENT Command sent (no response required) 7 1 CMDSENT NotSent Command not sent 0 Sent Command sent (no response required) 1 CMDREND Command response received (CRC check passed) 6 1 CMDREND NotDone Command not done 0 Done Command response received (CRC check passed) 1 RXOVERR Received FIFO overrun error 5 1 RXOVERR NoOverrun No FIFO overrun error 0 Overrun Receive FIFO overrun error 1 TXUNDERR Transmit FIFO underrun error 4 1 TXUNDERR NoUnderrun No transmit FIFO underrun error 0 Underrun Transmit FIFO underrun error 1 DTIMEOUT Data timeout 3 1 DTIMEOUT NoTimeout No data timeout 0 Timeout Data timeout 1 CTIMEOUT Command response timeout 2 1 CTIMEOUT NoTimeout No Command timeout 0 Timeout Command timeout 1 DCRCFAIL Data block sent/received (CRC check failed) 1 1 DCRCFAIL NotFailed No Data block sent/received crc check fail 0 Failed Data block sent/received crc failed 1 CCRCFAIL Command response received (CRC check failed) 0 1 CCRCFAIL NotFailed Command response received, crc check passed 0 Failed Command response received, crc check failed 1 ICR ICR interrupt clear register 0x38 0x20 read-write 0x00000000 CCRCFAILC CCRCFAIL flag clear bit 0 1 CCRCFAILCW write Clear Clear flag 1 CEATAENDC CEATAEND flag clear bit 23 1 SDIOITC SDIOIT flag clear bit 22 1 DBCKENDC DBCKEND flag clear bit 10 1 STBITERRC STBITERR flag clear bit 9 1 DATAENDC DATAEND flag clear bit 8 1 CMDSENTC CMDSENT flag clear bit 7 1 CMDRENDC CMDREND flag clear bit 6 1 RXOVERRC RXOVERR flag clear bit 5 1 TXUNDERRC TXUNDERR flag clear bit 4 1 DTIMEOUTC DTIMEOUT flag clear bit 3 1 CTIMEOUTC CTIMEOUT flag clear bit 2 1 DCRCFAILC DCRCFAIL flag clear bit 1 1 MASK MASK mask register 0x3C 0x20 read-write 0x00000000 CCRCFAILIE Command CRC fail interrupt enable 0 1 CCRCFAILIE Disabled Interrupt disabled 0 Enabled Interrupt enabled 1 CEATAENDIE CE-ATA command completion signal received interrupt enable 23 1 SDIOITIE SDIO mode interrupt received interrupt enable 22 1 RXDAVLIE Data available in Rx FIFO interrupt enable 21 1 TXDAVLIE Data available in Tx FIFO interrupt enable 20 1 RXFIFOEIE Rx FIFO empty interrupt enable 19 1 TXFIFOEIE Tx FIFO empty interrupt enable 18 1 RXFIFOFIE Rx FIFO full interrupt enable 17 1 TXFIFOFIE Tx FIFO full interrupt enable 16 1 RXFIFOHFIE Rx FIFO half full interrupt enable 15 1 TXFIFOHEIE Tx FIFO half empty interrupt enable 14 1 RXACTIE Data receive acting interrupt enable 13 1 TXACTIE Data transmit acting interrupt enable 12 1 CMDACTIE Command acting interrupt enable 11 1 DBCKENDIE Data block end interrupt enable 10 1 STBITERRIE Start bit error interrupt enable 9 1 DATAENDIE Data end interrupt enable 8 1 CMDSENTIE Command sent interrupt enable 7 1 CMDRENDIE Command response received interrupt enable 6 1 RXOVERRIE Rx FIFO overrun error interrupt enable 5 1 TXUNDERRIE Tx FIFO underrun error interrupt enable 4 1 DTIMEOUTIE Data timeout interrupt enable 3 1 CTIMEOUTIE Command timeout interrupt enable 2 1 DCRCFAILIE Data CRC fail interrupt enable 1 1 FIFOCNT FIFOCNT FIFO counter register 0x48 0x20 read-only 0x00000000 FIFOCOUNT Remaining number of words to be written to or read from the FIFO. 0 24 0 16777215 FIFO FIFO data FIFO register 0x80 0x20 read-write 0x00000000 FIFOData Receive and transmit FIFO data 0 32 0 4294967295 SAI Serial audio interface SAI 0x40015800 0x0 0x400 registers SDIO SDIO global interrupt 49 2 0x20 A,B CH%s Cluster CH%s, containing ?CR1, ?CR2, ?FRCR, ?SLOTR, ?IM, ?SR, ?CLRFR, ?DR 0x4 CR1 ACR1 AConfiguration register 1 0x0 0x20 read-write 0x00000040 MCKDIV Master clock divider 20 4 NODIV No divider 19 1 NODIV MasterClock MCLK output is enabled. Forces the ratio between FS and MCLK to 256 or 512 according to the OSR value 0 NoDiv MCLK output enable set by the MCKEN bit (where present, else 0). Ratio between FS and MCLK depends on FRL. 1 DMAEN DMA enable 17 1 DMAEN Disabled DMA disabled 0 Enabled DMA enabled 1 SAIEN Audio block A enable 16 1 SAIEN Disabled SAI audio block disabled 0 Enabled SAI audio block enabled 1 OUTDRIV Output drive 13 1 OUTDRIV OnStart Audio block output driven when SAIEN is set 0 Immediately Audio block output driven immediately after the setting of this bit 1 MONO Mono mode 12 1 MONO Stereo Stereo mode 0 Mono Mono mode 1 SYNCEN Synchronization enable 10 2 SYNCEN Asynchronous audio sub-block in asynchronous mode 0 Internal audio sub-block is synchronous with the other internal audio sub-block. In this case, the audio sub-block must be configured in slave mode 1 External audio sub-block is synchronous with an external SAI embedded peripheral. In this case the audio sub-block should be configured in Slave mode 2 CKSTR Clock strobing edge 9 1 CKSTR FallingEdge Data strobing edge is falling edge of SCK 0 RisingEdge Data strobing edge is rising edge of SCK 1 LSBFIRST Least significant bit first 8 1 LSBFIRST MsbFirst Data are transferred with MSB first 0 LsbFirst Data are transferred with LSB first 1 DS Data size 5 3 DS Bit8 8 bits 2 Bit10 10 bits 3 Bit16 16 bits 4 Bit20 20 bits 5 Bit24 24 bits 6 Bit32 32 bits 7 PRTCFG Protocol configuration 2 2 PRTCFG Free Free protocol. Free protocol allows to use the powerful configuration of the audio block to address a specific audio protocol 0 Spdif SPDIF protocol 1 Ac97 ACâ97 protocol 2 MODE Audio block mode 0 2 MODE MasterTx Master transmitter 0 MasterRx Master receiver 1 SlaveTx Slave transmitter 2 SlaveRx Slave receiver 3 CR2 ACR2 AConfiguration register 2 0x4 0x20 read-write 0x00000000 COMP Companding mode 14 2 read-write COMP NoCompanding No companding algorithm 0 MuLaw μ-Law algorithm 2 ALaw A-Law algorithm 3 CPL Complement bit 13 1 read-write CPL OnesComplement 1âs complement representation 0 TwosComplement 2âs complement representation 1 MUTECNT Mute counter 7 6 read-write MUTEVAL Mute value 6 1 read-write MUTEVAL SendZero Bit value 0 is sent during the mute mode 0 SendLast Last values are sent during the mute mode 1 MUTE Mute 5 1 read-write MUTE Disabled No mute mode 0 Enabled Mute mode enabled 1 TRIS Tristate management on data line 4 1 read-write FFLUSH FIFO flush 3 1 write-only FFLUSH NoFlush No FIFO flush 0 Flush FIFO flush. Programming this bit to 1 triggers the FIFO Flush. All the internal FIFO pointers (read and write) are cleared 1 FTH FIFO threshold 0 3 read-write FTH Empty FIFO empty 0 Quarter1 1â4 FIFO 1 Quarter2 1â2 FIFO 2 Quarter3 3â4 FIFO 3 Full FIFO full 4 FRCR AFRCR AFRCR 0x8 0x20 read-write 0x00000007 FSOFF Frame synchronization offset 18 1 read-write FSOFF OnFirst FS is asserted on the first bit of the slot 0 0 BeforeFirst FS is asserted one bit before the first bit of the slot 0 1 FSPOL Frame synchronization polarity 17 1 read-write FSPOL FallingEdge FS is active low (falling edge) 0 RisingEdge FS is active high (rising edge) 1 FSDEF Frame synchronization definition 16 1 read-write FSALL Frame synchronization active level length 8 7 read-write FRL Frame length 0 8 read-write SLOTR ASLOTR ASlot register 0xC 0x20 read-write 0x00000000 SLOTEN Slot enable 16 16 SLOTEN Inactive Inactive slot 0 Active Active slot 1 NBSLOT Number of slots in an audio frame 8 4 SLOTSZ Slot size 6 2 SLOTSZ DataSize The slot size is equivalent to the data size (specified in DS[3:0] in the SAI_xCR1 register) 0 Bit16 16-bit 1 Bit32 32-bit 2 FBOFF First bit offset 0 5 IM AIM AInterrupt mask register2 0x10 0x20 read-write 0x00000000 LFSDETIE Late frame synchronization detection interrupt enable 6 1 LFSDETIE Disabled Interrupt is disabled 0 Enabled Interrupt is enabled 1 AFSDETIE Anticipated frame synchronization detection interrupt enable 5 1 AFSDETIE Disabled Interrupt is disabled 0 Enabled Interrupt is enabled 1 CNRDYIE Codec not ready interrupt enable 4 1 CNRDYIE Disabled Interrupt is disabled 0 Enabled Interrupt is enabled 1 FREQIE FIFO request interrupt enable 3 1 FREQIE Disabled Interrupt is disabled 0 Enabled Interrupt is enabled 1 WCKCFGIE Wrong clock configuration interrupt enable 2 1 WCKCFGIE Disabled Interrupt is disabled 0 Enabled Interrupt is enabled 1 MUTEDETIE Mute detection interrupt enable 1 1 MUTEDETIE Disabled Interrupt is disabled 0 Enabled Interrupt is enabled 1 OVRUDRIE Overrun/underrun interrupt enable 0 1 OVRUDRIE Disabled Interrupt is disabled 0 Enabled Interrupt is enabled 1 SR ASR AStatus register 0x14 0x20 read-only 0x00000008 FLVL FIFO level threshold 16 3 FLVLR Empty FIFO empty 0 Quarter1 FIFO <= 1â4 but not empty 1 Quarter2 1â4 < FIFO <= 1â2 2 Quarter3 1â2 < FIFO <= 3â4 3 Quarter4 3â4 < FIFO but not full 4 Full FIFO full 5 LFSDET Late frame synchronization detection 6 1 LFSDETR NoError No error 0 NoSync Frame synchronization signal is not present at the right time 1 AFSDET Anticipated frame synchronization detection 5 1 AFSDETR NoError No error 0 EarlySync Frame synchronization signal is detected earlier than expected 1 CNRDY Codec not ready 4 1 CNRDYR Ready External ACâ97 Codec is ready 0 NotReady External ACâ97 Codec is not ready 1 FREQ FIFO request 3 1 FREQR NoRequest No FIFO request 0 Request FIFO request to read or to write the SAI_xDR 1 WCKCFG Wrong clock configuration flag. This bit is read only. 2 1 WCKCFGR Correct Clock configuration is correct 0 Wrong Clock configuration does not respect the rule concerning the frame length specification 1 MUTEDET Mute detection 1 1 MUTEDETR NoMute No MUTE detection on the SD input line 0 Mute MUTE value detected on the SD input line (0 value) for a specified number of consecutive audio frame 1 OVRUDR Overrun / underrun 0 1 OVRUDRR NoError No overrun/underrun error 0 Overrun Overrun/underrun error detection 1 CLRFR ACLRFR AClear flag register 0x18 0x20 write-only 0x00000000 CLFSDET Clear late frame synchronization detection flag 6 1 CLFSDETW Clear Clears the LFSDET flag 1 CAFSDET Clear anticipated frame synchronization detection flag. 5 1 CAFSDETW Clear Clears the AFSDET flag 1 CCNRDY Clear codec not ready flag 4 1 CCNRDYW Clear Clears the CNRDY flag 1 CWCKCFG Clear wrong clock configuration flag 2 1 CWCKCFGW Clear Clears the WCKCFG flag 1 CMUTEDET Mute detection flag 1 1 CMUTEDETW Clear Clears the MUTEDET flag 1 COVRUDR Clear overrun / underrun 0 1 COVRUDRW Clear Clears the OVRUDR flag 1 DR ADR AData register 0x1C 0x20 read-write 0x00000000 DATA Data 0 32 SPI1 Serial peripheral interface SPI 0x40013000 0x0 0x400 registers SPI4 SPI4 global interrupt 84 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 DFF Data frame format 11 1 DFF EightBit 8-bit data frame format is selected for transmission/reception 0 SixteenBit 16-bit data frame format is selected for transmission/reception 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 TXEIE Tx buffer empty interrupt enable 7 1 TXEIE Masked TXE interrupt masked 0 NotMasked TXE 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 ERRIE Error interrupt enable 5 1 ERRIE Masked Error interrupt masked 0 NotMasked Error interrupt not masked 1 FRF Frame format 4 1 FRF Motorola SPI Motorola mode 0 TI SPI TI mode 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 TXDMAEN Tx buffer DMA enable 1 1 TXDMAEN Disabled Tx buffer DMA disabled 0 Enabled Tx buffer DMA enabled 1 RXDMAEN Rx buffer DMA enable 0 1 RXDMAEN Disabled Rx buffer DMA disabled 0 Enabled Rx buffer DMA enabled 1 SR SR status register 0x8 0x10 0x00000002 FRE TI frame format error 8 1 read-only FRER NoError No frame format error 0 Error A frame format error occurred 1 BSY Busy flag 7 1 read-only BSYR NotBusy SPI not busy 0 Busy SPI busy 1 OVR Overrun flag 6 1 read-only OVRR NoOverrun No overrun occurred 0 Overrun Overrun occurred 1 MODF Mode fault 5 1 read-only MODFR NoFault No mode fault occurred 0 Fault Mode fault 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 UDR Underrun flag 3 1 read-only UDRR NoUnderrun No underrun occurred 0 Underrun Underrun occurred 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 TXE Transmit buffer empty 1 1 read-only TXE NotEmpty Tx buffer not empty 0 Empty Tx buffer empty 1 RXNE Receive buffer not empty 0 1 read-only RXNE Empty Rx buffer empty 0 NotEmpty Rx buffer not empty 1 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 I2S configuration register 0x1C 0x10 read-write 0x00000000 I2SMOD I2S mode selection 11 1 I2SMOD SPIMode SPI mode is selected 0 I2SMode I2S mode is selected 1 I2SE I2S Enable 10 1 I2SE Disabled I2S peripheral is disabled 0 Enabled I2S peripheral is enabled 1 I2SCFG I2S configuration mode 8 2 I2SCFG SlaveTx Slave - transmit 0 SlaveRx Slave - receive 1 MasterTx Master - transmit 2 MasterRx Master - receive 3 PCMSYNC PCM frame synchronization 7 1 PCMSYNC Short Short frame synchronisation 0 Long Long frame synchronisation 1 I2SSTD I2S standard selection 4 2 I2SSTD Philips I2S Philips standard 0 MSB MSB justified standard 1 LSB LSB justified standard 2 PCM PCM standard 3 CKPOL Steady state clock polarity 3 1 CKPOL IdleLow I2S clock inactive state is low level 0 IdleHigh I2S clock inactive state is high level 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 CHLEN Channel length (number of bits per audio channel) 0 1 CHLEN SixteenBit 16-bit wide 0 ThirtyTwoBit 32-bit wide 1 I2SPR I2SPR I2S prescaler register 0x20 0x10 read-write 0x0000000A MCKOE Master clock output enable 9 1 MCKOE Disabled Master clock output is disabled 0 Enabled Master clock output is enabled 1 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 I2SDIV I2S Linear prescaler 0 8 2 255 SPI5 0x40015000 SPI4 0x40013400 SPI5 SPI5 global interrupt 85 SPI2 0x40003800 SPI6 0x40015400 SPI3 0x40003C00 SPI1 SPI1 global interrupt 35 I2S3ext 0x40004000 SYSCFG System configuration controller SYSCFG 0x40013800 0x0 0x31 registers SPI2 SPI2 global interrupt 36 MEMRMP MEMRM memory remap register 0x0 0x20 read-write 0x00000000 MEM_MODE MEM_MODE 0 2 MEM_MODE MainFlash Main Flash memory mapped at 0x0000 0000 0 SystemFlash System Flash memory mapped at 0x0000 0000 1 EmbeddedSRAM Embedded SRAM mapped at 0x0000 0000 3 PMC PMC peripheral mode configuration register 0x4 0x20 read-write 0x00000000 ADC1DC2 ADC1DC2 16 1 0 1 EXTICR1 EXTICR1 external interrupt configuration register 1 0x8 0x20 read-write 0x00000000 EXTI3 EXTI x configuration (x = 0 to 3) 12 4 EXTI2 EXTI x configuration (x = 0 to 3) 8 4 EXTI1 EXTI x configuration (x = 0 to 3) 4 4 EXTI0 EXTI x configuration (x = 0 to 3) 0 4 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 PE Select PEx as the source input for the EXTIx external interrupt 4 PF Select PFx as the source input for the EXTIx external interrupt 5 PG Select PGx as the source input for the EXTIx external interrupt 6 EXTICR2 EXTICR2 external interrupt configuration register 2 0xC 0x20 read-write 0x00000000 EXTI7 EXTI x configuration (x = 4 to 7) 12 4 EXTI6 EXTI x configuration (x = 4 to 7) 8 4 EXTI5 EXTI x configuration (x = 4 to 7) 4 4 EXTI4 EXTI x configuration (x = 4 to 7) 0 4 EXTICR3 EXTICR3 external interrupt configuration register 3 0x10 0x20 read-write 0x00000000 EXTI11 EXTI x configuration (x = 8 to 11) 12 4 EXTI10 EXTI10 8 4 EXTI9 EXTI x configuration (x = 8 to 11) 4 4 EXTI8 EXTI x configuration (x = 8 to 11) 0 4 EXTICR4 EXTICR4 external interrupt configuration register 4 0x14 0x20 read-write 0x00000000 EXTI15 EXTI x configuration (x = 12 to 15) 12 4 EXTI14 EXTI x configuration (x = 12 to 15) 8 4 EXTI13 EXTI x configuration (x = 12 to 15) 4 4 EXTI12 EXTI x configuration (x = 12 to 15) 0 4 CFGR2 ADC Common status register 0x1C read-write 0x00000000 PVDL PVD lock 2 1 PVDL NotConnected PVD interrupt not connected to TIM1/8 Break input. PVDE and PVDS[2:0] can be read and modified 0 Connected PVD interrupt connected to TIM1/8 Break input. PVDE and PVDS[2:0] are read-only 1 CLL core lockup lock 0 1 CLL NotConnected Cortex-M4 LOCKUP output not connected to TIM1/8 Break input 0 Connected Cortex-M4 LOCKUP output connected to TIM1/8 Break input 1 CMPCR CMPCR Compensation cell control register 0x20 0x20 read-only 0x00000000 READY READY 8 1 read-only READY NotReady I/O compensation cell not ready 0 Ready I/O compensation cell ready 1 CMP_PD Compensation cell power-down 0 1 read-write CMP_PD PowerDown I/O compensation cell power-down mode 0 Enabled I/O compensation cell enabled 1 CFGR CFGR Configuration register 0x2C 0x20 read-write 0x00000000 I2CFMP1_SCL I2C4SCL 0 1 I2CFMP1_SCL Clear 0 Forced forces FM+ drive capability on I2CFMP1_SCL pin 1 I2CFMP1_SDA I2C4SDA 1 1 I2CFMP1_SDA Clear 0 Forced forces FM+ drive capability on I2CFMP1_SDA pin 1 MCHDLYCR DFSDM Multi-channel delay control register 0x30 read-write 0x00000000 DFSDM2_CKOSEL Source selection for DFSDM2_CKOUT 18 1 0 1 DFSDM2_CFG CkIn source selection for DFSDM2 17 1 0 1 DFSDM2_CK37SEL Distribution of the DFSDM2 bitstream clock gated by TIM3 OC1 16 1 DFSDM2_CK37SEL CkIn3 The gated clock is distributed to CkIn3 (DM3 = 0) 0 CkIn7 The gated clock is distributed to CkIn7 (DM3 = 1) 1 DFSDM2_CK26SEL Distribution of the DFSDM2 bitstream clock gated by TIM3 OC2 15 1 DFSDM2_CK26SEL CkIn2 The gated clock is distributed to CkIn2 (DM4 = 0) 0 CkIn6 The gated clock is distributed to CkIn6 (DM4 = 1) 1 DFSDM2_CK15SEL Distribution of the DFSDM2 bitstream clock gated by TIM3 OC3 14 1 DFSDM2_CK15SEL CkIn1 The gated clock is distributed to CkIn1 (DM5 = 0) 0 CkIn5 The gated clock is distributed to CkIn5 (DM5 = 1) 1 DFSDM2_CK04SEL Distribution of the DFSDM2 bitstream clock gated by TIM3 OC4 13 1 DFSDM2_CK04SEL CkIn0 The gated clock is distributed to CkIn0 (DM6 = 0) 0 CkIn4 The gated clock is distributed to CkIn4 (DM6 = 1) 1 DFSDM2_D6SEL Source selection for DatIn6 of DFSDM2 12 1 0 1 DFSDM2_D4SEL Source selection for DatIn4 of DFSDM2 11 1 0 1 DFSDM2_D2SEL Source selection for DatIn2 of DFSDM2 10 1 0 1 DFSDM2_D0SEL Source selection for DatIn0 of DFSDM2 9 1 0 1 MCHDLYEN2 MCHDLY clock enable for DFSDM2 8 1 MCHDLYEN2 Disabled Delay clock for DFSDM2 is disabled (G[6:3] = 0) 0 Enabled Delay clock for DFSDM2 is enabled (G[6:3] = 1) 1 DFSDM1_CKOSEL Source selection for DFSDM1_CKOUT 7 1 0 1 DFSDM1_CFG CkIn source selection for DFSDM1 6 1 0 1 DFSDM1_CK13SEL Distribution of the DFSDM1 bitstream clock gated by TIM4 OC1 5 1 DFSDM1_CK13SEL CkIn1 The gated clock is distributed to CkIn1 (DM1 = 0) 0 CkIn3 The gated clock is distributed to CkIn3 (DM1 = 1) 1 DFSDM1_CK02SEL Distribution of the DFSDM1 bitstream clock gated by TIM4 OC2 4 1 DFSDM1_CK02SEL CkIn0 The gated clock is distributed to CkIn0 (DM2 = 0) 0 CkIn2 The gated clock is distributed to CkIn2 (DM2 = 1) 1 DFSDM1_D2SEL Source selection for DatIn2 of DFSDM1 3 1 0 1 DFSDM1_D0SEL Source selection for DatIn0 of DFSDM1 2 1 0 1 MCHDLYEN1 MCHDLY clock enable for DFSDM1 1 1 MCHDLYEN1 Disabled Delay clock for DFSDM1 is disabled (G[2:1] = 0) 0 Enabled Delay clock for DFSDM1 is enabled (G[2:1] = 1) 1 BSCKSEL Bitstream clock source selection 0 1 0 1 USART1 Universal synchronous asynchronous receiver transmitter USART 0x40011000 0x0 0x1D registers USART1 USART 1 global interrupt 37 SR SR Status register 0x0 0x10 0x000000C0 CTS CTS flag 9 1 read-write zeroToClear CTSR read NotChanged No change occurred on the CTS status line 0 Changed A change occurred on the CTS status line 1 CTSW write Clear Clear CTS toggle detection flag 0 LBD LIN break detection flag 8 1 read-write zeroToClear LBDR read NotDetected LIN break not detected 0 Detected LIN break detected 1 LBDW write Clear Clear LIN break detection flag 0 TXE Transmit data register empty 7 1 read-only TXE TxNotEmpty Data is not transferred to the shift register 0 TxEmpty Data is transferred to the shift register 1 TC Transmission complete 6 1 read-write zeroToClear TCR read TxNotComplete Transmission is not complete 0 TxComplete Transmission is complete 1 TCW write Clear Clear transmission complete flag 0 RXNE Read data register not empty 5 1 read-write zeroToClear RXNER read NoData Data is not received 0 DataReady Received data is ready to be read 1 RXNEW write Clear Clear received data ready flag 0 IDLE IDLE line detected 4 1 read-only IDLE NoIdle No Idle Line is detected 0 Idle Idle Line is detected 1 ORE Overrun error 3 1 read-only ORE NoOverrun No Overrun error 0 Overrun Overrun error is detected 1 NF Noise detected flag 2 1 read-only NF NoNoise No noise is detected 0 Noise Noise is detected 1 FE Framing error 1 1 read-only FE NoError No Framing error is detected 0 Error Framing error or break character is detected 1 PE Parity error 0 1 read-only PE NoError No parity error 0 Error Parity error 1 DR DR Data register 0x4 0x10 read-write 0x00000000 DR Data value 0 9 0 511 BRR BRR Baud rate register 0x8 0x10 read-write 0x00000000 DIV_Mantissa mantissa of USARTDIV 4 12 0 4095 DIV_Fraction fraction of USARTDIV 0 4 0 15 CR1 CR1 Control register 1 0xC 0x10 read-write 0x00000000 OVER8 Oversampling mode 15 1 OVER8 Oversample16 Oversampling by 16 0 Oversample8 Oversampling by 8 1 UE USART enable 13 1 UE Disabled USART prescaler and outputs disabled 0 Enabled USART enabled 1 M Word length 12 1 M M8 8 data bits 0 M9 9 data bits 1 WAKE Wakeup method 11 1 WAKE IdleLine USART wakeup on idle line 0 AddressMark USART wakeup on address mark 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 PE interrupt disabled 0 Enabled PE interrupt enabled 1 TXEIE TXE interrupt enable 7 1 TXEIE Disabled TXE interrupt disabled 0 Enabled TXE interrupt enabled 1 TCIE Transmission complete interrupt enable 6 1 TCIE Disabled TC interrupt disabled 0 Enabled TC interrupt enabled 1 RXNEIE RXNE interrupt enable 5 1 RXNEIE Disabled RXNE interrupt disabled 0 Enabled RXNE interrupt enabled 1 IDLEIE IDLE interrupt enable 4 1 IDLEIE Disabled IDLE interrupt disabled 0 Enabled IDLE interrupt enabled 1 TE Transmitter enable 3 1 TE Disabled Transmitter disabled 0 Enabled Transmitter enabled 1 RE Receiver enable 2 1 RE Disabled Receiver disabled 0 Enabled Receiver enabled 1 RWU Receiver wakeup 1 1 RWU Active Receiver in active mode 0 Mute Receiver in mute mode 1 SBK Send break 0 1 SBK NoBreak No break character is transmitted 0 Break Break character transmitted 1 CR2 CR2 Control register 2 0x10 0x10 read-write 0x00000000 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 bits 1 Stop2 2 stop bits 2 Stop1p5 1.5 stop bits 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 Disabled The clock pulse of the last data bit is not output to the CK pin 0 Enabled 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 LIN break detection interrupt disabled 0 Enabled LIN break detection interrupt enabled 1 LBDL lin break detection length 5 1 LBDL LBDL10 10-bit break detection 0 LBDL11 11-bit break detection 1 ADD Address of the USART node 0 4 0 15 CR3 CR3 Control register 3 0x14 0x10 read-write 0x00000000 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 CTS interrupt disabled 0 Enabled CTS interrupt enabled 1 CTSE CTS enable 9 1 CTSE Disabled CTS hardware flow control disabled 0 Enabled CTS hardware flow control enabled 1 RTSE RTS enable 8 1 RTSE Disabled RTS hardware flow control disabled 0 Enabled RTS hardware flow control enabled 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 FullDuplex Half duplex mode is not selected 0 HalfDuplex Half duplex mode is selected 1 IRLP IrDA low-power 2 1 IRLP Normal Normal mode 0 LowPower Low-power mode 1 IREN IrDA mode enable 1 1 IREN Disabled IrDA disabled 0 Enabled IrDA enabled 1 EIE Error interrupt enable 0 1 EIE Disabled Error interrupt disabled 0 Enabled Error interrupt enabled 1 GTPR GTPR Guard time and prescaler register 0x18 0x10 read-write 0x00000000 GT Guard time value 8 8 0 255 PSC Prescaler value 0 8 1 255 USART3 0x40004800 USART3 USART 3 global interrupt 39 USART6 0x40011400 USART6 USART 6 global interrupt 71 USART2 0x40004400 USART2 USART 2 global interrupt 38 UART4 Universal synchronous asynchronous receiver transmitter USART 0x40004C00 0x0 0x400 registers UART4 UART4 global interrupt 52 SR SR Status register 0x0 0x10 0x000000C0 LBD LIN break detection flag 8 1 read-write TXE Transmit data register empty 7 1 read-only TC Transmission complete 6 1 read-write RXNE Read data register not empty 5 1 read-write IDLE IDLE line detected 4 1 read-only ORE Overrun error 3 1 read-only NF Noise detected flag 2 1 read-only FE Framing error 1 1 read-only PE Parity error 0 1 read-only DR DR Data register 0x4 BRR BRR Baud rate register 0x8 CR1 CR1 Control register 1 0xC CR2 CR2 Control register 2 0x10 0x10 read-write 0x00000000 LINEN LIN mode enable 14 1 STOP STOP bits 12 2 STOP Stop1 1 stop bit 0 Stop2 2 stop bits 2 LBDIE LIN break detection interrupt enable 6 1 LBDL lin break detection length 5 1 ADD Address of the USART node 0 4 CR3 CR3 Control register 3 0x14 0x10 read-write 0x00000000 ONEBIT One sample bit method enable 11 1 DMAT DMA enable transmitter 7 1 DMAR DMA enable receiver 6 1 HDSEL Half-duplex selection 3 1 IRLP IrDA low-power 2 1 IREN IrDA mode enable 1 1 EIE Error interrupt enable 0 1 GTPR Guard Time and Prescaler Register 0x18 0x10 read-write PSC IrDA Low-Power pulse width peripheral clock prescaler 0 8 UART10 0x40011C00 UART10 UART 10 global interrupt 89 UART9 0x40011800 UART9 UART 9 global interrupt 88 OTG_FS_DEVICE USB on the go full speed USB_OTG_FS 0x50000800 0x0 0x375 registers UART10 UART10 global interrupt 89 DCFG DCFG OTG_FS device configuration register (OTG_FS_DCFG) 0x0 0x20 read-write 0x02200000 DSPD Device speed 0 2 NZLSOHSK Non-zero-length status OUT handshake 2 1 DAD Device address 4 7 PFIVL Periodic frame interval 11 2 DCTL DCTL OTG_FS device control register (OTG_FS_DCTL) 0x4 0x20 0x00000000 RWUSIG Remote wakeup signaling 0 1 read-write SDIS Soft disconnect 1 1 read-write GINSTS Global IN NAK status 2 1 read-only GONSTS Global OUT NAK status 3 1 read-only TCTL Test control 4 3 read-write SGINAK Set global IN NAK 7 1 read-write CGINAK Clear global IN NAK 8 1 read-write SGONAK Set global OUT NAK 9 1 read-write CGONAK Clear global OUT NAK 10 1 read-write POPRGDNE Power-on programming done 11 1 read-write DSTS DSTS OTG_FS device status register (OTG_FS_DSTS) 0x8 0x20 read-only 0x00000010 SUSPSTS Suspend status 0 1 ENUMSPD Enumerated speed 1 2 EERR Erratic error 3 1 FNSOF Frame number of the received SOF 8 14 DEVLNSTS Device line status 22 2 DIEPMSK DIEPMSK OTG_FS device IN endpoint common interrupt mask register (OTG_FS_DIEPMSK) 0x10 0x20 read-write 0x00000000 XFRCM Transfer completed interrupt mask 0 1 EPDM Endpoint disabled interrupt mask 1 1 TOM Timeout condition mask (Non-isochronous endpoints) 3 1 ITTXFEMSK IN token received when TxFIFO empty mask 4 1 INEPNMM IN token received with EP mismatch mask 5 1 INEPNEM IN endpoint NAK effective mask 6 1 DOEPMSK DOEPMSK OTG_FS device OUT endpoint common interrupt mask register (OTG_FS_DOEPMSK) 0x14 0x20 read-write 0x00000000 XFRCM Transfer completed interrupt mask 0 1 EPDM Endpoint disabled interrupt mask 1 1 STUPM SETUP phase done mask 3 1 OTEPDM OUT token received when endpoint disabled mask 4 1 DAINT DAINT OTG_FS device all endpoints interrupt register (OTG_FS_DAINT) 0x18 0x20 read-only 0x00000000 IEPINT IN endpoint interrupt bits 0 16 OEPINT OUT endpoint interrupt bits 16 16 DAINTMSK DAINTMSK OTG_FS all endpoints interrupt mask register (OTG_FS_DAINTMSK) 0x1C 0x20 read-write 0x00000000 IEPM IN EP interrupt mask bits 0 16 OEPM OUT EP interrupt mask bits 16 16 DVBUSDIS DVBUSDIS OTG_FS device VBUS discharge time register 0x28 0x20 read-write 0x000017D7 VBUSDT Device VBUS discharge time 0 16 DVBUSPULSE DVBUSPULSE OTG_FS device VBUS pulsing time register 0x2C 0x20 read-write 0x000005B8 DVBUSP Device VBUS pulsing time 0 12 DIEPEMPMSK DIEPEMPMSK OTG_FS device IN endpoint FIFO empty interrupt mask register 0x34 0x20 read-write 0x00000000 INEPTXFEM IN EP Tx FIFO empty interrupt mask bits 0 16 DIEP0 Device IN endpoint 0 0x100 CTL DIEPCTL0 OTG_FS device control IN endpoint 0 control register (OTG_FS_DIEPCTL0) 0x0 0x20 0x00000000 MPSIZ Maximum packet size 0 2 read-write USBAEP USB active endpoint 15 1 read-only NAKSTS NAK status 17 1 read-only EPTYP Endpoint type 18 2 read-only STALL STALL handshake 21 1 read-write TXFNUM TxFIFO number 22 4 read-write CNAK Clear NAK 26 1 write-only SNAK Set NAK 27 1 write-only EPDIS Endpoint disable 30 1 read-only EPENA Endpoint enable 31 1 read-write INT DIEPINT0 device endpoint-x interrupt register 0x8 0x20 0x00000080 TXFE TXFE 7 1 read-only INEPNE INEPNE 6 1 read-write ITTXFE ITTXFE 4 1 read-write TOC TOC 3 1 read-write EPDISD EPDISD 1 1 read-write XFRC XFRC 0 1 read-write TSIZ DIEPTSIZ0 device endpoint-0 transfer size register 0x10 0x20 read-write 0x00000000 PKTCNT Packet count 19 2 XFRSIZ Transfer size 0 7 TXFSTS DTXFSTS0 OTG_FS device IN endpoint transmit FIFO status register 0x18 0x20 read-only 0x00000000 INEPTFSAV IN endpoint TxFIFO space available 0 16 5 0x20 1-5 DIEP%s Device IN endpoint X 0x120 CTL DIEPCTL1 OTG device endpoint-1 control register 0x0 0x20 0x00000000 EPENA EPENA 31 1 read-write EPDIS EPDIS 30 1 read-write SODDFRM_SD1PID SODDFRM/SD1PID 29 1 write-only SD0PID_SEVNFRM SD0PID/SEVNFRM 28 1 write-only SNAK SNAK 27 1 write-only CNAK CNAK 26 1 write-only TXFNUM TXFNUM 22 4 read-write STALL STALL handshake 21 1 read-write EPTYP EPTYP 18 2 read-write NAKSTS NAKSTS 17 1 read-only EONUM_DPID EONUM/DPID 16 1 read-only USBAEP USBAEP 15 1 read-write MPSIZ MPSIZ 0 11 read-write INT DIEPINT1 device endpoint-1 interrupt register 0x8 TSIZ DIEPTSIZ1 device endpoint-1 transfer size register 0x10 0x20 read-write 0x00000000 MCNT Multi count 29 2 PKTCNT Packet count 19 10 XFRSIZ Transfer size 0 19 TXFSTS DTXFSTS1 OTG_FS device IN endpoint transmit FIFO status register 0x18 DOEP0 Device OUT endpoint 0 0x300 CTL DOEPCTL0 device endpoint-0 control register 0x0 0x20 0x00008000 EPENA EPENA 31 1 read-write EPDIS EPDIS 30 1 read-only SNAK SNAK 27 1 write-only CNAK CNAK 26 1 write-only STALL STALL handshake 21 1 read-write SNPM SNPM 20 1 read-write EPTYP EPTYP 18 2 read-only NAKSTS NAKSTS 17 1 read-only USBAEP USBAEP 15 1 read-only MPSIZ MPSIZ 0 2 read-only INT DOEPINT0 device endpoint-0 interrupt register 0x8 0x20 read-write 0x00000080 B2BSTUP B2BSTUP 6 1 OTEPDIS OTEPDIS 4 1 STUP STUP 3 1 EPDISD EPDISD 1 1 XFRC XFRC 0 1 TSIZ DOEPTSIZ0 device OUT endpoint-0 transfer size register 0x10 0x20 read-write 0x00000000 STUPCNT SETUP packet count 29 2 PKTCNT Packet count 19 1 XFRSIZ Transfer size 0 7 5 0x20 1-5 DOEP%s Device IN endpoint X 0x320 CTL DOEPCTL1 device endpoint-1 control register 0x0 0x20 0x00000000 EPENA EPENA 31 1 read-write EPDIS EPDIS 30 1 read-write SODDFRM SODDFRM 29 1 write-only SD0PID_SEVNFRM SD0PID/SEVNFRM 28 1 write-only SNAK SNAK 27 1 write-only CNAK CNAK 26 1 write-only STALL STALL handshake 21 1 read-write SNPM SNPM 20 1 read-write EPTYP EPTYP 18 2 read-write NAKSTS NAKSTS 17 1 read-only EONUM_DPID EONUM/DPID 16 1 read-only USBAEP USBAEP 15 1 read-write MPSIZ MPSIZ 0 11 read-write INT DOEPINT1 device endpoint-1 interrupt register 0x8 TSIZ DOEPTSIZ1 device OUT endpoint-1 transfer size register 0x10 0x20 read-write 0x00000000 RXDPID_STUPCNT Received data PID/SETUP packet count 29 2 PKTCNT Packet count 19 10 XFRSIZ Transfer size 0 19 OTG_FS_HOST USB on the go full speed USB_OTG_FS 0x50000400 0x0 0x1F5 registers USART1 USART1 global interrupt 37 HCFG HCFG OTG_FS host configuration register (OTG_FS_HCFG) 0x0 0x20 0x00000000 FSLSPCS FS/LS PHY clock select 0 2 read-write FSLSS FS- and LS-only support 2 1 read-write HFIR HFIR OTG_FS Host frame interval register 0x4 0x20 read-write 0x0000EA60 FRIVL Frame interval 0 16 HFNUM HFNUM OTG_FS host frame number/frame time remaining register (OTG_FS_HFNUM) 0x8 0x20 read-only 0x00003FFF FRNUM Frame number 0 16 FTREM Frame time remaining 16 16 HPTXSTS HPTXSTS OTG_FS_Host periodic transmit FIFO/queue status register (OTG_FS_HPTXSTS) 0x10 0x20 0x00080100 PTXFSAVL Periodic transmit data FIFO space available 0 16 read-write PTXQSAV Periodic transmit request queue space available 16 8 read-only PTXQTOP Top of the periodic transmit request queue 24 8 read-only HAINT HAINT OTG_FS Host all channels interrupt register 0x14 0x20 read-only 0x00000000 HAINT Channel interrupts 0 16 HAINTMSK HAINTMSK OTG_FS host all channels interrupt mask register 0x18 0x20 read-write 0x00000000 HAINTM Channel interrupt mask 0 16 HPRT HPRT OTG_FS host port control and status register (OTG_FS_HPRT) 0x40 0x20 0x00000000 PCSTS Port connect status 0 1 read-only PCDET Port connect detected 1 1 read-write PENA Port enable 2 1 read-write PENCHNG Port enable/disable change 3 1 read-write POCA Port overcurrent active 4 1 read-only POCCHNG Port overcurrent change 5 1 read-write PRES Port resume 6 1 read-write PSUSP Port suspend 7 1 read-write PRST Port reset 8 1 read-write PLSTS Port line status 10 2 read-only PPWR Port power 12 1 read-write PTCTL Port test control 13 4 read-write PSPD Port speed 17 2 read-only 12 0x20 0-11 HC%s Host channel 0x100 CHAR HCCHAR0 OTG_FS host channel-0 characteristics register (OTG_FS_HCCHAR0) 0x0 0x20 read-write 0x00000000 MPSIZ Maximum packet size 0 11 EPNUM Endpoint number 11 4 EPDIR Endpoint direction 15 1 LSDEV Low-speed device 17 1 EPTYP Endpoint type 18 2 MCNT Multicount 20 2 DAD Device address 22 7 ODDFRM Odd frame 29 1 CHDIS Channel disable 30 1 CHENA Channel enable 31 1 INT HCINT0 OTG_FS host channel-0 interrupt register (OTG_FS_HCINT0) 0x8 0x20 read-write 0x00000000 XFRC Transfer completed 0 1 CHH Channel halted 1 1 STALL STALL response received interrupt 3 1 NAK NAK response received interrupt 4 1 ACK ACK response received/transmitted interrupt 5 1 TXERR Transaction error 7 1 BBERR Babble error 8 1 FRMOR Frame overrun 9 1 DTERR Data toggle error 10 1 INTMSK HCINTMSK0 OTG_FS host channel-0 mask register (OTG_FS_HCINTMSK0) 0xC 0x20 read-write 0x00000000 XFRCM Transfer completed mask 0 1 CHHM Channel halted mask 1 1 STALLM STALL response received interrupt mask 3 1 NAKM NAK response received interrupt mask 4 1 ACKM ACK response received/transmitted interrupt mask 5 1 NYET response received interrupt mask 6 1 TXERRM Transaction error mask 7 1 BBERRM Babble error mask 8 1 FRMORM Frame overrun mask 9 1 DTERRM Data toggle error mask 10 1 TSIZ HCTSIZ0 OTG_FS host channel-0 transfer size register 0x10 0x20 read-write 0x00000000 XFRSIZ Transfer size 0 19 PKTCNT Packet count 19 10 DPID Data PID 29 2 OTG_FS_PWRCLK USB on the go full speed USB_OTG_FS 0x50000E00 0x0 0x5 registers UART9 UART9 global interrupt 88 PCGCCTL PCGCCTL OTG_FS power and clock gating control register (OTG_FS_PCGCCTL) 0x0 0x20 read-write 0x00000000 STPPCLK Stop PHY clock 0 1 GATEHCLK Gate HCLK 1 1 PHYSUSP PHY Suspended 4 1 OTG_FS_GLOBAL USB on the go full speed USB_OTG_FS 0x50000000 0x0 0x111 registers OTG_FS USB OTG FS Interrupt 67 GOTGCTL GOTGCTL OTG_FS control and status register (OTG_FS_GOTGCTL) 0x0 0x20 0x00000800 SRQSCS Session request success 0 1 read-only SRQ Session request 1 1 read-write HNGSCS Host negotiation success 8 1 read-only HNPRQ HNP request 9 1 read-write HSHNPEN Host set HNP enable 10 1 read-write DHNPEN Device HNP enabled 11 1 read-write CIDSTS Connector ID status 16 1 read-only DBCT Long/short debounce time 17 1 read-only ASVLD A-session valid 18 1 read-only BSVLD B-session valid 19 1 read-only GOTGINT GOTGINT OTG_FS interrupt register (OTG_FS_GOTGINT) 0x4 0x20 read-write 0x00000000 SEDET Session end detected 2 1 SRSSCHG Session request success status change 8 1 HNSSCHG Host negotiation success status change 9 1 HNGDET Host negotiation detected 17 1 ADTOCHG A-device timeout change 18 1 DBCDNE Debounce done 19 1 GAHBCFG GAHBCFG OTG_FS AHB configuration register (OTG_FS_GAHBCFG) 0x8 0x20 read-write 0x00000000 GINT Global interrupt mask 0 1 TXFELVL TxFIFO empty level 7 1 PTXFELVL Periodic TxFIFO empty level 8 1 GUSBCFG GUSBCFG OTG_FS USB configuration register (OTG_FS_GUSBCFG) 0xC 0x20 0x00000A00 TOCAL FS timeout calibration 0 3 read-write PHYSEL Full Speed serial transceiver select 6 1 write-only SRPCAP SRP-capable 8 1 read-write HNPCAP HNP-capable 9 1 read-write TRDT USB turnaround time 10 4 read-write FHMOD Force host mode 29 1 read-write FDMOD Force device mode 30 1 read-write CTXPKT Corrupt Tx packet 31 1 read-write GRSTCTL GRSTCTL OTG_FS reset register (OTG_FS_GRSTCTL) 0x10 0x20 0x20000000 CSRST Core soft reset 0 1 read-write HSRST HCLK soft reset 1 1 read-write FCRST Host frame counter reset 2 1 read-write RXFFLSH RxFIFO flush 4 1 read-write TXFFLSH TxFIFO flush 5 1 read-write TXFNUM TxFIFO number 6 5 read-write AHBIDL AHB master idle 31 1 read-only GINTSTS GINTSTS OTG_FS core interrupt register (OTG_FS_GINTSTS) 0x14 0x20 0x04000020 CMOD Current mode of operation 0 1 read-only MMIS Mode mismatch interrupt 1 1 read-write OTGINT OTG interrupt 2 1 read-only SOF Start of frame 3 1 read-write RXFLVL RxFIFO non-empty 4 1 read-only NPTXFE Non-periodic TxFIFO empty 5 1 read-only GINAKEFF Global IN non-periodic NAK effective 6 1 read-only GOUTNAKEFF Global OUT NAK effective 7 1 read-only ESUSP Early suspend 10 1 read-write USBSUSP USB suspend 11 1 read-write USBRST USB reset 12 1 read-write ENUMDNE Enumeration done 13 1 read-write ISOODRP Isochronous OUT packet dropped interrupt 14 1 read-write EOPF End of periodic frame interrupt 15 1 read-write IEPINT IN endpoint interrupt 18 1 read-only OEPINT OUT endpoint interrupt 19 1 read-only IISOIXFR Incomplete isochronous IN transfer 20 1 read-write IPXFR_INCOMPISOOUT Incomplete periodic transfer(Host mode)/Incomplete isochronous OUT transfer(Device mode) 21 1 read-write HPRTINT Host port interrupt 24 1 read-only HCINT Host channels interrupt 25 1 read-only PTXFE Periodic TxFIFO empty 26 1 read-only CIDSCHG Connector ID status change 28 1 read-write DISCINT Disconnect detected interrupt 29 1 read-write SRQINT Session request/new session detected interrupt 30 1 read-write WKUPINT Resume/remote wakeup detected interrupt 31 1 read-write GINTMSK GINTMSK OTG_FS interrupt mask register (OTG_FS_GINTMSK) 0x18 0x20 0x00000000 MMISM Mode mismatch interrupt mask 1 1 read-write OTGINT OTG interrupt mask 2 1 read-write SOFM Start of frame mask 3 1 read-write RXFLVLM Receive FIFO non-empty mask 4 1 read-write NPTXFEM Non-periodic TxFIFO empty mask 5 1 read-write GINAKEFFM Global non-periodic IN NAK effective mask 6 1 read-write GONAKEFFM Global OUT NAK effective mask 7 1 read-write ESUSPM Early suspend mask 10 1 read-write USBSUSPM USB suspend mask 11 1 read-write USBRST USB reset mask 12 1 read-write ENUMDNEM Enumeration done mask 13 1 read-write ISOODRPM Isochronous OUT packet dropped interrupt mask 14 1 read-write EOPFM End of periodic frame interrupt mask 15 1 read-write EPMISM Endpoint mismatch interrupt mask 17 1 read-write IEPINT IN endpoints interrupt mask 18 1 read-write OEPINT OUT endpoints interrupt mask 19 1 read-write IISOIXFRM Incomplete isochronous IN transfer mask 20 1 read-write IPXFRM_IISOOXFRM Incomplete periodic transfer mask(Host mode)/Incomplete isochronous OUT transfer mask(Device mode) 21 1 read-write PRTIM Host port interrupt mask 24 1 read-write HCIM Host channels interrupt mask 25 1 read-write PTXFEM Periodic TxFIFO empty mask 26 1 read-write CIDSCHGM Connector ID status change mask 28 1 read-write DISCINT Disconnect detected interrupt mask 29 1 read-write SRQIM Session request/new session detected interrupt mask 30 1 read-write WUIM Resume/remote wakeup detected interrupt mask 31 1 read-write GRXSTSR_Device GRXSTSR_Device OTG_FS Receive status debug read(Device mode) 0x1C 0x20 read-only 0x00000000 EPNUM Endpoint number 0 4 BCNT Byte count 4 11 DPID Data PID 15 2 PKTSTS Packet status 17 4 FRMNUM Frame number 21 4 GRXSTSR_Host GRXSTSR_Host OTG status debug read (host mode) GRXSTSR_Device 0x1C 0x20 read-only 0x00000000 CHNUM Channel number 0 4 BCNT Byte count 4 11 DPID Data PID 15 2 PKTSTS Packet status 17 4 GRXSTSP_Device OTG status read and pop (device mode) 0x20 0x20 read-only 0x00000000 FRMNUM Frame number 21 4 PKTSTS Packet status 17 4 DPID Data PID 15 2 BCNT Byte count 4 11 EPNUM Endpoint number 0 4 GRXSTSP_Host OTG status read and pop (host mode) GRXSTSP_Device 0x20 0x20 read-only 0x00000000 PKTSTS Packet status 17 4 DPID Data PID 15 2 BCNT Byte count 4 11 CHNUM Channel number 0 4 GRXFSIZ GRXFSIZ OTG_FS Receive FIFO size register (OTG_FS_GRXFSIZ) 0x24 0x20 read-write 0x00000200 RXFD RxFIFO depth 0 16 DIEPTXF0 DIEPTXF0 OTG_FS non-periodic transmit FIFO size register (Device mode) 0x28 0x20 read-write 0x00000200 TX0FSA Endpoint 0 transmit RAM start address 0 16 TX0FD Endpoint 0 TxFIFO depth 16 16 HNPTXFSIZ HNPTXFSIZ OTG_FS non-periodic transmit FIFO size register (Host mode) DIEPTXF0 0x28 0x20 read-write 0x00000200 NPTXFSA Non-periodic transmit RAM start address 0 16 NPTXFD Non-periodic TxFIFO depth 16 16 GNPTXSTS GNPTXSTS OTG_FS non-periodic transmit FIFO/queue status register (OTG_FS_GNPTXSTS) 0x2C 0x20 read-only 0x00080200 NPTXFSAV Non-periodic TxFIFO space available 0 16 NPTQXSAV Non-periodic transmit request queue space available 16 8 NPTXQTOP Top of the non-periodic transmit request queue 24 7 GCCFG GCCFG OTG_FS general core configuration register (OTG_FS_GCCFG) 0x38 0x20 read-write 0x00000000 DCDET DCDET 0 1 PDET PDET 1 1 SDET SDET 2 1 PS2DET PS2DET 3 1 PWRDWN PWRDWN 16 1 BCDEN BCDEN 17 1 DCDEN DCDEN 18 1 PDEN PDEN 19 1 SDEN SDEN 20 1 VBDEN VBDEN 21 1 CID CID core ID register 0x3C 0x20 read-write 0x00001000 PRODUCT_ID Product ID field 0 32 HPTXFSIZ HPTXFSIZ OTG_FS Host periodic transmit FIFO size register (OTG_FS_HPTXFSIZ) 0x100 0x20 read-write 0x02000600 PTXSA Host periodic TxFIFO start address 0 16 PTXFSIZ Host periodic TxFIFO depth 16 16 5 0x4 1-5 DIEPTXF%s DIEPTXF%s OTG_FS device IN endpoint transmit FIFO size register 0x104 0x20 read-write 0x02000400 INEPTXSA IN endpoint FIFO2 transmit RAM start address 0 16 INEPTXFD IN endpoint TxFIFO depth 16 16 WWDG Window watchdog WWDG 0x40002C00 0x0 0x11 registers 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 EWI Early wakeup interrupt 9 1 EWIW write Enable interrupt occurs whenever the counter reaches the value 0x40 1 WDGTB Timer base 7 2 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 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 FSMC Flexible static memory controller FSMC 0xA0000000 0x0 0x400 registers BCR1 BCR1 BCR1 0x0 0x20 read-write 0x00000000 CPSIZE CRAM page size 16 3 CPSIZE NoBurstSplit No burst split when crossing page boundary 0 Bytes128 128 bytes CRAM page size 1 Bytes256 256 bytes CRAM page size 2 Bytes512 512 bytes CRAM page size 3 Bytes1024 1024 bytes CRAM page size 4 ASYNCWAIT Wait signal during asynchronous transfers 15 1 ASYNCWAIT Disabled Wait signal not used in asynchronous mode 0 Enabled Wait signal used even in asynchronous mode 1 EXTMOD Extended mode enable 14 1 EXTMOD Disabled Values inside the FMC_BWTR are not taken into account 0 Enabled Values inside the FMC_BWTR are taken into account 1 WAITEN Wait enable bit 13 1 WAITEN Disabled Values inside the FMC_BWTR are taken into account 0 Enabled NWAIT signal enabled 1 WREN Write enable bitWREN 12 1 WREN Disabled Write operations disabled for the bank by the FMC 0 Enabled Write operations enabled for the bank by the FMC 1 WAITCFG Wait timing configuration 11 1 WAITCFG BeforeWaitState NWAIT signal is active one data cycle before wait state 0 DuringWaitState NWAIT signal is active during wait state 1 WAITPOL Wait signal polarity bit 9 1 WAITPOL ActiveLow NWAIT active low 0 ActiveHigh NWAIT active high 1 BURSTEN Burst enable bit 8 1 BURSTEN Disabled Burst mode disabled 0 Enabled Burst mode enabled 1 FACCEN Flash access enable 6 1 FACCEN Disabled Corresponding NOR Flash memory access is disabled 0 Enabled Corresponding NOR Flash memory access is enabled 1 MWID Memory data bus width 4 2 MWID Bits8 Memory data bus width 8 bits 0 Bits16 Memory data bus width 16 bits 1 Bits32 Memory data bus width 32 bits 2 MTYP Memory type 2 2 MTYP SRAM SRAM memory type 0 PSRAM PSRAM (CRAM) memory type 1 Flash NOR Flash/OneNAND Flash 2 MUXEN Memory bank enable bit 1 1 MUXEN Disabled Address/Data non-multiplexed 0 Enabled Address/Data multiplexed on databus 1 MBKEN Memory bank enable bit 0 1 MBKEN Disabled Corresponding memory bank is disabled 0 Enabled Corresponding memory bank is enabled 1 CBURSTRW Write burst enable 19 1 CBURSTRW Disabled Write operations are always performed in asynchronous mode 0 Enabled Write operations are performed in synchronous mode 1 CCLKEN Continuous Clock Enable 20 1 CCLKEN Disabled The FMC_CLK is generated continuously during asynchronous and synchronous access. The FMC_CLK clock is activated when the CCLKEN is set 0 Enabled The FMC_CLK is only generated during the synchronous memory access (read/write transaction) 1 WFDIS Write FIFO Disable 21 1 WFDIS Enabled Write FIFO enabled 0 Disabled Write FIFO disabled 1 4 0x8 1-4 BTR%s BTR%s BTR%s 0x4 0x20 read-write 0x00000000 ACCMOD Access mode 28 2 ACCMOD A Access mode A 0 B Access mode B 1 C Access mode C 2 D Access mode D 3 BUSTURN Bus turnaround phase duration 16 4 0 15 DATAST Data-phase duration 8 8 1 255 ADDHLD Address-hold phase duration 4 4 1 15 ADDSET Address setup phase duration 0 4 0 15 CLKDIV Clock divide ratio 20 4 1 15 DATLAT Data latency 24 4 0 15 3 0x8 2-4 BCR%s BCR%s BCR%s 0x8 0x20 read-write 0x00000000 CPSIZE CRAM page size 16 3 ASYNCWAIT Wait signal during asynchronous transfers 15 1 EXTMOD Extended mode enable 14 1 WAITEN Wait enable bit 13 1 WREN Write enable bit 12 1 WAITCFG Wait timing configuration 11 1 WAITPOL Wait signal polarity bit 9 1 BURSTEN Burst enable bit 8 1 FACCEN Flash access enable 6 1 MWID Memory data bus width 4 2 MTYP Memory type 2 2 MUXEN Address/data multiplexing enable bit 1 1 MBKEN Memory bank enable bit 0 1 CBURSTRW Write burst enable 19 1 CCLKEN Continuous Clock Enable 20 1 WFDIS Write FIFO Disable 21 1 4 0x8 1-4 BWTR%s BWTR%s BWTR%s 0x104 0x20 read-write 0x00000000 ACCMOD Access mode 28 2 ACCMOD A Access mode A 0 B Access mode B 1 C Access mode C 2 D Access mode D 3 DATAST Data-phase duration 8 8 1 255 ADDHLD Address-hold phase duration 4 4 1 15 ADDSET Address setup phase duration 0 4 0 15 BUSTURN Bus turnaround phase duration 16 4 0 15 ADC_Common ADC common registers ADC_Common 0x40012300 0x0 0x9 registers FPU FPU interrupt 81 CSR CSR ADC Common status register 0x0 0x20 read-only 0x00000000 OVR1 Overrun flag of ADC 1 5 1 OVR1 NoOverrun No overrun occurred 0 Overrun Overrun occurred 1 STRT1 Regular channel Start flag of ADC 1 4 1 STRT1 NotStarted No regular channel conversion started 0 Started Regular channel conversion has started 1 JSTRT1 Injected channel Start flag of ADC 1 3 1 JSTRT1 NotStarted No injected channel conversion started 0 Started Injected channel conversion has started 1 JEOC1 Injected channel end of conversion of ADC 1 2 1 JEOC1 NotComplete Conversion is not complete 0 Complete Conversion complete 1 EOC1 End of conversion of ADC 1 1 1 EOC1 NotComplete Conversion is not complete 0 Complete Conversion complete 1 AWD1 Analog watchdog flag of ADC 1 0 1 AWD1 NoEvent No analog watchdog event occurred 0 Event Analog watchdog event occurred 1 CCR CCR ADC common control register 0x4 0x20 read-write 0x00000000 TSVREFE Temperature sensor and VREFINT enable 23 1 TSVREFE Disabled Temperature sensor and V_REFINT channel disabled 0 Enabled Temperature sensor and V_REFINT channel enabled 1 VBATE VBAT enable 22 1 VBATE Disabled V_BAT channel disabled 0 Enabled V_BAT channel enabled 1 ADCPRE ADC prescaler 16 2 ADCPRE Div2 PCLK2 divided by 2 0 Div4 PCLK2 divided by 4 1 Div6 PCLK2 divided by 6 2 Div8 PCLK2 divided by 8 3 UART5 0x40005000 UART5 UART5 global interrupt 53 UART7 0x40007800 UART7 UART 7 global interrupt 82 UART8 0x40007C00 UART8 UART 8 global interrupt 83
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