/**************************************************************************//** * @file timer_reg.h * @version V1.00 * @brief TIMER register definition header file * * SPDX-License-Identifier: Apache-2.0 * @copyright (C) 2017-2020 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #ifndef __TIMER_REG_H__ #define __TIMER_REG_H__ #if defined ( __CC_ARM ) #pragma anon_unions #endif /** @addtogroup REGISTER Control Register @{ */ /** @addtogroup TIMER Timer Controller(TIMER) Memory Mapped Structure for TIMER Controller @{ */ typedef struct { /** * @var TIMER_T::CTL * Offset: 0x00 Timer Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[7:0] |PSC |Prescale Counter * | | |Timer input clock or event source is divided by (PSC+1) before it is fed to the timer up counter * | | |If this field is 0 (PSC = 0), then there is no scaling. * | | |Note: Update prescale counter value will reset internal 8-bit prescale counter and 24-bit up counter value. * |[19] |INTRGEN |Inter-timer Trigger Mode Enable Control * | | |Setting this bit will enable the inter-timer trigger capture function. * | | |The Timer0/2 will be in event counter mode and counting with external clock source or event * | | |Also, Timer1/3 will be in trigger-counting mode of capture function. * | | |0 = Inter-Timer Trigger Capture mode Disabled. * | | |1 = Inter-Timer Trigger Capture mode Enabled. * | | |Note: For Timer1/3, this bit is ignored and the read back value is always 0. * |[20] |PERIOSEL |Periodic Mode Behavior Selection Enable Bit * | | |0 = The behavior selection in periodic mode is Disabled. * | | |When user updates CMPDAT while timer is running in periodic mode, * | | |CNT will be reset to default value. * | | |1 = The behavior selection in periodic mode is Enabled. * | | |When user update CMPDAT while timer is running in periodic mode, the limitations as bellows list, * | | |If updated CMPDAT value > CNT, CMPDAT will be updated and CNT keep running continually. * | | |If updated CMPDAT value = CNT, timer time-out interrupt will be asserted immediately. * | | |If updated CMPDAT value < CNT, CNT will be reset to default value. * |[21] |TGLPINSEL |Toggle-output Pin Select * | | |0 = Toggle mode output to TMx (Timer Event Counter Pin). * | | |1 = Toggle mode output to TMx_EXT (Timer External Capture Pin). * |[22] |CAPSRC |Capture Pin Source Selection * | | |0 = Capture Function source is from TMx_EXT (x= 0~3) pin. * | | |1 = Capture Function source is from internal ACMP output signal * | | |User can set ACMPSSEL (TIMERx_EXTCTL[8]) to decide which internal ACMP output signal as timer capture source. * |[23] |WKEN |Wake-up Function Enable Bit * | | |If this bit is set to 1, while timer interrupt flag TIF (TIMERx_INTSTS[0]) is 1 and INTEN (TIMERx_CTL[29]) is enabled, the timer interrupt signal will generate a wake-up trigger event to CPU. * | | |0 = Wake-up function Disabled if timer interrupt signal generated. * | | |1 = Wake-up function Enabled if timer interrupt signal generated. * |[24] |EXTCNTEN |Event Counter Mode Enable Bit * | | |This bit is for external counting pin function enabled. * | | |0 = Event counter mode Disabled. * | | |1 = Event counter mode Enabled. * | | |Note: When timer is used as an event counter, this bit should be set to 1 and select PCLK as timer clock source. * |[25] |ACTSTS |Timer Active Status Bit (Read Only) * | | |This bit indicates the 24-bit up counter status. * | | |0 = 24-bit up counter is not active. * | | |1 = 24-bit up counter is active. * | | |Note: This bit may active when CNT 0 transition to CNT 1. * |[28:27] |OPMODE |Timer Counting Mode Select * | | |00 = The Timer controller is operated in One-shot mode. * | | |01 = The Timer controller is operated in Periodic mode. * | | |10 = The Timer controller is operated in Toggle-output mode. * | | |11 = The Timer controller is operated in Continuous Counting mode. * |[29] |INTEN |Timer Interrupt Enable Bit * | | |0 = Timer time-out interrupt Disabled. * | | |1 = Timer time-out interrupt Enabled. * | | |Note: If this bit is enabled, when the timer time-out interrupt flag TIF is set to 1, the timer interrupt signal is generated and inform to CPU. * |[30] |CNTEN |Timer Counting Enable Bit * | | |0 = Stops/Suspends counting. * | | |1 = Starts counting. * | | |Note1: In stop status, and then set CNTEN to 1 will enable the 24-bit up counter to keep counting from the last stop counting value. * | | |Note2: This bit is auto-cleared by hardware in one-shot mode (TIMER_CTL[28:27] = 00) when the timer time-out interrupt flag TIF (TIMERx_INTSTS[0]) is generated. * | | |Note3: Set enable/disable this bit needs 2 * TMR_CLK period to become active, user can read ACTSTS (TIMERx_CTL[25]) to check enable/disable command is completed or not. * |[31] |ICEDEBUG |ICE Debug Mode Acknowledge Disable Control (Write Protect) * | | |0 = ICE debug mode acknowledgement effects TIMER counting. * | | |TIMER counter will be held while CPU is held by ICE. * | | |1 = ICE debug mode acknowledgement Disabled. * | | |TIMER counter will keep going no matter CPU is held by ICE or not. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * @var TIMER_T::CMP * Offset: 0x04 Timer Comparator Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[23:0] |CMPDAT |Timer Comparator Value * | | |CMPDAT is a 24-bit compared value register * | | |When the internal 24-bit up counter value is equal to CMPDAT value, the TIF (TIMERx_INTSTS[0] Timer Interrupt Flag) will set to 1. * | | |Time-out period = (Period of timer clock input) * (8-bit PSC + 1) * (24-bit CMPDAT). * | | |Note1: Never write 0x0 or 0x1 in CMPDAT field, or the core will run into unknown state. * | | |Note2: When timer is operating at continuous counting mode, the 24-bit up counter will keep counting continuously even if user writes a new value into CMPDAT field * | | |But if timer is operating at other modes, the 24-bit up counter will restart counting from 0 and using newest CMPDAT value to be the timer compared value while user writes a new value into CMPDAT field. * @var TIMER_T::INTSTS * Offset: 0x08 Timer Interrupt Status Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |TIF |Timer Interrupt Flag * | | |This bit indicates the interrupt flag status of Timer while 24-bit timer up counter CNT (TIMERx_CNT[23:0]) value reaches to CMPDAT (TIMERx_CMP[23:0]) value. * | | |0 = No effect. * | | |1 = CNT value matches the CMPDAT value. * | | |Note: This bit is cleared by writing 1 to it. * |[1] |TWKF |Timer Wake-up Flag * | | |This bit indicates the interrupt wake-up flag status of timer. * | | |0 = Timer does not cause CPU wake-up. * | | |1 = CPU wake-up from Idle or Power-down mode if timer time-out interrupt signal generated. * | | |Note: This bit is cleared by writing 1 to it. * @var TIMER_T::CNT * Offset: 0x0C Timer Data Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[23:0] |CNT |Timer Data Register * | | |Read operation. * | | |Read this register to get CNT value. For example: * | | |If EXTCNTEN (TIMERx_CTL[24] ) is 0, user can read CNT value for getting current 24-bit counter value. * | | |If EXTCNTEN (TIMERx_CTL[24] ) is 1, user can read CNT value for getting current 24-bit event input counter value. * | | |Write operation. * | | |Writing any value to this register will reset current CNT value to 0 and reload internal 8-bit prescale counter. * |[31] |RSTACT |Timer Data Register Reset Active (Read Only) * | | |This bit indicates if the counter reset operation active. * | | |When user writes this CNT register, timer starts to reset its internal 24-bit timer up-counter to 0 and reload 8-bit pre-scale counter * | | |At the same time, timer set this flag to 1 to indicate the counter reset operation is in progress * | | |Once the counter reset operation done, timer clear this bit to 0 automatically. * | | |0 = Reset operation is done. * | | |1 = Reset operation triggered by writing TIMERx_CNT is in progress. * | | |Note: This bit is read only. * @var TIMER_T::CAP * Offset: 0x10 Timer Capture Data Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[23:0] |CAPDAT |Timer Capture Data Register * | | |When CAPEN (TIMERx_EXTCTL[3]) bit is set, CAPFUNCS (TIMERx_EXTCTL[4]) bit is 0, and a transition on TMx_EXT pin matched the CAPEDGE (TIMERx_EXTCTL[14:12]) setting, CAPIF (TIMERx_EINTSTS[0]) will set to 1 and the current timer counter value CNT (TIMERx_CNT[23:0]) will be auto-loaded into this CAPDAT field. * @var TIMER_T::EXTCTL * Offset: 0x14 Timer External Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |CNTPHASE |Timer External Count Phase * | | |This bit indicates the detection phase of external counting pin TMx (x= 0~3). * | | |0 = A falling edge of external counting pin will be counted. * | | |1 = A rising edge of external counting pin will be counted. * |[3] |CAPEN |Timer External Capture Pin Enable Bit * | | |This bit enables the TMx_EXT capture pin input function. * | | |0 =TMx_EXT (x= 0~3) pin Disabled. * | | |1 =TMx_EXT (x= 0~3) pin Enabled. * |[4] |CAPFUNCS |Capture Function Selection * | | |0 = External Capture Mode Enabled. * | | |1 = External Reset Mode Enabled. * | | |Note1: When CAPFUNCS is 0, transition on TMx_EXT (x= 0~3) pin is using to save current 24-bit timer counter value (CNT value) to CAPDAT field. * | | |Note2: When CAPFUNCS is 1, transition on TMx_EXT (x= 0~3) pin is using to save current 24-bit timer counter value (CNT value) to CAPDAT field then CNT value will be reset immediately. * |[5] |CAPIEN |Timer External Capture Interrupt Enable Bit * | | |0 = TMx_EXT (x= 0~3) pin detection Interrupt Disabled. * | | |1 = TMx_EXT (x= 0~3) pin detection Interrupt Enabled. * | | |Note: CAPIEN is used to enable timer external interrupt * | | |If CAPIEN enabled, timer will rise an interrupt when CAPIF (TIMERx_EINTSTS[0]) is 1. * | | |For example, while CAPIEN = 1, CAPEN = 1, and CAPEDGE = 00, a 1 to 0 transition on the TMx_EXT pin will cause the CAPIF to be set then the interrupt signal is generated and sent to NVIC to inform CPU. * |[6] |CAPDBEN |Timer External Capture Pin De-bounce Enable Bit * | | |0 = TMx_EXT (x= 0~3) pin de-bounce or ACMP output de-bounce Disabled. * | | |1 = TMx_EXT (x= 0~3) pin de-bounce or ACMP output de-bounce Enabled. * | | |Note: If this bit is enabled, the edge detection of TMx_EXT pin or ACMP output is detected with de-bounce circuit. * |[7] |CNTDBEN |Timer Counter Pin De-bounce Enable Bit * | | |0 = TMx (x= 0~3) pin de-bounce Disabled. * | | |1 = TMx (x= 0~3) pin de-bounce Enabled. * | | |Note: If this bit is enabled, the edge detection of TMx pin is detected with de-bounce circuit. * |[8:10] |ICAPSEL |Internal Capture Source Select * | | |000 = Capture Function source is from internal ACMP0 output signal. * | | |001 = Capture Function source is from internal ACMP1 output signal. * | | |010 = Capture Function source is from HXT. * | | |011 = Capture Function source is from LXT. * | | |100 = Capture Function source is from HIRC. * | | |101 = Capture Function source is from LIRC. * | | |110 = Reserved. * | | |111 = Reserved. * | | |Note: these bits only available when CAPSRC (TIMERx_CTL[22]) is 1. * |[14:12] |CAPEDGE |Timer External Capture Pin Edge Detect * | | |When first capture event is generated, the CNT (TIMERx_CNT[23:0]) will be reset to 0 and first CAPDAT (TIMERx_CAP[23:0]) should be to 0. * | | |000 = Capture event occurred when detect falling edge transfer on TMx_EXT (x= 0~3) pin. * | | |001 = Capture event occurred when detect rising edge transfer on TMx_EXT (x= 0~3) pin. * | | |010 = Capture event occurred when detect both falling and rising edge transfer on TMx_EXT (x= 0~3) pin, and first capture event occurred at falling edge transfer. * | | |011 = Capture event occurred when detect both rising and falling edge transfer on TMx_EXT (x= 0~3) pin, and first capture event occurred at rising edge transfer.. * | | |110 = First capture event occurred at falling edge, follows capture events are at rising edge transfer on TMx_EXT (x= 0~3) pin. * | | |111 = First capture event occurred at rising edge, follows capture events are at falling edge transfer on TMx_EXT (x= 0~3) pin. * | | |100, 101 = Reserved. * |[16] |ECNTSSEL |Event Counter Source Selection to Trigger Event Counter Function * | | |0 = Event Counter input source is from TMx (x= 0~3) pin. * | | |1 = Event Counter input source is from USB internal SOF output signal. * |[31:28] |CAPDIVSCL |Timer Capture Source Divider * | | |This bits indicate the divide scale for capture source divider * | | |0000 = Capture source/1. * | | |0001 = Capture source/2. * | | |0010 = Capture source/4. * | | |0011 = Capture source/8. * | | |0100 = Capture source/16. * | | |0101 = Capture source/32. * | | |0110 = Capture source/64. * | | |0111 = Capture source/128. * | | |1000 = Capture source/256. * | | |1001~1111 = Reserved. * | | |Note: Sets INTERCAPSEL (TIMERx_EXTCTL[10:8]) and CAPSRC (TIMERx_CTL[22]) to select capture source. * @var TIMER_T::EINTSTS * Offset: 0x18 Timer External Interrupt Status Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |CAPIF |Timer External Capture Interrupt Flag * | | |This bit indicates the timer external capture interrupt flag status. * | | |0 = TMx_EXT (x= 0~3) pin interrupt did not occur. * | | |1 = TMx_EXT (x= 0~3) pin interrupt occurred. * | | |Note1: This bit is cleared by writing 1 to it. * | | |Note2: When CAPEN (TIMERx_EXTCTL[3]) bit is set, CAPFUNCS (TIMERx_EXTCTL[4]) bit is 0, and a transition on TMx_EXT (x= 0~3) pin matched the CAPEDGE (TIMERx_EXTCTL[2:1]) setting, this bit will set to 1 by hardware. * | | |Note3: There is a new incoming capture event detected before CPU clearing the CAPIF status * | | |If the above condition occurred, the Timer will keep register TIMERx_CAP unchanged and drop the new capture value. * @var TIMER_T::TRGCTL * Offset: 0x1C Timer Trigger Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |TRGSSEL |Trigger Source Select Bit * | | |This bit is used to select internal trigger source is form timer time-out interrupt signal or * | | |capture interrupt signal. * | | |0 = Time-out interrupt signal is used to internal trigger EPWM, BPWM, PDMA, DAC, and EADC. * | | |1 = Capture interrupt signal is used to internal trigger EPWM, BPWM, PDMA, DAC, and EADC. * |[1] |TRGEPWM |Trigger EPWM and BPWM Enable Bit * | | |If this bit is set to 1, each timer time-out event or capture event can be as EPWM and BPWM counter clock source. * | | |0 = Timer interrupt trigger EPWM and BPWM Disabled. * | | |1 = Timer interrupt trigger EPWM and BPWM Enabled. * | | |Note: If TRGSSEL (TIMERx_TRGCTL[0]) = 0, time-out interrupt signal as EPWM and BPWM counter clock source. * | | |If TRGSSEL (TIMERx_TRGCTL[0]) = 1, capture interrupt signal as EPWM counter clock source. * |[2] |TRGEADC |Trigger EADC Enable Bit * | | |If this bit is set to 1, each timer time-out event or capture event can be triggered EADC conversion. * | | |0 = Timer interrupt trigger EADC Disabled. * | | |1 = Timer interrupt trigger EADC Enabled. * | | |Note: If TRGSSEL (TIMERx_TRGCTL[0]) = 0, time-out interrupt signal will trigger EADC conversion. * | | |If TRGSSEL (TIMERx_TRGCTL[0]) = 1, capture interrupt signal will trigger EADC conversion. * |[3] |TRGDAC |Trigger DAC Enable Bit * | | |If this bit is set to 1, timer time-out interrupt or capture interrupt can be triggered DAC. * | | |0 = Timer interrupt trigger DAC Disabled. * | | |1 = Timer interrupt trigger DAC Enabled. * | | |Note: If TRGSSEL (TIMERx_TRGCTL[0]) = 0, time-out interrupt signal will trigger DAC. * | | |If TRGSSEL (TIMERx_TRGCTL[0]) = 1, capture interrupt signal will trigger DAC. * |[4] |TRGPDMA |Trigger PDMA Enable Bit * | | |If this bit is set to 1, each timer time-out event or capture event can be triggered PDMA transfer. * | | |0 = Timer interrupt trigger PDMA Disabled. * | | |1 = Timer interrupt trigger PDMA Enabled. * | | |Note: If TRGSSEL (TIMERx_TRGCTL[0]) = 0, time-out interrupt signal will trigger PDMA transfer. * | | |If TRGSSEL (TIMERx_TRGCTL[0]) = 1, capture interrupt signal will trigger PDMA transfer. * @var TIMER_T::ALTCTL * Offset: 0x20 Timer Alternative Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |FUNCSEL |Function Selection * | | |0 = Timer controller is used as timer function. * | | |1 = Timer controller is used as PWM function. * | | |Note: When timer is used as PWM, the clock source of time controller will be forced to PCLKx automatically. * @var TIMER_T::PWMCTL * Offset: 0x40 Timer PWM Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |CNTEN |PWM Counter Enable Bit * | | |0 = PWM counter and clock prescale Stop Running. * | | |1 = PWM counter and clock prescale Start Running. * |[2:1] |CNTTYPE |PWM Counter Behavior Type * | | |00 = Up count type. * | | |01 = Down count type. * | | |10 = Up-down count type. * | | |11 = Reserved. * |[3] |CNTMODE |PWM Counter Mode * | | |0 = Auto-reload mode. * | | |1 = One-shot mode. * |[8] |CTRLD |Center Re-load * | | |In up-down count type, PERIOD will load to PBUF when current PWM period is completed always and CMP will load to CMPBUF at the center point of current period. * |[9] |IMMLDEN |Immediately Load Enable Bit * | | |0 = PERIOD will load to PBUF when current PWM period is completed no matter CTRLD is enabled/disabled * | | |If CTRLD is disabled, CMP will load to CMPBUF when current PWM period is completed; if CTRLD is enabled in up-down count type, CMP will load to CMPBUF at the center point of current period. * | | |1 = PERIOD/CMP will load to PBUF/CMPBUF immediately when user update PERIOD/CMP. * | | |Note: If IMMLDEN is enabled, CTRLD will be invalid. * |[16] |OUTMODE |PWM Output Mode * | | |This bit controls the output mode of corresponding PWM channel. * | | |0 = PWM independent mode. * | | |1 = PWM complementary mode. * |[30] |DBGHALT |ICE Debug Mode Counter Halt (Write Protect) * | | |If debug mode counter halt is enabled, PWM counter will keep current value until exit ICE debug mode. * | | |0 = ICE debug mode counter halt disable. * | | |1 = ICE debug mode counter halt enable. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[31] |DBGTRIOFF |ICE Debug Mode Acknowledge Disable Bit (Write Protect) * | | |0 = ICE debug mode acknowledgement effects PWM output. * | | |PWM output pin will be forced as tri-state while ICE debug mode acknowledged. * | | |1 = ICE debug mode acknowledgement disabled. * | | |PWM output pin will keep output no matter ICE debug mode acknowledged or not. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * @var TIMER_T::PWMCLKSRC * Offset: 0x44 Timer PWM Counter Clock Source Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[2:0] |CLKSRC |PWM Counter Clock Source Select * | | |The PWM counter clock source can be selected from TMRx_CLK or internal timer time-out or capture event. * | | |000 = TMRx_CLK. * | | |001 = Internal TIMER0 time-out or capture event. * | | |010 = Internal TIMER1 time-out or capture event. * | | |011 = Internal TIMER2 time-out or capture event. * | | |100 = Internal TIMER3 time-out or capture event. * | | |Others = Reserved. * | | |Note: If TIMER0 PWM function is enabled, the PWM counter clock source can be selected from TMR0_CLK, TIMER1 interrupt events, TIMER2 interrupt events, or TIMER3 interrupt events. * @var TIMER_T::PWMCLKPSC * Offset: 0x48 Timer PWM Counter Clock Pre-scale Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[11:0] |CLKPSC |PWM Counter Clock Pre-scale * | | |The active clock of PWM counter is decided by counter clock prescale and divided by (CLKPSC + 1) * | | |If CLKPSC is 0, then there is no scaling in PWM counter clock source. * @var TIMER_T::PWMCNTCLR * Offset: 0x4C Timer PWM Clear Counter Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |CNTCLR |Clear PWM Counter Control Bit * | | |It is automatically cleared by hardware. * | | |0 = No effect. * | | |1 = Clear 16-bit PWM counter to 0x10000 in up and up-down count type and reset counter value to PERIOD in down count type. * @var TIMER_T::PWMPERIOD * Offset: 0x50 Timer PWM Period Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |PERIOD |PWM Period Register * | | |In up count type: PWM counter counts from 0 to PERIOD, and restarts from 0. * | | |In down count type: PWM counter counts from PERIOD to 0, and restarts from PERIOD. * | | |In up-down count type: PWM counter counts from 0 to PERIOD, then decrements to 0 and repeats again. * | | |In up and down count type: * | | |PWM period time = (PERIOD + 1) * (CLKPSC + 1) * TMRx_PWMCLK. * | | |In up-down count type: * | | |PWM period time = 2 * PERIOD * (CLKPSC+ 1) * TMRx_PWMCLK. * | | |Note: User should take care DIRF (TIMERx_PWMCNT[16]) bit in up/down/up-down count type to monitor current counter direction in each count type. * @var TIMER_T::PWMCMPDAT * Offset: 0x54 Timer PWM Comparator Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |CMP |PWM Comparator Register * | | |PWM CMP is used to compare with PWM CNT to generate PWM output waveform, interrupt events and trigger ADC to start convert. * @var TIMER_T::PWMDTCTL * Offset: 0x58 Timer PWM Dead-Time Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[11:0] |DTCNT |Dead-time Counter (Write Protect) * | | |The dead-time can be calculated from the following two formulas: * | | |Dead-time = (DTCNT[11:0] + 1) * TMRx_PWMCLK, if DTCKSEL is 0. * | | |Dead-time = (DTCNT[11:0] + 1) * TMRx_PWMCLK * (CLKPSC + 1), if DTCKSEL is 1. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[16] |DTEN |Enable Dead-time Insertion for PWMx_CH0 and PWMx_CH1 (Write Protect) * | | |Dead-time insertion function is only active when PWM complementary mode is enabled * | | |If dead- time insertion is inactive, the outputs of PWMx_CH0 and PWMx_CH1 are complementary without any delay. * | | |0 = Dead-time insertion Disabled on the pin pair. * | | |1 = Dead-time insertion Enabled on the pin pair. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[24] |DTCKSEL |Dead-time Clock Select (Write Protect) * | | |0 = Dead-time clock source from TMRx_PWMCLK without counter clock prescale. * | | |1 = Dead-time clock source from TMRx_PWMCLK with counter clock prescale. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * @var TIMER_T::PWMCNT * Offset: 0x5C Timer PWM Counter Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |CNT |PWM Counter Value Register (Read Only) * | | |User can monitor CNT to know the current counter value in 16-bit period counter. * |[16] |DIRF |PWM Counter Direction Indicator Flag (Read Only) * | | |0 = Counter is active in down count. * | | |1 = Counter is active up count. * @var TIMER_T::PWMMSKEN * Offset: 0x60 Timer PWM Output Mask Enable Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |MSKEN0 |PWMx_CH0 Output Mask Enable Bit * | | |The PWMx_CH0 output signal will be masked when this bit is enabled * | | |The PWMx_CH0 will output MSKDAT0 (TIMER_PWMMSK[0]) data. * | | |0 = PWMx_CH0 output signal is non-masked. * | | |1 = PWMx_CH0 output signal is masked and output MSKDAT0 data. * |[1] |MSKEN1 |PWMx_CH1 Output Mask Enable Bit * | | |The PWMx_CH1 output signal will be masked when this bit is enabled * | | |The PWMx_CH1 will output MSKDAT1 (TIMER_PWMMSK[1]) data. * | | |0 = PWMx_CH1 output signal is non-masked. * | | |1 = PWMx_CH1 output signal is masked and output MSKDAT1 data. * @var TIMER_T::PWMMSK * Offset: 0x64 Timer PWM Output Mask Data Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |MSKDAT0 |PWMx_CH0 Output Mask Data Control Bit * | | |This bit is used to control the output state of PWMx_CH0 pin when PWMx_CH0 output mask function is enabled (MSKEN0 = 1). * | | |0 = Output logic Low to PWMx_CH0. * | | |1 = Output logic High to PWMx_CH0. * |[1] |MSKDAT1 |PWMx_CH1 Output Mask Data Control Bit * | | |This bit is used to control the output state of PWMx_CH1 pin when PWMx_CH1 output mask function is enabled (MSKEN1 = 1). * | | |0 = Output logic Low to PWMx_CH1. * | | |1 = Output logic High to PWMx_CH1. * @var TIMER_T::PWMBNF * Offset: 0x68 Timer PWM Brake Pin Noise Filter Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |BRKNFEN |Brake Pin Noise Filter Enable Bit * | | |0 = Pin noise filter detect of PWMx_BRAKEy Disabled. * | | |1 = Pin noise filter detect of PWMx_BRAKEy Enabled. * |[3:1] |BRKNFSEL |Brake Pin Noise Filter Clock Selection * | | |000 = Noise filter clock is PCLKx. * | | |001 = Noise filter clock is PCLKx/2. * | | |010 = Noise filter clock is PCLKx/4. * | | |011 = Noise filter clock is PCLKx/8. * | | |100 = Noise filter clock is PCLKx/16. * | | |101 = Noise filter clock is PCLKx/32. * | | |110 = Noise filter clock is PCLKx/64. * | | |111 = Noise filter clock is PCLKx/128. * |[6:4] |BRKFCNT |Brake Pin Noise Filter Count * | | |The fields is used to control the active noise filter sample time. * | | |Once noise filter sample time = (Period time of BRKDBCS) * BRKFCNT. * |[7] |BRKPINV |Brake Pin Detection Control Bit * | | |0 = Brake pin event will be detected if PWMx_BRAKEy pin status transfer from low to high in edge-detect, or pin status is high in level-detect. * | | |1 = Brake pin event will be detected if PWMx_BRAKEy pin status transfer from high to low in edge-detect, or pin status is low in level-detect . * |[17:16] |BKPINSRC |Brake Pin Source Select * | | |00 = Brake pin source comes from PWM0_BRAKE0 pin. * | | |01 = Brake pin source comes from PWM0_BRAKE1 pin. * | | |10 = Brake pin source comes from PWM1_BRAKE0 pin. * | | |11 = Brake pin source comes from PWM1_BRAKE1 pin. * @var TIMER_T::PWMFAILBRK * Offset: 0x6C Timer PWM System Fail Brake Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |CSSBRKEN |Clock Security System Detection Trigger PWM Brake Function Enable Bit * | | |0 = Brake Function triggered by clock fail detection Disabled. * | | |1 = Brake Function triggered by clock fail detection Enabled. * |[1] |BODBRKEN |Brown-out Detection Trigger PWM Brake Function Enable Bit * | | |0 = Brake Function triggered by BOD event Disabled. * | | |1 = Brake Function triggered by BOD event Enabled. * |[2] |RAMBRKEN |SRAM Parity Error Detection Trigger PWM Brake Function Enable Bit * | | |0 = Brake Function triggered by SRAM parity error detection Disabled. * | | |1 = Brake Function triggered by SRAM parity error detection Enabled. * |[3] |CORBRKEN |Core Lockup Detection Trigger PWM Brake Function Enable Bit * | | |0 = Brake Function triggered by core lockup event Disabled. * | | |1 = Brake Function triggered by core lockup event Enabled. * @var TIMER_T::PWMBRKCTL * Offset: 0x70 Timer PWM Brake Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |CPO0EBEN |Enable Internal ACMP0_O Digital Output As Edge-detect Brake Source (Write Protect) * | | |0 = Internal ACMP0_O signal as edge-detect brake source Disabled. * | | |1 = Internal ACMP0_O signal as edge-detect brake source Enabled. * | | |Note1: Only internal ACMP0_O signal from low to high will be detected as brake event. * | | |Note2: This register is write protected. Refer toSYS_REGLCTL register. * |[1] |CPO1EBEN |Enable Internal ACMP1_O Digital Output As Edge-detect Brake Source (Write Protect) * | | |0 = Internal ACMP1_O signal as edge-detect brake source Disabled. * | | |1 = Internal ACMP1_O signal as edge-detect brake source Enabled. * | | |Note1: Only internal ACMP1_O signal from low to high will be detected as brake event. * | | |Note2: This register is write protected. Refer toSYS_REGLCTL register. * |[4] |BRKPEEN |Enable TM_BRAKEx Pin As Edge-detect Brake Source (Write Protect) * | | |0 = PWMx_BRAKEy pin event as edge-detect brake source Disabled. * | | |1 = PWMx_BRAKEy pin event as edge-detect brake source Enabled. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[7] |SYSEBEN |Enable System Fail As Edge-detect Brake Source (Write Protect) * | | |0 = System fail condition as edge-detect brake source Disabled. * | | |1 = System fail condition as edge-detect brake source Enabled. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[8] |CPO0LBEN |Enable Internal ACMP0_O Digital Output As Level-detect Brake Source (Write Protect) * | | |0 = Internal ACMP0_O signal as level-detect brake source Disabled. * | | |1 = Internal ACMP0_O signal as level-detect brake source Enabled. * | | |Note1: Only internal ACMP0_O signal from low to high will be detected as brake event. * | | |Note2: This register is write protected. Refer toSYS_REGLCTL register. * |[9] |CPO1LBEN |Enable Internal ACMP1_O Digital Output As Level-detect Brake Source (Write Protect) * | | |0 = Internal ACMP1_O signal as level-detect brake source Disabled. * | | |1 = Internal ACMP1_O signal as level-detect brake source Enabled. * | | |Note1: Only internal ACMP1_O signal from low to high will be detected as brake event. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[12] |BRKPLEN |Enable TM_BRAKEx Pin As Level-detect Brake Source (Write Protect) * | | |0 = PWMx_BRAKEy pin event as level-detect brake source Disabled. * | | |1 = PWMx_BRAKEy pin event as level-detect brake source Enabled. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[15] |SYSLBEN |Enable System Fail As Level-detect Brake Source (Write Protect) * | | |0 = System fail condition as level-detect brake source Disabled. * | | |1 = System fail condition as level-detect brake source Enabled. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[17:16] |BRKAEVEN |PWM Brake Action Select for PWMx_CH0 (Write Protect) * | | |00 = PWMx_BRAKEy brake event will not affect PWMx_CH0 output. * | | |01 = PWMx_CH0 output tri-state when PWMx_BRAKEy brake event happened. * | | |10 = PWMx_CH0 output low level when PWMx_BRAKEy brake event happened. * | | |11 = PWMx_CH0 output high level when PWMx_BRAKEy brake event happened. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[19:18] |BRKAODD |PWM Brake Action Select for PWMx_CH1 (Write Protect) * | | |00 = PWMx_BRAKEy brake event will not affect PWMx_CH1 output. * | | |01 = PWMx_CH1 output tri-state when PWMx_BRAKEy brake event happened. * | | |10 = PWMx_CH1 output low level when PWMx_BRAKEy brake event happened. * | | |11 = PWMx_CH1 output high level when PWMx_BRAKEy brake event happened. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * @var TIMER_T::PWMPOLCTL * Offset: 0x74 Timer PWM Pin Output Polar Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |PINV0 |PWMx_CH0 Output Pin Polar Control Bit * | | |The bit is used to control polarity state of PWMx_CH0 output pin. * | | |0 = PWMx_CH0 output pin polar inverse Disabled. * | | |1 = PWMx_CH0 output pin polar inverse Enabled. * |[1] |PINV1 |PWMx_CH1 Output Pin Polar Control Bit * | | |The bit is used to control polarity state of PWMx_CH1 output pin. * | | |0 = PWMx_CH1 output pin polar inverse Disabled. * | | |1 = PWMx_CH1 output pin polar inverse Enabled. * @var TIMER_T::PWMPOEN * Offset: 0x78 Timer PWM Pin Output Enable Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |POEN0 |PWMx_CH0 Output Pin Enable Bit * | | |0 = PWMx_CH0 pin at tri-state mode. * | | |1 = PWMx_CH0 pin in output mode. * |[1] |POEN1 |PWMx_CH1 Output Pin Enable Bit * | | |0 = PWMx_CH1 pin at tri-state mode. * | | |1 = PWMx_CH1 pin in output mode. * @var TIMER_T::PWMSWBRK * Offset: 0x7C Timer PWM Software Trigger Brake Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |BRKETRG |Software Trigger Edge-detect Brake Source (Write Only) (Write Protect) * | | |Write 1 to this bit will trigger PWM edge-detect brake source, then BRKEIF0 and BRKEIF1 will set to 1 automatically in TIMERx_PWMINTSTS1 register. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[8] |BRKLTRG |Software Trigger Level-detect Brake Source (Write Only) (Write Protect) * | | |Write 1 to this bit will trigger PWM level-detect brake source, then BRKLIF0 and BRKLIF1 will set to 1 automatically in TIMERx_PWMINTSTS1 register. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * @var TIMER_T::PWMINTEN0 * Offset: 0x80 Timer PWM Interrupt Enable Register 0 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |ZIEN |PWM Zero Point Interrupt Enable Bit * | | |0 = Zero point interrupt Disabled. * | | |1 = Zero point interrupt Enabled. * |[1] |PIEN |PWM Period Point Interrupt Enable Bit * | | |0 = Period point interrupt Disabled. * | | |1 = Period point interrupt Enabled. * | | |Note: When in up-down count type, period point means the center point of current PWM period. * |[2] |CMPUIEN |PWM Compare Up Count Interrupt Enable Bit * | | |0 = Compare up count interrupt Disabled. * | | |1 = Compare up count interrupt Enabled. * |[3] |CMPDIEN |PWM Compare Down Count Interrupt Enable Bit * | | |0 = Compare down count interrupt Disabled. * | | |1 = Compare down count interrupt Enabled. * @var TIMER_T::PWMINTEN1 * Offset: 0x84 Timer PWM Interrupt Enable Register 1 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |BRKEIEN |PWM Edge-detect Brake Interrupt Enable (Write Protect) * | | |0 = PWM edge-detect brake interrupt Disabled. * | | |1 = PWM edge-detect brake interrupt Enabled. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * |[8] |BRKLIEN |PWM Level-detect Brake Interrupt Enable (Write Protect) * | | |0 = PWM level-detect brake interrupt Disabled. * | | |1 = PWM level-detect brake interrupt Enabled. * | | |Note: This register is write protected. Refer toSYS_REGLCTL register. * @var TIMER_T::PWMINTSTS0 * Offset: 0x88 Timer PWM Interrupt Status Register 0 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |ZIF |PWM Zero Point Interrupt Flag * | | |This bit is set by hardware when TIMERx_PWM counter reaches zero. * | | |Note: This bit is cleared by writing 1 to it. * |[1] |PIF |PWM Period Point Interrupt Flag * | | |This bit is set by hardware when TIMERx_PWM counter reaches PERIOD. * | | |Note1: When in up-down count type, PIF flag means the center point flag of current PWM period. * | | |Note2: This bit is cleared by writing 1 to it. * |[2] |CMPUIF |PWM Compare Up Count Interrupt Flag * | | |This bit is set by hardware when TIMERx_PWM counter in up count direction and reaches CMP. * | | |Note1: If CMP equal to PERIOD, there is no CMPUIF flag in up count type and up-down count type. * | | |Note2: This bit is cleared by writing 1 to it. * |[3] |CMPDIF |PWM Compare Down Count Interrupt Flag * | | |This bit is set by hardware when TIMERx_PWM counter in down count direction and reaches CMP. * | | |Note1: If CMP equal to PERIOD, there is no CMPDIF flag in down count type. * | | |Note2: This bit is cleared by writing 1 to it. * @var TIMER_T::PWMINTSTS1 * Offset: 0x8C Timer PWM Interrupt Status Register 1 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |BRKEIF0 |Edge-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect) * | | |0 = PWMx_CH0 edge-detect brake event do not happened. * | | |1 = PWMx_CH0 edge-detect brake event happened. * | | |Note1: This bit is cleared by writing 1 to it. * | | |Note2: This register is write protected. Refer toSYS_REGLCTL register. * |[1] |BRKEIF1 |Edge-detect Brake Interrupt Flag PWMx_CH1 (Write Protect) * | | |0 = PWMx_CH1 edge-detect brake event do not happened. * | | |1 = PWMx_CH1 edge-detect brake event happened. * | | |Note1: This bit is cleared by writing 1 to it. * | | |Note2: This register is write protected. Refer toSYS_REGLCTL register. * |[8] |BRKLIF0 |Level-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect) * | | |0 = PWMx_CH0 level-detect brake event do not happened. * | | |1 = PWMx_CH0 level-detect brake event happened. * | | |Note1: This bit is cleared by writing 1 to it. * | | |Note2: This register is write protected. Refer toSYS_REGLCTL register. * |[9] |BRKLIF1 |Level-detect Brake Interrupt Flag on PWMx_CH1 (Write Protect) * | | |0 = PWMx_CH1 level-detect brake event do not happened. * | | |1 = PWMx_CH1 level-detect brake event happened. * | | |Note1: This bit is cleared by writing 1 to it. * | | |Note2: This register is write protected. Refer toSYS_REGLCTL register. * |[16] |BRKESTS0 |Edge -detect Brake Status of PWMx_CH0 (Read Only) * | | |0 = PWMx_CH0 edge-detect brake state is released. * | | |1 = PWMx_CH0 at edge-detect brake state. * | | |Note: User can set BRKEIF0 1 to clear BRKEIF0 flag and PWMx_CH0 will release brake state when current PWM period finished and resume PWMx_CH0 output waveform start from next full PWM period. * |[17] |BRKESTS1 |Edge-detect Brake Status of PWMx_CH1 (Read Only) * | | |0 = PWMx_CH1 edge-detect brake state is released. * | | |1 = PWMx_CH1 at edge-detect brake state. * | | |Note: User can set BRKEIF1 1 to clear BRKEIF1 flag and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH1 output waveform start from next full PWM period. * |[24] |BRKLSTS0 |Level-detect Brake Status of PWMx_CH0 (Read Only) * | | |0 = PWMx_CH0 level-detect brake state is released. * | | |1 = PWMx_CH0 at level-detect brake state. * | | |Note: If TIMERx_PWM level-detect brake source has released, both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform start from next full PWM period. * |[25] |BRKLSTS1 |Level-detect Brake Status of PWMx_CH1 (Read Only) * | | |0 = PWMx_CH1 level-detect brake state is released. * | | |1 = PWMx_CH1 at level-detect brake state. * | | |Note: If TIMERx_PWM level-detect brake source has released, both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform start from next full PWM period. * @var TIMER_T::PWMEADCTS * Offset: 0x90 Timer PWM ADC Trigger Source Select Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[2:0] |TRGSEL |PWM Counter Event Source Select to Trigger EADC Conversion * | | |000 = Trigger EADC conversion at zero point (ZIF). * | | |001 = Trigger EADC conversion at period point (PIF). * | | |010 = Trigger EADC conversion at zero or period point (ZIF or PIF). * | | |011 = Trigger EADC conversion at compare up count point (CMPUIF). * | | |100 = Trigger EADC conversion at compare down count point (CMPDIF). * | | |Others = Reserved. * |[7] |TRGEN |PWM Counter Event Trigger EADC Conversion Enable Bit * | | |0 = PWM counter event trigger EADC conversion Disabled. * | | |1 = PWM counter event trigger EADC conversion Enabled. * @var TIMER_T::PWMSCTL * Offset: 0x94 Timer PWM Synchronous Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[1:0] |SYNCMODE |PWM Synchronous Mode Enable Select * | | |00 = PWM synchronous function Disabled. * | | |01 = PWM synchronous counter start function Enabled. * | | |10 = Reserved. * | | |11 = PWM synchronous counter clear function Enabled. * |[8] |SYNCSRC |PWM Synchronous Counter Start/Clear Source Select * | | |0 = Counter synchronous start/clear by trigger TIMER0_PWMSTRG STRGEN. * | | |1 = Counter synchronous start/clear by trigger TIMER2_PWMSTRG STRGEN. * | | |Note1: If TIMER0/1/2/3 PWM counter synchronous source are from TIMER0, TIMER0_PWMSCTL[8], TIMER1_PWMSCTL[8], TIMER2_PWMSCTL[8] and TIMER3_PWMSCTL[8] should be 0. * | | |Note2: If TIMER0/1/ PWM counter synchronous source are from TIMER0, TIMER0_PWMSCTL[8] and TIMER1_PWMSCTL[8] should be set 0, and TIMER2/3/ PWM counter synchronous source are from TIMER2, TIME2_PWMSCTL[8] and TIMER3_PWMSCTL[8] should be set 1. * @var TIMER_T::PWMSTRG * Offset: 0x98 Timer PWM Synchronous Trigger Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |STRGEN |PWM Counter Synchronous Trigger Enable Bit (Write Only) * | | |PMW counter synchronous function is used to make selected PWM channels (include TIMER0/1/2/3 PWM, TIMER0/1 PWM and TIMER2/3 PWM) start counting or clear counter at the same time according to TIMERx_PWMSCTL setting. * | | |Note: This bit is only available in TIMER0 and TIMER2. * @var TIMER_T::PWMSTATUS * Offset: 0x9C Timer PWM Status Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |CNTMAXF |PWM Counter Equal to 0xFFFF Flag * | | |0 = Indicates the PWM counter value never reached its maximum value 0xFFFF. * | | |1 = Indicates the PWM counter value has reached its maximum value. * | | |Note: This bit is cleared by writing 1 to it. * |[16] |EADCTRGF |Trigger EADC Start Conversion Flag * | | |0 = PWM counter event trigger EADC start conversion is not occurred. * | | |1 = PWM counter event trigger EADC start conversion has occurred. * | | |Note: This bit is cleared by writing 1 to it. * @var TIMER_T::PWMPBUF * Offset: 0xA0 Timer PWM Period Buffer Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |PBUF |PWM Period Buffer Register (Read Only) * | | |Used as PERIOD active register. * @var TIMER_T::PWMCMPBUF * Offset: 0xA4 Timer PWM Comparator Buffer Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |CMPBUF |PWM Comparator Buffer Register (Read Only) * | | |Used as CMP active register. */ __IO uint32_t CTL; /*!< [0x0000] Timer Control Register */ __IO uint32_t CMP; /*!< [0x0004] Timer Comparator Register */ __IO uint32_t INTSTS; /*!< [0x0008] Timer Interrupt Status Register */ __IO uint32_t CNT; /*!< [0x000c] Timer Data Register */ __I uint32_t CAP; /*!< [0x0010] Timer Capture Data Register */ __IO uint32_t EXTCTL; /*!< [0x0014] Timer External Control Register */ __IO uint32_t EINTSTS; /*!< [0x0018] Timer External Interrupt Status Register */ __IO uint32_t TRGCTL; /*!< [0x001c] Timer Trigger Control Register */ __IO uint32_t ALTCTL; /*!< [0x0020] Timer Alternative Control Register */ /** @cond HIDDEN_SYMBOLS */ __I uint32_t RESERVE0[7]; /** @endcond */ __IO uint32_t PWMCTL; /*!< [0x0040] Timer PWM Control Register */ __IO uint32_t PWMCLKSRC; /*!< [0x0044] Timer PWM Counter Clock Source Register */ __IO uint32_t PWMCLKPSC; /*!< [0x0048] Timer PWM Counter Clock Pre-scale Register */ __IO uint32_t PWMCNTCLR; /*!< [0x004c] Timer PWM Clear Counter Register */ __IO uint32_t PWMPERIOD; /*!< [0x0050] Timer PWM Period Register */ __IO uint32_t PWMCMPDAT; /*!< [0x0054] Timer PWM Comparator Register */ __IO uint32_t PWMDTCTL; /*!< [0x0058] Timer PWM Dead-Time Control Register */ __I uint32_t PWMCNT; /*!< [0x005c] Timer PWM Counter Register */ __IO uint32_t PWMMSKEN; /*!< [0x0060] Timer PWM Output Mask Enable Register */ __IO uint32_t PWMMSK; /*!< [0x0064] Timer PWM Output Mask Data Control Register */ __IO uint32_t PWMBNF; /*!< [0x0068] Timer PWM Brake Pin Noise Filter Register */ __IO uint32_t PWMFAILBRK; /*!< [0x006c] Timer PWM System Fail Brake Control Register */ __IO uint32_t PWMBRKCTL; /*!< [0x0070] Timer PWM Brake Control Register */ __IO uint32_t PWMPOLCTL; /*!< [0x0074] Timer PWM Pin Output Polar Control Register */ __IO uint32_t PWMPOEN; /*!< [0x0078] Timer PWM Pin Output Enable Register */ __O uint32_t PWMSWBRK; /*!< [0x007c] Timer PWM Software Trigger Brake Control Register */ __IO uint32_t PWMINTEN0; /*!< [0x0080] Timer PWM Interrupt Enable Register 0 */ __IO uint32_t PWMINTEN1; /*!< [0x0084] Timer PWM Interrupt Enable Register 1 */ __IO uint32_t PWMINTSTS0; /*!< [0x0088] Timer PWM Interrupt Status Register 0 */ __IO uint32_t PWMINTSTS1; /*!< [0x008c] Timer PWM Interrupt Status Register 1 */ __IO uint32_t PWMEADCTS; /*!< [0x0090] Timer PWM EADC Trigger Source Select Register */ __IO uint32_t PWMSCTL; /*!< [0x0094] Timer PWM Synchronous Control Register */ __O uint32_t PWMSTRG; /*!< [0x0098] Timer PWM Synchronous Trigger Register */ __IO uint32_t PWMSTATUS; /*!< [0x009c] Timer PWM Status Register */ __I uint32_t PWMPBUF; /*!< [0x00a0] Timer PWM Period Buffer Register */ __I uint32_t PWMCMPBUF; /*!< [0x00a4] Timer PWM Comparator Buffer Register */ } TIMER_T; /** @addtogroup TIMER_CONST TIMER Bit Field Definition Constant Definitions for TIMER Controller @{ */ #define TIMER_CTL_PSC_Pos (0) /*!< TIMER_T::CTL: PSC Position */ #define TIMER_CTL_PSC_Msk (0xfful << TIMER_CTL_PSC_Pos) /*!< TIMER_T::CTL: PSC Mask */ #define TIMER_CTL_INTRGEN_Pos (19) /*!< TIMER_T::CTL: INTRGEN Position */ #define TIMER_CTL_INTRGEN_Msk (0x1ul << TIMER_CTL_INTRGEN_Pos) /*!< TIMER_T::CTL: INTRGEN Mask */ #define TIMER_CTL_PERIOSEL_Pos (20) /*!< TIMER_T::CTL: PERIOSEL Position */ #define TIMER_CTL_PERIOSEL_Msk (0x1ul << TIMER_CTL_PERIOSEL_Pos) /*!< TIMER_T::CTL: PERIOSEL Mask */ #define TIMER_CTL_TGLPINSEL_Pos (21) /*!< TIMER_T::CTL: TGLPINSEL Position */ #define TIMER_CTL_TGLPINSEL_Msk (0x1ul << TIMER_CTL_TGLPINSEL_Pos) /*!< TIMER_T::CTL: TGLPINSEL Mask */ #define TIMER_CTL_CAPSRC_Pos (22) /*!< TIMER_T::CTL: CAPSRC Position */ #define TIMER_CTL_CAPSRC_Msk (0x1ul << TIMER_CTL_CAPSRC_Pos) /*!< TIMER_T::CTL: CAPSRC Mask */ #define TIMER_CTL_WKEN_Pos (23) /*!< TIMER_T::CTL: WKEN Position */ #define TIMER_CTL_WKEN_Msk (0x1ul << TIMER_CTL_WKEN_Pos) /*!< TIMER_T::CTL: WKEN Mask */ #define TIMER_CTL_EXTCNTEN_Pos (24) /*!< TIMER_T::CTL: EXTCNTEN Position */ #define TIMER_CTL_EXTCNTEN_Msk (0x1ul << TIMER_CTL_EXTCNTEN_Pos) /*!< TIMER_T::CTL: EXTCNTEN Mask */ #define TIMER_CTL_ACTSTS_Pos (25) /*!< TIMER_T::CTL: ACTSTS Position */ #define TIMER_CTL_ACTSTS_Msk (0x1ul << TIMER_CTL_ACTSTS_Pos) /*!< TIMER_T::CTL: ACTSTS Mask */ #define TIMER_CTL_OPMODE_Pos (27) /*!< TIMER_T::CTL: OPMODE Position */ #define TIMER_CTL_OPMODE_Msk (0x3ul << TIMER_CTL_OPMODE_Pos) /*!< TIMER_T::CTL: OPMODE Mask */ #define TIMER_CTL_INTEN_Pos (29) /*!< TIMER_T::CTL: INTEN Position */ #define TIMER_CTL_INTEN_Msk (0x1ul << TIMER_CTL_INTEN_Pos) /*!< TIMER_T::CTL: INTEN Mask */ #define TIMER_CTL_CNTEN_Pos (30) /*!< TIMER_T::CTL: CNTEN Position */ #define TIMER_CTL_CNTEN_Msk (0x1ul << TIMER_CTL_CNTEN_Pos) /*!< TIMER_T::CTL: CNTEN Mask */ #define TIMER_CTL_ICEDEBUG_Pos (31) /*!< TIMER_T::CTL: ICEDEBUG Position */ #define TIMER_CTL_ICEDEBUG_Msk (0x1ul << TIMER_CTL_ICEDEBUG_Pos) /*!< TIMER_T::CTL: ICEDEBUG Mask */ #define TIMER_CMP_CMPDAT_Pos (0) /*!< TIMER_T::CMP: CMPDAT Position */ #define TIMER_CMP_CMPDAT_Msk (0xfffffful << TIMER_CMP_CMPDAT_Pos) /*!< TIMER_T::CMP: CMPDAT Mask */ #define TIMER_INTSTS_TIF_Pos (0) /*!< TIMER_T::INTSTS: TIF Position */ #define TIMER_INTSTS_TIF_Msk (0x1ul << TIMER_INTSTS_TIF_Pos) /*!< TIMER_T::INTSTS: TIF Mask */ #define TIMER_INTSTS_TWKF_Pos (1) /*!< TIMER_T::INTSTS: TWKF Position */ #define TIMER_INTSTS_TWKF_Msk (0x1ul << TIMER_INTSTS_TWKF_Pos) /*!< TIMER_T::INTSTS: TWKF Mask */ #define TIMER_CNT_CNT_Pos (0) /*!< TIMER_T::CNT: CNT Position */ #define TIMER_CNT_CNT_Msk (0xfffffful << TIMER_CNT_CNT_Pos) /*!< TIMER_T::CNT: CNT Mask */ #define TIMER_CNT_RSTACT_Pos (31) /*!< TIMER_T::CNT: RSTACT Position */ #define TIMER_CNT_RSTACT_Msk (0x1ul << TIMER_CNT_RSTACT_Pos) /*!< TIMER_T::CNT: RSTACT Mask */ #define TIMER_CAP_CAPDAT_Pos (0) /*!< TIMER_T::CAP: CAPDAT Position */ #define TIMER_CAP_CAPDAT_Msk (0xfffffful << TIMER_CAP_CAPDAT_Pos) /*!< TIMER_T::CAP: CAPDAT Mask */ #define TIMER_EXTCTL_CNTPHASE_Pos (0) /*!< TIMER_T::EXTCTL: CNTPHASE Position */ #define TIMER_EXTCTL_CNTPHASE_Msk (0x1ul << TIMER_EXTCTL_CNTPHASE_Pos) /*!< TIMER_T::EXTCTL: CNTPHASE Mask */ #define TIMER_EXTCTL_CAPEN_Pos (3) /*!< TIMER_T::EXTCTL: CAPEN Position */ #define TIMER_EXTCTL_CAPEN_Msk (0x1ul << TIMER_EXTCTL_CAPEN_Pos) /*!< TIMER_T::EXTCTL: CAPEN Mask */ #define TIMER_EXTCTL_CAPFUNCS_Pos (4) /*!< TIMER_T::EXTCTL: CAPFUNCS Position */ #define TIMER_EXTCTL_CAPFUNCS_Msk (0x1ul << TIMER_EXTCTL_CAPFUNCS_Pos) /*!< TIMER_T::EXTCTL: CAPFUNCS Mask */ #define TIMER_EXTCTL_CAPIEN_Pos (5) /*!< TIMER_T::EXTCTL: CAPIEN Position */ #define TIMER_EXTCTL_CAPIEN_Msk (0x1ul << TIMER_EXTCTL_CAPIEN_Pos) /*!< TIMER_T::EXTCTL: CAPIEN Mask */ #define TIMER_EXTCTL_CAPDBEN_Pos (6) /*!< TIMER_T::EXTCTL: CAPDBEN Position */ #define TIMER_EXTCTL_CAPDBEN_Msk (0x1ul << TIMER_EXTCTL_CAPDBEN_Pos) /*!< TIMER_T::EXTCTL: CAPDBEN Mask */ #define TIMER_EXTCTL_CNTDBEN_Pos (7) /*!< TIMER_T::EXTCTL: CNTDBEN Position */ #define TIMER_EXTCTL_CNTDBEN_Msk (0x1ul << TIMER_EXTCTL_CNTDBEN_Pos) /*!< TIMER_T::EXTCTL: CNTDBEN Mask */ #define TIMER_EXTCTL_ICAPSEL_Pos (8) /*!< TIMER_T::EXTCTL: ICAPSEL Position */ #define TIMER_EXTCTL_ICAPSEL_Msk (0x7ul << TIMER_EXTCTL_ICAPSEL_Pos) /*!< TIMER_T::EXTCTL: ICAPSEL Mask */ #define TIMER_EXTCTL_CAPEDGE_Pos (12) /*!< TIMER_T::EXTCTL: CAPEDGE Position */ #define TIMER_EXTCTL_CAPEDGE_Msk (0x7ul << TIMER_EXTCTL_CAPEDGE_Pos) /*!< TIMER_T::EXTCTL: CAPEDGE Mask */ #define TIMER_EXTCTL_ECNTSSEL_Pos (16) /*!< TIMER_T::EXTCTL: ECNTSSEL Position */ #define TIMER_EXTCTL_ECNTSSEL_Msk (0x1ul << TIMER_EXTCTL_ECNTSSEL_Pos) /*!< TIMER_T::EXTCTL: ECNTSSEL Mask */ #define TIMER_EXTCTL_CAPDIVSCL_Pos (28) /*!< TIMER_T::EXTCTL: CAPDIVSCL Position */ #define TIMER_EXTCTL_CAPDIVSCL_Msk (0xful << TIMER_EXTCTL_CAPDIVSCL_Pos) /*!< TIMER_T::EXTCTL: CAPDIVSCL Mask */ #define TIMER_EINTSTS_CAPIF_Pos (0) /*!< TIMER_T::EINTSTS: CAPIF Position */ #define TIMER_EINTSTS_CAPIF_Msk (0x1ul << TIMER_EINTSTS_CAPIF_Pos) /*!< TIMER_T::EINTSTS: CAPIF Mask */ #define TIMER_TRGCTL_TRGSSEL_Pos (0) /*!< TIMER_T::TRGCTL: TRGSSEL Position */ #define TIMER_TRGCTL_TRGSSEL_Msk (0x1ul << TIMER_TRGCTL_TRGSSEL_Pos) /*!< TIMER_T::TRGCTL: TRGSSEL Mask */ #define TIMER_TRGCTL_TRGEPWM_Pos (1) /*!< TIMER_T::TRGCTL: TRGEPWM Position */ #define TIMER_TRGCTL_TRGEPWM_Msk (0x1ul << TIMER_TRGCTL_TRGEPWM_Pos) /*!< TIMER_T::TRGCTL: TRGEPWM Mask */ #define TIMER_TRGCTL_TRGEADC_Pos (2) /*!< TIMER_T::TRGCTL: TRGEADC Position */ #define TIMER_TRGCTL_TRGEADC_Msk (0x1ul << TIMER_TRGCTL_TRGEADC_Pos) /*!< TIMER_T::TRGCTL: TRGEADC Mask */ #define TIMER_TRGCTL_TRGDAC_Pos (3) /*!< TIMER_T::TRGCTL: TRGDAC Position */ #define TIMER_TRGCTL_TRGDAC_Msk (0x1ul << TIMER_TRGCTL_TRGDAC_Pos) /*!< TIMER_T::TRGCTL: TRGDAC Mask */ #define TIMER_TRGCTL_TRGPDMA_Pos (4) /*!< TIMER_T::TRGCTL: TRGPDMA Position */ #define TIMER_TRGCTL_TRGPDMA_Msk (0x1ul << TIMER_TRGCTL_TRGPDMA_Pos) /*!< TIMER_T::TRGCTL: TRGPDMA Mask */ #define TIMER_ALTCTL_FUNCSEL_Pos (0) /*!< TIMER_T::ALTCTL: FUNCSEL Position */ #define TIMER_ALTCTL_FUNCSEL_Msk (0x1ul << TIMER_ALTCTL_FUNCSEL_Pos) /*!< TIMER_T::ALTCTL: FUNCSEL Mask */ #define TIMER_PWMCTL_CNTEN_Pos (0) /*!< TIMER_T::PWMCTL: CNTEN Position */ #define TIMER_PWMCTL_CNTEN_Msk (0x1ul << TIMER_PWMCTL_CNTEN_Pos) /*!< TIMER_T::PWMCTL: CNTEN Mask */ #define TIMER_PWMCTL_CNTTYPE_Pos (1) /*!< TIMER_T::PWMCTL: CNTTYPE Position */ #define TIMER_PWMCTL_CNTTYPE_Msk (0x3ul << TIMER_PWMCTL_CNTTYPE_Pos) /*!< TIMER_T::PWMCTL: CNTTYPE Mask */ #define TIMER_PWMCTL_CNTMODE_Pos (3) /*!< TIMER_T::PWMCTL: CNTMODE Position */ #define TIMER_PWMCTL_CNTMODE_Msk (0x1ul << TIMER_PWMCTL_CNTMODE_Pos) /*!< TIMER_T::PWMCTL: CNTMODE Mask */ #define TIMER_PWMCTL_CTRLD_Pos (8) /*!< TIMER_T::PWMCTL: CTRLD Position */ #define TIMER_PWMCTL_CTRLD_Msk (0x1ul << TIMER_PWMCTL_CTRLD_Pos) /*!< TIMER_T::PWMCTL: CTRLD Mask */ #define TIMER_PWMCTL_IMMLDEN_Pos (9) /*!< TIMER_T::PWMCTL: IMMLDEN Position */ #define TIMER_PWMCTL_IMMLDEN_Msk (0x1ul << TIMER_PWMCTL_IMMLDEN_Pos) /*!< TIMER_T::PWMCTL: IMMLDEN Mask */ #define TIMER_PWMCTL_OUTMODE_Pos (16) /*!< TIMER_T::PWMCTL: OUTMODE Position */ #define TIMER_PWMCTL_OUTMODE_Msk (0x1ul << TIMER_PWMCTL_OUTMODE_Pos) /*!< TIMER_T::PWMCTL: OUTMODE Mask */ #define TIMER_PWMCTL_DBGHALT_Pos (30) /*!< TIMER_T::PWMCTL: DBGHALT Position */ #define TIMER_PWMCTL_DBGHALT_Msk (0x1ul << TIMER_PWMCTL_DBGHALT_Pos) /*!< TIMER_T::PWMCTL: DBGHALT Mask */ #define TIMER_PWMCTL_DBGTRIOFF_Pos (31) /*!< TIMER_T::PWMCTL: DBGTRIOFF Position */ #define TIMER_PWMCTL_DBGTRIOFF_Msk (0x1ul << TIMER_PWMCTL_DBGTRIOFF_Pos) /*!< TIMER_T::PWMCTL: DBGTRIOFF Mask */ #define TIMER_PWMCLKSRC_CLKSRC_Pos (0) /*!< TIMER_T::PWMCLKSRC: CLKSRC Position */ #define TIMER_PWMCLKSRC_CLKSRC_Msk (0x7ul << TIMER_PWMCLKSRC_CLKSRC_Pos) /*!< TIMER_T::PWMCLKSRC: CLKSRC Mask */ #define TIMER_PWMCLKPSC_CLKPSC_Pos (0) /*!< TIMER_T::PWMCLKPSC: CLKPSC Position */ #define TIMER_PWMCLKPSC_CLKPSC_Msk (0xffful << TIMER_PWMCLKPSC_CLKPSC_Pos) /*!< TIMER_T::PWMCLKPSC: CLKPSC Mask */ #define TIMER_PWMCNTCLR_CNTCLR_Pos (0) /*!< TIMER_T::PWMCNTCLR: CNTCLR Position */ #define TIMER_PWMCNTCLR_CNTCLR_Msk (0x1ul << TIMER_PWMCNTCLR_CNTCLR_Pos) /*!< TIMER_T::PWMCNTCLR: CNTCLR Mask */ #define TIMER_PWMPERIOD_PERIOD_Pos (0) /*!< TIMER_T::PWMPERIOD: PERIOD Position */ #define TIMER_PWMPERIOD_PERIOD_Msk (0xfffful << TIMER_PWMPERIOD_PERIOD_Pos) /*!< TIMER_T::PWMPERIOD: PERIOD Mask */ #define TIMER_PWMCMPDAT_CMP_Pos (0) /*!< TIMER_T::PWMCMPDAT: CMP Position */ #define TIMER_PWMCMPDAT_CMP_Msk (0xfffful << TIMER_PWMCMPDAT_CMP_Pos) /*!< TIMER_T::PWMCMPDAT: CMP Mask */ #define TIMER_PWMDTCTL_DTCNT_Pos (0) /*!< TIMER_T::PWMDTCTL: DTCNT Position */ #define TIMER_PWMDTCTL_DTCNT_Msk (0xffful << TIMER_PWMDTCTL_DTCNT_Pos) /*!< TIMER_T::PWMDTCTL: DTCNT Mask */ #define TIMER_PWMDTCTL_DTEN_Pos (16) /*!< TIMER_T::PWMDTCTL: DTEN Position */ #define TIMER_PWMDTCTL_DTEN_Msk (0x1ul << TIMER_PWMDTCTL_DTEN_Pos) /*!< TIMER_T::PWMDTCTL: DTEN Mask */ #define TIMER_PWMDTCTL_DTCKSEL_Pos (24) /*!< TIMER_T::PWMDTCTL: DTCKSEL Position */ #define TIMER_PWMDTCTL_DTCKSEL_Msk (0x1ul << TIMER_PWMDTCTL_DTCKSEL_Pos) /*!< TIMER_T::PWMDTCTL: DTCKSEL Mask */ #define TIMER_PWMCNT_CNT_Pos (0) /*!< TIMER_T::PWMCNT: CNT Position */ #define TIMER_PWMCNT_CNT_Msk (0xfffful << TIMER_PWMCNT_CNT_Pos) /*!< TIMER_T::PWMCNT: CNT Mask */ #define TIMER_PWMCNT_DIRF_Pos (16) /*!< TIMER_T::PWMCNT: DIRF Position */ #define TIMER_PWMCNT_DIRF_Msk (0x1ul << TIMER_PWMCNT_DIRF_Pos) /*!< TIMER_T::PWMCNT: DIRF Mask */ #define TIMER_PWMMSKEN_MSKEN0_Pos (0) /*!< TIMER_T::PWMMSKEN: MSKEN0 Position */ #define TIMER_PWMMSKEN_MSKEN0_Msk (0x1ul << TIMER_PWMMSKEN_MSKEN0_Pos) /*!< TIMER_T::PWMMSKEN: MSKEN0 Mask */ #define TIMER_PWMMSKEN_MSKEN1_Pos (1) /*!< TIMER_T::PWMMSKEN: MSKEN1 Position */ #define TIMER_PWMMSKEN_MSKEN1_Msk (0x1ul << TIMER_PWMMSKEN_MSKEN1_Pos) /*!< TIMER_T::PWMMSKEN: MSKEN1 Mask */ #define TIMER_PWMMSK_MSKDAT0_Pos (0) /*!< TIMER_T::PWMMSK: MSKDAT0 Position */ #define TIMER_PWMMSK_MSKDAT0_Msk (0x1ul << TIMER_PWMMSK_MSKDAT0_Pos) /*!< TIMER_T::PWMMSK: MSKDAT0 Mask */ #define TIMER_PWMMSK_MSKDAT1_Pos (1) /*!< TIMER_T::PWMMSK: MSKDAT1 Position */ #define TIMER_PWMMSK_MSKDAT1_Msk (0x1ul << TIMER_PWMMSK_MSKDAT1_Pos) /*!< TIMER_T::PWMMSK: MSKDAT1 Mask */ #define TIMER_PWMBNF_BRKNFEN_Pos (0) /*!< TIMER_T::PWMBNF: BRKNFEN Position */ #define TIMER_PWMBNF_BRKNFEN_Msk (0x1ul << TIMER_PWMBNF_BRKNFEN_Pos) /*!< TIMER_T::PWMBNF: BRKNFEN Mask */ #define TIMER_PWMBNF_BRKNFSEL_Pos (1) /*!< TIMER_T::PWMBNF: BRKNFSEL Position */ #define TIMER_PWMBNF_BRKNFSEL_Msk (0x7ul << TIMER_PWMBNF_BRKNFSEL_Pos) /*!< TIMER_T::PWMBNF: BRKNFSEL Mask */ #define TIMER_PWMBNF_BRKFCNT_Pos (4) /*!< TIMER_T::PWMBNF: BRKFCNT Position */ #define TIMER_PWMBNF_BRKFCNT_Msk (0x7ul << TIMER_PWMBNF_BRKFCNT_Pos) /*!< TIMER_T::PWMBNF: BRKFCNT Mask */ #define TIMER_PWMBNF_BRKPINV_Pos (7) /*!< TIMER_T::PWMBNF: BRKPINV Position */ #define TIMER_PWMBNF_BRKPINV_Msk (0x1ul << TIMER_PWMBNF_BRKPINV_Pos) /*!< TIMER_T::PWMBNF: BRKPINV Mask */ #define TIMER_PWMBNF_BKPINSRC_Pos (16) /*!< TIMER_T::PWMBNF: BKPINSRC Position */ #define TIMER_PWMBNF_BKPINSRC_Msk (0x3ul << TIMER_PWMBNF_BKPINSRC_Pos) /*!< TIMER_T::PWMBNF: BKPINSRC Mask */ #define TIMER_PWMFAILBRK_CSSBRKEN_Pos (0) /*!< TIMER_T::PWMFAILBRK: CSSBRKEN Position */ #define TIMER_PWMFAILBRK_CSSBRKEN_Msk (0x1ul << TIMER_PWMFAILBRK_CSSBRKEN_Pos) /*!< TIMER_T::PWMFAILBRK: CSSBRKEN Mask */ #define TIMER_PWMFAILBRK_BODBRKEN_Pos (1) /*!< TIMER_T::PWMFAILBRK: BODBRKEN Position */ #define TIMER_PWMFAILBRK_BODBRKEN_Msk (0x1ul << TIMER_PWMFAILBRK_BODBRKEN_Pos) /*!< TIMER_T::PWMFAILBRK: BODBRKEN Mask */ #define TIMER_PWMFAILBRK_RAMBRKEN_Pos (2) /*!< TIMER_T::PWMFAILBRK: RAMBRKEN Position */ #define TIMER_PWMFAILBRK_RAMBRKEN_Msk (0x1ul << TIMER_PWMFAILBRK_RAMBRKEN_Pos) /*!< TIMER_T::PWMFAILBRK: RAMBRKEN Mask */ #define TIMER_PWMFAILBRK_CORBRKEN_Pos (3) /*!< TIMER_T::PWMFAILBRK: CORBRKEN Position */ #define TIMER_PWMFAILBRK_CORBRKEN_Msk (0x1ul << TIMER_PWMFAILBRK_CORBRKEN_Pos) /*!< TIMER_T::PWMFAILBRK: CORBRKEN Mask */ #define TIMER_PWMBRKCTL_CPO0EBEN_Pos (0) /*!< TIMER_T::PWMBRKCTL: CPO0EBEN Position */ #define TIMER_PWMBRKCTL_CPO0EBEN_Msk (0x1ul << TIMER_PWMBRKCTL_CPO0EBEN_Pos) /*!< TIMER_T::PWMBRKCTL: CPO0EBEN Mask */ #define TIMER_PWMBRKCTL_CPO1EBEN_Pos (1) /*!< TIMER_T::PWMBRKCTL: CPO1EBEN Position */ #define TIMER_PWMBRKCTL_CPO1EBEN_Msk (0x1ul << TIMER_PWMBRKCTL_CPO1EBEN_Pos) /*!< TIMER_T::PWMBRKCTL: CPO1EBEN Mask */ #define TIMER_PWMBRKCTL_BRKPEEN_Pos (4) /*!< TIMER_T::PWMBRKCTL: BRKPEEN Position */ #define TIMER_PWMBRKCTL_BRKPEEN_Msk (0x1ul << TIMER_PWMBRKCTL_BRKPEEN_Pos) /*!< TIMER_T::PWMBRKCTL: BRKPEEN Mask */ #define TIMER_PWMBRKCTL_SYSEBEN_Pos (7) /*!< TIMER_T::PWMBRKCTL: SYSEBEN Position */ #define TIMER_PWMBRKCTL_SYSEBEN_Msk (0x1ul << TIMER_PWMBRKCTL_SYSEBEN_Pos) /*!< TIMER_T::PWMBRKCTL: SYSEBEN Mask */ #define TIMER_PWMBRKCTL_CPO0LBEN_Pos (8) /*!< TIMER_T::PWMBRKCTL: CPO0LBEN Position */ #define TIMER_PWMBRKCTL_CPO0LBEN_Msk (0x1ul << TIMER_PWMBRKCTL_CPO0LBEN_Pos) /*!< TIMER_T::PWMBRKCTL: CPO0LBEN Mask */ #define TIMER_PWMBRKCTL_CPO1LBEN_Pos (9) /*!< TIMER_T::PWMBRKCTL: CPO1LBEN Position */ #define TIMER_PWMBRKCTL_CPO1LBEN_Msk (0x1ul << TIMER_PWMBRKCTL_CPO1LBEN_Pos) /*!< TIMER_T::PWMBRKCTL: CPO1LBEN Mask */ #define TIMER_PWMBRKCTL_BRKPLEN_Pos (12) /*!< TIMER_T::PWMBRKCTL: BRKPLEN Position */ #define TIMER_PWMBRKCTL_BRKPLEN_Msk (0x1ul << TIMER_PWMBRKCTL_BRKPLEN_Pos) /*!< TIMER_T::PWMBRKCTL: BRKPLEN Mask */ #define TIMER_PWMBRKCTL_SYSLBEN_Pos (15) /*!< TIMER_T::PWMBRKCTL: SYSLBEN Position */ #define TIMER_PWMBRKCTL_SYSLBEN_Msk (0x1ul << TIMER_PWMBRKCTL_SYSLBEN_Pos) /*!< TIMER_T::PWMBRKCTL: SYSLBEN Mask */ #define TIMER_PWMBRKCTL_BRKAEVEN_Pos (16) /*!< TIMER_T::PWMBRKCTL: BRKAEVEN Position */ #define TIMER_PWMBRKCTL_BRKAEVEN_Msk (0x3ul << TIMER_PWMBRKCTL_BRKAEVEN_Pos) /*!< TIMER_T::PWMBRKCTL: BRKAEVEN Mask */ #define TIMER_PWMBRKCTL_BRKAODD_Pos (18) /*!< TIMER_T::PWMBRKCTL: BRKAODD Position */ #define TIMER_PWMBRKCTL_BRKAODD_Msk (0x3ul << TIMER_PWMBRKCTL_BRKAODD_Pos) /*!< TIMER_T::PWMBRKCTL: BRKAODD Mask */ #define TIMER_PWMPOLCTL_PINV0_Pos (0) /*!< TIMER_T::PWMPOLCTL: PINV0 Position */ #define TIMER_PWMPOLCTL_PINV0_Msk (0x1ul << TIMER_PWMPOLCTL_PINV0_Pos) /*!< TIMER_T::PWMPOLCTL: PINV0 Mask */ #define TIMER_PWMPOLCTL_PINV1_Pos (1) /*!< TIMER_T::PWMPOLCTL: PINV1 Position */ #define TIMER_PWMPOLCTL_PINV1_Msk (0x1ul << TIMER_PWMPOLCTL_PINV1_Pos) /*!< TIMER_T::PWMPOLCTL: PINV1 Mask */ #define TIMER_PWMPOEN_POEN0_Pos (0) /*!< TIMER_T::PWMPOEN: POEN0 Position */ #define TIMER_PWMPOEN_POEN0_Msk (0x1ul << TIMER_PWMPOEN_POEN0_Pos) /*!< TIMER_T::PWMPOEN: POEN0 Mask */ #define TIMER_PWMPOEN_POEN1_Pos (1) /*!< TIMER_T::PWMPOEN: POEN1 Position */ #define TIMER_PWMPOEN_POEN1_Msk (0x1ul << TIMER_PWMPOEN_POEN1_Pos) /*!< TIMER_T::PWMPOEN: POEN1 Mask */ #define TIMER_PWMSWBRK_BRKETRG_Pos (0) /*!< TIMER_T::PWMSWBRK: BRKETRG Position */ #define TIMER_PWMSWBRK_BRKETRG_Msk (0x1ul << TIMER_PWMSWBRK_BRKETRG_Pos) /*!< TIMER_T::PWMSWBRK: BRKETRG Mask */ #define TIMER_PWMSWBRK_BRKLTRG_Pos (8) /*!< TIMER_T::PWMSWBRK: BRKLTRG Position */ #define TIMER_PWMSWBRK_BRKLTRG_Msk (0x1ul << TIMER_PWMSWBRK_BRKLTRG_Pos) /*!< TIMER_T::PWMSWBRK: BRKLTRG Mask */ #define TIMER_PWMINTEN0_ZIEN_Pos (0) /*!< TIMER_T::PWMINTEN0: ZIEN Position */ #define TIMER_PWMINTEN0_ZIEN_Msk (0x1ul << TIMER_PWMINTEN0_ZIEN_Pos) /*!< TIMER_T::PWMINTEN0: ZIEN Mask */ #define TIMER_PWMINTEN0_PIEN_Pos (1) /*!< TIMER_T::PWMINTEN0: PIEN Position */ #define TIMER_PWMINTEN0_PIEN_Msk (0x1ul << TIMER_PWMINTEN0_PIEN_Pos) /*!< TIMER_T::PWMINTEN0: PIEN Mask */ #define TIMER_PWMINTEN0_CMPUIEN_Pos (2) /*!< TIMER_T::PWMINTEN0: CMPUIEN Position */ #define TIMER_PWMINTEN0_CMPUIEN_Msk (0x1ul << TIMER_PWMINTEN0_CMPUIEN_Pos) /*!< TIMER_T::PWMINTEN0: CMPUIEN Mask */ #define TIMER_PWMINTEN0_CMPDIEN_Pos (3) /*!< TIMER_T::PWMINTEN0: CMPDIEN Position */ #define TIMER_PWMINTEN0_CMPDIEN_Msk (0x1ul << TIMER_PWMINTEN0_CMPDIEN_Pos) /*!< TIMER_T::PWMINTEN0: CMPDIEN Mask */ #define TIMER_PWMINTEN1_BRKEIEN_Pos (0) /*!< TIMER_T::PWMINTEN1: BRKEIEN Position */ #define TIMER_PWMINTEN1_BRKEIEN_Msk (0x1ul << TIMER_PWMINTEN1_BRKEIEN_Pos) /*!< TIMER_T::PWMINTEN1: BRKEIEN Mask */ #define TIMER_PWMINTEN1_BRKLIEN_Pos (8) /*!< TIMER_T::PWMINTEN1: BRKLIEN Position */ #define TIMER_PWMINTEN1_BRKLIEN_Msk (0x1ul << TIMER_PWMINTEN1_BRKLIEN_Pos) /*!< TIMER_T::PWMINTEN1: BRKLIEN Mask */ #define TIMER_PWMINTSTS0_ZIF_Pos (0) /*!< TIMER_T::PWMINTSTS0: ZIF Position */ #define TIMER_PWMINTSTS0_ZIF_Msk (0x1ul << TIMER_PWMINTSTS0_ZIF_Pos) /*!< TIMER_T::PWMINTSTS0: ZIF Mask */ #define TIMER_PWMINTSTS0_PIF_Pos (1) /*!< TIMER_T::PWMINTSTS0: PIF Position */ #define TIMER_PWMINTSTS0_PIF_Msk (0x1ul << TIMER_PWMINTSTS0_PIF_Pos) /*!< TIMER_T::PWMINTSTS0: PIF Mask */ #define TIMER_PWMINTSTS0_CMPUIF_Pos (2) /*!< TIMER_T::PWMINTSTS0: CMPUIF Position */ #define TIMER_PWMINTSTS0_CMPUIF_Msk (0x1ul << TIMER_PWMINTSTS0_CMPUIF_Pos) /*!< TIMER_T::PWMINTSTS0: CMPUIF Mask */ #define TIMER_PWMINTSTS0_CMPDIF_Pos (3) /*!< TIMER_T::PWMINTSTS0: CMPDIF Position */ #define TIMER_PWMINTSTS0_CMPDIF_Msk (0x1ul << TIMER_PWMINTSTS0_CMPDIF_Pos) /*!< TIMER_T::PWMINTSTS0: CMPDIF Mask */ #define TIMER_PWMINTSTS1_BRKEIF0_Pos (0) /*!< TIMER_T::PWMINTSTS1: BRKEIF0 Position */ #define TIMER_PWMINTSTS1_BRKEIF0_Msk (0x1ul << TIMER_PWMINTSTS1_BRKEIF0_Pos) /*!< TIMER_T::PWMINTSTS1: BRKEIF0 Mask */ #define TIMER_PWMINTSTS1_BRKEIF1_Pos (1) /*!< TIMER_T::PWMINTSTS1: BRKEIF1 Position */ #define TIMER_PWMINTSTS1_BRKEIF1_Msk (0x1ul << TIMER_PWMINTSTS1_BRKEIF1_Pos) /*!< TIMER_T::PWMINTSTS1: BRKEIF1 Mask */ #define TIMER_PWMINTSTS1_BRKLIF0_Pos (8) /*!< TIMER_T::PWMINTSTS1: BRKLIF0 Position */ #define TIMER_PWMINTSTS1_BRKLIF0_Msk (0x1ul << TIMER_PWMINTSTS1_BRKLIF0_Pos) /*!< TIMER_T::PWMINTSTS1: BRKLIF0 Mask */ #define TIMER_PWMINTSTS1_BRKLIF1_Pos (9) /*!< TIMER_T::PWMINTSTS1: BRKLIF1 Position */ #define TIMER_PWMINTSTS1_BRKLIF1_Msk (0x1ul << TIMER_PWMINTSTS1_BRKLIF1_Pos) /*!< TIMER_T::PWMINTSTS1: BRKLIF1 Mask */ #define TIMER_PWMINTSTS1_BRKESTS0_Pos (16) /*!< TIMER_T::PWMINTSTS1: BRKESTS0 Position */ #define TIMER_PWMINTSTS1_BRKESTS0_Msk (0x1ul << TIMER_PWMINTSTS1_BRKESTS0_Pos) /*!< TIMER_T::PWMINTSTS1: BRKESTS0 Mask */ #define TIMER_PWMINTSTS1_BRKESTS1_Pos (17) /*!< TIMER_T::PWMINTSTS1: BRKESTS1 Position */ #define TIMER_PWMINTSTS1_BRKESTS1_Msk (0x1ul << TIMER_PWMINTSTS1_BRKESTS1_Pos) /*!< TIMER_T::PWMINTSTS1: BRKESTS1 Mask */ #define TIMER_PWMINTSTS1_BRKLSTS0_Pos (24) /*!< TIMER_T::PWMINTSTS1: BRKLSTS0 Position */ #define TIMER_PWMINTSTS1_BRKLSTS0_Msk (0x1ul << TIMER_PWMINTSTS1_BRKLSTS0_Pos) /*!< TIMER_T::PWMINTSTS1: BRKLSTS0 Mask */ #define TIMER_PWMINTSTS1_BRKLSTS1_Pos (25) /*!< TIMER_T::PWMINTSTS1: BRKLSTS1 Position */ #define TIMER_PWMINTSTS1_BRKLSTS1_Msk (0x1ul << TIMER_PWMINTSTS1_BRKLSTS1_Pos) /*!< TIMER_T::PWMINTSTS1: BRKLSTS1 Mask */ #define TIMER_PWMEADCTS_TRGSEL_Pos (0) /*!< TIMER_T::PWMEADCTS: TRGSEL Position */ #define TIMER_PWMEADCTS_TRGSEL_Msk (0x7ul << TIMER_PWMEADCTS_TRGSEL_Pos) /*!< TIMER_T::PWMEADCTS: TRGSEL Mask */ #define TIMER_PWMEADCTS_TRGEN_Pos (7) /*!< TIMER_T::PWMEADCTS: TRGEN Position */ #define TIMER_PWMEADCTS_TRGEN_Msk (0x1ul << TIMER_PWMEADCTS_TRGEN_Pos) /*!< TIMER_T::PWMEADCTS: TRGEN Mask */ #define TIMER_PWMSCTL_SYNCMODE_Pos (0) /*!< TIMER_T::PWMSCTL: SYNCMODE Position */ #define TIMER_PWMSCTL_SYNCMODE_Msk (0x3ul << TIMER_PWMSCTL_SYNCMODE_Pos) /*!< TIMER_T::PWMSCTL: SYNCMODE Mask */ #define TIMER_PWMSCTL_SYNCSRC_Pos (8) /*!< TIMER_T::PWMSCTL: SYNCSRC Position */ #define TIMER_PWMSCTL_SYNCSRC_Msk (0x1ul << TIMER_PWMSCTL_SYNCSRC_Pos) /*!< TIMER_T::PWMSCTL: SYNCSRC Mask */ #define TIMER_PWMSTRG_STRGEN_Pos (0) /*!< TIMER_T::PWMSTRG: STRGEN Position */ #define TIMER_PWMSTRG_STRGEN_Msk (0x1ul << TIMER_PWMSTRG_STRGEN_Pos) /*!< TIMER_T::PWMSTRG: STRGEN Mask */ #define TIMER_PWMSTATUS_CNTMAXF_Pos (0) /*!< TIMER_T::PWMSTATUS: CNTMAXF Position */ #define TIMER_PWMSTATUS_CNTMAXF_Msk (0x1ul << TIMER_PWMSTATUS_CNTMAXF_Pos) /*!< TIMER_T::PWMSTATUS: CNTMAXF Mask */ #define TIMER_PWMSTATUS_EADCTRGF_Pos (16) /*!< TIMER_T::PWMSTATUS: EADCTRGF Position */ #define TIMER_PWMSTATUS_EADCTRGF_Msk (0x1ul << TIMER_PWMSTATUS_EADCTRGF_Pos) /*!< TIMER_T::PWMSTATUS: EADCTRGF Mask */ #define TIMER_PWMPBUF_PBUF_Pos (0) /*!< TIMER_T::PWMPBUF: PBUF Position */ #define TIMER_PWMPBUF_PBUF_Msk (0xfffful << TIMER_PWMPBUF_PBUF_Pos) /*!< TIMER_T::PWMPBUF: PBUF Mask */ #define TIMER_PWMCMPBUF_CMPBUF_Pos (0) /*!< TIMER_T::PWMCMPBUF: CMPBUF Position */ #define TIMER_PWMCMPBUF_CMPBUF_Msk (0xfffful << TIMER_PWMCMPBUF_CMPBUF_Pos) /*!< TIMER_T::PWMCMPBUF: CMPBUF Mask */ /**@}*/ /* TIMER_CONST */ /**@}*/ /* end of TIMER register group */ /**@}*/ /* end of REGISTER group */ #if defined ( __CC_ARM ) #pragma no_anon_unions #endif #endif /* __TIMER_REG_H__ */