mac-rom-simm-programmer/hal/m258ke/nuvoton/pwm_reg.h

2684 lines
216 KiB
C

/**************************************************************************//**
* @file pwm_reg.h
* @version V1.00
* @brief PWM register definition header file
*
* SPDX-License-Identifier: Apache-2.0
* @copyright (C) 2019 Nuvoton Technology Corp. All rights reserved.
*****************************************************************************/
#ifndef __PWM_REG_H__
#define __PWM_REG_H__
#if defined ( __CC_ARM )
#pragma anon_unions
#endif
/**
@addtogroup REGISTER Control Register
@{
*/
/**
@addtogroup PWM Pulse Width Modulation Controller (PWM)
Memory Mapped Structure for PWM Controller
@{
*/
typedef struct
{
/**
* @var CAPDAT_T::RCAPDAT
* Offset: 0x20C~0x238 PWM Rising Capture Data Register 0~5
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[15:0] |RCAPDAT |PWM Rising Capture Data (Read Only)
* | | |When rising capture condition happened, the PWM counter value will be saved in this register.
* @var CAPDAT_T::FCAPDAT
* Offset: 0x210 PWM Falling Capture Data Register 0~5
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[15:0] |FCAPDAT |PWWM Falling Capture Data (Read Only)
* | | |When falling capture condition happened, the PWWM counter value will be saved in this register.
*/
__IO uint32_t RCAPDAT; /*!< [0x20C/0x214/0x21C/0x224/0x22C/0x234] PWM Rising Capture Data Register 0~5 */
__IO uint32_t FCAPDAT; /*!< [0x210/0x218/0x220/0x228/0x230/0x238] PWM Falling Capture Data Register 0~5 */
} CAPDAT_T;
typedef struct
{
/**
* @var PWM_T::CTL0
* Offset: 0x00 PWM Control Register 0
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CTRLDn |Center Load Enable Bits
* | | |In up-down counter type, PERIOD will load to PBUF at the end point of each period
* | | |CMPDAT will load to CMPBUF at the center point of a period
* |[16] |IMMLDENn |Immediately Load Enable Bits
* | | |0 = PERIOD will load to PBUF at the end point of each period
* | | |CMPDAT will load to CMPBUF at the end point or center point of each period by setting CTRLD bit.
* | | |1 = PERIOD/CMPDAT will load to PBUF and CMPBUF immediately when software update PERIOD/CMPDAT.
* | | |Note: If IMMLDENn is enabled, WINLDENn and CTRLDn will be invalid.
* |[30] |DBGHALT |ICE Debug Mode Counter Halt (Write Protect)
* | | |If counter halt is enabled, PWM all counters 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 bit is write protected. Refer to SYS_REGLCTL register.
* |[31] |DBGTRIOFF |ICE Debug Mode Acknowledge Disable Bit (Write Protect)
* | | |0 = ICE debug mode acknowledgement effects PWM output.
* | | |PWM pin will be forced as tri-state while ICE debug mode acknowledged.
* | | |1 = ICE debug mode acknowledgement disabled.
* | | |PWM pin will keep output no matter ICE debug mode acknowledged or not.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* @var PWM_T::CTL1
* Offset: 0x04 PWM Control Register 1
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[1:0] |CNTTYPE0 |PWM Counter Behavior Type 0
* | | |The two bits control channel1 and channel0
* | | |00 = Up counter type (supported in capture mode).
* | | |01 = Down count type (supported in capture mode).
* | | |10 = Up-down counter type.
* | | |11 = Reserved.
* |[5:4] |CNTTYPE2 |PWM Counter Behavior Type 2
* | | |The two bits control channel3 and channel2
* | | |00 = Up counter type (supported in capture mode).
* | | |01 = Down count type (supported in capture mode).
* | | |10 = Up-down counter type.
* | | |11 = Reserved.
* |[9:8] |CNTTYPE4 |PWM Counter Behavior Type 4
* | | |The two bits control channel5 and channel4
* | | |00 = Up counter type (supported in capture mode).
* | | |01 = Down count type (supported in capture mode).
* | | |10 = Up-down counter type.
* | | |11 = Reserved.
* |[26:24] |OUTMODEn |PWM Output Mode
* | | |Each bit n controls the output mode of corresponding PWM channel n.
* | | |0 = PWM independent mode.
* | | |1 = PWM complementary mode.
* | | |Note: When operating in group function, these bits must all set to the same mode.
* @var PWM_T::CLKSRC
* Offset: 0x10 PWM Clock Source Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[2:0] |ECLKSRC0 |PWM_CH01 External Clock Source Select
* | | |000 = PWMx_CLK, x denotes 0 or 1.
* | | |001 = TIMER0 overflow.
* | | |010 = TIMER1 overflow.
* | | |011 = TIMER2 overflow.
* | | |100 = TIMER3 overflow.
* | | |Others = Reserved.
* |[10:8] |ECLKSRC2 |PWM_CH23 External Clock Source Select
* | | |000 = PWMx_CLK, x denotes 0 or 1.
* | | |001 = TIMER0 overflow.
* | | |010 = TIMER1 overflow.
* | | |011 = TIMER2 overflow.
* | | |100 = TIMER3 overflow.
* | | |Others = Reserved.
* |[18:16] |ECLKSRC4 |PWM_CH45 External Clock Source Select
* | | |000 = PWMx_CLK, x denotes 0 or 1.
* | | |001 = TIMER0 overflow.
* | | |010 = TIMER1 overflow.
* | | |011 = TIMER2 overflow.
* | | |100 = TIMER3 overflow.
* | | |Others = Reserved.
* @var PWM_T::CLKPSC[3]
* Offset: 0x14~0x1C PWM Clock Prescale Register 0/1, 2/3, 4/5
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[11:0] |CLKPSC |PWM Counter Clock Prescale
* | | |The clock of PWM counter is decided by clock prescaler
* | | |Each PWM pair share one PWM counter clock prescaler
* | | |The clock of PWM counter is divided by (CLKPSC+ 1)
* @var PWM_T::CNTEN
* Offset: 0x20 PWM Counter Enable Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CNTEN0 |PWM Counter Enable Bit 0
* | | |0 = PWM Counter and clock prescaler Stop Running.
* | | |1 = PWM Counter and clock prescaler Start Running.
* |[2] |CNTEN2 |PWM Counter Enable Bit 2
* | | |0 = PWM Counter and clock prescaler Stop Running.
* | | |1 = PWM Counter and clock prescaler Start Running.
* |[4] |CNTEN4 |PWM Counter Enable Bit 4
* | | |0 = PWM Counter and clock prescaler Stop Running.
* | | |1 = PWM Counter and clock prescaler Start Running.
* @var PWM_T::CNTCLR
* Offset: 0x24 PWM Clear Counter Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CNTCLR0 |Clear PWM Counter Control Bit 0
* | | |It is automatically cleared by hardware.
* | | |0 = No effect.
* | | |1 = Clear 16-bit PWM counter to 0000H.
* |[2] |CNTCLR2 |Clear PWM Counter Control Bit 2
* | | |It is automatically cleared by hardware.
* | | |0 = No effect.
* | | |1 = Clear 16-bit PWM counter to 0000H.
* |[4] |CNTCLR4 |Clear PWM Counter Control Bit 4
* | | |It is automatically cleared by hardware.
* | | |0 = No effect.
* | | |1 = Clear 16-bit PWM counter to 0000H.
* @var PWM_T::PERIOD[6]
* Offset: 0x30~0x44 PWM Period Register 0, 2, 4
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[15:0] |PERIOD |PWM Period Register
* | | |Up-Count mode: In this mode, PWM counter counts from 0 to PERIOD, and restarts from 0.
* | | |Down-Count mode: In this mode, PWM counter counts from PERIOD to 0, and restarts from PERIOD.
* | | |PWM period time = (PERIOD+1) * PWM_CLK period.
* | | |Up-Down-Count mode: In this mode, PWM counter counts from 0 to PERIOD, then decrements to 0 and repeats again.
* | | |PWM period time = 2 * PERIOD * PWM_CLK period.
* @var PWM_T::CMPDAT[6]
* Offset: 0x50~0x64 PWM Comparator Register 0~5
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[15:0] |CMP |PWM Comparator Register
* | | |CMP is used to compare with CNTR to generate PWM waveform, interrupt and trigger EADC.
* | | |In independent mode, PWM_CMPDAT0~5 denote as 6 independent PWM_CH0~5 compared point.
* | | |In complementary mode, PWM_CMPDAT0, 2, 4 denote as first compared point, and PWM_CMPDAT1, 3, 5 denote as second compared point for the corresponding 3 complementary pairs PWM_CH0 and PWM_CH1, PWM_CH2 and PWM_CH3, PWM_CH4 and PWM_CH5.
* @var PWM_T::DTCTL[3]
* Offset: 0x70~0x78 PWM Dead-time Control Register 0/1, 2/3, 4/5
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[11:0] |DTCNT |Dead-time Counter (Write Protect)
* | | |The dead-time can be calculated from the following formula:
* | | |DTCKSEL=0: Dead-time = (DTCNT[11:0]+1) * PWM_CLK period.
* | | |DTCKSEL=1: Dead-time = (DTCNT[11:0]+1) * PWM_CLK period * (CLKPSC+1).
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[16] |DTEN |Enable Dead-time Insertion for PWM Pair (PWM_CH0, PWM_CH1) (PWM_CH2, PWM_CH3) (PWM_CH4, PWM_CH5) (Write Protect)
* | | |Dead-time insertion is only active when this pair of complementary PWM is enabled
* | | |If dead- time insertion is inactive, the outputs of pin pair 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 bit is write protected. Refer to SYS_REGLCTL register.
* |[24] |DTCKSEL |Dead-time Clock Select (Write Protect)
* | | |0 = Dead-time clock source from PWM_CLK.
* | | |1 = Dead-time clock source from prescaler output.
* | | |Note: This bit is write protected. Refer to REGWRPROT register.
* @var PWM_T::CNT[6]
* Offset: 0x90~0xA4 PWM Counter Register 0, 2, 4
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[15:0] |CNT |PWM Data Register (Read Only)
* | | |User can monitor CNTR to know the current value in 16-bit period counter.
* |[16] |DIRF |PWM Direction Indicator Flag (Read Only)
* | | |0 = Counter is counting down.
* | | |1 = Counter is counting up.
* @var PWM_T::WGCTL0
* Offset: 0xB0 PWM Generation Register 0
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[1:0] |ZPCTL0 |PWM Zero Point Control
* | | |00 = Do nothing.
* | | |01 = PWM zero point output Low.
* | | |10 = PWM zero point output High.
* | | |11 = PWM zero point output Toggle.
* | | |Note: PWM can control output level when PWM counter counts to 0.
* |[3:2] |ZPCTL1 |PWM Zero Point Control
* | | |00 = Do nothing.
* | | |01 = PWM zero point output Low.
* | | |10 = PWM zero point output High.
* | | |11 = PWM zero point output Toggle.
* | | |Note: PWM can control output level when PWM counter counts to 0.
* |[5:4] |ZPCTL2 |PWM Zero Point Control
* | | |00 = Do nothing.
* | | |01 = PWM zero point output Low.
* | | |10 = PWM zero point output High.
* | | |11 = PWM zero point output Toggle.
* | | |Note: PWM can control output level when PWM counter counts to 0.
* |[7:6] |ZPCTL3 |PWM Zero Point Control
* | | |00 = Do nothing.
* | | |01 = PWM zero point output Low.
* | | |10 = PWM zero point output High.
* | | |11 = PWM zero point output Toggle.
* | | |Note: PWM can control output level when PWM counter counts to 0.
* |[9:8] |ZPCTL4 |PWM Zero Point Control
* | | |00 = Do nothing.
* | | |01 = PWM zero point output Low.
* | | |10 = PWM zero point output High.
* | | |11 = PWM zero point output Toggle.
* | | |Note: PWM can control output level when PWM counter counts to 0.
* |[11:10] |ZPCTL5 |PWM Zero Point Control
* | | |00 = Do nothing.
* | | |01 = PWM zero point output Low.
* | | |10 = PWM zero point output High.
* | | |11 = PWM zero point output Toggle.
* | | |Note: PWM can control output level when PWM counter counts to 0.
* |[17:16] |PRDPCTL0 |PWM Period (Center) Point Control
* | | |00 = Do nothing.
* | | |01 = PWM period (center) point output Low.
* | | |10 = PWM period (center) point output High.
* | | |11 = PWM period (center) point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts to (PERIODn+1).
* | | |Note2: This bit is center point control when PWM counter operating in up-down counter type.
* |[19:18] |PRDPCTL1 |PWM Period (Center) Point Control
* | | |00 = Do nothing.
* | | |01 = PWM period (center) point output Low.
* | | |10 = PWM period (center) point output High.
* | | |11 = PWM period (center) point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts to (PERIODn+1).
* | | |Note2: This bit is center point control when PWM counter operating in up-down counter type.
* |[21:20] |PRDPCTL2 |PWM Period (Center) Point Control
* | | |00 = Do nothing.
* | | |01 = PWM period (center) point output Low.
* | | |10 = PWM period (center) point output High.
* | | |11 = PWM period (center) point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts to (PERIODn+1).
* | | |Note2: This bit is center point control when PWM counter operating in up-down counter type.
* |[23:22] |PRDPCTL3 |PWM Period (Center) Point Control
* | | |00 = Do nothing.
* | | |01 = PWM period (center) point output Low.
* | | |10 = PWM period (center) point output High.
* | | |11 = PWM period (center) point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts to (PERIODn+1).
* | | |Note2: This bit is center point control when PWM counter operating in up-down counter type.
* |[25:24] |PRDPCTL4 |PWM Period (Center) Point Control
* | | |00 = Do nothing.
* | | |01 = PWM period (center) point output Low.
* | | |10 = PWM period (center) point output High.
* | | |11 = PWM period (center) point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts to (PERIODn+1).
* | | |Note2: This bit is center point control when PWM counter operating in up-down counter type.
* |[27:26] |PRDPCTL5 |PWM Period (Center) Point Control
* | | |00 = Do nothing.
* | | |01 = PWM period (center) point output Low.
* | | |10 = PWM period (center) point output High.
* | | |11 = PWM period (center) point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts to (PERIODn+1).
* | | |Note2: This bit is center point control when PWM counter operating in up-down counter type.
* @var PWM_T::WGCTL1
* Offset: 0xB4 PWM Generation Register 1
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[1:0] |CMPUCTL0 |PWM Compare Up Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare up point output Low.
* | | |10 = PWM compare up point output High.
* | | |11 = PWM compare up point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts up to CMPDAT.
* | | |Note2: In complementary mode, CMPUCTL1, 3, 5 is used as another CMPUCTL for channel 0, 2, 4.
* |[3:2] |CMPUCTL1 |PWM Compare Up Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare up point output Low.
* | | |10 = PWM compare up point output High.
* | | |11 = PWM compare up point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts up to CMPDAT.
* | | |Note2: In complementary mode, CMPUCTL1, 3, 5 is used as another CMPUCTL for channel 0, 2, 4.
* |[5:4] |CMPUCTL2 |PWM Compare Up Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare up point output Low.
* | | |10 = PWM compare up point output High.
* | | |11 = PWM compare up point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts up to CMPDAT.
* | | |Note2: In complementary mode, CMPUCTL1, 3, 5 is used as another CMPUCTL for channel 0, 2, 4.
* |[7:6] |CMPUCTL3 |PWM Compare Up Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare up point output Low.
* | | |10 = PWM compare up point output High.
* | | |11 = PWM compare up point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts up to CMPDAT.
* | | |Note2: In complementary mode, CMPUCTL1, 3, 5 is used as another CMPUCTL for channel 0, 2, 4.
* |[9:8] |CMPUCTL4 |PWM Compare Up Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare up point output Low.
* | | |10 = PWM compare up point output High.
* | | |11 = PWM compare up point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts up to CMPDAT.
* | | |Note2: In complementary mode, CMPUCTL1, 3, 5 is used as another CMPUCTL for channel 0, 2, 4.
* |[11:10] |CMPUCTL5 |PWM Compare Up Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare up point output Low.
* | | |10 = PWM compare up point output High.
* | | |11 = PWM compare up point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts up to CMPDAT.
* | | |Note2: In complementary mode, CMPUCTL1, 3, 5 is used as another CMPUCTL for channel 0, 2, 4.
* |[17:16] |CMPDCTL0 |PWM Compare Down Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare down point output Low.
* | | |10 = PWM compare down point output High.
* | | |11 = PWM compare down point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts down to CMPDAT.
* | | |Note2: In complementary mode, CMPDCTL1, 3, 5 is used as another CMPDCTL for channel 0, 2, 4.
* |[19:18] |CMPDCTL1 |PWM Compare Down Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare down point output Low.
* | | |10 = PWM compare down point output High.
* | | |11 = PWM compare down point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts down to CMPDAT.
* | | |Note2: In complementary mode, CMPDCTL1, 3, 5 is used as another CMPDCTL for channel 0, 2, 4.
* |[21:20] |CMPDCTL2 |PWM Compare Down Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare down point output Low.
* | | |10 = PWM compare down point output High.
* | | |11 = PWM compare down point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts down to CMPDAT.
* | | |Note2: In complementary mode, CMPDCTL1, 3, 5 is used as another CMPDCTL for channel 0, 2, 4.
* |[23:22] |CMPDCTL3 |PWM Compare Down Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare down point output Low.
* | | |10 = PWM compare down point output High.
* | | |11 = PWM compare down point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts down to CMPDAT.
* | | |Note2: In complementary mode, CMPDCTL1, 3, 5 is used as another CMPDCTL for channel 0, 2, 4.
* |[25:24] |CMPDCTL4 |PWM Compare Down Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare down point output Low.
* | | |10 = PWM compare down point output High.
* | | |11 = PWM compare down point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts down to CMPDAT.
* | | |Note2: In complementary mode, CMPDCTL1, 3, 5 is used as another CMPDCTL for channel 0, 2, 4.
* |[27:26] |CMPDCTL5 |PWM Compare Down Point Control
* | | |00 = Do nothing.
* | | |01 = PWM compare down point output Low.
* | | |10 = PWM compare down point output High.
* | | |11 = PWM compare down point output Toggle.
* | | |Note1: PWM can control output level when PWM counter counts down to CMPDAT.
* | | |Note2: In complementary mode, CMPDCTL1, 3, 5 is used as another CMPDCTL for channel 0, 2, 4.
* @var PWM_T::MSKEN
* Offset: 0xB8 PWM Mask Enable Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |MSKEN0 |PWM Mask Enable Bits
* | | |The PWM output signal will be masked when this bit is enabled
* | | |The corresponding PWM channel n will output MSKDATn (PWM_MSK[5:0]) data.
* | | |0 = PWM output signal is non-masked.
* | | |1 = PWM output signal is masked and output MSKDATn data.
* |[1] |MSKEN1 |PWM Mask Enable Bits
* | | |The PWM output signal will be masked when this bit is enabled
* | | |The corresponding PWM channel n will output MSKDATn (PWM_MSK[5:0]) data.
* | | |0 = PWM output signal is non-masked.
* | | |1 = PWM output signal is masked and output MSKDATn data.
* |[2] |MSKEN2 |PWM Mask Enable Bits
* | | |The PWM output signal will be masked when this bit is enabled
* | | |The corresponding PWM channel n will output MSKDATn (PWM_MSK[5:0]) data.
* | | |0 = PWM output signal is non-masked.
* | | |1 = PWM output signal is masked and output MSKDATn data.
* |[3] |MSKEN3 |PWM Mask Enable Bits
* | | |The PWM output signal will be masked when this bit is enabled
* | | |The corresponding PWM channel n will output MSKDATn (PWM_MSK[5:0]) data.
* | | |0 = PWM output signal is non-masked.
* | | |1 = PWM output signal is masked and output MSKDATn data.
* |[4] |MSKEN4 |PWM Mask Enable Bits
* | | |The PWM output signal will be masked when this bit is enabled
* | | |The corresponding PWM channel n will output MSKDATn (PWM_MSK[5:0]) data.
* | | |0 = PWM output signal is non-masked.
* | | |1 = PWM output signal is masked and output MSKDATn data.
* |[5] |MSKEN5 |PWM Mask Enable Bits
* | | |The PWM output signal will be masked when this bit is enabled
* | | |The corresponding PWM channel n will output MSKDATn (PWM_MSK[5:0]) data.
* | | |0 = PWM output signal is non-masked.
* | | |1 = PWM output signal is masked and output MSKDATn data.
* @var PWM_T::MSK
* Offset: 0xBC PWM Mask Data Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |MSKDAT0 |PWM Mask Data Bit
* | | |This data bit control the state of PWMn output pin, if corresponding mask function is enabled
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Output logic low to PWM channel n.
* | | |1 = Output logic high to PWM channel n.
* |[1] |MSKDAT1 |PWM Mask Data Bit
* | | |This data bit control the state of PWMn output pin, if corresponding mask function is enabled
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Output logic low to PWM channel n.
* | | |1 = Output logic high to PWM channel n.
* |[2] |MSKDAT2 |PWM Mask Data Bit
* | | |This data bit control the state of PWMn output pin, if corresponding mask function is enabled
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Output logic low to PWM channel n.
* | | |1 = Output logic high to PWM channel n.
* |[3] |MSKDAT3 |PWM Mask Data Bit
* | | |This data bit control the state of PWMn output pin, if corresponding mask function is enabled
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Output logic low to PWM channel n.
* | | |1 = Output logic high to PWM channel n.
* |[4] |MSKDAT4 |PWM Mask Data Bit
* | | |This data bit control the state of PWMn output pin, if corresponding mask function is enabled
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Output logic low to PWM channel n.
* | | |1 = Output logic high to PWM channel n.
* |[5] |MSKDAT5 |PWM Mask Data Bit
* | | |This data bit control the state of PWMn output pin, if corresponding mask function is enabled
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Output logic low to PWM channel n.
* | | |1 = Output logic high to PWM channel n.
* @var PWM_T::BNF
* Offset: 0xC0 PWM Brake Noise Filter Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |BRK0NFEN |PWM Brake 0 Noise Filter Enable Bit
* | | |0 = Noise filter of PWM Brake 0 Disabled.
* | | |1 = Noise filter of PWM Brake 0 Enabled.
* |[3:1] |BRK0NFSEL |Brake 0 Edge Detector Filter Clock Selection
* | | |000 = Filter clock = HCLK.
* | | |001 = Filter clock = HCLK/2.
* | | |010 = Filter clock = HCLK/4.
* | | |011 = Filter clock = HCLK/8.
* | | |100 = Filter clock = HCLK/16.
* | | |101 = Filter clock = HCLK/32.
* | | |110 = Filter clock = HCLK/64.
* | | |111 = Filter clock = HCLK/128.
* |[6:4] |BRK0NFCNT |Brake 0 Edge Detector Filter Count
* | | |The register bits control the Brake0 filter counter to count from 0 to BRK1FCNT.
* |[7] |BRK0PINV |Brake 0 Pin Inverse
* | | |0 = The state of pin PWMx_BRAKE0 is passed to the negative edge detector.
* | | |1 = The inversed state of pin PWMx_BRAKE10 is passed to the negative edge detector.
* |[8] |BRK1FEN |PWM Brake 1 Noise Filter Enable Bit
* | | |0 = Noise filter of PWM Brake 1 Disabled.
* | | |1 = Noise filter of PWM Brake 1 Enabled.
* |[11:9] |BRK1NFSEL |Brake 1 Edge Detector Filter Clock Selection
* | | |000 = Filter clock = HCLK.
* | | |001 = Filter clock = HCLK/2.
* | | |010 = Filter clock = HCLK/4.
* | | |011 = Filter clock = HCLK/8.
* | | |100 = Filter clock = HCLK/16.
* | | |101 = Filter clock = HCLK/32.
* | | |110 = Filter clock = HCLK/64.
* | | |111 = Filter clock = HCLK/128.
* |[14:12] |BRK1FCNT |Brake 1 Edge Detector Filter Count
* | | |The register bits control the Brake1 filter counter to count from 0 to BRK1FCNT.
* |[15] |BRK1PINV |Brake 1 Pin Inverse
* | | |0 = The state of pin PWMx_BRAKE1 is passed to the negative edge detector.
* | | |1 = The inversed state of pin PWMx_BRAKE1 is passed to the negative edge detector.
* |[16] |BK0SRC |Brake 0 Pin Source Select
* | | |For PWM0 setting:
* | | |0 = Brake 0 pin source come from PWM0_BRAKE0.
* | | |1 = Brake 0 pin source come from PWM1_BRAKE0.
* | | |For PWM1 setting:
* | | |0 = Brake 0 pin source come from PWM1_BRAKE0.
* | | |1 = Brake 0 pin source come from PWM0_BRAKE0.
* |[24] |BK1SRC |Brake 1 Pin Source Select
* | | |For PWM0 setting:
* | | |0 = Brake 1 pin source come from PWM0_BRAKE1.
* | | |1 = Brake 1 pin source come from PWM1_BRAKE1.
* | | |For PWM1 setting:
* | | |0 = Brake 1 pin source come from PWM1_BRAKE1.
* | | |1 = Brake 1 pin source come from PWM0_BRAKE1.
* @var PWM_T::FAILBRK
* Offset: 0xC4 PWM System Fail Brake Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CSSBRKEN |Clock Security System Detection Trigger PWM Brake Function 0 Enable Bit
* | | |0 = Brake Function triggered by CSS detection Disabled.
* | | |1 = Brake Function triggered by CSS detection Enabled.
* |[1] |BODBRKEN |Brown-out Detection Trigger PWM Brake Function 0 Enable Bit
* | | |0 = Brake Function triggered by BOD Disabled.
* | | |1 = Brake Function triggered by BOD Enabled.
* |[3] |CORBRKEN |Core Lockup Detection Trigger PWM Brake Function 0 Enable Bit
* | | |0 = Brake Function triggered by Core lockup detection Disabled.
* | | |1 = Brake Function triggered by Core lockup detection Enabled.
* @var PWM_T::BRKCTL[3]
* Offset: 0xC8~0xD0 PWM Brake Edge Detect Control Register 0/1, 2/3, 4/5
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CPO0EBEN |Enable ACMP0_O Digital Output As Edge-detect Brake Source (Write Protect)
* | | |0 = ACMP0_O as edge-detect brake source Disabled.
* | | |1 = ACMP0_O as edge-detect brake source Enabled.
* | | |Note: This register is write protected. Refer toSYS_REGLCTL register.
* |[1] |CPO1EBEN |Enable ACMP1_O Digital Output As Edge-detect Brake Source (Write Protect)
* | | |0 = ACMP1_O as edge-detect brake source Disabled.
* | | |1 = ACMP1_O as edge-detect brake source Enabled.
* | | |Note: This register is write protected. Refer toSYS_REGLCTL register.
* |[4] |BRKP0EEN |Enable PWMx_BRAKE0 Pin As Edge-detect Brake Source (Write Protect)
* | | |0 = BKP0 pin as edge-detect brake source Disabled.
* | | |1 = BKP0 pin as edge-detect brake source Enabled.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[5] |BRKP1EEN |Enable PWMx_BRAKE1 Pin As Edge-detect Brake Source (Write Protect)
* | | |0 = BKP1 pin as edge-detect brake source Disabled.
* | | |1 = BKP1 pin as edge-detect brake source Enabled.
* | | |Note: This bit is write protected. Refer to SYS_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 bit is write protected. Refer to SYS_REGLCTL register.
* |[8] |CPO0LBEN |Enable ACMP0_O Digital Output As Level-detect Brake Source (Write Protect)
* | | |0 = ACMP0_O as level-detect brake source Disabled.
* | | |1 = ACMP0_O as level-detect brake source Enabled.
* | | |Note: This register is write protected. Refer toSYS_REGLCTL register.
* |[9] |CPO1LBEN |Enable ACMP1_O Digital Output As Level-detect Brake Source (Write Protect)
* | | |0 = ACMP1_O as level-detect brake source Disabled.
* | | |1 = ACMP1_O as level-detect brake source Enabled.
* | | |Note: This register is write protected. Refer toSYS_REGLCTL register.
* |[12] |BRKP0LEN |Enable BKP0 Pin As Level-detect Brake Source (Write Protect)
* | | |0 = PWMx_BRAKE0 pin as level-detect brake source Disabled.
* | | |1 = PWMx_BRAKE0 pin as level-detect brake source Enabled.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[13] |BRKP1LEN |Enable BKP1 Pin As Level-detect Brake Source (Write Protect)
* | | |0 = PWMx_BRAKE1 pin as level-detect brake source Disabled.
* | | |1 = PWMx_BRAKE1 pin as level-detect brake source Enabled.
* | | |Note: This bit is write protected. Refer to SYS_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 bit is write protected. Refer to SYS_REGLCTL register.
* |[17:16] |BRKAEVEN |PWM Brake Action Select for Even Channel (Write Protect)
* | | |00 = PWM even channel level-detect brake function not affect channel output.
* | | |01 = PWM even channel output tri-state when level-detect brake happened.
* | | |10 = PWM even channel output low level when level-detect brake happened.
* | | |11 = PWM even channel output high level when level-detect brake happened.
* | | |Note: These bits are write protected. Refer to SYS_REGLCTL register.
* |[19:18] |BRKAODD |PWM Brake Action Select for Odd Channel (Write Protect)
* | | |00 = PWM odd channel level-detect brake function not affect channel output.
* | | |01 = PWM odd channel output tri-state when level-detect brake happened.
* | | |10 = PWM odd channel output low level when level-detect brake happened.
* | | |11 = PWM odd channel output high level when level-detect brake happened.
* | | |Note: These bits are write protected. Refer to SYS_REGLCTL register.
* @var PWM_T::POLCTL
* Offset: 0xD4 PWM Pin Polar Inverse Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |PINV0 |PWM PIN Polar Inverse Control
* | | |The register controls polarity state of PWM output.
* | | |0 = PWM output polar inverse Disabled.
* | | |1 = PWM output polar inverse Enabled.
* |[1] |PINV1 |PWM PIN Polar Inverse Control
* | | |The register controls polarity state of PWM output.
* | | |0 = PWM output polar inverse Disabled.
* | | |1 = PWM output polar inverse Enabled.
* |[2] |PINV2 |PWM PIN Polar Inverse Control
* | | |The register controls polarity state of PWM output.
* | | |0 = PWM output polar inverse Disabled.
* | | |1 = PWM output polar inverse Enabled.
* |[3] |PINV3 |PWM PIN Polar Inverse Control
* | | |The register controls polarity state of PWM output.
* | | |0 = PWM output polar inverse Disabled.
* | | |1 = PWM output polar inverse Enabled.
* |[4] |PINV4 |PWM PIN Polar Inverse Control
* | | |The register controls polarity state of PWM output.
* | | |0 = PWM output polar inverse Disabled.
* | | |1 = PWM output polar inverse Enabled.
* |[5] |PINV5 |PWM PIN Polar Inverse Control
* | | |The register controls polarity state of PWM output.
* | | |0 = PWM output polar inverse Disabled.
* | | |1 = PWM output polar inverse Enabled.
* @var PWM_T::POEN
* Offset: 0xD8 PWM Output Enable Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |POEN0 |PWM Pin Output Enable Bits
* | | |0 = PWM pin at tri-state.
* | | |1 = PWM pin in output mode.
* |[1] |POEN1 |PWM Pin Output Enable Bits
* | | |0 = PWM pin at tri-state.
* | | |1 = PWM pin in output mode.
* |[2] |POEN2 |PWM Pin Output Enable Bits
* | | |0 = PWM pin at tri-state.
* | | |1 = PWM pin in output mode.
* |[3] |POEN3 |PWM Pin Output Enable Bits
* | | |0 = PWM pin at tri-state.
* | | |1 = PWM pin in output mode.
* |[4] |POEN4 |PWM Pin Output Enable Bits
* | | |0 = PWM pin at tri-state.
* | | |1 = PWM pin in output mode.
* |[5] |POEN5 |PWM Pin Output Enable Bits
* | | |0 = PWM pin at tri-state.
* | | |1 = PWM pin in output mode.
* @var PWM_T::SWBRK
* Offset: 0xDC PWM Software Brake Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |BRKETRG0 |PWM Edge Brake Software Trigger (Write Only) (Write Protect)
* | | |Write 1 to this bit will trigger Edge brake, and set BRKEIFn to 1 in PWM_INTSTS1 register.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[1] |BRKETRG2 |PWM Edge Brake Software Trigger (Write Only) (Write Protect)
* | | |Write 1 to this bit will trigger Edge brake, and set BRKEIFn to 1 in PWM_INTSTS1 register.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[2] |BRKETRG4 |PWM Edge Brake Software Trigger (Write Only) (Write Protect)
* | | |Write 1 to this bit will trigger Edge brake, and set BRKEIFn to 1 in PWM_INTSTS1 register.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[8] |BRKLTRG0 |PWM Level Brake Software Trigger (Write Only) (Write Protect)
* | | |Write 1 to this bit will trigger level brake, and set BRKLIFn to 1 in PWM_INTSTS1 register.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[9] |BRKLTRG2 |PWM Level Brake Software Trigger (Write Only) (Write Protect)
* | | |Write 1 to this bit will trigger level brake, and set BRKLIFn to 1 in PWM_INTSTS1 register.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[10] |BRKLTRG4 |PWM Level Brake Software Trigger (Write Only) (Write Protect)
* | | |Write 1 to this bit will trigger level brake, and set BRKLIFn to 1 in PWM_INTSTS1 register.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* @var PWM_T::INTEN0
* Offset: 0xE0 PWM Interrupt Enable Register 0
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |ZIEN0 |PWM Zero Point Interrupt Enable Bit 0
* | | |0 = Zero point interrupt Disabled.
* | | |1 = Zero point interrupt Enabled.
* | | |Note: Odd channels will read always 0 at complementary mode.
* |[2] |ZIEN2 |PWM Zero Point Interrupt Enable Bit 2
* | | |0 = Zero point interrupt Disabled.
* | | |1 = Zero point interrupt Enabled.
* | | |Note: Odd channels will read always 0 at complementary mode.
* |[4] |ZIEN4 |PWM Zero Point Interrupt Enable Bit 4
* | | |0 = Zero point interrupt Disabled.
* | | |1 = Zero point interrupt Enabled.
* | | |Note: Odd channels will read always 0 at complementary mode.
* |[8] |PIEN0 |PWM Period Point Interrupt Enable Bit 0
* | | |0 = Period point interrupt Disabled.
* | | |1 = Period point interrupt Enabled.
* | | |Note: When up-down counter type, period point means center point.
* |[10] |PIEN2 |PWM Period Point Interrupt Enable Bit 2
* | | |0 = Period point interrupt Disabled.
* | | |1 = Period point interrupt Enabled.
* | | |Note: When up-down counter type, period point means center point.
* |[12] |PIEN4 |PWM Period Point Interrupt Enable Bit 4
* | | |0 = Period point interrupt Disabled.
* | | |1 = Period point interrupt Enabled.
* | | |Note: When up-down counter type, period point means center point.
* |[16] |CMPUIEN0 |PWM Compare Up Count Interrupt Enable Bits
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Compare up count interrupt Disabled.
* | | |1 = Compare up count interrupt Enabled.
* | | |Note: In complementary mode, CMPUIEN1, 3, 5 is used as another CMPUIEN for channel 0, 2, 4.
* |[17] |CMPUIEN1 |PWM Compare Up Count Interrupt Enable Bits
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Compare up count interrupt Disabled.
* | | |1 = Compare up count interrupt Enabled.
* | | |Note: In complementary mode, CMPUIEN1, 3, 5 is used as another CMPUIEN for channel 0, 2, 4.
* |[18] |CMPUIEN2 |PWM Compare Up Count Interrupt Enable Bits
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Compare up count interrupt Disabled.
* | | |1 = Compare up count interrupt Enabled.
* | | |Note: In complementary mode, CMPUIEN1, 3, 5 is used as another CMPUIEN for channel 0, 2, 4.
* |[19] |CMPUIEN3 |PWM Compare Up Count Interrupt Enable Bits
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Compare up count interrupt Disabled.
* | | |1 = Compare up count interrupt Enabled.
* | | |Note: In complementary mode, CMPUIEN1, 3, 5 is used as another CMPUIEN for channel 0, 2, 4.
* |[20] |CMPUIEN4 |PWM Compare Up Count Interrupt Enable Bits
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Compare up count interrupt Disabled.
* | | |1 = Compare up count interrupt Enabled.
* | | |Note: In complementary mode, CMPUIEN1, 3, 5 is used as another CMPUIEN for channel 0, 2, 4.
* |[21] |CMPUIEN5 |PWM Compare Up Count Interrupt Enable Bits
* | | |Each bit n controls the corresponding PWM channel n.
* | | |0 = Compare up count interrupt Disabled.
* | | |1 = Compare up count interrupt Enabled.
* | | |Note: In complementary mode, CMPUIEN1, 3, 5 is used as another CMPUIEN for channel 0, 2, 4.
* |[24] |CMPDIEN0 |PWM Compare Down Count Interrupt Enable Bits
* | | |0 = Compare down count interrupt Disabled.
* | | |1 = Compare down count interrupt Enabled.
* | | |Note: In complementary mode, CMPDIEN1, 3, 5 is used as another CMPDIEN for channel 0, 2, 4.
* |[25] |CMPDIEN1 |PWM Compare Down Count Interrupt Enable Bits
* | | |0 = Compare down count interrupt Disabled.
* | | |1 = Compare down count interrupt Enabled.
* | | |Note: In complementary mode, CMPDIEN1, 3, 5 is used as another CMPDIEN for channel 0, 2, 4.
* |[26] |CMPDIEN2 |PWM Compare Down Count Interrupt Enable Bits
* | | |0 = Compare down count interrupt Disabled.
* | | |1 = Compare down count interrupt Enabled.
* | | |Note: In complementary mode, CMPDIEN1, 3, 5 is used as another CMPDIEN for channel 0, 2, 4.
* |[27] |CMPDIEN3 |PWM Compare Down Count Interrupt Enable Bits
* | | |0 = Compare down count interrupt Disabled.
* | | |1 = Compare down count interrupt Enabled.
* | | |Note: In complementary mode, CMPDIEN1, 3, 5 is used as another CMPDIEN for channel 0, 2, 4.
* |[28] |CMPDIEN4 |PWM Compare Down Count Interrupt Enable Bits
* | | |0 = Compare down count interrupt Disabled.
* | | |1 = Compare down count interrupt Enabled.
* | | |Note: In complementary mode, CMPDIEN1, 3, 5 is used as another CMPDIEN for channel 0, 2, 4.
* |[29] |CMPDIEN5 |PWM Compare Down Count Interrupt Enable Bits
* | | |0 = Compare down count interrupt Disabled.
* | | |1 = Compare down count interrupt Enabled.
* | | |Note: In complementary mode, CMPDIEN1, 3, 5 is used as another CMPDIEN for channel 0, 2, 4.
* @var PWM_T::INTEN1
* Offset: 0xE4 PWM Interrupt Enable Register 1
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |BRKEIEN0_1|PWM Edge-detect Brake Interrupt Enable for Channel0/1 (Write Protect)
* | | |0 = Edge-detect Brake interrupt for channel0/1 Disabled.
* | | |1 = Edge-detect Brake interrupt for channel0/1 Enabled.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[1] |BRKEIEN2_3|PWM Edge-detect Brake Interrupt Enable for Channel2/3 (Write Protect)
* | | |0 = Edge-detect Brake interrupt for channel2/3 Disabled.
* | | |1 = Edge-detect Brake interrupt for channel2/3 Enabled.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[2] |BRKEIEN4_5|PWM Edge-detect Brake Interrupt Enable for Channel4/5 (Write Protect)
* | | |0 = Edge-detect Brake interrupt for channel4/5 Disabled.
* | | |1 = Edge-detect Brake interrupt for channel4/5 Enabled.
* | | |Note: This bitr is write protected. Refer to SYS_REGLCTL register.
* |[8] |BRKLIEN0_1|PWM Level-detect Brake Interrupt Enable for Channel0/1 (Write Protect)
* | | |0 = Level-detect Brake interrupt for channel0/1 Disabled.
* | | |1 = Level-detect Brake interrupt for channel0/1 Enabled.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[9] |BRKLIEN2_3|PWM Level-detect Brake Interrupt Enable for Channel2/3 (Write Protect)
* | | |0 = Level-detect Brake interrupt for channel2/3 Disabled.
* | | |1 = Level-detect Brake interrupt for channel2/3 Enabled.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[10] |BRKLIEN4_5|PWM Level-detect Brake Interrupt Enable for Channel4/5 (Write Protect)
* | | |0 = Level-detect Brake interrupt for channel4/5 Disabled.
* | | |1 = Level-detect Brake interrupt for channel4/5 Enabled.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* @var PWM_T::INTSTS0
* Offset: 0xE8 PWM Interrupt Flag Register 0
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |ZIF0 |PWM Zero Point Interrupt Flag 0
* | | |This bit is set by hardware when PWM_CH0 counter reaches 0.
* | | |Note: This bit can be cleared to 0 by software writing 1.
* |[2] |ZIF2 |PWM Zero Point Interrupt Flag 2
* | | |This bit is set by hardware when PWM_CH2 counter reaches 0.
* | | |Note: This bit can be cleared to 0 by software writing 1.
* |[4] |ZIF4 |PWM Zero Point Interrupt Flag 4
* | | |This bit is set by hardware when PWM_CH4 counter reaches 0.
* | | |Note: This bit can be cleared to 0 by software writing 1.
* |[8] |PIF0 |PWM Period Point Interrupt Flag 0
* | | |This bit is set by hardware when PWM_CH0 counter reaches PWM_PERIOD0.
* | | |Note: This bit can be cleared to 0 by software writing 1.
* |[10] |PIF2 |PWM Period Point Interrupt Flag 2
* | | |This bit is set by hardware when PWM_CH2 counter reaches PWM_PERIOD2.
* | | |Note: This bit can be cleared to 0 by software writing 1.
* |[12] |PIF4 |PWM Period Point Interrupt Flag 4
* | | |This bit is set by hardware when PWM_CH4 counter reaches PWM_PERIOD4.
* | | |Note: This bit can be cleared to 0 by software writing 1.
* |[21:16] |CMPUIFn |PWM Compare Up Count Interrupt Flag
* | | |Flag is set by hardware when PWM counter up count and reaches PWM_CMPDATn, software can clear this bit by writing 1 to it.
* | | |Note: In complementary mode, CMPUIF1, 3, 5 is used as another CMPUIF for channel 0, 2, 4.
* |[24] |CMPDIF0 |PWM Compare Down Count Interrupt Flag
* | | |Flag is set by hardware when PWM counter down count and reaches PWM_CMPDATn, software can clear this bit by writing 1 to it.
* | | |Note: In complementary mode, CMPDIF1, 3, 5 is used as another CMPDIF for channel 0, 2, 4.
* |[25] |CMPDIF1 |PWM Compare Down Count Interrupt Flag
* | | |Flag is set by hardware when PWM counter down count and reaches PWM_CMPDATn, software can clear this bit by writing 1 to it.
* | | |Note: In complementary mode, CMPDIF1, 3, 5 is used as another CMPDIF for channel 0, 2, 4.
* |[26] |CMPDIF2 |PWM Compare Down Count Interrupt Flag
* | | |Flag is set by hardware when PWM counter down count and reaches PWM_CMPDATn, software can clear this bit by writing 1 to it.
* | | |Note: In complementary mode, CMPDIF1, 3, 5 is used as another CMPDIF for channel 0, 2, 4.
* |[27] |CMPDIF3 |PWM Compare Down Count Interrupt Flag
* | | |Flag is set by hardware when PWM counter down count and reaches PWM_CMPDATn, software can clear this bit by writing 1 to it.
* | | |Note: In complementary mode, CMPDIF1, 3, 5 is used as another CMPDIF for channel 0, 2, 4.
* |[28] |CMPDIF4 |PWM Compare Down Count Interrupt Flag
* | | |Flag is set by hardware when PWM counter down count and reaches PWM_CMPDATn, software can clear this bit by writing 1 to it.
* | | |Note: In complementary mode, CMPDIF1, 3, 5 is used as another CMPDIF for channel 0, 2, 4.
* |[29] |CMPDIF5 |PWM Compare Down Count Interrupt Flag
* | | |Flag is set by hardware when PWM counter down count and reaches PWM_CMPDATn, software can clear this bit by writing 1 to it.
* | | |Note: In complementary mode, CMPDIF1, 3, 5 is used as another CMPDIF for channel 0, 2, 4.
* @var PWM_T::INTSTS1
* Offset: 0xEC PWM Interrupt Flag Register 1
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |BRKEIF0 |PWM Channel0 Edge-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel0 edge-detect brake event do not happened.
* | | |1 = When PWM channel0 edge-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[1] |BRKEIF1 |PWM Channel1 Edge-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel1 edge-detect brake event do not happened.
* | | |1 = When PWM channel1 edge-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[2] |BRKEIF2 |PWM Channel2 Edge-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel2 edge-detect brake event do not happened.
* | | |1 = When PWM channel2 edge-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[3] |BRKEIF3 |PWM Channel3 Edge-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel3 edge-detect brake event do not happened.
* | | |1 = When PWM channel3 edge-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[4] |BRKEIF4 |PWM Channel4 Edge-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel4 edge-detect brake event do not happened.
* | | |1 = When PWM channel4 edge-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[5] |BRKEIF5 |PWM Channel5 Edge-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel5 edge-detect brake event do not happened.
* | | |1 = When PWM channel5 edge-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[8] |BRKLIF0 |PWM Channel0 Level-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel0 level-detect brake event do not happened.
* | | |1 = When PWM channel0 level-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[9] |BRKLIF1 |PWM Channel1 Level-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel1 level-detect brake event do not happened.
* | | |1 = When PWM channel1 level-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[10] |BRKLIF2 |PWM Channel2 Level-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel2 level-detect brake event do not happened.
* | | |1 = When PWM channel2 level-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[11] |BRKLIF3 |PWM Channel3 Level-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel3 level-detect brake event do not happened.
* | | |1 = When PWM channel3 level-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[12] |BRKLIF4 |PWM Channel4 Level-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel4 level-detect brake event do not happened.
* | | |1 = When PWM channel4 level-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[13] |BRKLIF5 |PWM Channel5 Level-detect Brake Interrupt Flag (Write Protect)
* | | |0 = PWM channel5 level-detect brake event do not happened.
* | | |1 = When PWM channel5 level-detect brake event happened, this bit is set to 1, writing 1 to clear.
* | | |Note: This bit is write protected. Refer to SYS_REGLCTL register.
* |[16] |BRKESTS0 |PWM Channel0 Edge-detect Brake Status (Read Only)
* | | |0 = PWM channel0 edge-detect brake state is released.
* | | |1 = When PWM channel0 edge-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel0 at brake state.
* |[17] |BRKESTS1 |PWM Channel1 Edge-detect Brake Status (Read Only)
* | | |0 = PWM channel1 edge-detect brake state is released.
* | | |1 = When PWM channel1 edge-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel1 at brake state.
* |[18] |BRKESTS2 |PWM Channel2 Edge-detect Brake Status (Read Only)
* | | |0 = PWM channel2 edge-detect brake state is released.
* | | |1 = When PWM channel2 edge-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel2 at brake state.
* |[19] |BRKESTS3 |PWM Channel3 Edge-detect Brake Status (Read Only)
* | | |0 = PWM channel3 edge-detect brake state is released.
* | | |1 = When PWM channel3 edge-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel3 at brake state.
* |[20] |BRKESTS4 |PWM Channel4 Edge-detect Brake Status (Read Only)
* | | |0 = PWM channel4 edge-detect brake state is released.
* | | |1 = When PWM channel4 edge-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel4 at brake state.
* |[21] |BRKESTS5 |PWM Channel5 Edge-detect Brake Status (Read Only)
* | | |0 = PWM channel5 edge-detect brake state is released.
* | | |1 = When PWM channel5 edge-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel5 at brake state.
* |[24] |BRKLSTS0 |PWM Channel0 Level-detect Brake Status (Read Only)
* | | |0 = PWM channel0 level-detect brake state is released.
* | | |1 = When PWM channel0 level-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel0 at brake state.
* | | |Note: This bit is read only and auto cleared by hardware
* | | |When enabled brake source return to high level, PWM will release brake state until current PWM period finished
* | | |The PWM waveform will start output from next full PWM period.
* |[25] |BRKLSTS1 |PWM Channel1 Level-detect Brake Status (Read Only)
* | | |0 = PWM channel1 level-detect brake state is released.
* | | |1 = When PWM channel1 level-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel1 at brake state.
* | | |Note: This bit is read only and auto cleared by hardware
* | | |When enabled brake source return to high level, PWM will release brake state until current PWM period finished
* | | |The PWM waveform will start output from next full PWM period.
* |[26] |BRKLSTS2 |PWM Channel2 Level-detect Brake Status (Read Only)
* | | |0 = PWM channel2 level-detect brake state is released.
* | | |1 = When PWM channel2 level-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel2 at brake state.
* | | |Note: This bit is read only and auto cleared by hardware
* | | |When enabled brake source return to high level, PWM will release brake state until current PWM period finished
* | | |The PWM waveform will start output from next full PWM period.
* |[27] |BRKLSTS3 |PWM Channel3 Level-detect Brake Status (Read Only)
* | | |0 = PWM channel3 level-detect brake state is released.
* | | |1 = When PWM channel3 level-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel3 at brake state.
* | | |Note: This bit is read only and auto cleared by hardware
* | | |When enabled brake source return to high level, PWM will release brake state until current PWM period finished
* | | |The PWM waveform will start output from next full PWM period.
* |[28] |BRKLSTS4 |PWM Channel4 Level-detect Brake Status (Read Only)
* | | |0 = PWM channel4 level-detect brake state is released.
* | | |1 = When PWM channel4 level-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel4 at brake state.
* | | |Note: This bit is read only and auto cleared by hardware
* | | |When enabled brake source return to high level, PWM will release brake state until current PWM period finished
* | | |The PWM waveform will start output from next full PWM period.
* |[29] |BRKLSTS5 |PWM Channel5 Level-detect Brake Status (Read Only)
* | | |0 = PWM channel5 level-detect brake state is released.
* | | |1 = When PWM channel5 level-detect brake detects a falling edge of any enabled brake source; this flag will be set to indicate the PWM channel5 at brake state.
* | | |Note: This bit is read only and auto cleared by hardware
* | | |When enabled brake source return to high level, PWM will release brake state until current PWM period finished
* | | |The PWM waveform will start output from next full PWM period.
* @var PWM_T::EADCTS0
* Offset: 0xF8 PWM Trigger EADC Source Select Register 0
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |TRGSEL0 |PWM_CH0 Trigger EADC Source Select
* | | |0000 = PWM_CH0 zero point.
* | | |0001 = PWM_CH0 period point.
* | | |0010 = PWM_CH0 zero or period point.
* | | |0011 = PWM_CH0 up-count CMPDAT point.
* | | |0100 = PWM_CH0 down-count CMPDAT point.
* | | |0101 = Reserved.
* | | |0110 = Reserved.
* | | |0111 = Reserved.
* | | |1000 = PWM_CH1 up-count CMPDAT point.
* | | |1001 = PWM_CH1 down-count CMPDAT point.
* | | |Others = reserved.
* |[7] |TRGEN0 |PWM_CH0 Trigger EADC Enable Bit
* | | |0 = PWM_CH0 Trigger EADC function Disabled.
* | | |1 = PWM_CH0 Trigger EADC function Enabled.
* |[11:8] |TRGSEL1 |PWM_CH1 Trigger EADC Source Select
* | | |0000 = PWM_CH0 zero point.
* | | |0001 = PWM_CH0 period point.
* | | |0010 = PWM_CH0 zero or period point.
* | | |0011 = PWM_CH0 up-count CMPDAT point.
* | | |0100 = PWM_CH0 down-count CMPDAT point.
* | | |0101 = Reserved.
* | | |0110 = Reserved.
* | | |0111 = Reserved.
* | | |1000 = PWM_CH1 up-count CMPDAT point.
* | | |1001 = PWM_CH1 down-count CMPDAT point.
* | | |Others = reserved.
* |[15] |TRGEN1 |PWM_CH1 Trigger EADC Enable Bit
* | | |0 = PWM_CH1 Trigger EADC function Disabled.
* | | |1 = PWM_CH1 Trigger EADC function Enabled.
* |[19:16] |TRGSEL2 |PWM_CH2 Trigger EADC Source Select
* | | |0000 = PWM_CH2 zero point.
* | | |0001 = PWM_CH2 period point.
* | | |0010 = PWM_CH2 zero or period point.
* | | |0011 = PWM_CH2 up-count CMPDAT point.
* | | |0100 = PWM_CH2 down-count CMPDAT point.
* | | |0101 = Reserved.
* | | |0110 = Reserved.
* | | |0111 = Reserved.
* | | |1000 = PWM_CH3 up-count CMPDAT point.
* | | |1001 = PWM_CH3 down-count CMPDAT point.
* | | |Others = reserved.
* |[23] |TRGEN2 |PWM_CH2 Trigger EADC Enable Bit
* | | |0 = PWM_CH2 Trigger EADC function Disabled.
* | | |1 = PWM_CH2 Trigger EADC function Enabled.
* |[27:24] |TRGSEL3 |PWM_CH3 Trigger EADC Source Select
* | | |0000 = PWM_CH2 zero point.
* | | |0001 = PWM_CH2 period point.
* | | |0010 = PWM_CH2 zero or period point.
* | | |0011 = PWM_CH2 up-count CMPDAT point.
* | | |0100 = PWM_CH2 down-count CMPDAT point.
* | | |0101 = Reserved.
* | | |0110 = Reserved.
* | | |0111 = Reserved.
* | | |1000 = PWM_CH3 up-count CMPDAT point.
* | | |1001 = PWM_CH3 down-count CMPDAT point.
* | | |Others = reserved.
* |[31] |TRGEN3 |PWM_CH3 Trigger EADC Enable Bit
* | | |0 = PWM_CH3 Trigger EADC function Disabled.
* | | |1 = PWM_CH3 Trigger EADC function Enabled.
* @var PWM_T::EADCTS1
* Offset: 0xFC PWM Trigger EADC Source Select Register 1
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |TRGSEL4 |PWM_CH4 Trigger EADC Source Select
* | | |0000 = PWM_CH4 zero point.
* | | |0001 = PWM_CH4 period point.
* | | |0010 = PWM_CH4 zero or period point.
* | | |0011 = PWM_CH4 up-count CMPDAT point.
* | | |0100 = PWM_CH4 down-count CMPDAT point.
* | | |0101 = Reserved.
* | | |0110 = Reserved.
* | | |0111 = Reserved.
* | | |1000 = PWM_CH5 up-count CMPDAT point.
* | | |1001 = PWM_CH5 down-count CMPDAT point.
* | | |Others = reserved.
* |[7] |TRGEN4 |PWM_CH4 Trigger EADC Enable Bit
* | | |0 = PWM_CH4 Trigger EADC function Disabled.
* | | |1 = PWM_CH4 Trigger EADC function Enabled.
* |[11:8] |TRGSEL5 |PWM_CH5 Trigger EADC Source Select
* | | |0000 = PWM_CH4 zero point.
* | | |0001 = PWM_CH4 period point.
* | | |0010 = PWM_CH4 zero or period point.
* | | |0011 = PWM_CH4 up-count CMPDAT point.
* | | |0100 = PWM_CH4 down-count CMPDAT point.
* | | |0101 = Reserved.
* | | |0110 = Reserved.
* | | |0111 = Reserved.
* | | |1000 = PWM_CH5 up-count CMPDAT point.
* | | |1001 = PWM_CH5 down-count CMPDAT point.
* | | |Others = reserved.
* |[15] |TRGEN5 |PWM_CH5 Trigger EADC Enable Bit
* | | |0 = PWM_CH5 Trigger EADC function Disabled.
* | | |1 = PWM_CH5 Trigger EADC function Enabled.
* @var PWM_T::SSCTL
* Offset: 0x110 PWM Synchronous Start Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |SSEN0 |PWM Synchronous Start Function Enable Bit 0
* | | |When synchronous start function is enabled, the PWM_CH0 counter enable bit (CNTEN0) can be enabled by writing PWM synchronous start trigger bit (CNTSEN).
* | | |0 = PWM synchronous start function Disabled.
* | | |1 = PWM synchronous start function Enabled.
* |[2] |SSEN2 |PWM Synchronous Start Function Enable Bit 2
* | | |When synchronous start function is enabled, the PWM_CH2 counter enable bit (CNTEN2) can be enabled by writing PWM synchronous start trigger bit (CNTSEN).
* | | |0 = PWM synchronous start function Disabled.
* | | |1 = PWM synchronous start function Enabled.
* |[4] |SSEN4 |PWM Synchronous Start Function Enable Bit 4
* | | |When synchronous start function is enabled, the PWM_CH4 counter enable bit (CNTEN4) can be enabled by writing PWM synchronous start trigger bit (CNTSEN).
* | | |0 = PWM synchronous start function Disabled.
* | | |1 = PWM synchronous start function Enabled.
* |[9:8] |SSRC |PWM Synchronous Start Source Select Bits
* | | |00 = Synchronous start source come from PWM0.
* | | |01 = Synchronous start source come from PWM1.
* | | |10 = Synchronous start source come from BPWM0.
* | | |11 = Synchronous start source come from BPWM1.
* @var PWM_T::SSTRG
* Offset: 0x114 PWM Synchronous Start Trigger Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CNTSEN |PWM Counter Synchronous Start Enable (Write Only)
* | | |PMW counter synchronous enable function is used to make selected PWM channels (include PWM0_CHx and PWM1_CHx) start counting at the same time.
* | | |Writing this bit to 1 will also set the counter enable bit (CNTENn, n denotes channel 0 to 5) if correlated PWM channel counter synchronous start function is enabled.
* @var PWM_T::STATUS
* Offset: 0x120 PWM Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CNTMAX0 |Time-base Counter 0 Equal to 0xFFFF Latched Flag
* | | |0 = indicates the time-base counter never reached its maximum value 0xFFFF.
* | | |1 = indicates the time-base counter reached its maximum value.
* | | |Note: This bit can be cleared by software writing 1.
* |[2] |CNTMAX2 |Time-base Counter 2 Equal to 0xFFFF Latched Flag
* | | |0 = indicates the time-base counter never reached its maximum value 0xFFFF.
* | | |1 = indicates the time-base counter reached its maximum value.
* | | |Note: This bit can be cleared by software writing 1.
* |[4] |CNTMAX4 |Time-base Counter 4 Equal to 0xFFFF Latched Flag
* | | |0 = The time-base counter never reached its maximum value 0xFFFF.
* | | |1 = The time-base counter reached its maximum value.
* | | |Note: This bit can be cleared by software writing 1.
* |[16] |EADCTRG0 |EADC Start of Conversion Status
* | | |0 = Indicates no EADC start of conversion trigger event has occurred.
* | | |1 = An EADC start of conversion trigger event has occurred.
* | | |Note: This bit can be cleared by software writing 1.
* |[17] |EADCTRG1 |EADC Start of Conversion Status
* | | |0 = Indicates no EADC start of conversion trigger event has occurred.
* | | |1 = An EADC start of conversion trigger event has occurred.
* | | |Note: This bit can be cleared by software writing 1.
* |[18] |EADCTRG2 |EADC Start of Conversion Status
* | | |0 = Indicates no EADC start of conversion trigger event has occurred.
* | | |1 = An EADC start of conversion trigger event has occurred.
* | | |Note: This bit can be cleared by software writing 1.
* |[19] |EADCTRG3 |EADC Start of Conversion Status
* | | |0 = Indicates no EADC start of conversion trigger event has occurred.
* | | |1 = An EADC start of conversion trigger event has occurred.
* | | |Note: This bit can be cleared by software writing 1.
* |[20] |EADCTRG4 |EADC Start of Conversion Status
* | | |0 = Indicates no EADC start of conversion trigger event has occurred.
* | | |1 = An EADC start of conversion trigger event has occurred.
* | | |Note: This bit can be cleared by software writing 1.
* |[21] |EADCTRG5 |EADC Start of Conversion Status
* | | |0 = Indicates no EADC start of conversion trigger event has occurred.
* | | |1 = An EADC start of conversion trigger event has occurred.
* | | |Note: This bit can be cleared by software writing 1.
* @var PWM_T::CAPINEN
* Offset: 0x200 PWM Capture Input Enable Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CAPINEN0 |Capture Input Enable Bits
* | | |0 = PWM Channel capture input path Disabled
* | | |The input of PWM channel capture function is always regarded as 0.
* | | |1 = PWM Channel capture input path Enabled
* | | |The input of PWM channel capture function comes from correlative multifunction pin.
* |[1] |CAPINEN1 |Capture Input Enable Bits
* | | |0 = PWM Channel capture input path Disabled
* | | |The input of PWM channel capture function is always regarded as 0.
* | | |1 = PWM Channel capture input path Enabled
* | | |The input of PWM channel capture function comes from correlative multifunction pin.
* |[2] |CAPINEN2 |Capture Input Enable Bits
* | | |0 = PWM Channel capture input path Disabled
* | | |The input of PWM channel capture function is always regarded as 0.
* | | |1 = PWM Channel capture input path Enabled
* | | |The input of PWM channel capture function comes from correlative multifunction pin.
* |[3] |CAPINEN3 |Capture Input Enable Bits
* | | |0 = PWM Channel capture input path Disabled
* | | |The input of PWM channel capture function is always regarded as 0.
* | | |1 = PWM Channel capture input path Enabled
* | | |The input of PWM channel capture function comes from correlative multifunction pin.
* |[4] |CAPINEN4 |Capture Input Enable Bits
* | | |0 = PWM Channel capture input path Disabled
* | | |The input of PWM channel capture function is always regarded as 0.
* | | |1 = PWM Channel capture input path Enabled
* | | |The input of PWM channel capture function comes from correlative multifunction pin.
* |[5] |CAPINEN5 |Capture Input Enable Bits
* | | |0 = PWM Channel capture input path Disabled
* | | |The input of PWM channel capture function is always regarded as 0.
* | | |1 = PWM Channel capture input path Enabled
* | | |The input of PWM channel capture function comes from correlative multifunction pin.
* @var PWM_T::CAPCTL
* Offset: 0x204 PWM Capture Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CAPEN0 |Capture Function Enable Bits
* | | |0 = Capture function Disabled. RCAPDAT/FCAPDAT register will not be updated.
* | | |1 = Capture function Enabled
* | | |Capture latched the PWM counter value when detected rising or falling edge of input signal and saved to RCAPDAT (Rising latch) and FCAPDAT (Falling latch).
* |[1] |CAPEN1 |Capture Function Enable Bits
* | | |0 = Capture function Disabled. RCAPDAT/FCAPDAT register will not be updated.
* | | |1 = Capture function Enabled
* | | |Capture latched the PWM counter value when detected rising or falling edge of input signal and saved to RCAPDAT (Rising latch) and FCAPDAT (Falling latch).
* |[2] |CAPEN2 |Capture Function Enable Bits
* | | |0 = Capture function Disabled. RCAPDAT/FCAPDAT register will not be updated.
* | | |1 = Capture function Enabled
* | | |Capture latched the PWM counter value when detected rising or falling edge of input signal and saved to RCAPDAT (Rising latch) and FCAPDAT (Falling latch).
* |[3] |CAPEN3 |Capture Function Enable Bits
* | | |0 = Capture function Disabled. RCAPDAT/FCAPDAT register will not be updated.
* | | |1 = Capture function Enabled
* | | |Capture latched the PWM counter value when detected rising or falling edge of input signal and saved to RCAPDAT (Rising latch) and FCAPDAT (Falling latch).
* |[4] |CAPEN4 |Capture Function Enable Bits
* | | |0 = Capture function Disabled. RCAPDAT/FCAPDAT register will not be updated.
* | | |1 = Capture function Enabled
* | | |Capture latched the PWM counter value when detected rising or falling edge of input signal and saved to RCAPDAT (Rising latch) and FCAPDAT (Falling latch).
* |[5] |CAPEN5 |Capture Function Enable Bits
* | | |0 = Capture function Disabled. RCAPDAT/FCAPDAT register will not be updated.
* | | |1 = Capture function Enabled
* | | |Capture latched the PWM counter value when detected rising or falling edge of input signal and saved to RCAPDAT (Rising latch) and FCAPDAT (Falling latch).
* |[8] |CAPINV0 |Capture Inverter Enable Bits
* | | |0 = Capture source inverter Disabled.
* | | |1 = Capture source inverter Enabled. Reverse the input signal from GPIO.
* |[9] |CAPINV1 |Capture Inverter Enable Bits
* | | |0 = Capture source inverter Disabled.
* | | |1 = Capture source inverter Enabled. Reverse the input signal from GPIO.
* |[10] |CAPINV2 |Capture Inverter Enable Bits
* | | |0 = Capture source inverter Disabled.
* | | |1 = Capture source inverter Enabled. Reverse the input signal from GPIO.
* |[11] |CAPINV3 |Capture Inverter Enable Bits
* | | |0 = Capture source inverter Disabled.
* | | |1 = Capture source inverter Enabled. Reverse the input signal from GPIO.
* |[12] |CAPINV4 |Capture Inverter Enable Bits
* | | |0 = Capture source inverter Disabled.
* | | |1 = Capture source inverter Enabled. Reverse the input signal from GPIO.
* |[13] |CAPINV5 |Capture Inverter Enable Bits
* | | |0 = Capture source inverter Disabled.
* | | |1 = Capture source inverter Enabled. Reverse the input signal from GPIO.
* |[16] |RCRLDEN0 |Rising Capture Reload Enable Bits
* | | |0 = Rising capture reload counter Disabled.
* | | |1 = Rising capture reload counter Enabled.
* |[17] |RCRLDEN1 |Rising Capture Reload Enable Bits
* | | |0 = Rising capture reload counter Disabled.
* | | |1 = Rising capture reload counter Enabled.
* |[18] |RCRLDEN2 |Rising Capture Reload Enable Bits
* | | |0 = Rising capture reload counter Disabled.
* | | |1 = Rising capture reload counter Enabled.
* |[19] |RCRLDEN3 |Rising Capture Reload Enable Bits
* | | |0 = Rising capture reload counter Disabled.
* | | |1 = Rising capture reload counter Enabled.
* |[20] |RCRLDEN4 |Rising Capture Reload Enable Bits
* | | |0 = Rising capture reload counter Disabled.
* | | |1 = Rising capture reload counter Enabled.
* |[21] |RCRLDEN5 |Rising Capture Reload Enable Bits
* | | |0 = Rising capture reload counter Disabled.
* | | |1 = Rising capture reload counter Enabled.
* |[24] |FCRLDEN0 |Falling Capture Reload Enable Bits
* | | |0 = Falling capture reload counter Disabled.
* | | |1 = Falling capture reload counter Enabled.
* |[25] |FCRLDEN1 |Falling Capture Reload Enable Bits
* | | |0 = Falling capture reload counter Disabled.
* | | |1 = Falling capture reload counter Enabled.
* |[26] |FCRLDEN2 |Falling Capture Reload Enable Bits
* | | |0 = Falling capture reload counter Disabled.
* | | |1 = Falling capture reload counter Enabled.
* |[27] |FCRLDEN3 |Falling Capture Reload Enable Bits
* | | |0 = Falling capture reload counter Disabled.
* | | |1 = Falling capture reload counter Enabled.
* |[28] |FCRLDEN4 |Falling Capture Reload Enable Bits
* | | |0 = Falling capture reload counter Disabled.
* | | |1 = Falling capture reload counter Enabled.
* |[29] |FCRLDEN5 |Falling Capture Reload Enable Bits
* | | |0 = Falling capture reload counter Disabled.
* | | |1 = Falling capture reload counter Enabled.
* @var PWM_T::CAPSTS
* Offset: 0x208 PWM Capture Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CRLIFOV0 |Capture Rising Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if rising latch happened when the corresponding CRLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CRLIF.
* |[1] |CRLIFOV1 |Capture Rising Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if rising latch happened when the corresponding CRLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CRLIF.
* |[2] |CRLIFOV2 |Capture Rising Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if rising latch happened when the corresponding CRLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CRLIF.
* |[3] |CRLIFOV3 |Capture Rising Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if rising latch happened when the corresponding CRLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CRLIF.
* |[4] |CRLIFOV4 |Capture Rising Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if rising latch happened when the corresponding CRLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CRLIF.
* |[5] |CRLIFOV5 |Capture Rising Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if rising latch happened when the corresponding CRLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CRLIF.
* |[8] |CFLIFOV0 |Capture Falling Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if falling latch happened when the corresponding CFLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CFLIF.
* |[9] |CFLIFOV1 |Capture Falling Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if falling latch happened when the corresponding CFLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CFLIF.
* |[10] |CFLIFOV2 |Capture Falling Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if falling latch happened when the corresponding CFLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CFLIF.
* |[11] |CFLIFOV3 |Capture Falling Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if falling latch happened when the corresponding CFLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CFLIF.
* |[12] |CFLIFOV4 |Capture Falling Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if falling latch happened when the corresponding CFLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CFLIF.
* |[13] |CFLIFOV5 |Capture Falling Latch Interrupt Flag Overrun Status (Read Only)
* | | |This flag indicates if falling latch happened when the corresponding CFLIF is 1.
* | | |Note: This bit will be cleared automatically when user clear corresponding CFLIF.
* @var PWM_T::PDMACTL
* Offset: 0x23C PWM PDMA Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CHEN0_1 |Channel 0/1 PDMA Enable Bit
* | | |0 = Channel 0/1 PDMA function Disabled.
* | | |1 = Channel 0/1 PDMA function Enabled for the channel 0/1 captured data and transfer to memory.
* |[2:1] |CAPMOD0_1 |Select PWM_RCAPDAT0/1 or PWM_FCAPDAT0/1 to Do PDMA Transfer
* | | |00 = Reserved.
* | | |01 = PWM_RCAPDAT0/1.
* | | |10 = PWM_FCAPDAT0/1.
* | | |11 = Both PWM_RCAPDAT0/1 and PWM_FCAPDAT0/1.
* |[3] |CAPORD0_1 |Capture Channel 0/1 Rising/Falling Order
* | | |Set this bit to determine whether the PWM_RCAPDAT0/1 or PWM_FCAPDAT0/1 is the first captured data transferred to memory through PDMA when CAPMOD0_1 =11.
* | | |0 = PWM_FCAPDAT0/1 is the first captured data to memory.
* | | |1 = PWM_RCAPDAT0/1 is the first captured data to memory.
* |[4] |CHSEL0_1 |Select Channel 0/1 to Do PDMA Transfer
* | | |0 = Channel0.
* | | |1 = Channel1.
* |[8] |CHEN2_3 |Channel 2/3 PDMA Enable Bit
* | | |0 = Channel 2/3 PDMA function Disabled.
* | | |1 = Channel 2/3 PDMA function Enabled for the channel 2/3 captured data and transfer to memory.
* |[10:9] |CAPMOD2_3 |Select PWM_RCAPDAT2/3 or PWM_FCAODAT2/3 to Do PDMA Transfer
* | | |00 = Reserved.
* | | |01 = PWM_RCAPDAT2/3.
* | | |10 = PWM_FCAPDAT2/3.
* | | |11 = Both PWM_RCAPDAT2/3 and PWM_FCAPDAT2/3.
* |[11] |CAPORD2_3 |Capture Channel 2/3 Rising/Falling Order
* | | |Set this bit to determine whether the PWM_RCAPDAT2/3 or PWM_FCAPDAT2/3 is the first captured data transferred to memory through PDMA when CAPMOD2_3 =11.
* | | |0 = PWM_FCAPDAT2/3 is the first captured data to memory.
* | | |1 = PWM_RCAPDAT2/3 is the first captured data to memory.
* |[12] |CHSEL2_3 |Select Channel 2/3 to Do PDMA Transfer
* | | |0 = Channel2.
* | | |1 = Channel3.
* |[16] |CHEN4_5 |Channel 4/5 PDMA Enable Bit
* | | |0 = Channel 4/5 PDMA function Disabled.
* | | |1 = Channel 4/5 PDMA function Enabled for the channel 4/5 captured data and transfer to memory.
* |[18:17] |CAPMOD4_5 |Select PWM_RCAPDAT4/5 or PWM_FCAPDAT4/5 to Do PDMA Transfer
* | | |00 = Reserved.
* | | |01 = PWM_RCAPDAT4/5.
* | | |10 = PWM_FCAPDAT4/5.
* | | |11 = Both PWM_RCAPDAT4/5 and PWM_FCAPDAT4/5.
* |[19] |CAPORD4_5 |Capture Channel 4/5 Rising/Falling Order
* | | |Set this bit to determine whether the PWM_RCAPDAT4/5 or PWM_FCAPDAT4/5 is the first captured data transferred to memory through PDMA when CAPMOD4_5 =11.
* | | |0 = PWM_FCAPDAT4/5 is the first captured data to memory.
* | | |1 = PWM_RCAPDAT4/5 is the first captured data to memory.
* |[20] |CHSEL4_5 |Select Channel 4/5 to Do PDMA Transfer
* | | |0 = Channel4.
* | | |1 = Channel5.
* @var PWM_T::PDMACAP[3]
* Offset: 0x240~0x248 PWM Capture Channel 01 23 45 PDMA Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[15:0] |CAPBUF |PWM Capture PDMA Register (Read Only)
* | | |This register is used as a buffer to transfer PWM capture rising or falling data to memory by PDMA.
* @var PWM_T::CAPIEN
* Offset: 0x250 PWM Capture Interrupt Enable Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CAPRIEN0 |PWM Capture Rising Latch Interrupt Enable Bits
* | | |0 = Capture rising edge latch interrupt Disabled.
* | | |1 = Capture rising edge latch interrupt Enabled.
* |[1] |CAPRIEN1 |PWM Capture Rising Latch Interrupt Enable Bits
* | | |0 = Capture rising edge latch interrupt Disabled.
* | | |1 = Capture rising edge latch interrupt Enabled.
* |[2] |CAPRIEN2 |PWM Capture Rising Latch Interrupt Enable Bits
* | | |0 = Capture rising edge latch interrupt Disabled.
* | | |1 = Capture rising edge latch interrupt Enabled.
* |[3] |CAPRIEN3 |PWM Capture Rising Latch Interrupt Enable Bits
* | | |0 = Capture rising edge latch interrupt Disabled.
* | | |1 = Capture rising edge latch interrupt Enabled.
* |[4] |CAPRIEN4 |PWM Capture Rising Latch Interrupt Enable Bits
* | | |0 = Capture rising edge latch interrupt Disabled.
* | | |1 = Capture rising edge latch interrupt Enabled.
* |[5] |CAPRIEN5 |PWM Capture Rising Latch Interrupt Enable Bits
* | | |0 = Capture rising edge latch interrupt Disabled.
* | | |1 = Capture rising edge latch interrupt Enabled.
* |[8] |CAPFIEN0 |PWM Capture Falling Latch Interrupt Enable Bits
* | | |0 = Capture falling edge latch interrupt Disabled.
* | | |1 = Capture falling edge latch interrupt Enabled.
* |[9] |CAPFIEN1 |PWM Capture Falling Latch Interrupt Enable Bits
* | | |0 = Capture falling edge latch interrupt Disabled.
* | | |1 = Capture falling edge latch interrupt Enabled.
* |[10] |CAPFIEN2 |PWM Capture Falling Latch Interrupt Enable Bits
* | | |0 = Capture falling edge latch interrupt Disabled.
* | | |1 = Capture falling edge latch interrupt Enabled.
* |[11] |CAPFIEN3 |PWM Capture Falling Latch Interrupt Enable Bits
* | | |0 = Capture falling edge latch interrupt Disabled.
* | | |1 = Capture falling edge latch interrupt Enabled.
* |[12] |CAPFIEN4 |PWM Capture Falling Latch Interrupt Enable Bits
* | | |0 = Capture falling edge latch interrupt Disabled.
* | | |1 = Capture falling edge latch interrupt Enabled.
* |[13] |CAPFIEN5 |PWM Capture Falling Latch Interrupt Enable Bits
* | | |0 = Capture falling edge latch interrupt Disabled.
* | | |1 = Capture falling edge latch interrupt Enabled.
* @var PWM_T::CAPIF
* Offset: 0x254 PWM Capture Interrupt Flag Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |CRLIF0 |PWM Capture Rising Latch Interrupt Flag
* | | |0 = No capture rising latch condition happened.
* | | |1 = Capture rising latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CRLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[1] |CRLIF1 |PWM Capture Rising Latch Interrupt Flag
* | | |0 = No capture rising latch condition happened.
* | | |1 = Capture rising latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CRLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[2] |CRLIF2 |PWM Capture Rising Latch Interrupt Flag
* | | |0 = No capture rising latch condition happened.
* | | |1 = Capture rising latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CRLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[3] |CRLIF3 |PWM Capture Rising Latch Interrupt Flag
* | | |0 = No capture rising latch condition happened.
* | | |1 = Capture rising latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CRLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[4] |CRLIF4 |PWM Capture Rising Latch Interrupt Flag
* | | |0 = No capture rising latch condition happened.
* | | |1 = Capture rising latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CRLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[5] |CRLIF5 |PWM Capture Rising Latch Interrupt Flag
* | | |0 = No capture rising latch condition happened.
* | | |1 = Capture rising latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CRLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[8] |CFLIF0 |PWM Capture Falling Latch Interrupt Flag
* | | |0 = No capture falling latch condition happened.
* | | |1 = Capture falling latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CFLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[9] |CFLIF1 |PWM Capture Falling Latch Interrupt Flag
* | | |0 = No capture falling latch condition happened.
* | | |1 = Capture falling latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CFLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[10] |CFLIF2 |PWM Capture Falling Latch Interrupt Flag
* | | |0 = No capture falling latch condition happened.
* | | |1 = Capture falling latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CFLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[11] |CFLIF3 |PWM Capture Falling Latch Interrupt Flag
* | | |0 = No capture falling latch condition happened.
* | | |1 = Capture falling latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CFLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[12] |CFLIF4 |PWM Capture Falling Latch Interrupt Flag
* | | |0 = No capture falling latch condition happened.
* | | |1 = Capture falling latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CFLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* |[13] |CFLIF5 |PWM Capture Falling Latch Interrupt Flag
* | | |0 = No capture falling latch condition happened.
* | | |1 = Capture falling latch condition happened, this flag will be set to high.
* | | |Note1: When Capture with PDMA operating, CAPIF corresponding channel CFLIF will be cleared by hardware after PDMA transfer data.
* | | |Note2: This bit is cleared by writing 1 to it.
* @var PWM_T::PBUF[6]
* Offset: 0x304~0x318 PWM PERIOD0, 2, 4 Buffer
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[15:0] |PBUF |PWM Period Register Buffer (Read Only)
* | | |Used as PERIOD active register.
* @var PWM_T::CMPBUF[6]
* Offset: 0x31C~0x330 PWM CMPDAT0~5 Buffer
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[15:0] |CMPBUF |PWM Comparator Register Buffer (Read Only)
* | | |Used as CMP active register.
*/
__IO uint32_t CTL0; /*!< [0x0000] PWM Control Register 0 */
__IO uint32_t CTL1; /*!< [0x0004] PWM Control Register 1 */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE0[2];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t CLKSRC; /*!< [0x0010] PWM Clock Source Register */
__IO uint32_t CLKPSC[3]; /*!< [0x0014 ~ 0x001c] PWM Clock Prescale Register */
__IO uint32_t CNTEN; /*!< [0x0020] PWM Counter Enable Register */
__IO uint32_t CNTCLR; /*!< [0x0024] PWM Clear Counter Register */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE1[2];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t PERIOD[6]; /*!< [0x0030 ~ 0x0044] PWM Period Register 0 */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE4[2];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t CMPDAT[6]; /*!< [0x0050 ~ 0x0064] PWM Comparator Register 0 ~ 5 */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE5[2];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t DTCTL[3]; /*!< [0x0070 ~ 0x0078] PWM Dead-time Control Register */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE6[5];
/// @endcond //HIDDEN_SYMBOLS
__I uint32_t CNT[6]; /*!< [0x0090] PWM Counter Register 0,2,4 */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE9[2];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t WGCTL0; /*!< [0x00b0] PWM Generation Register 0 */
__IO uint32_t WGCTL1; /*!< [0x00b4] PWM Generation Register 1 */
__IO uint32_t MSKEN; /*!< [0x00b8] PWM Mask Enable Register */
__IO uint32_t MSK; /*!< [0x00bc] PWM Mask Data Register */
__IO uint32_t BNF; /*!< [0x00c0] PWM Brake Noise Filter Register */
__IO uint32_t FAILBRK; /*!< [0x00c4] PWM System Fail Brake Control Register */
__IO uint32_t BRKCTL[3]; /*!< [0x00c8 ~ 0x00d0] PWM Brake Edge Detect Control Register */
__IO uint32_t POLCTL; /*!< [0x00d4] PWM Pin Polar Inverse Register */
__IO uint32_t POEN; /*!< [0x00d8] PWM Output Enable Register */
__O uint32_t SWBRK; /*!< [0x00dc] PWM Software Brake Control Register */
__IO uint32_t INTEN0; /*!< [0x00e0] PWM Interrupt Enable Register 0 */
__IO uint32_t INTEN1; /*!< [0x00e4] PWM Interrupt Enable Register 1 */
__IO uint32_t INTSTS0; /*!< [0x00e8] PWM Interrupt Flag Register 0 */
__IO uint32_t INTSTS1; /*!< [0x00ec] PWM Interrupt Flag Register 1 */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE10[2];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t EADCTS0; /*!< [0x00f8] PWM Trigger EADC Source Select Register 0 */
__IO uint32_t EADCTS1; /*!< [0x00fc] PWM Trigger EADC Source Select Register 1 */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE11[4];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t SSCTL; /*!< [0x0110] PWM Synchronous Start Control Register */
__O uint32_t SSTRG; /*!< [0x0114] PWM Synchronous Start Trigger Register */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE12[2];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t STATUS; /*!< [0x0120] PWM Status Register */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE13[55];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t CAPINEN; /*!< [0x0200] PWM Capture Input Enable Register */
__IO uint32_t CAPCTL; /*!< [0x0204] PWM Capture Control Register */
__I uint32_t CAPSTS; /*!< [0x0208] PWM Capture Status Register */
CAPDAT_T CAPDAT[6]; /*!< [0x020C] PWM Rising and Falling Capture Data Register 0~5 */
__IO uint32_t PDMACTL; /*!< [0x023c] PWM PDMA Control Register */
__I uint32_t PDMACAP[3]; /*!< [0x0240 ~ 0x0248] PWM Capture Channel 01, 23, 45 PDMA Register */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE14[1];
/// @endcond //HIDDEN_SYMBOLS
__IO uint32_t CAPIEN; /*!< [0x0250] PWM Capture Interrupt Enable Register */
__IO uint32_t CAPIF; /*!< [0x0254] PWM Capture Interrupt Flag Register */
/// @cond HIDDEN_SYMBOLS
__I uint32_t RESERVE15[43];
/// @endcond //HIDDEN_SYMBOLS
__I uint32_t PBUF[6]; /*!< [0x0304 ~ 0x0318] PWM PERIOD0 ~ 6 Buffer */
__I uint32_t CMPBUF[6]; /*!< [0x031c ~ 0x0330] PWM CMPDAT0 ~ 5 Buffer */
} PWM_T;
/**
@addtogroup PWM_CONST PWM Bit Field Definition
Constant Definitions for PWM Controller
@{ */
#define PWM_CTL0_CTRLDn_Pos (0) /*!< PWM_T::CTL0: CTRLDn Position */
#define PWM_CTL0_CTRLDn_Msk (0x3ful << PWM_CTL0_CTRLDn_Pos) /*!< PWM_T::CTL0: CTRLDn Mask */
#define PWM_CTL0_CTRLD0_Pos (0) /*!< PWM_T::CTL0: CTRLD0 Position */
#define PWM_CTL0_CTRLD0_Msk (0x1ul << PWM_CTL0_CTRLD0_Pos) /*!< PWM_T::CTL0: CTRLD0 Mask */
#define PWM_CTL0_CTRLD1_Pos (1) /*!< PWM_T::CTL0: CTRLD1 Position */
#define PWM_CTL0_CTRLD1_Msk (0x1ul << PWM_CTL0_CTRLD1_Pos) /*!< PWM_T::CTL0: CTRLD1 Mask */
#define PWM_CTL0_CTRLD2_Pos (2) /*!< PWM_T::CTL0: CTRLD2 Position */
#define PWM_CTL0_CTRLD2_Msk (0x1ul << PWM_CTL0_CTRLD2_Pos) /*!< PWM_T::CTL0: CTRLD2 Mask */
#define PWM_CTL0_CTRLD3_Pos (3) /*!< PWM_T::CTL0: CTRLD3 Position */
#define PWM_CTL0_CTRLD3_Msk (0x1ul << PWM_CTL0_CTRLD3_Pos) /*!< PWM_T::CTL0: CTRLD3 Mask */
#define PWM_CTL0_CTRLD4_Pos (4) /*!< PWM_T::CTL0: CTRLD4 Position */
#define PWM_CTL0_CTRLD4_Msk (0x1ul << PWM_CTL0_CTRLD4_Pos) /*!< PWM_T::CTL0: CTRLD4 Mask */
#define PWM_CTL0_CTRLD5_Pos (5) /*!< PWM_T::CTL0: CTRLD5 Position */
#define PWM_CTL0_CTRLD5_Msk (0x1ul << PWM_CTL0_CTRLD5_Pos) /*!< PWM_T::CTL0: CTRLD5 Mask */
#define PWM_CTL0_IMMLDENn_Pos (16) /*!< PWM_T::CTL0: IMMLDENn Position */
#define PWM_CTL0_IMMLDENn_Msk (0x3ful << PWM_CTL0_IMMLDENn_Pos) /*!< PWM_T::CTL0: IMMLDENn Mask */
#define PWM_CTL0_IMMLDEN0_Pos (16) /*!< PWM_T::CTL0: IMMLDEN0 Position */
#define PWM_CTL0_IMMLDEN0_Msk (0x1ul << PWM_CTL0_IMMLDEN0_Pos) /*!< PWM_T::CTL0: IMMLDEN0 Mask */
#define PWM_CTL0_IMMLDEN1_Pos (17) /*!< PWM_T::CTL0: IMMLDEN1 Position */
#define PWM_CTL0_IMMLDEN1_Msk (0x1ul << PWM_CTL0_IMMLDEN1_Pos) /*!< PWM_T::CTL0: IMMLDEN1 Mask */
#define PWM_CTL0_IMMLDEN2_Pos (18) /*!< PWM_T::CTL0: IMMLDEN2 Position */
#define PWM_CTL0_IMMLDEN2_Msk (0x1ul << PWM_CTL0_IMMLDEN2_Pos) /*!< PWM_T::CTL0: IMMLDEN2 Mask */
#define PWM_CTL0_IMMLDEN3_Pos (19) /*!< PWM_T::CTL0: IMMLDEN3 Position */
#define PWM_CTL0_IMMLDEN3_Msk (0x1ul << PWM_CTL0_IMMLDEN3_Pos) /*!< PWM_T::CTL0: IMMLDEN3 Mask */
#define PWM_CTL0_IMMLDEN4_Pos (20) /*!< PWM_T::CTL0: IMMLDEN4 Position */
#define PWM_CTL0_IMMLDEN4_Msk (0x1ul << PWM_CTL0_IMMLDEN4_Pos) /*!< PWM_T::CTL0: IMMLDEN4 Mask */
#define PWM_CTL0_IMMLDEN5_Pos (21) /*!< PWM_T::CTL0: IMMLDEN5 Position */
#define PWM_CTL0_IMMLDEN5_Msk (0x1ul << PWM_CTL0_IMMLDEN5_Pos) /*!< PWM_T::CTL0: IMMLDEN5 Mask */
#define PWM_CTL0_DBGHALT_Pos (30) /*!< PWM_T::CTL0: DBGHALT Position */
#define PWM_CTL0_DBGHALT_Msk (0x1ul << PWM_CTL0_DBGHALT_Pos) /*!< PWM_T::CTL0: DBGHALT Mask */
#define PWM_CTL0_DBGTRIOFF_Pos (31) /*!< PWM_T::CTL0: DBGTRIOFF Position */
#define PWM_CTL0_DBGTRIOFF_Msk (0x1ul << PWM_CTL0_DBGTRIOFF_Pos) /*!< PWM_T::CTL0: DBGTRIOFF Mask */
#define PWM_CTL1_CNTTYPE0_Pos (0) /*!< PWM_T::CTL1: CNTTYPE0 Position */
#define PWM_CTL1_CNTTYPE0_Msk (0x3ul << PWM_CTL1_CNTTYPE0_Pos) /*!< PWM_T::CTL1: CNTTYPE0 Mask */
#define PWM_CTL1_CNTTYPE2_Pos (4) /*!< PWM_T::CTL1: CNTTYPE2 Position */
#define PWM_CTL1_CNTTYPE2_Msk (0x3ul << PWM_CTL1_CNTTYPE2_Pos) /*!< PWM_T::CTL1: CNTTYPE2 Mask */
#define PWM_CTL1_CNTTYPE4_Pos (8) /*!< PWM_T::CTL1: CNTTYPE4 Position */
#define PWM_CTL1_CNTTYPE4_Msk (0x3ul << PWM_CTL1_CNTTYPE4_Pos) /*!< PWM_T::CTL1: CNTTYPE4 Mask */
#define PWM_CTL1_OUTMODEn_Pos (24) /*!< PWM_T::CTL1: OUTMODEn Position */
#define PWM_CTL1_OUTMODEn_Msk (0x7ul << PWM_CTL1_OUTMODEn_Pos) /*!< PWM_T::CTL1: OUTMODEn Mask */
#define PWM_CTL1_OUTMODE0_Pos (24) /*!< PWM_T::CTL1: OUTMODE0 Position */
#define PWM_CTL1_OUTMODE0_Msk (0x1ul << PWM_CTL1_OUTMODE0_Pos) /*!< PWM_T::CTL1: OUTMODE0 Mask */
#define PWM_CTL1_OUTMODE2_Pos (25) /*!< PWM_T::CTL1: OUTMODE2 Position */
#define PWM_CTL1_OUTMODE2_Msk (0x1ul << PWM_CTL1_OUTMODE2_Pos) /*!< PWM_T::CTL1: OUTMODE2 Mask */
#define PWM_CTL1_OUTMODE4_Pos (26) /*!< PWM_T::CTL1: OUTMODE4 Position */
#define PWM_CTL1_OUTMODE4_Msk (0x1ul << PWM_CTL1_OUTMODE4_Pos) /*!< PWM_T::CTL1: OUTMODE4 Mask */
#define PWM_CLKSRC_ECLKSRC0_Pos (0) /*!< PWM_T::CLKSRC: ECLKSRC0 Position */
#define PWM_CLKSRC_ECLKSRC0_Msk (0x7ul << PWM_CLKSRC_ECLKSRC0_Pos) /*!< PWM_T::CLKSRC: ECLKSRC0 Mask */
#define PWM_CLKSRC_ECLKSRC2_Pos (8) /*!< PWM_T::CLKSRC: ECLKSRC2 Position */
#define PWM_CLKSRC_ECLKSRC2_Msk (0x7ul << PWM_CLKSRC_ECLKSRC2_Pos) /*!< PWM_T::CLKSRC: ECLKSRC2 Mask */
#define PWM_CLKSRC_ECLKSRC4_Pos (16) /*!< PWM_T::CLKSRC: ECLKSRC4 Position */
#define PWM_CLKSRC_ECLKSRC4_Msk (0x7ul << PWM_CLKSRC_ECLKSRC4_Pos) /*!< PWM_T::CLKSRC: ECLKSRC4 Mask */
#define PWM_CLKPSC_CLKPSC_Pos (0) /*!< PWM_T::CLKPSC: CLKPSC Position */
#define PWM_CLKPSC_CLKPSC_Msk (0xffful << PWM_CLKPSC_CLKPSC_Pos) /*!< PWM_T::CLKPSC: CLKPSC Mask */
#define PWM_CLKPSC0_1_CLKPSC_Pos (0) /*!< PWM_T::CLKPSC0_1: CLKPSC Position */
#define PWM_CLKPSC0_1_CLKPSC_Msk (0xffful << PWM_CLKPSC0_1_CLKPSC_Pos) /*!< PWM_T::CLKPSC0_1: CLKPSC Mask */
#define PWM_CLKPSC2_3_CLKPSC_Pos (0) /*!< PWM_T::CLKPSC2_3: CLKPSC Position */
#define PWM_CLKPSC2_3_CLKPSC_Msk (0xffful << PWM_CLKPSC2_3_CLKPSC_Pos) /*!< PWM_T::CLKPSC2_3: CLKPSC Mask */
#define PWM_CLKPSC4_5_CLKPSC_Pos (0) /*!< PWM_T::CLKPSC4_5: CLKPSC Position */
#define PWM_CLKPSC4_5_CLKPSC_Msk (0xffful << PWM_CLKPSC4_5_CLKPSC_Pos) /*!< PWM_T::CLKPSC4_5: CLKPSC Mask */
#define PWM_CNTEN_CNTEN0_Pos (0) /*!< PWM_T::CNTEN: CNTEN0 Position */
#define PWM_CNTEN_CNTEN0_Msk (0x1ul << PWM_CNTEN_CNTEN0_Pos) /*!< PWM_T::CNTEN: CNTEN0 Mask */
#define PWM_CNTEN_CNTEN2_Pos (2) /*!< PWM_T::CNTEN: CNTEN2 Position */
#define PWM_CNTEN_CNTEN2_Msk (0x1ul << PWM_CNTEN_CNTEN2_Pos) /*!< PWM_T::CNTEN: CNTEN2 Mask */
#define PWM_CNTEN_CNTEN4_Pos (4) /*!< PWM_T::CNTEN: CNTEN4 Position */
#define PWM_CNTEN_CNTEN4_Msk (0x1ul << PWM_CNTEN_CNTEN4_Pos) /*!< PWM_T::CNTEN: CNTEN4 Mask */
#define PWM_CNTCLR_CNTCLR0_Pos (0) /*!< PWM_T::CNTCLR: CNTCLR0 Position */
#define PWM_CNTCLR_CNTCLR0_Msk (0x1ul << PWM_CNTCLR_CNTCLR0_Pos) /*!< PWM_T::CNTCLR: CNTCLR0 Mask */
#define PWM_CNTCLR_CNTCLR2_Pos (2) /*!< PWM_T::CNTCLR: CNTCLR2 Position */
#define PWM_CNTCLR_CNTCLR2_Msk (0x1ul << PWM_CNTCLR_CNTCLR2_Pos) /*!< PWM_T::CNTCLR: CNTCLR2 Mask */
#define PWM_CNTCLR_CNTCLR4_Pos (4) /*!< PWM_T::CNTCLR: CNTCLR4 Position */
#define PWM_CNTCLR_CNTCLR4_Msk (0x1ul << PWM_CNTCLR_CNTCLR4_Pos) /*!< PWM_T::CNTCLR: CNTCLR4 Mask */
#define PWM_PERIOD_PERIOD_Pos (0) /*!< PWM_T::PERIOD: PERIOD Position */
#define PWM_PERIOD_PERIOD_Msk (0xfffful << PWM_PERIOD_PERIOD_Pos) /*!< PWM_T::PERIOD: PERIOD Mask */
#define PWM_CMPDAT_CMP_Pos (0) /*!< PWM_T::CMPDAT: CMP Position */
#define PWM_CMPDAT_CMP_Msk (0xfffful << PWM_CMPDAT_CMP_Pos) /*!< PWM_T::CMPDAT: CMP Mask */
#define PWM_DTCTL_DTCNT_Pos (0) /*!< PWM_T::DTCTL: DTCNT Position */
#define PWM_DTCTL_DTCNT_Msk (0xffful << PWM_DTCTL_DTCNT_Pos) /*!< PWM_T::DTCTL: DTCNT Mask */
#define PWM_DTCTL_DTEN_Pos (16) /*!< PWM_T::DTCTL: DTEN Position */
#define PWM_DTCTL_DTEN_Msk (0x1ul << PWM_DTCTL_DTEN_Pos) /*!< PWM_T::DTCTL: DTEN Mask */
#define PWM_DTCTL_DTCKSEL_Pos (24) /*!< PWM_T::DTCTL: DTCKSEL Position */
#define PWM_DTCTL_DTCKSEL_Msk (0x1ul << PWM_DTCTL_DTCKSEL_Pos) /*!< PWM_T::DTCTL: DTCKSEL Mask */
#define PWM_DTCTL0_1_DTCNT_Pos (0) /*!< PWM_T::DTCTL0_1: DTCNT Position */
#define PWM_DTCTL0_1_DTCNT_Msk (0xffful << PWM_DTCTL0_1_DTCNT_Pos) /*!< PWM_T::DTCTL0_1: DTCNT Mask */
#define PWM_DTCTL0_1_DTEN_Pos (16) /*!< PWM_T::DTCTL0_1: DTEN Position */
#define PWM_DTCTL0_1_DTEN_Msk (0x1ul << PWM_DTCTL0_1_DTEN_Pos) /*!< PWM_T::DTCTL0_1: DTEN Mask */
#define PWM_DTCTL0_1_DTCKSEL_Pos (24) /*!< PWM_T::DTCTL0_1: DTCKSEL Position */
#define PWM_DTCTL0_1_DTCKSEL_Msk (0x1ul << PWM_DTCTL0_1_DTCKSEL_Pos) /*!< PWM_T::DTCTL0_1: DTCKSEL Mask */
#define PWM_DTCTL2_3_DTCNT_Pos (0) /*!< PWM_T::DTCTL2_3: DTCNT Position */
#define PWM_DTCTL2_3_DTCNT_Msk (0xffful << PWM_DTCTL2_3_DTCNT_Pos) /*!< PWM_T::DTCTL2_3: DTCNT Mask */
#define PWM_DTCTL2_3_DTEN_Pos (16) /*!< PWM_T::DTCTL2_3: DTEN Position */
#define PWM_DTCTL2_3_DTEN_Msk (0x1ul << PWM_DTCTL2_3_DTEN_Pos) /*!< PWM_T::DTCTL2_3: DTEN Mask */
#define PWM_DTCTL2_3_DTCKSEL_Pos (24) /*!< PWM_T::DTCTL2_3: DTCKSEL Position */
#define PWM_DTCTL2_3_DTCKSEL_Msk (0x1ul << PWM_DTCTL2_3_DTCKSEL_Pos) /*!< PWM_T::DTCTL2_3: DTCKSEL Mask */
#define PWM_DTCTL4_5_DTCNT_Pos (0) /*!< PWM_T::DTCTL4_5: DTCNT Position */
#define PWM_DTCTL4_5_DTCNT_Msk (0xffful << PWM_DTCTL4_5_DTCNT_Pos) /*!< PWM_T::DTCTL4_5: DTCNT Mask */
#define PWM_DTCTL4_5_DTEN_Pos (16) /*!< PWM_T::DTCTL4_5: DTEN Position */
#define PWM_DTCTL4_5_DTEN_Msk (0x1ul << PWM_DTCTL4_5_DTEN_Pos) /*!< PWM_T::DTCTL4_5: DTEN Mask */
#define PWM_DTCTL4_5_DTCKSEL_Pos (24) /*!< PWM_T::DTCTL4_5: DTCKSEL Position */
#define PWM_DTCTL4_5_DTCKSEL_Msk (0x1ul << PWM_DTCTL4_5_DTCKSEL_Pos) /*!< PWM_T::DTCTL4_5: DTCKSEL Mask */
#define PWM_CNT_CNT_Pos (0) /*!< PWM_T::CNT: CNT Position */
#define PWM_CNT_CNT_Msk (0xfffful << PWM_CNT_CNT_Pos) /*!< PWM_T::CNT: CNT Mask */
#define PWM_CNT_DIRF_Pos (16) /*!< PWM_T::CNT: DIRF Position */
#define PWM_CNT_DIRF_Msk (0x1ul << PWM_CNT_DIRF_Pos) /*!< PWM_T::CNT: DIRF Mask */
#define PWM_WGCTL0_ZPCTL0_Pos (0) /*!< PWM_T::WGCTL0: ZPCTL0 Position */
#define PWM_WGCTL0_ZPCTL0_Msk (0x3ul << PWM_WGCTL0_ZPCTL0_Pos) /*!< PWM_T::WGCTL0: ZPCTL0 Mask */
#define PWM_WGCTL0_ZPCTL1_Pos (2) /*!< PWM_T::WGCTL0: ZPCTL1 Position */
#define PWM_WGCTL0_ZPCTL1_Msk (0x3ul << PWM_WGCTL0_ZPCTL1_Pos) /*!< PWM_T::WGCTL0: ZPCTL1 Mask */
#define PWM_WGCTL0_ZPCTL2_Pos (4) /*!< PWM_T::WGCTL0: ZPCTL2 Position */
#define PWM_WGCTL0_ZPCTL2_Msk (0x3ul << PWM_WGCTL0_ZPCTL2_Pos) /*!< PWM_T::WGCTL0: ZPCTL2 Mask */
#define PWM_WGCTL0_ZPCTL3_Pos (6) /*!< PWM_T::WGCTL0: ZPCTL3 Position */
#define PWM_WGCTL0_ZPCTL3_Msk (0x3ul << PWM_WGCTL0_ZPCTL3_Pos) /*!< PWM_T::WGCTL0: ZPCTL3 Mask */
#define PWM_WGCTL0_ZPCTL4_Pos (8) /*!< PWM_T::WGCTL0: ZPCTL4 Position */
#define PWM_WGCTL0_ZPCTL4_Msk (0x3ul << PWM_WGCTL0_ZPCTL4_Pos) /*!< PWM_T::WGCTL0: ZPCTL4 Mask */
#define PWM_WGCTL0_ZPCTL5_Pos (10) /*!< PWM_T::WGCTL0: ZPCTL5 Position */
#define PWM_WGCTL0_ZPCTL5_Msk (0x3ul << PWM_WGCTL0_ZPCTL5_Pos) /*!< PWM_T::WGCTL0: ZPCTL5 Mask */
#define PWM_WGCTL0_PRDPCTL0_Pos (16) /*!< PWM_T::WGCTL0: PRDPCTL0 Position */
#define PWM_WGCTL0_PRDPCTL0_Msk (0x3ul << PWM_WGCTL0_PRDPCTL0_Pos) /*!< PWM_T::WGCTL0: PRDPCTL0 Mask */
#define PWM_WGCTL0_PRDPCTL1_Pos (18) /*!< PWM_T::WGCTL0: PRDPCTL1 Position */
#define PWM_WGCTL0_PRDPCTL1_Msk (0x3ul << PWM_WGCTL0_PRDPCTL1_Pos) /*!< PWM_T::WGCTL0: PRDPCTL1 Mask */
#define PWM_WGCTL0_PRDPCTL2_Pos (20) /*!< PWM_T::WGCTL0: PRDPCTL2 Position */
#define PWM_WGCTL0_PRDPCTL2_Msk (0x3ul << PWM_WGCTL0_PRDPCTL2_Pos) /*!< PWM_T::WGCTL0: PRDPCTL2 Mask */
#define PWM_WGCTL0_PRDPCTL3_Pos (22) /*!< PWM_T::WGCTL0: PRDPCTL3 Position */
#define PWM_WGCTL0_PRDPCTL3_Msk (0x3ul << PWM_WGCTL0_PRDPCTL3_Pos) /*!< PWM_T::WGCTL0: PRDPCTL3 Mask */
#define PWM_WGCTL0_PRDPCTL4_Pos (24) /*!< PWM_T::WGCTL0: PRDPCTL4 Position */
#define PWM_WGCTL0_PRDPCTL4_Msk (0x3ul << PWM_WGCTL0_PRDPCTL4_Pos) /*!< PWM_T::WGCTL0: PRDPCTL4 Mask */
#define PWM_WGCTL0_PRDPCTL5_Pos (26) /*!< PWM_T::WGCTL0: PRDPCTL5 Position */
#define PWM_WGCTL0_PRDPCTL5_Msk (0x3ul << PWM_WGCTL0_PRDPCTL5_Pos) /*!< PWM_T::WGCTL0: PRDPCTL5 Mask */
#define PWM_WGCTL1_CMPUCTLn_Pos (0) /*!< PWM_T::WGCTL1: CMPUCTLn Position */
#define PWM_WGCTL1_CMPUCTLn_Msk (0xffful << PWM_WGCTL1_CMPUCTLn_Pos) /*!< PWM_T::WGCTL1: CMPUCTLn Mask */
#define PWM_WGCTL1_CMPUCTL0_Pos (0) /*!< PWM_T::WGCTL1: CMPUCTL0 Position */
#define PWM_WGCTL1_CMPUCTL0_Msk (0x3ul << PWM_WGCTL1_CMPUCTL0_Pos) /*!< PWM_T::WGCTL1: CMPUCTL0 Mask */
#define PWM_WGCTL1_CMPUCTL1_Pos (2) /*!< PWM_T::WGCTL1: CMPUCTL1 Position */
#define PWM_WGCTL1_CMPUCTL1_Msk (0x3ul << PWM_WGCTL1_CMPUCTL1_Pos) /*!< PWM_T::WGCTL1: CMPUCTL1 Mask */
#define PWM_WGCTL1_CMPUCTL2_Pos (4) /*!< PWM_T::WGCTL1: CMPUCTL2 Position */
#define PWM_WGCTL1_CMPUCTL2_Msk (0x3ul << PWM_WGCTL1_CMPUCTL2_Pos) /*!< PWM_T::WGCTL1: CMPUCTL2 Mask */
#define PWM_WGCTL1_CMPUCTL3_Pos (6) /*!< PWM_T::WGCTL1: CMPUCTL3 Position */
#define PWM_WGCTL1_CMPUCTL3_Msk (0x3ul << PWM_WGCTL1_CMPUCTL3_Pos) /*!< PWM_T::WGCTL1: CMPUCTL3 Mask */
#define PWM_WGCTL1_CMPUCTL4_Pos (8) /*!< PWM_T::WGCTL1: CMPUCTL4 Position */
#define PWM_WGCTL1_CMPUCTL4_Msk (0x3ul << PWM_WGCTL1_CMPUCTL4_Pos) /*!< PWM_T::WGCTL1: CMPUCTL4 Mask */
#define PWM_WGCTL1_CMPUCTL5_Pos (10) /*!< PWM_T::WGCTL1: CMPUCTL5 Position */
#define PWM_WGCTL1_CMPUCTL5_Msk (0x3ul << PWM_WGCTL1_CMPUCTL5_Pos) /*!< PWM_T::WGCTL1: CMPUCTL5 Mask */
#define PWM_WGCTL1_CMPDCTL0_Pos (16) /*!< PWM_T::WGCTL1: CMPDCTL0 Position */
#define PWM_WGCTL1_CMPDCTL0_Msk (0x3ul << PWM_WGCTL1_CMPDCTL0_Pos) /*!< PWM_T::WGCTL1: CMPDCTL0 Mask */
#define PWM_WGCTL1_CMPDCTL1_Pos (18) /*!< PWM_T::WGCTL1: CMPDCTL1 Position */
#define PWM_WGCTL1_CMPDCTL1_Msk (0x3ul << PWM_WGCTL1_CMPDCTL1_Pos) /*!< PWM_T::WGCTL1: CMPDCTL1 Mask */
#define PWM_WGCTL1_CMPDCTL2_Pos (20) /*!< PWM_T::WGCTL1: CMPDCTL2 Position */
#define PWM_WGCTL1_CMPDCTL2_Msk (0x3ul << PWM_WGCTL1_CMPDCTL2_Pos) /*!< PWM_T::WGCTL1: CMPDCTL2 Mask */
#define PWM_WGCTL1_CMPDCTL3_Pos (22) /*!< PWM_T::WGCTL1: CMPDCTL3 Position */
#define PWM_WGCTL1_CMPDCTL3_Msk (0x3ul << PWM_WGCTL1_CMPDCTL3_Pos) /*!< PWM_T::WGCTL1: CMPDCTL3 Mask */
#define PWM_WGCTL1_CMPDCTL4_Pos (24) /*!< PWM_T::WGCTL1: CMPDCTL4 Position */
#define PWM_WGCTL1_CMPDCTL4_Msk (0x3ul << PWM_WGCTL1_CMPDCTL4_Pos) /*!< PWM_T::WGCTL1: CMPDCTL4 Mask */
#define PWM_WGCTL1_CMPDCTL5_Pos (26) /*!< PWM_T::WGCTL1: CMPDCTL5 Position */
#define PWM_WGCTL1_CMPDCTL5_Msk (0x3ul << PWM_WGCTL1_CMPDCTL5_Pos) /*!< PWM_T::WGCTL1: CMPDCTL5 Mask */
#define PWM_MSKEN_MSKEN0_Pos (0) /*!< PWM_T::MSKEN: MSKEN0 Position */
#define PWM_MSKEN_MSKEN0_Msk (0x1ul << PWM_MSKEN_MSKEN0_Pos) /*!< PWM_T::MSKEN: MSKEN0 Mask */
#define PWM_MSKEN_MSKEN1_Pos (1) /*!< PWM_T::MSKEN: MSKEN1 Position */
#define PWM_MSKEN_MSKEN1_Msk (0x1ul << PWM_MSKEN_MSKEN1_Pos) /*!< PWM_T::MSKEN: MSKEN1 Mask */
#define PWM_MSKEN_MSKEN2_Pos (2) /*!< PWM_T::MSKEN: MSKEN2 Position */
#define PWM_MSKEN_MSKEN2_Msk (0x1ul << PWM_MSKEN_MSKEN2_Pos) /*!< PWM_T::MSKEN: MSKEN2 Mask */
#define PWM_MSKEN_MSKEN3_Pos (3) /*!< PWM_T::MSKEN: MSKEN3 Position */
#define PWM_MSKEN_MSKEN3_Msk (0x1ul << PWM_MSKEN_MSKEN3_Pos) /*!< PWM_T::MSKEN: MSKEN3 Mask */
#define PWM_MSKEN_MSKEN4_Pos (4) /*!< PWM_T::MSKEN: MSKEN4 Position */
#define PWM_MSKEN_MSKEN4_Msk (0x1ul << PWM_MSKEN_MSKEN4_Pos) /*!< PWM_T::MSKEN: MSKEN4 Mask */
#define PWM_MSKEN_MSKEN5_Pos (5) /*!< PWM_T::MSKEN: MSKEN5 Position */
#define PWM_MSKEN_MSKEN5_Msk (0x1ul << PWM_MSKEN_MSKEN5_Pos) /*!< PWM_T::MSKEN: MSKEN5 Mask */
#define PWM_MSK_MSKDAT0_Pos (0) /*!< PWM_T::MSK: MSKDAT0 Position */
#define PWM_MSK_MSKDAT0_Msk (0x1ul << PWM_MSK_MSKDAT0_Pos) /*!< PWM_T::MSK: MSKDAT0 Mask */
#define PWM_MSK_MSKDAT1_Pos (1) /*!< PWM_T::MSK: MSKDAT1 Position */
#define PWM_MSK_MSKDAT1_Msk (0x1ul << PWM_MSK_MSKDAT1_Pos) /*!< PWM_T::MSK: MSKDAT1 Mask */
#define PWM_MSK_MSKDAT2_Pos (2) /*!< PWM_T::MSK: MSKDAT2 Position */
#define PWM_MSK_MSKDAT2_Msk (0x1ul << PWM_MSK_MSKDAT2_Pos) /*!< PWM_T::MSK: MSKDAT2 Mask */
#define PWM_MSK_MSKDAT3_Pos (3) /*!< PWM_T::MSK: MSKDAT3 Position */
#define PWM_MSK_MSKDAT3_Msk (0x1ul << PWM_MSK_MSKDAT3_Pos) /*!< PWM_T::MSK: MSKDAT3 Mask */
#define PWM_MSK_MSKDAT4_Pos (4) /*!< PWM_T::MSK: MSKDAT4 Position */
#define PWM_MSK_MSKDAT4_Msk (0x1ul << PWM_MSK_MSKDAT4_Pos) /*!< PWM_T::MSK: MSKDAT4 Mask */
#define PWM_MSK_MSKDAT5_Pos (5) /*!< PWM_T::MSK: MSKDAT5 Position */
#define PWM_MSK_MSKDAT5_Msk (0x1ul << PWM_MSK_MSKDAT5_Pos) /*!< PWM_T::MSK: MSKDAT5 Mask */
#define PWM_BNF_BRK0FEN_Pos (0) /*!< PWM_T::BNF: BRK0NFEN Position */
#define PWM_BNF_BRK0FEN_Msk (0x1ul << PWM_BNF_BRK0FEN_Pos) /*!< PWM_T::BNF: BRK0NFEN Mask */
#define PWM_BNF_BRK0NFSEL_Pos (1) /*!< PWM_T::BNF: BRK0NFSEL Position */
#define PWM_BNF_BRK0NFSEL_Msk (0x7ul << PWM_BNF_BRK0NFSEL_Pos) /*!< PWM_T::BNF: BRK0NFSEL Mask */
#define PWM_BNF_BRK0NFCNT_Pos (4) /*!< PWM_T::BNF: BRK0NFCNT Position */
#define PWM_BNF_BRK0NFCNT_Msk (0x7ul << PWM_BNF_BRK0NFCNT_Pos) /*!< PWM_T::BNF: BRK0NFCNT Mask */
#define PWM_BNF_BRK0PINV_Pos (7) /*!< PWM_T::BNF: BRK0PINV Position */
#define PWM_BNF_BRK0PINV_Msk (0x1ul << PWM_BNF_BRK0PINV_Pos) /*!< PWM_T::BNF: BRK0PINV Mask */
#define PWM_BNF_BRK1FEN_Pos (8) /*!< PWM_T::BNF: BRK1FEN Position */
#define PWM_BNF_BRK1FEN_Msk (0x1ul << PWM_BNF_BRK1FEN_Pos) /*!< PWM_T::BNF: BRK1FEN Mask */
#define PWM_BNF_BRK1NFSEL_Pos (9) /*!< PWM_T::BNF: BRK1NFSEL Position */
#define PWM_BNF_BRK1NFSEL_Msk (0x7ul << PWM_BNF_BRK1NFSEL_Pos) /*!< PWM_T::BNF: BRK1NFSEL Mask */
#define PWM_BNF_BRK1FCNT_Pos (12) /*!< PWM_T::BNF: BRK1FCNT Position */
#define PWM_BNF_BRK1FCNT_Msk (0x7ul << PWM_BNF_BRK1FCNT_Pos) /*!< PWM_T::BNF: BRK1FCNT Mask */
#define PWM_BNF_BRK1PINV_Pos (15) /*!< PWM_T::BNF: BRK1PINV Position */
#define PWM_BNF_BRK1PINV_Msk (0x1ul << PWM_BNF_BRK1PINV_Pos) /*!< PWM_T::BNF: BRK1PINV Mask */
#define PWM_BNF_BK0SRC_Pos (16) /*!< PWM_T::BNF: BK0SRC Position */
#define PWM_BNF_BK0SRC_Msk (0x1ul << PWM_BNF_BK0SRC_Pos) /*!< PWM_T::BNF: BK0SRC Mask */
#define PWM_BNF_BK1SRC_Pos (24) /*!< PWM_T::BNF: BK1SRC Position */
#define PWM_BNF_BK1SRC_Msk (0x1ul << PWM_BNF_BK1SRC_Pos) /*!< PWM_T::BNF: BK1SRC Mask */
#define PWM_FAILBRK_CSSBRKEN_Pos (0) /*!< PWM_T::FAILBRK: CSSBRKEN Position */
#define PWM_FAILBRK_CSSBRKEN_Msk (0x1ul << PWM_FAILBRK_CSSBRKEN_Pos) /*!< PWM_T::FAILBRK: CSSBRKEN Mask */
#define PWM_FAILBRK_BODBRKEN_Pos (1) /*!< PWM_T::FAILBRK: BODBRKEN Position */
#define PWM_FAILBRK_BODBRKEN_Msk (0x1ul << PWM_FAILBRK_BODBRKEN_Pos) /*!< PWM_T::FAILBRK: BODBRKEN Mask */
#define PWM_FAILBRK_CORBRKEN_Pos (3) /*!< PWM_T::FAILBRK: CORBRKEN Position */
#define PWM_FAILBRK_CORBRKEN_Msk (0x1ul << PWM_FAILBRK_CORBRKEN_Pos) /*!< PWM_T::FAILBRK: CORBRKEN Mask */
#define PWM_BRKCTL_CPO0EBEN_Pos (0) /*!< PWM_T::BRKCTL: CPO0EBEN Position */
#define PWM_BRKCTL_CPO0EBEN_Msk (0x1ul << PWM_BRKCTL_CPO0EBEN_Pos) /*!< PWM_T::BRKCTL: CPO0EBEN Mask */
#define PWM_BRKCTL_CPO1EBEN_Pos (1) /*!< PWM_T::BRKCTL: CPO1EBEN Position */
#define PWM_BRKCTL_CPO1EBEN_Msk (0x1ul << PWM_BRKCTL_CPO1EBEN_Pos) /*!< PWM_T::BRKCTL: CPO1EBEN Mask */
#define PWM_BRKCTL_BRKP0EEN_Pos (4) /*!< PWM_T::BRKCTL: BRKP0EEN Position */
#define PWM_BRKCTL_BRKP0EEN_Msk (0x1ul << PWM_BRKCTL_BRKP0EEN_Pos) /*!< PWM_T::BRKCTL: BRKP0EEN Mask */
#define PWM_BRKCTL_BRKP1EEN_Pos (5) /*!< PWM_T::BRKCTL: BRKP1EEN Position */
#define PWM_BRKCTL_BRKP1EEN_Msk (0x1ul << PWM_BRKCTL_BRKP1EEN_Pos) /*!< PWM_T::BRKCTL: BRKP1EEN Mask */
#define PWM_BRKCTL_SYSEBEN_Pos (7) /*!< PWM_T::BRKCTL: SYSEBEN Position */
#define PWM_BRKCTL_SYSEBEN_Msk (0x1ul << PWM_BRKCTL_SYSEBEN_Pos) /*!< PWM_T::BRKCTL: SYSEBEN Mask */
#define PWM_BRKCTL_CPO0LBEN_Pos (8) /*!< PWM_T::BRKCTL: CPO0LBEN Position */
#define PWM_BRKCTL_CPO0LBEN_Msk (0x1ul << PWM_BRKCTL_CPO0LBEN_Pos) /*!< PWM_T::BRKCTL: CPO0LBEN Mask */
#define PWM_BRKCTL_CPO1LBEN_Pos (9) /*!< PWM_T::BRKCTL: CPO1LBEN Position */
#define PWM_BRKCTL_CPO1LBEN_Msk (0x1ul << PWM_BRKCTL_CPO1LBEN_Pos) /*!< PWM_T::BRKCTL: CPO1LBEN Mask */
#define PWM_BRKCTL_BRKP0LEN_Pos (12) /*!< PWM_T::BRKCTL: BRKP0LEN Position */
#define PWM_BRKCTL_BRKP0LEN_Msk (0x1ul << PWM_BRKCTL_BRKP0LEN_Pos) /*!< PWM_T::BRKCTL: BRKP0LEN Mask */
#define PWM_BRKCTL_BRKP1LEN_Pos (13) /*!< PWM_T::BRKCTL: BRKP1LEN Position */
#define PWM_BRKCTL_BRKP1LEN_Msk (0x1ul << PWM_BRKCTL_BRKP1LEN_Pos) /*!< PWM_T::BRKCTL: BRKP1LEN Mask */
#define PWM_BRKCTL_SYSLBEN_Pos (15) /*!< PWM_T::BRKCTL: SYSLBEN Position */
#define PWM_BRKCTL_SYSLBEN_Msk (0x1ul << PWM_BRKCTL_SYSLBEN_Pos) /*!< PWM_T::BRKCTL: SYSLBEN Mask */
#define PWM_BRKCTL_BRKAEVEN_Pos (16) /*!< PWM_T::BRKCTL: BRKAEVEN Position */
#define PWM_BRKCTL_BRKAEVEN_Msk (0x3ul << PWM_BRKCTL_BRKAEVEN_Pos) /*!< PWM_T::BRKCTL: BRKAEVEN Mask */
#define PWM_BRKCTL_BRKAODD_Pos (18) /*!< PWM_T::BRKCTL: BRKAODD Position */
#define PWM_BRKCTL_BRKAODD_Msk (0x3ul << PWM_BRKCTL_BRKAODD_Pos) /*!< PWM_T::BRKCTL: BRKAODD Mask */
#define PWM_BRKCTL0_1_CPO0EBEN_Pos (0) /*!< PWM_T::BRKCTL0_1: CPO0EBEN Position */
#define PWM_BRKCTL0_1_CPO0EBEN_Msk (0x1ul << PWM_BRKCTL0_1_CPO0EBEN_Pos) /*!< PWM_T::BRKCTL0_1: CPO0EBEN Mask */
#define PWM_BRKCTL0_1_CPO1EBEN_Pos (1) /*!< PWM_T::BRKCTL0_1: CPO1EBEN Position */
#define PWM_BRKCTL0_1_CPO1EBEN_Msk (0x1ul << PWM_BRKCTL0_1_CPO1EBEN_Pos) /*!< PWM_T::BRKCTL0_1: CPO1EBEN Mask */
#define PWM_BRKCTL0_1_BRKP0EEN_Pos (4) /*!< PWM_T::BRKCTL0_1: BRKP0EEN Position */
#define PWM_BRKCTL0_1_BRKP0EEN_Msk (0x1ul << PWM_BRKCTL0_1_BRKP0EEN_Pos) /*!< PWM_T::BRKCTL0_1: BRKP0EEN Mask */
#define PWM_BRKCTL0_1_BRKP1EEN_Pos (5) /*!< PWM_T::BRKCTL0_1: BRKP1EEN Position */
#define PWM_BRKCTL0_1_BRKP1EEN_Msk (0x1ul << PWM_BRKCTL0_1_BRKP1EEN_Pos) /*!< PWM_T::BRKCTL0_1: BRKP1EEN Mask */
#define PWM_BRKCTL0_1_SYSEBEN_Pos (7) /*!< PWM_T::BRKCTL0_1: SYSEBEN Position */
#define PWM_BRKCTL0_1_SYSEBEN_Msk (0x1ul << PWM_BRKCTL0_1_SYSEBEN_Pos) /*!< PWM_T::BRKCTL0_1: SYSEBEN Mask */
#define PWM_BRKCTL0_1_CPO0LBEN_Pos (8) /*!< PWM_T::BRKCTL0_1: CPO0LBEN Position */
#define PWM_BRKCTL0_1_CPO0LBEN_Msk (0x1ul << PWM_BRKCTL0_1_CPO0LBEN_Pos) /*!< PWM_T::BRKCTL0_1: CPO0LBEN Mask */
#define PWM_BRKCTL0_1_CPO1LBEN_Pos (9) /*!< PWM_T::BRKCTL0_1: CPO1LBEN Position */
#define PWM_BRKCTL0_1_CPO1LBEN_Msk (0x1ul << PWM_BRKCTL0_1_CPO1LBEN_Pos) /*!< PWM_T::BRKCTL0_1: CPO1LBEN Mask */
#define PWM_BRKCTL0_1_BRKP0LEN_Pos (12) /*!< PWM_T::BRKCTL0_1: BRKP0LEN Position */
#define PWM_BRKCTL0_1_BRKP0LEN_Msk (0x1ul << PWM_BRKCTL0_1_BRKP0LEN_Pos) /*!< PWM_T::BRKCTL0_1: BRKP0LEN Mask */
#define PWM_BRKCTL0_1_BRKP1LEN_Pos (13) /*!< PWM_T::BRKCTL0_1: BRKP1LEN Position */
#define PWM_BRKCTL0_1_BRKP1LEN_Msk (0x1ul << PWM_BRKCTL0_1_BRKP1LEN_Pos) /*!< PWM_T::BRKCTL0_1: BRKP1LEN Mask */
#define PWM_BRKCTL0_1_SYSLBEN_Pos (15) /*!< PWM_T::BRKCTL0_1: SYSLBEN Position */
#define PWM_BRKCTL0_1_SYSLBEN_Msk (0x1ul << PWM_BRKCTL0_1_SYSLBEN_Pos) /*!< PWM_T::BRKCTL0_1: SYSLBEN Mask */
#define PWM_BRKCTL0_1_BRKAEVEN_Pos (16) /*!< PWM_T::BRKCTL0_1: BRKAEVEN Position */
#define PWM_BRKCTL0_1_BRKAEVEN_Msk (0x3ul << PWM_BRKCTL0_1_BRKAEVEN_Pos) /*!< PWM_T::BRKCTL0_1: BRKAEVEN Mask */
#define PWM_BRKCTL0_1_BRKAODD_Pos (18) /*!< PWM_T::BRKCTL0_1: BRKAODD Position */
#define PWM_BRKCTL0_1_BRKAODD_Msk (0x3ul << PWM_BRKCTL0_1_BRKAODD_Pos) /*!< PWM_T::BRKCTL0_1: BRKAODD Mask */
#define PWM_BRKCTL2_3_CPO0EBEN_Pos (0) /*!< PWM_T::BRKCTL2_3: CPO0EBEN Position */
#define PWM_BRKCTL2_3_CPO0EBEN_Msk (0x1ul << PWM_BRKCTL2_3_CPO0EBEN_Pos) /*!< PWM_T::BRKCTL2_3: CPO0EBEN Mask */
#define PWM_BRKCTL2_3_CPO1EBEN_Pos (1) /*!< PWM_T::BRKCTL2_3: CPO1EBEN Position */
#define PWM_BRKCTL2_3_CPO1EBEN_Msk (0x1ul << PWM_BRKCTL2_3_CPO1EBEN_Pos) /*!< PWM_T::BRKCTL2_3: CPO1EBEN Mask */
#define PWM_BRKCTL2_3_BRKP0EEN_Pos (4) /*!< PWM_T::BRKCTL2_3: BRKP0EEN Position */
#define PWM_BRKCTL2_3_BRKP0EEN_Msk (0x1ul << PWM_BRKCTL2_3_BRKP0EEN_Pos) /*!< PWM_T::BRKCTL2_3: BRKP0EEN Mask */
#define PWM_BRKCTL2_3_BRKP1EEN_Pos (5) /*!< PWM_T::BRKCTL2_3: BRKP1EEN Position */
#define PWM_BRKCTL2_3_BRKP1EEN_Msk (0x1ul << PWM_BRKCTL2_3_BRKP1EEN_Pos) /*!< PWM_T::BRKCTL2_3: BRKP1EEN Mask */
#define PWM_BRKCTL2_3_SYSEBEN_Pos (7) /*!< PWM_T::BRKCTL2_3: SYSEBEN Position */
#define PWM_BRKCTL2_3_SYSEBEN_Msk (0x1ul << PWM_BRKCTL2_3_SYSEBEN_Pos) /*!< PWM_T::BRKCTL2_3: SYSEBEN Mask */
#define PWM_BRKCTL2_3_CPO0LBEN_Pos (8) /*!< PWM_T::BRKCTL2_3: CPO0LBEN Position */
#define PWM_BRKCTL2_3_CPO0LBEN_Msk (0x1ul << PWM_BRKCTL2_3_CPO0LBEN_Pos) /*!< PWM_T::BRKCTL2_3: CPO0LBEN Mask */
#define PWM_BRKCTL2_3_CPO1LBEN_Pos (9) /*!< PWM_T::BRKCTL2_3: CPO1LBEN Position */
#define PWM_BRKCTL2_3_CPO1LBEN_Msk (0x1ul << PWM_BRKCTL2_3_CPO1LBEN_Pos) /*!< PWM_T::BRKCTL2_3: CPO1LBEN Mask */
#define PWM_BRKCTL2_3_BRKP0LEN_Pos (12) /*!< PWM_T::BRKCTL2_3: BRKP0LEN Position */
#define PWM_BRKCTL2_3_BRKP0LEN_Msk (0x1ul << PWM_BRKCTL2_3_BRKP0LEN_Pos) /*!< PWM_T::BRKCTL2_3: BRKP0LEN Mask */
#define PWM_BRKCTL2_3_BRKP1LEN_Pos (13) /*!< PWM_T::BRKCTL2_3: BRKP1LEN Position */
#define PWM_BRKCTL2_3_BRKP1LEN_Msk (0x1ul << PWM_BRKCTL2_3_BRKP1LEN_Pos) /*!< PWM_T::BRKCTL2_3: BRKP1LEN Mask */
#define PWM_BRKCTL2_3_SYSLBEN_Pos (15) /*!< PWM_T::BRKCTL2_3: SYSLBEN Position */
#define PWM_BRKCTL2_3_SYSLBEN_Msk (0x1ul << PWM_BRKCTL2_3_SYSLBEN_Pos) /*!< PWM_T::BRKCTL2_3: SYSLBEN Mask */
#define PWM_BRKCTL2_3_BRKAEVEN_Pos (16) /*!< PWM_T::BRKCTL2_3: BRKAEVEN Position */
#define PWM_BRKCTL2_3_BRKAEVEN_Msk (0x3ul << PWM_BRKCTL2_3_BRKAEVEN_Pos) /*!< PWM_T::BRKCTL2_3: BRKAEVEN Mask */
#define PWM_BRKCTL2_3_BRKAODD_Pos (18) /*!< PWM_T::BRKCTL2_3: BRKAODD Position */
#define PWM_BRKCTL2_3_BRKAODD_Msk (0x3ul << PWM_BRKCTL2_3_BRKAODD_Pos) /*!< PWM_T::BRKCTL2_3: BRKAODD Mask */
#define PWM_BRKCTL4_5_CPO0EBEN_Pos (0) /*!< PWM_T::BRKCTL4_5: CPO0EBEN Position */
#define PWM_BRKCTL4_5_CPO0EBEN_Msk (0x1ul << PWM_BRKCTL4_5_CPO0EBEN_Pos) /*!< PWM_T::BRKCTL4_5: CPO0EBEN Mask */
#define PWM_BRKCTL4_5_CPO1EBEN_Pos (1) /*!< PWM_T::BRKCTL4_5: CPO1EBEN Position */
#define PWM_BRKCTL4_5_CPO1EBEN_Msk (0x1ul << PWM_BRKCTL4_5_CPO1EBEN_Pos) /*!< PWM_T::BRKCTL4_5: CPO1EBEN Mask */
#define PWM_BRKCTL4_5_BRKP0EEN_Pos (4) /*!< PWM_T::BRKCTL4_5: BRKP0EEN Position */
#define PWM_BRKCTL4_5_BRKP0EEN_Msk (0x1ul << PWM_BRKCTL4_5_BRKP0EEN_Pos) /*!< PWM_T::BRKCTL4_5: BRKP0EEN Mask */
#define PWM_BRKCTL4_5_BRKP1EEN_Pos (5) /*!< PWM_T::BRKCTL4_5: BRKP1EEN Position */
#define PWM_BRKCTL4_5_BRKP1EEN_Msk (0x1ul << PWM_BRKCTL4_5_BRKP1EEN_Pos) /*!< PWM_T::BRKCTL4_5: BRKP1EEN Mask */
#define PWM_BRKCTL4_5_SYSEBEN_Pos (7) /*!< PWM_T::BRKCTL4_5: SYSEBEN Position */
#define PWM_BRKCTL4_5_SYSEBEN_Msk (0x1ul << PWM_BRKCTL4_5_SYSEBEN_Pos) /*!< PWM_T::BRKCTL4_5: SYSEBEN Mask */
#define PWM_BRKCTL4_5_CPO0LBEN_Pos (8) /*!< PWM_T::BRKCTL4_5: CPO0LBEN Position */
#define PWM_BRKCTL4_5_CPO0LBEN_Msk (0x1ul << PWM_BRKCTL4_5_CPO0LBEN_Pos) /*!< PWM_T::BRKCTL4_5: CPO0LBEN Mask */
#define PWM_BRKCTL4_5_CPO1LBEN_Pos (9) /*!< PWM_T::BRKCTL4_5: CPO1LBEN Position */
#define PWM_BRKCTL4_5_CPO1LBEN_Msk (0x1ul << PWM_BRKCTL4_5_CPO1LBEN_Pos) /*!< PWM_T::BRKCTL4_5: CPO1LBEN Mask */
#define PWM_BRKCTL4_5_BRKP0LEN_Pos (12) /*!< PWM_T::BRKCTL4_5: BRKP0LEN Position */
#define PWM_BRKCTL4_5_BRKP0LEN_Msk (0x1ul << PWM_BRKCTL4_5_BRKP0LEN_Pos) /*!< PWM_T::BRKCTL4_5: BRKP0LEN Mask */
#define PWM_BRKCTL4_5_BRKP1LEN_Pos (13) /*!< PWM_T::BRKCTL4_5: BRKP1LEN Position */
#define PWM_BRKCTL4_5_BRKP1LEN_Msk (0x1ul << PWM_BRKCTL4_5_BRKP1LEN_Pos) /*!< PWM_T::BRKCTL4_5: BRKP1LEN Mask */
#define PWM_BRKCTL4_5_SYSLBEN_Pos (15) /*!< PWM_T::BRKCTL4_5: SYSLBEN Position */
#define PWM_BRKCTL4_5_SYSLBEN_Msk (0x1ul << PWM_BRKCTL4_5_SYSLBEN_Pos) /*!< PWM_T::BRKCTL4_5: SYSLBEN Mask */
#define PWM_BRKCTL4_5_BRKAEVEN_Pos (16) /*!< PWM_T::BRKCTL4_5: BRKAEVEN Position */
#define PWM_BRKCTL4_5_BRKAEVEN_Msk (0x3ul << PWM_BRKCTL4_5_BRKAEVEN_Pos) /*!< PWM_T::BRKCTL4_5: BRKAEVEN Mask */
#define PWM_BRKCTL4_5_BRKAODD_Pos (18) /*!< PWM_T::BRKCTL4_5: BRKAODD Position */
#define PWM_BRKCTL4_5_BRKAODD_Msk (0x3ul << PWM_BRKCTL4_5_BRKAODD_Pos) /*!< PWM_T::BRKCTL4_5: BRKAODD Mask */
#define PWM_POLCTL_PINVn_Pos (0) /*!< PWM_T::POLCTL: PINVn Position */
#define PWM_POLCTL_PINVn_Msk (0x3ful << PWM_POLCTL_PINVn_Pos) /*!< PWM_T::POLCTL: PINVn Mask */
#define PWM_POLCTL_PINV0_Pos (0) /*!< PWM_T::POLCTL: PINV0 Position */
#define PWM_POLCTL_PINV0_Msk (0x1ul << PWM_POLCTL_PINV0_Pos) /*!< PWM_T::POLCTL: PINV0 Mask */
#define PWM_POLCTL_PINV1_Pos (1) /*!< PWM_T::POLCTL: PINV1 Position */
#define PWM_POLCTL_PINV1_Msk (0x1ul << PWM_POLCTL_PINV1_Pos) /*!< PWM_T::POLCTL: PINV1 Mask */
#define PWM_POLCTL_PINV2_Pos (2) /*!< PWM_T::POLCTL: PINV2 Position */
#define PWM_POLCTL_PINV2_Msk (0x1ul << PWM_POLCTL_PINV2_Pos) /*!< PWM_T::POLCTL: PINV2 Mask */
#define PWM_POLCTL_PINV3_Pos (3) /*!< PWM_T::POLCTL: PINV3 Position */
#define PWM_POLCTL_PINV3_Msk (0x1ul << PWM_POLCTL_PINV3_Pos) /*!< PWM_T::POLCTL: PINV3 Mask */
#define PWM_POLCTL_PINV4_Pos (4) /*!< PWM_T::POLCTL: PINV4 Position */
#define PWM_POLCTL_PINV4_Msk (0x1ul << PWM_POLCTL_PINV4_Pos) /*!< PWM_T::POLCTL: PINV4 Mask */
#define PWM_POLCTL_PINV5_Pos (5) /*!< PWM_T::POLCTL: PINV5 Position */
#define PWM_POLCTL_PINV5_Msk (0x1ul << PWM_POLCTL_PINV5_Pos) /*!< PWM_T::POLCTL: PINV5 Mask */
#define PWM_POEN_POENn_Pos (0) /*!< PWM_T::POEN: POENn Position */
#define PWM_POEN_POENn_Msk (0x3ful << PWM_POEN_POENn_Pos) /*!< PWM_T::POEN: POENn Mask */
#define PWM_POEN_POEN0_Pos (0) /*!< PWM_T::POEN: POEN0 Position */
#define PWM_POEN_POEN0_Msk (0x1ul << PWM_POEN_POEN0_Pos) /*!< PWM_T::POEN: POEN0 Mask */
#define PWM_POEN_POEN1_Pos (1) /*!< PWM_T::POEN: POEN1 Position */
#define PWM_POEN_POEN1_Msk (0x1ul << PWM_POEN_POEN1_Pos) /*!< PWM_T::POEN: POEN1 Mask */
#define PWM_POEN_POEN2_Pos (2) /*!< PWM_T::POEN: POEN2 Position */
#define PWM_POEN_POEN2_Msk (0x1ul << PWM_POEN_POEN2_Pos) /*!< PWM_T::POEN: POEN2 Mask */
#define PWM_POEN_POEN3_Pos (3) /*!< PWM_T::POEN: POEN3 Position */
#define PWM_POEN_POEN3_Msk (0x1ul << PWM_POEN_POEN3_Pos) /*!< PWM_T::POEN: POEN3 Mask */
#define PWM_POEN_POEN4_Pos (4) /*!< PWM_T::POEN: POEN4 Position */
#define PWM_POEN_POEN4_Msk (0x1ul << PWM_POEN_POEN4_Pos) /*!< PWM_T::POEN: POEN4 Mask */
#define PWM_POEN_POEN5_Pos (5) /*!< PWM_T::POEN: POEN5 Position */
#define PWM_POEN_POEN5_Msk (0x1ul << PWM_POEN_POEN5_Pos) /*!< PWM_T::POEN: POEN5 Mask */
#define PWM_SWBRK_BRKETRGn_Pos (0) /*!< PWM_T::SWBRK: BRKETRGn Position */
#define PWM_SWBRK_BRKETRGn_Msk (0x7ul << PWM_SWBRK_BRKETRGn_Pos) /*!< PWM_T::SWBRK: BRKETRGn Mask */
#define PWM_SWBRK_BRKETRG0_Pos (0) /*!< PWM_T::SWBRK: BRKETRG0 Position */
#define PWM_SWBRK_BRKETRG0_Msk (0x1ul << PWM_SWBRK_BRKETRG0_Pos) /*!< PWM_T::SWBRK: BRKETRG0 Mask */
#define PWM_SWBRK_BRKETRG2_Pos (1) /*!< PWM_T::SWBRK: BRKETRG2 Position */
#define PWM_SWBRK_BRKETRG2_Msk (0x1ul << PWM_SWBRK_BRKETRG2_Pos) /*!< PWM_T::SWBRK: BRKETRG2 Mask */
#define PWM_SWBRK_BRKETRG4_Pos (2) /*!< PWM_T::SWBRK: BRKETRG4 Position */
#define PWM_SWBRK_BRKETRG4_Msk (0x1ul << PWM_SWBRK_BRKETRG4_Pos) /*!< PWM_T::SWBRK: BRKETRG4 Mask */
#define PWM_SWBRK_BRKLTRGn_Pos (8) /*!< PWM_T::SWBRK: BRKLTRGn Position */
#define PWM_SWBRK_BRKLTRGn_Msk (0x7ul << PWM_SWBRK_BRKLTRGn_Pos) /*!< PWM_T::SWBRK: BRKLTRGn Mask */
#define PWM_SWBRK_BRKLTRG0_Pos (8) /*!< PWM_T::SWBRK: BRKLTRG0 Position */
#define PWM_SWBRK_BRKLTRG0_Msk (0x1ul << PWM_SWBRK_BRKLTRG0_Pos) /*!< PWM_T::SWBRK: BRKLTRG0 Mask */
#define PWM_SWBRK_BRKLTRG2_Pos (9) /*!< PWM_T::SWBRK: BRKLTRG2 Position */
#define PWM_SWBRK_BRKLTRG2_Msk (0x1ul << PWM_SWBRK_BRKLTRG2_Pos) /*!< PWM_T::SWBRK: BRKLTRG2 Mask */
#define PWM_SWBRK_BRKLTRG4_Pos (10) /*!< PWM_T::SWBRK: BRKLTRG4 Position */
#define PWM_SWBRK_BRKLTRG4_Msk (0x1ul << PWM_SWBRK_BRKLTRG4_Pos) /*!< PWM_T::SWBRK: BRKLTRG4 Mask */
#define PWM_INTEN0_ZIEN0_Pos (0) /*!< PWM_T::INTEN0: ZIEN0 Position */
#define PWM_INTEN0_ZIEN0_Msk (0x1ul << PWM_INTEN0_ZIEN0_Pos) /*!< PWM_T::INTEN0: ZIEN0 Mask */
#define PWM_INTEN0_ZIEN2_Pos (2) /*!< PWM_T::INTEN0: ZIEN2 Position */
#define PWM_INTEN0_ZIEN2_Msk (0x1ul << PWM_INTEN0_ZIEN2_Pos) /*!< PWM_T::INTEN0: ZIEN2 Mask */
#define PWM_INTEN0_ZIEN4_Pos (4) /*!< PWM_T::INTEN0: ZIEN4 Position */
#define PWM_INTEN0_ZIEN4_Msk (0x1ul << PWM_INTEN0_ZIEN4_Pos) /*!< PWM_T::INTEN0: ZIEN4 Mask */
#define PWM_INTEN0_PIEN0_Pos (8) /*!< PWM_T::INTEN0: PIEN0 Position */
#define PWM_INTEN0_PIEN0_Msk (0x1ul << PWM_INTEN0_PIEN0_Pos) /*!< PWM_T::INTEN0: PIEN0 Mask */
#define PWM_INTEN0_PIEN2_Pos (10) /*!< PWM_T::INTEN0: PIEN2 Position */
#define PWM_INTEN0_PIEN2_Msk (0x1ul << PWM_INTEN0_PIEN2_Pos) /*!< PWM_T::INTEN0: PIEN2 Mask */
#define PWM_INTEN0_PIEN4_Pos (12) /*!< PWM_T::INTEN0: PIEN4 Position */
#define PWM_INTEN0_PIEN4_Msk (0x1ul << PWM_INTEN0_PIEN4_Pos) /*!< PWM_T::INTEN0: PIEN4 Mask */
#define PWM_INTEN0_CMPUIENn_Pos (16) /*!< PWM_T::INTEN0: CMPUIENn Position */
#define PWM_INTEN0_CMPUIENn_Msk (0x3ful << PWM_INTEN0_CMPUIENn_Pos) /*!< PWM_T::INTEN0: CMPUIENn Mask */
#define PWM_INTEN0_CMPUIEN0_Pos (16) /*!< PWM_T::INTEN0: CMPUIEN0 Position */
#define PWM_INTEN0_CMPUIEN0_Msk (0x1ul << PWM_INTEN0_CMPUIEN0_Pos) /*!< PWM_T::INTEN0: CMPUIEN0 Mask */
#define PWM_INTEN0_CMPUIEN1_Pos (17) /*!< PWM_T::INTEN0: CMPUIEN1 Position */
#define PWM_INTEN0_CMPUIEN1_Msk (0x1ul << PWM_INTEN0_CMPUIEN1_Pos) /*!< PWM_T::INTEN0: CMPUIEN1 Mask */
#define PWM_INTEN0_CMPUIEN2_Pos (18) /*!< PWM_T::INTEN0: CMPUIEN2 Position */
#define PWM_INTEN0_CMPUIEN2_Msk (0x1ul << PWM_INTEN0_CMPUIEN2_Pos) /*!< PWM_T::INTEN0: CMPUIEN2 Mask */
#define PWM_INTEN0_CMPUIEN3_Pos (19) /*!< PWM_T::INTEN0: CMPUIEN3 Position */
#define PWM_INTEN0_CMPUIEN3_Msk (0x1ul << PWM_INTEN0_CMPUIEN3_Pos) /*!< PWM_T::INTEN0: CMPUIEN3 Mask */
#define PWM_INTEN0_CMPUIEN4_Pos (20) /*!< PWM_T::INTEN0: CMPUIEN4 Position */
#define PWM_INTEN0_CMPUIEN4_Msk (0x1ul << PWM_INTEN0_CMPUIEN4_Pos) /*!< PWM_T::INTEN0: CMPUIEN4 Mask */
#define PWM_INTEN0_CMPUIEN5_Pos (21) /*!< PWM_T::INTEN0: CMPUIEN5 Position */
#define PWM_INTEN0_CMPUIEN5_Msk (0x1ul << PWM_INTEN0_CMPUIEN5_Pos) /*!< PWM_T::INTEN0: CMPUIEN5 Mask */
#define PWM_INTEN0_CMPDIENn_Pos (24) /*!< PWM_T::INTEN0: CMPDIENn Position */
#define PWM_INTEN0_CMPDIENn_Msk (0x3ful << PWM_INTEN0_CMPDIENn_Pos) /*!< PWM_T::INTEN0: CMPDIENn Mask */
#define PWM_INTEN0_CMPDIEN0_Pos (24) /*!< PWM_T::INTEN0: CMPDIEN0 Position */
#define PWM_INTEN0_CMPDIEN0_Msk (0x1ul << PWM_INTEN0_CMPDIEN0_Pos) /*!< PWM_T::INTEN0: CMPDIEN0 Mask */
#define PWM_INTEN0_CMPDIEN1_Pos (25) /*!< PWM_T::INTEN0: CMPDIEN1 Position */
#define PWM_INTEN0_CMPDIEN1_Msk (0x1ul << PWM_INTEN0_CMPDIEN1_Pos) /*!< PWM_T::INTEN0: CMPDIEN1 Mask */
#define PWM_INTEN0_CMPDIEN2_Pos (26) /*!< PWM_T::INTEN0: CMPDIEN2 Position */
#define PWM_INTEN0_CMPDIEN2_Msk (0x1ul << PWM_INTEN0_CMPDIEN2_Pos) /*!< PWM_T::INTEN0: CMPDIEN2 Mask */
#define PWM_INTEN0_CMPDIEN3_Pos (27) /*!< PWM_T::INTEN0: CMPDIEN3 Position */
#define PWM_INTEN0_CMPDIEN3_Msk (0x1ul << PWM_INTEN0_CMPDIEN3_Pos) /*!< PWM_T::INTEN0: CMPDIEN3 Mask */
#define PWM_INTEN0_CMPDIEN4_Pos (28) /*!< PWM_T::INTEN0: CMPDIEN4 Position */
#define PWM_INTEN0_CMPDIEN4_Msk (0x1ul << PWM_INTEN0_CMPDIEN4_Pos) /*!< PWM_T::INTEN0: CMPDIEN4 Mask */
#define PWM_INTEN0_CMPDIEN5_Pos (29) /*!< PWM_T::INTEN0: CMPDIEN5 Position */
#define PWM_INTEN0_CMPDIEN5_Msk (0x1ul << PWM_INTEN0_CMPDIEN5_Pos) /*!< PWM_T::INTEN0: CMPDIEN5 Mask */
#define PWM_INTEN1_BRKEIEN0_1_Pos (0) /*!< PWM_T::INTEN1: BRKEIEN0_1 Position */
#define PWM_INTEN1_BRKEIEN0_1_Msk (0x1ul << PWM_INTEN1_BRKEIEN0_1_Pos) /*!< PWM_T::INTEN1: BRKEIEN0_1 Mask */
#define PWM_INTEN1_BRKEIEN2_3_Pos (1) /*!< PWM_T::INTEN1: BRKEIEN2_3 Position */
#define PWM_INTEN1_BRKEIEN2_3_Msk (0x1ul << PWM_INTEN1_BRKEIEN2_3_Pos) /*!< PWM_T::INTEN1: BRKEIEN2_3 Mask */
#define PWM_INTEN1_BRKEIEN4_5_Pos (2) /*!< PWM_T::INTEN1: BRKEIEN4_5 Position */
#define PWM_INTEN1_BRKEIEN4_5_Msk (0x1ul << PWM_INTEN1_BRKEIEN4_5_Pos) /*!< PWM_T::INTEN1: BRKEIEN4_5 Mask */
#define PWM_INTEN1_BRKLIEN0_1_Pos (8) /*!< PWM_T::INTEN1: BRKLIEN0_1 Position */
#define PWM_INTEN1_BRKLIEN0_1_Msk (0x1ul << PWM_INTEN1_BRKLIEN0_1_Pos) /*!< PWM_T::INTEN1: BRKLIEN0_1 Mask */
#define PWM_INTEN1_BRKLIEN2_3_Pos (9) /*!< PWM_T::INTEN1: BRKLIEN2_3 Position */
#define PWM_INTEN1_BRKLIEN2_3_Msk (0x1ul << PWM_INTEN1_BRKLIEN2_3_Pos) /*!< PWM_T::INTEN1: BRKLIEN2_3 Mask */
#define PWM_INTEN1_BRKLIEN4_5_Pos (10) /*!< PWM_T::INTEN1: BRKLIEN4_5 Position */
#define PWM_INTEN1_BRKLIEN4_5_Msk (0x1ul << PWM_INTEN1_BRKLIEN4_5_Pos) /*!< PWM_T::INTEN1: BRKLIEN4_5 Mask */
#define PWM_INTSTS0_ZIF0_Pos (0) /*!< PWM_T::INTSTS0: ZIF0 Position */
#define PWM_INTSTS0_ZIF0_Msk (0x1ul << PWM_INTSTS0_ZIF0_Pos) /*!< PWM_T::INTSTS0: ZIF0 Mask */
#define PWM_INTSTS0_ZIF2_Pos (2) /*!< PWM_T::INTSTS0: ZIF2 Position */
#define PWM_INTSTS0_ZIF2_Msk (0x1ul << PWM_INTSTS0_ZIF2_Pos) /*!< PWM_T::INTSTS0: ZIF2 Mask */
#define PWM_INTSTS0_ZIF4_Pos (4) /*!< PWM_T::INTSTS0: ZIF4 Position */
#define PWM_INTSTS0_ZIF4_Msk (0x1ul << PWM_INTSTS0_ZIF4_Pos) /*!< PWM_T::INTSTS0: ZIF4 Mask */
#define PWM_INTSTS0_PIF0_Pos (8) /*!< PWM_T::INTSTS0: PIF0 Position */
#define PWM_INTSTS0_PIF0_Msk (0x1ul << PWM_INTSTS0_PIF0_Pos) /*!< PWM_T::INTSTS0: PIF0 Mask */
#define PWM_INTSTS0_PIF2_Pos (10) /*!< PWM_T::INTSTS0: PIF2 Position */
#define PWM_INTSTS0_PIF2_Msk (0x1ul << PWM_INTSTS0_PIF2_Pos) /*!< PWM_T::INTSTS0: PIF2 Mask */
#define PWM_INTSTS0_PIF4_Pos (12) /*!< PWM_T::INTSTS0: PIF4 Position */
#define PWM_INTSTS0_PIF4_Msk (0x1ul << PWM_INTSTS0_PIF4_Pos) /*!< PWM_T::INTSTS0: PIF4 Mask */
#define PWM_INTSTS0_CMPUIFn_Pos (16) /*!< PWM_T::INTSTS0: CMPUIFn Position */
#define PWM_INTSTS0_CMPUIFn_Msk (0x3ful << PWM_INTSTS0_CMPUIFn_Pos) /*!< PWM_T::INTSTS0: CMPUIFn Mask */
#define PWM_INTSTS0_CMPUIF0_Pos (16) /*!< PWM_T::INTSTS0: CMPUIF0 Position */
#define PWM_INTSTS0_CMPUIF0_Msk (0x1ul << PWM_INTSTS0_CMPUIF0_Pos) /*!< PWM_T::INTSTS0: CMPUIF0 Mask */
#define PWM_INTSTS0_CMPUIF1_Pos (17) /*!< PWM_T::INTSTS0: CMPUIF1 Position */
#define PWM_INTSTS0_CMPUIF1_Msk (0x1ul << PWM_INTSTS0_CMPUIF1_Pos) /*!< PWM_T::INTSTS0: CMPUIF1 Mask */
#define PWM_INTSTS0_CMPUIF2_Pos (18) /*!< PWM_T::INTSTS0: CMPUIF2 Position */
#define PWM_INTSTS0_CMPUIF2_Msk (0x1ul << PWM_INTSTS0_CMPUIF2_Pos) /*!< PWM_T::INTSTS0: CMPUIF2 Mask */
#define PWM_INTSTS0_CMPUIF3_Pos (19) /*!< PWM_T::INTSTS0: CMPUIF3 Position */
#define PWM_INTSTS0_CMPUIF3_Msk (0x1ul << PWM_INTSTS0_CMPUIF3_Pos) /*!< PWM_T::INTSTS0: CMPUIF3 Mask */
#define PWM_INTSTS0_CMPUIF4_Pos (20) /*!< PWM_T::INTSTS0: CMPUIF4 Position */
#define PWM_INTSTS0_CMPUIF4_Msk (0x1ul << PWM_INTSTS0_CMPUIF4_Pos) /*!< PWM_T::INTSTS0: CMPUIF4 Mask */
#define PWM_INTSTS0_CMPUIF5_Pos (21) /*!< PWM_T::INTSTS0: CMPUIF5 Position */
#define PWM_INTSTS0_CMPUIF5_Msk (0x1ul << PWM_INTSTS0_CMPUIF5_Pos) /*!< PWM_T::INTSTS0: CMPUIF5 Mask */
#define PWM_INTSTS0_CMPDIFn_Pos (24) /*!< PWM_T::INTSTS0: CMPDIFn Position */
#define PWM_INTSTS0_CMPDIFn_Msk (0x3ful << PWM_INTSTS0_CMPDIFn_Pos) /*!< PWM_T::INTSTS0: CMPDIFn Mask */
#define PWM_INTSTS0_CMPDIF0_Pos (24) /*!< PWM_T::INTSTS0: CMPDIF0 Position */
#define PWM_INTSTS0_CMPDIF0_Msk (0x1ul << PWM_INTSTS0_CMPDIF0_Pos) /*!< PWM_T::INTSTS0: CMPDIF0 Mask */
#define PWM_INTSTS0_CMPDIF1_Pos (25) /*!< PWM_T::INTSTS0: CMPDIF1 Position */
#define PWM_INTSTS0_CMPDIF1_Msk (0x1ul << PWM_INTSTS0_CMPDIF1_Pos) /*!< PWM_T::INTSTS0: CMPDIF1 Mask */
#define PWM_INTSTS0_CMPDIF2_Pos (26) /*!< PWM_T::INTSTS0: CMPDIF2 Position */
#define PWM_INTSTS0_CMPDIF2_Msk (0x1ul << PWM_INTSTS0_CMPDIF2_Pos) /*!< PWM_T::INTSTS0: CMPDIF2 Mask */
#define PWM_INTSTS0_CMPDIF3_Pos (27) /*!< PWM_T::INTSTS0: CMPDIF3 Position */
#define PWM_INTSTS0_CMPDIF3_Msk (0x1ul << PWM_INTSTS0_CMPDIF3_Pos) /*!< PWM_T::INTSTS0: CMPDIF3 Mask */
#define PWM_INTSTS0_CMPDIF4_Pos (28) /*!< PWM_T::INTSTS0: CMPDIF4 Position */
#define PWM_INTSTS0_CMPDIF4_Msk (0x1ul << PWM_INTSTS0_CMPDIF4_Pos) /*!< PWM_T::INTSTS0: CMPDIF4 Mask */
#define PWM_INTSTS0_CMPDIF5_Pos (29) /*!< PWM_T::INTSTS0: CMPDIF5 Position */
#define PWM_INTSTS0_CMPDIF5_Msk (0x1ul << PWM_INTSTS0_CMPDIF5_Pos) /*!< PWM_T::INTSTS0: CMPDIF5 Mask */
#define PWM_INTSTS1_BRKEIF0_Pos (0) /*!< PWM_T::INTSTS1: BRKEIF0 Position */
#define PWM_INTSTS1_BRKEIF0_Msk (0x1ul << PWM_INTSTS1_BRKEIF0_Pos) /*!< PWM_T::INTSTS1: BRKEIF0 Mask */
#define PWM_INTSTS1_BRKEIF1_Pos (1) /*!< PWM_T::INTSTS1: BRKEIF1 Position */
#define PWM_INTSTS1_BRKEIF1_Msk (0x1ul << PWM_INTSTS1_BRKEIF1_Pos) /*!< PWM_T::INTSTS1: BRKEIF1 Mask */
#define PWM_INTSTS1_BRKEIF2_Pos (2) /*!< PWM_T::INTSTS1: BRKEIF2 Position */
#define PWM_INTSTS1_BRKEIF2_Msk (0x1ul << PWM_INTSTS1_BRKEIF2_Pos) /*!< PWM_T::INTSTS1: BRKEIF2 Mask */
#define PWM_INTSTS1_BRKEIF3_Pos (3) /*!< PWM_T::INTSTS1: BRKEIF3 Position */
#define PWM_INTSTS1_BRKEIF3_Msk (0x1ul << PWM_INTSTS1_BRKEIF3_Pos) /*!< PWM_T::INTSTS1: BRKEIF3 Mask */
#define PWM_INTSTS1_BRKEIF4_Pos (4) /*!< PWM_T::INTSTS1: BRKEIF4 Position */
#define PWM_INTSTS1_BRKEIF4_Msk (0x1ul << PWM_INTSTS1_BRKEIF4_Pos) /*!< PWM_T::INTSTS1: BRKEIF4 Mask */
#define PWM_INTSTS1_BRKEIF5_Pos (5) /*!< PWM_T::INTSTS1: BRKEIF5 Position */
#define PWM_INTSTS1_BRKEIF5_Msk (0x1ul << PWM_INTSTS1_BRKEIF5_Pos) /*!< PWM_T::INTSTS1: BRKEIF5 Mask */
#define PWM_INTSTS1_BRKLIF0_Pos (8) /*!< PWM_T::INTSTS1: BRKLIF0 Position */
#define PWM_INTSTS1_BRKLIF0_Msk (0x1ul << PWM_INTSTS1_BRKLIF0_Pos) /*!< PWM_T::INTSTS1: BRKLIF0 Mask */
#define PWM_INTSTS1_BRKLIF1_Pos (9) /*!< PWM_T::INTSTS1: BRKLIF1 Position */
#define PWM_INTSTS1_BRKLIF1_Msk (0x1ul << PWM_INTSTS1_BRKLIF1_Pos) /*!< PWM_T::INTSTS1: BRKLIF1 Mask */
#define PWM_INTSTS1_BRKLIF2_Pos (10) /*!< PWM_T::INTSTS1: BRKLIF2 Position */
#define PWM_INTSTS1_BRKLIF2_Msk (0x1ul << PWM_INTSTS1_BRKLIF2_Pos) /*!< PWM_T::INTSTS1: BRKLIF2 Mask */
#define PWM_INTSTS1_BRKLIF3_Pos (11) /*!< PWM_T::INTSTS1: BRKLIF3 Position */
#define PWM_INTSTS1_BRKLIF3_Msk (0x1ul << PWM_INTSTS1_BRKLIF3_Pos) /*!< PWM_T::INTSTS1: BRKLIF3 Mask */
#define PWM_INTSTS1_BRKLIF4_Pos (12) /*!< PWM_T::INTSTS1: BRKLIF4 Position */
#define PWM_INTSTS1_BRKLIF4_Msk (0x1ul << PWM_INTSTS1_BRKLIF4_Pos) /*!< PWM_T::INTSTS1: BRKLIF4 Mask */
#define PWM_INTSTS1_BRKLIF5_Pos (13) /*!< PWM_T::INTSTS1: BRKLIF5 Position */
#define PWM_INTSTS1_BRKLIF5_Msk (0x1ul << PWM_INTSTS1_BRKLIF5_Pos) /*!< PWM_T::INTSTS1: BRKLIF5 Mask */
#define PWM_INTSTS1_BRKESTS0_Pos (16) /*!< PWM_T::INTSTS1: BRKESTS0 Position */
#define PWM_INTSTS1_BRKESTS0_Msk (0x1ul << PWM_INTSTS1_BRKESTS0_Pos) /*!< PWM_T::INTSTS1: BRKESTS0 Mask */
#define PWM_INTSTS1_BRKESTS1_Pos (17) /*!< PWM_T::INTSTS1: BRKESTS1 Position */
#define PWM_INTSTS1_BRKESTS1_Msk (0x1ul << PWM_INTSTS1_BRKESTS1_Pos) /*!< PWM_T::INTSTS1: BRKESTS1 Mask */
#define PWM_INTSTS1_BRKESTS2_Pos (18) /*!< PWM_T::INTSTS1: BRKESTS2 Position */
#define PWM_INTSTS1_BRKESTS2_Msk (0x1ul << PWM_INTSTS1_BRKESTS2_Pos) /*!< PWM_T::INTSTS1: BRKESTS2 Mask */
#define PWM_INTSTS1_BRKESTS3_Pos (19) /*!< PWM_T::INTSTS1: BRKESTS3 Position */
#define PWM_INTSTS1_BRKESTS3_Msk (0x1ul << PWM_INTSTS1_BRKESTS3_Pos) /*!< PWM_T::INTSTS1: BRKESTS3 Mask */
#define PWM_INTSTS1_BRKESTS4_Pos (20) /*!< PWM_T::INTSTS1: BRKESTS4 Position */
#define PWM_INTSTS1_BRKESTS4_Msk (0x1ul << PWM_INTSTS1_BRKESTS4_Pos) /*!< PWM_T::INTSTS1: BRKESTS4 Mask */
#define PWM_INTSTS1_BRKESTS5_Pos (21) /*!< PWM_T::INTSTS1: BRKESTS5 Position */
#define PWM_INTSTS1_BRKESTS5_Msk (0x1ul << PWM_INTSTS1_BRKESTS5_Pos) /*!< PWM_T::INTSTS1: BRKESTS5 Mask */
#define PWM_INTSTS1_BRKLSTS0_Pos (24) /*!< PWM_T::INTSTS1: BRKLSTS0 Position */
#define PWM_INTSTS1_BRKLSTS0_Msk (0x1ul << PWM_INTSTS1_BRKLSTS0_Pos) /*!< PWM_T::INTSTS1: BRKLSTS0 Mask */
#define PWM_INTSTS1_BRKLSTS1_Pos (25) /*!< PWM_T::INTSTS1: BRKLSTS1 Position */
#define PWM_INTSTS1_BRKLSTS1_Msk (0x1ul << PWM_INTSTS1_BRKLSTS1_Pos) /*!< PWM_T::INTSTS1: BRKLSTS1 Mask */
#define PWM_INTSTS1_BRKLSTS2_Pos (26) /*!< PWM_T::INTSTS1: BRKLSTS2 Position */
#define PWM_INTSTS1_BRKLSTS2_Msk (0x1ul << PWM_INTSTS1_BRKLSTS2_Pos) /*!< PWM_T::INTSTS1: BRKLSTS2 Mask */
#define PWM_INTSTS1_BRKLSTS3_Pos (27) /*!< PWM_T::INTSTS1: BRKLSTS3 Position */
#define PWM_INTSTS1_BRKLSTS3_Msk (0x1ul << PWM_INTSTS1_BRKLSTS3_Pos) /*!< PWM_T::INTSTS1: BRKLSTS3 Mask */
#define PWM_INTSTS1_BRKLSTS4_Pos (28) /*!< PWM_T::INTSTS1: BRKLSTS4 Position */
#define PWM_INTSTS1_BRKLSTS4_Msk (0x1ul << PWM_INTSTS1_BRKLSTS4_Pos) /*!< PWM_T::INTSTS1: BRKLSTS4 Mask */
#define PWM_INTSTS1_BRKLSTS5_Pos (29) /*!< PWM_T::INTSTS1: BRKLSTS5 Position */
#define PWM_INTSTS1_BRKLSTS5_Msk (0x1ul << PWM_INTSTS1_BRKLSTS5_Pos) /*!< PWM_T::INTSTS1: BRKLSTS5 Mask */
#define PWM_EADCTS0_TRGSEL0_Pos (0) /*!< PWM_T::EADCTS0: TRGSEL0 Position */
#define PWM_EADCTS0_TRGSEL0_Msk (0xful << PWM_EADCTS0_TRGSEL0_Pos) /*!< PWM_T::EADCTS0: TRGSEL0 Mask */
#define PWM_EADCTS0_TRGEN0_Pos (7) /*!< PWM_T::EADCTS0: TRGEN0 Position */
#define PWM_EADCTS0_TRGEN0_Msk (0x1ul << PWM_EADCTS0_TRGEN0_Pos) /*!< PWM_T::EADCTS0: TRGEN0 Mask */
#define PWM_EADCTS0_TRGSEL1_Pos (8) /*!< PWM_T::EADCTS0: TRGSEL1 Position */
#define PWM_EADCTS0_TRGSEL1_Msk (0xful << PWM_EADCTS0_TRGSEL1_Pos) /*!< PWM_T::EADCTS0: TRGSEL1 Mask */
#define PWM_EADCTS0_TRGEN1_Pos (15) /*!< PWM_T::EADCTS0: TRGEN1 Position */
#define PWM_EADCTS0_TRGEN1_Msk (0x1ul << PWM_EADCTS0_TRGEN1_Pos) /*!< PWM_T::EADCTS0: TRGEN1 Mask */
#define PWM_EADCTS0_TRGSEL2_Pos (16) /*!< PWM_T::EADCTS0: TRGSEL2 Position */
#define PWM_EADCTS0_TRGSEL2_Msk (0xful << PWM_EADCTS0_TRGSEL2_Pos) /*!< PWM_T::EADCTS0: TRGSEL2 Mask */
#define PWM_EADCTS0_TRGEN2_Pos (23) /*!< PWM_T::EADCTS0: TRGEN2 Position */
#define PWM_EADCTS0_TRGEN2_Msk (0x1ul << PWM_EADCTS0_TRGEN2_Pos) /*!< PWM_T::EADCTS0: TRGEN2 Mask */
#define PWM_EADCTS0_TRGSEL3_Pos (24) /*!< PWM_T::EADCTS0: TRGSEL3 Position */
#define PWM_EADCTS0_TRGSEL3_Msk (0xful << PWM_EADCTS0_TRGSEL3_Pos) /*!< PWM_T::EADCTS0: TRGSEL3 Mask */
#define PWM_EADCTS0_TRGEN3_Pos (31) /*!< PWM_T::EADCTS0: TRGEN3 Position */
#define PWM_EADCTS0_TRGEN3_Msk (0x1ul << PWM_EADCTS0_TRGEN3_Pos) /*!< PWM_T::EADCTS0: TRGEN3 Mask */
#define PWM_EADCTS1_TRGSEL4_Pos (0) /*!< PWM_T::EADCTS1: TRGSEL4 Position */
#define PWM_EADCTS1_TRGSEL4_Msk (0xful << PWM_EADCTS1_TRGSEL4_Pos) /*!< PWM_T::EADCTS1: TRGSEL4 Mask */
#define PWM_EADCTS1_TRGEN4_Pos (7) /*!< PWM_T::EADCTS1: TRGEN4 Position */
#define PWM_EADCTS1_TRGEN4_Msk (0x1ul << PWM_EADCTS1_TRGEN4_Pos) /*!< PWM_T::EADCTS1: TRGEN4 Mask */
#define PWM_EADCTS1_TRGSEL5_Pos (8) /*!< PWM_T::EADCTS1: TRGSEL5 Position */
#define PWM_EADCTS1_TRGSEL5_Msk (0xful << PWM_EADCTS1_TRGSEL5_Pos) /*!< PWM_T::EADCTS1: TRGSEL5 Mask */
#define PWM_EADCTS1_TRGEN5_Pos (15) /*!< PWM_T::EADCTS1: TRGEN5 Position */
#define PWM_EADCTS1_TRGEN5_Msk (0x1ul << PWM_EADCTS1_TRGEN5_Pos) /*!< PWM_T::EADCTS1: TRGEN5 Mask */
#define PWM_SSCTL_SSEN0_Pos (0) /*!< PWM_T::SSCTL: SSEN0 Position */
#define PWM_SSCTL_SSEN0_Msk (0x1ul << PWM_SSCTL_SSEN0_Pos) /*!< PWM_T::SSCTL: SSEN0 Mask */
#define PWM_SSCTL_SSEN2_Pos (2) /*!< PWM_T::SSCTL: SSEN2 Position */
#define PWM_SSCTL_SSEN2_Msk (0x1ul << PWM_SSCTL_SSEN2_Pos) /*!< PWM_T::SSCTL: SSEN2 Mask */
#define PWM_SSCTL_SSEN4_Pos (4) /*!< PWM_T::SSCTL: SSEN4 Position */
#define PWM_SSCTL_SSEN4_Msk (0x1ul << PWM_SSCTL_SSEN4_Pos) /*!< PWM_T::SSCTL: SSEN4 Mask */
#define PWM_SSCTL_SSRC_Pos (8) /*!< PWM_T::SSCTL: SSRC Position */
#define PWM_SSCTL_SSRC_Msk (0x3ul << PWM_SSCTL_SSRC_Pos) /*!< PWM_T::SSCTL: SSRC Mask */
#define PWM_SSTRG_CNTSEN_Pos (0) /*!< PWM_T::SSTRG: CNTSEN Position */
#define PWM_SSTRG_CNTSEN_Msk (0x1ul << PWM_SSTRG_CNTSEN_Pos) /*!< PWM_T::SSTRG: CNTSEN Mask */
#define PWM_STATUS_CNTMAX0_Pos (0) /*!< PWM_T::STATUS: CNTMAX0 Position */
#define PWM_STATUS_CNTMAX0_Msk (0x1ul << PWM_STATUS_CNTMAX0_Pos) /*!< PWM_T::STATUS: CNTMAX0 Mask */
#define PWM_STATUS_CNTMAX2_Pos (2) /*!< PWM_T::STATUS: CNTMAX2 Position */
#define PWM_STATUS_CNTMAX2_Msk (0x1ul << PWM_STATUS_CNTMAX2_Pos) /*!< PWM_T::STATUS: CNTMAX2 Mask */
#define PWM_STATUS_CNTMAX4_Pos (4) /*!< PWM_T::STATUS: CNTMAX4 Position */
#define PWM_STATUS_CNTMAX4_Msk (0x1ul << PWM_STATUS_CNTMAX4_Pos) /*!< PWM_T::STATUS: CNTMAX4 Mask */
#define PWM_STATUS_EADCTRGn_Pos (16) /*!< PWM_T::STATUS: EADCTRGn Position */
#define PWM_STATUS_EADCTRGn_Msk (0x3ful << PWM_STATUS_EADCTRGn_Pos) /*!< PWM_T::STATUS: EADCTRGn Mask */
#define PWM_STATUS_EADCTRG0_Pos (16) /*!< PWM_T::STATUS: EADCTRG0 Position */
#define PWM_STATUS_EADCTRG0_Msk (0x1ul << PWM_STATUS_EADCTRG0_Pos) /*!< PWM_T::STATUS: EADCTRG0 Mask */
#define PWM_STATUS_EADCTRG1_Pos (17) /*!< PWM_T::STATUS: EADCTRG1 Position */
#define PWM_STATUS_EADCTRG1_Msk (0x1ul << PWM_STATUS_EADCTRG1_Pos) /*!< PWM_T::STATUS: EADCTRG1 Mask */
#define PWM_STATUS_EADCTRG2_Pos (18) /*!< PWM_T::STATUS: EADCTRG2 Position */
#define PWM_STATUS_EADCTRG2_Msk (0x1ul << PWM_STATUS_EADCTRG2_Pos) /*!< PWM_T::STATUS: EADCTRG2 Mask */
#define PWM_STATUS_EADCTRG3_Pos (19) /*!< PWM_T::STATUS: EADCTRG3 Position */
#define PWM_STATUS_EADCTRG3_Msk (0x1ul << PWM_STATUS_EADCTRG3_Pos) /*!< PWM_T::STATUS: EADCTRG3 Mask */
#define PWM_STATUS_EADCTRG4_Pos (20) /*!< PWM_T::STATUS: EADCTRG4 Position */
#define PWM_STATUS_EADCTRG4_Msk (0x1ul << PWM_STATUS_EADCTRG4_Pos) /*!< PWM_T::STATUS: EADCTRG4 Mask */
#define PWM_STATUS_EADCTRG5_Pos (21) /*!< PWM_T::STATUS: EADCTRG5 Position */
#define PWM_STATUS_EADCTRG5_Msk (0x1ul << PWM_STATUS_EADCTRG5_Pos) /*!< PWM_T::STATUS: EADCTRG5 Mask */
#define PWM_CAPINEN_CAPINENn_Pos (0) /*!< PWM_T::CAPINEN: CAPINENn Position */
#define PWM_CAPINEN_CAPINENn_Msk (0x3ful << PWM_CAPINEN_CAPINENn_Pos) /*!< PWM_T::CAPINEN: CAPINENn Mask */
#define PWM_CAPINEN_CAPINEN0_Pos (0) /*!< PWM_T::CAPINEN: CAPINEN0 Position */
#define PWM_CAPINEN_CAPINEN0_Msk (0x1ul << PWM_CAPINEN_CAPINEN0_Pos) /*!< PWM_T::CAPINEN: CAPINEN0 Mask */
#define PWM_CAPINEN_CAPINEN1_Pos (1) /*!< PWM_T::CAPINEN: CAPINEN1 Position */
#define PWM_CAPINEN_CAPINEN1_Msk (0x1ul << PWM_CAPINEN_CAPINEN1_Pos) /*!< PWM_T::CAPINEN: CAPINEN1 Mask */
#define PWM_CAPINEN_CAPINEN2_Pos (2) /*!< PWM_T::CAPINEN: CAPINEN2 Position */
#define PWM_CAPINEN_CAPINEN2_Msk (0x1ul << PWM_CAPINEN_CAPINEN2_Pos) /*!< PWM_T::CAPINEN: CAPINEN2 Mask */
#define PWM_CAPINEN_CAPINEN3_Pos (3) /*!< PWM_T::CAPINEN: CAPINEN3 Position */
#define PWM_CAPINEN_CAPINEN3_Msk (0x1ul << PWM_CAPINEN_CAPINEN3_Pos) /*!< PWM_T::CAPINEN: CAPINEN3 Mask */
#define PWM_CAPINEN_CAPINEN4_Pos (4) /*!< PWM_T::CAPINEN: CAPINEN4 Position */
#define PWM_CAPINEN_CAPINEN4_Msk (0x1ul << PWM_CAPINEN_CAPINEN4_Pos) /*!< PWM_T::CAPINEN: CAPINEN4 Mask */
#define PWM_CAPINEN_CAPINEN5_Pos (5) /*!< PWM_T::CAPINEN: CAPINEN5 Position */
#define PWM_CAPINEN_CAPINEN5_Msk (0x1ul << PWM_CAPINEN_CAPINEN5_Pos) /*!< PWM_T::CAPINEN: CAPINEN5 Mask */
#define PWM_CAPCTL_CAPENn_Pos (0) /*!< PWM_T::CAPCTL: CAPENn Position */
#define PWM_CAPCTL_CAPENn_Msk (0x3ful << PWM_CAPCTL_CAPENn_Pos) /*!< PWM_T::CAPCTL: CAPENn Mask */
#define PWM_CAPCTL_CAPEN0_Pos (0) /*!< PWM_T::CAPCTL: CAPEN0 Position */
#define PWM_CAPCTL_CAPEN0_Msk (0x1ul << PWM_CAPCTL_CAPEN0_Pos) /*!< PWM_T::CAPCTL: CAPEN0 Mask */
#define PWM_CAPCTL_CAPEN1_Pos (1) /*!< PWM_T::CAPCTL: CAPEN1 Position */
#define PWM_CAPCTL_CAPEN1_Msk (0x1ul << PWM_CAPCTL_CAPEN1_Pos) /*!< PWM_T::CAPCTL: CAPEN1 Mask */
#define PWM_CAPCTL_CAPEN2_Pos (2) /*!< PWM_T::CAPCTL: CAPEN2 Position */
#define PWM_CAPCTL_CAPEN2_Msk (0x1ul << PWM_CAPCTL_CAPEN2_Pos) /*!< PWM_T::CAPCTL: CAPEN2 Mask */
#define PWM_CAPCTL_CAPEN3_Pos (3) /*!< PWM_T::CAPCTL: CAPEN3 Position */
#define PWM_CAPCTL_CAPEN3_Msk (0x1ul << PWM_CAPCTL_CAPEN3_Pos) /*!< PWM_T::CAPCTL: CAPEN3 Mask */
#define PWM_CAPCTL_CAPEN4_Pos (4) /*!< PWM_T::CAPCTL: CAPEN4 Position */
#define PWM_CAPCTL_CAPEN4_Msk (0x1ul << PWM_CAPCTL_CAPEN4_Pos) /*!< PWM_T::CAPCTL: CAPEN4 Mask */
#define PWM_CAPCTL_CAPEN5_Pos (5) /*!< PWM_T::CAPCTL: CAPEN5 Position */
#define PWM_CAPCTL_CAPEN5_Msk (0x1ul << PWM_CAPCTL_CAPEN5_Pos) /*!< PWM_T::CAPCTL: CAPEN5 Mask */
#define PWM_CAPCTL_CAPINVn_Pos (8) /*!< PWM_T::CAPCTL: CAPINVn Position */
#define PWM_CAPCTL_CAPINVn_Msk (0x3ful << PWM_CAPCTL_CAPINVn_Pos) /*!< PWM_T::CAPCTL: CAPINVn Mask */
#define PWM_CAPCTL_CAPINV0_Pos (8) /*!< PWM_T::CAPCTL: CAPINV0 Position */
#define PWM_CAPCTL_CAPINV0_Msk (0x1ul << PWM_CAPCTL_CAPINV0_Pos) /*!< PWM_T::CAPCTL: CAPINV0 Mask */
#define PWM_CAPCTL_CAPINV1_Pos (9) /*!< PWM_T::CAPCTL: CAPINV1 Position */
#define PWM_CAPCTL_CAPINV1_Msk (0x1ul << PWM_CAPCTL_CAPINV1_Pos) /*!< PWM_T::CAPCTL: CAPINV1 Mask */
#define PWM_CAPCTL_CAPINV2_Pos (10) /*!< PWM_T::CAPCTL: CAPINV2 Position */
#define PWM_CAPCTL_CAPINV2_Msk (0x1ul << PWM_CAPCTL_CAPINV2_Pos) /*!< PWM_T::CAPCTL: CAPINV2 Mask */
#define PWM_CAPCTL_CAPINV3_Pos (11) /*!< PWM_T::CAPCTL: CAPINV3 Position */
#define PWM_CAPCTL_CAPINV3_Msk (0x1ul << PWM_CAPCTL_CAPINV3_Pos) /*!< PWM_T::CAPCTL: CAPINV3 Mask */
#define PWM_CAPCTL_CAPINV4_Pos (12) /*!< PWM_T::CAPCTL: CAPINV4 Position */
#define PWM_CAPCTL_CAPINV4_Msk (0x1ul << PWM_CAPCTL_CAPINV4_Pos) /*!< PWM_T::CAPCTL: CAPINV4 Mask */
#define PWM_CAPCTL_CAPINV5_Pos (13) /*!< PWM_T::CAPCTL: CAPINV5 Position */
#define PWM_CAPCTL_CAPINV5_Msk (0x1ul << PWM_CAPCTL_CAPINV5_Pos) /*!< PWM_T::CAPCTL: CAPINV5 Mask */
#define PWM_CAPCTL_RCRLDENn_Pos (16) /*!< PWM_T::CAPCTL: RCRLDENn Position */
#define PWM_CAPCTL_RCRLDENn_Msk (0x3ful << PWM_CAPCTL_RCRLDENn_Pos) /*!< PWM_T::CAPCTL: RCRLDENn Mask */
#define PWM_CAPCTL_RCRLDEN0_Pos (16) /*!< PWM_T::CAPCTL: RCRLDEN0 Position */
#define PWM_CAPCTL_RCRLDEN0_Msk (0x1ul << PWM_CAPCTL_RCRLDEN0_Pos) /*!< PWM_T::CAPCTL: RCRLDEN0 Mask */
#define PWM_CAPCTL_RCRLDEN1_Pos (17) /*!< PWM_T::CAPCTL: RCRLDEN1 Position */
#define PWM_CAPCTL_RCRLDEN1_Msk (0x1ul << PWM_CAPCTL_RCRLDEN1_Pos) /*!< PWM_T::CAPCTL: RCRLDEN1 Mask */
#define PWM_CAPCTL_RCRLDEN2_Pos (18) /*!< PWM_T::CAPCTL: RCRLDEN2 Position */
#define PWM_CAPCTL_RCRLDEN2_Msk (0x1ul << PWM_CAPCTL_RCRLDEN2_Pos) /*!< PWM_T::CAPCTL: RCRLDEN2 Mask */
#define PWM_CAPCTL_RCRLDEN3_Pos (19) /*!< PWM_T::CAPCTL: RCRLDEN3 Position */
#define PWM_CAPCTL_RCRLDEN3_Msk (0x1ul << PWM_CAPCTL_RCRLDEN3_Pos) /*!< PWM_T::CAPCTL: RCRLDEN3 Mask */
#define PWM_CAPCTL_RCRLDEN4_Pos (20) /*!< PWM_T::CAPCTL: RCRLDEN4 Position */
#define PWM_CAPCTL_RCRLDEN4_Msk (0x1ul << PWM_CAPCTL_RCRLDEN4_Pos) /*!< PWM_T::CAPCTL: RCRLDEN4 Mask */
#define PWM_CAPCTL_RCRLDEN5_Pos (21) /*!< PWM_T::CAPCTL: RCRLDEN5 Position */
#define PWM_CAPCTL_RCRLDEN5_Msk (0x1ul << PWM_CAPCTL_RCRLDEN5_Pos) /*!< PWM_T::CAPCTL: RCRLDEN5 Mask */
#define PWM_CAPCTL_FCRLDENn_Pos (24) /*!< PWM_T::CAPCTL: FCRLDENn Position */
#define PWM_CAPCTL_FCRLDENn_Msk (0x3ful << PWM_CAPCTL_FCRLDENn_Pos) /*!< PWM_T::CAPCTL: FCRLDENn Mask */
#define PWM_CAPCTL_FCRLDEN0_Pos (24) /*!< PWM_T::CAPCTL: FCRLDEN0 Position */
#define PWM_CAPCTL_FCRLDEN0_Msk (0x1ul << PWM_CAPCTL_FCRLDEN0_Pos) /*!< PWM_T::CAPCTL: FCRLDEN0 Mask */
#define PWM_CAPCTL_FCRLDEN1_Pos (25) /*!< PWM_T::CAPCTL: FCRLDEN1 Position */
#define PWM_CAPCTL_FCRLDEN1_Msk (0x1ul << PWM_CAPCTL_FCRLDEN1_Pos) /*!< PWM_T::CAPCTL: FCRLDEN1 Mask */
#define PWM_CAPCTL_FCRLDEN2_Pos (26) /*!< PWM_T::CAPCTL: FCRLDEN2 Position */
#define PWM_CAPCTL_FCRLDEN2_Msk (0x1ul << PWM_CAPCTL_FCRLDEN2_Pos) /*!< PWM_T::CAPCTL: FCRLDEN2 Mask */
#define PWM_CAPCTL_FCRLDEN3_Pos (27) /*!< PWM_T::CAPCTL: FCRLDEN3 Position */
#define PWM_CAPCTL_FCRLDEN3_Msk (0x1ul << PWM_CAPCTL_FCRLDEN3_Pos) /*!< PWM_T::CAPCTL: FCRLDEN3 Mask */
#define PWM_CAPCTL_FCRLDEN4_Pos (28) /*!< PWM_T::CAPCTL: FCRLDEN4 Position */
#define PWM_CAPCTL_FCRLDEN4_Msk (0x1ul << PWM_CAPCTL_FCRLDEN4_Pos) /*!< PWM_T::CAPCTL: FCRLDEN4 Mask */
#define PWM_CAPCTL_FCRLDEN5_Pos (29) /*!< PWM_T::CAPCTL: FCRLDEN5 Position */
#define PWM_CAPCTL_FCRLDEN5_Msk (0x1ul << PWM_CAPCTL_FCRLDEN5_Pos) /*!< PWM_T::CAPCTL: FCRLDEN5 Mask */
#define PWM_CAPSTS_CRLIFOVn_Pos (0) /*!< PWM_T::CAPSTS: CRLIFOVn Position */
#define PWM_CAPSTS_CRLIFOVn_Msk (0x3ful << PWM_CAPSTS_CRLIFOVn_Pos) /*!< PWM_T::CAPSTS: CRLIFOVn Mask */
#define PWM_CAPSTS_CRLIFOV0_Pos (0) /*!< PWM_T::CAPSTS: CRLIFOV0 Position */
#define PWM_CAPSTS_CRLIFOV0_Msk (0x1ul << PWM_CAPSTS_CRLIFOV0_Pos) /*!< PWM_T::CAPSTS: CRLIFOV0 Mask */
#define PWM_CAPSTS_CRLIFOV1_Pos (1) /*!< PWM_T::CAPSTS: CRLIFOV1 Position */
#define PWM_CAPSTS_CRLIFOV1_Msk (0x1ul << PWM_CAPSTS_CRLIFOV1_Pos) /*!< PWM_T::CAPSTS: CRLIFOV1 Mask */
#define PWM_CAPSTS_CRLIFOV2_Pos (2) /*!< PWM_T::CAPSTS: CRLIFOV2 Position */
#define PWM_CAPSTS_CRLIFOV2_Msk (0x1ul << PWM_CAPSTS_CRLIFOV2_Pos) /*!< PWM_T::CAPSTS: CRLIFOV2 Mask */
#define PWM_CAPSTS_CRLIFOV3_Pos (3) /*!< PWM_T::CAPSTS: CRLIFOV3 Position */
#define PWM_CAPSTS_CRLIFOV3_Msk (0x1ul << PWM_CAPSTS_CRLIFOV3_Pos) /*!< PWM_T::CAPSTS: CRLIFOV3 Mask */
#define PWM_CAPSTS_CRLIFOV4_Pos (4) /*!< PWM_T::CAPSTS: CRLIFOV4 Position */
#define PWM_CAPSTS_CRLIFOV4_Msk (0x1ul << PWM_CAPSTS_CRLIFOV4_Pos) /*!< PWM_T::CAPSTS: CRLIFOV4 Mask */
#define PWM_CAPSTS_CRLIFOV5_Pos (5) /*!< PWM_T::CAPSTS: CRLIFOV5 Position */
#define PWM_CAPSTS_CRLIFOV5_Msk (0x1ul << PWM_CAPSTS_CRLIFOV5_Pos) /*!< PWM_T::CAPSTS: CRLIFOV5 Mask */
#define PWM_CAPSTS_CFLIFOVn_Pos (8) /*!< PWM_T::CAPSTS: CFLIFOVn Position */
#define PWM_CAPSTS_CFLIFOVn_Msk (0x3ful << PWM_CAPSTS_CFLIFOVn_Pos) /*!< PWM_T::CAPSTS: CFLIFOVn Mask */
#define PWM_CAPSTS_CFLIFOV0_Pos (8) /*!< PWM_T::CAPSTS: CFLIFOV0 Position */
#define PWM_CAPSTS_CFLIFOV0_Msk (0x1ul << PWM_CAPSTS_CFLIFOV0_Pos) /*!< PWM_T::CAPSTS: CFLIFOV0 Mask */
#define PWM_CAPSTS_CFLIFOV1_Pos (9) /*!< PWM_T::CAPSTS: CFLIFOV1 Position */
#define PWM_CAPSTS_CFLIFOV1_Msk (0x1ul << PWM_CAPSTS_CFLIFOV1_Pos) /*!< PWM_T::CAPSTS: CFLIFOV1 Mask */
#define PWM_CAPSTS_CFLIFOV2_Pos (10) /*!< PWM_T::CAPSTS: CFLIFOV2 Position */
#define PWM_CAPSTS_CFLIFOV2_Msk (0x1ul << PWM_CAPSTS_CFLIFOV2_Pos) /*!< PWM_T::CAPSTS: CFLIFOV2 Mask */
#define PWM_CAPSTS_CFLIFOV3_Pos (11) /*!< PWM_T::CAPSTS: CFLIFOV3 Position */
#define PWM_CAPSTS_CFLIFOV3_Msk (0x1ul << PWM_CAPSTS_CFLIFOV3_Pos) /*!< PWM_T::CAPSTS: CFLIFOV3 Mask */
#define PWM_CAPSTS_CFLIFOV4_Pos (12) /*!< PWM_T::CAPSTS: CFLIFOV4 Position */
#define PWM_CAPSTS_CFLIFOV4_Msk (0x1ul << PWM_CAPSTS_CFLIFOV4_Pos) /*!< PWM_T::CAPSTS: CFLIFOV4 Mask */
#define PWM_CAPSTS_CFLIFOV5_Pos (13) /*!< PWM_T::CAPSTS: CFLIFOV5 Position */
#define PWM_CAPSTS_CFLIFOV5_Msk (0x1ul << PWM_CAPSTS_CFLIFOV5_Pos) /*!< PWM_T::CAPSTS: CFLIFOV5 Mask */
#define PWM_RCAPDAT_RCAPDAT_Pos (0) /*!< PWM_T::RCAPDAT0: RCAPDAT Position */
#define PWM_RCAPDAT_RCAPDAT_Msk (0xfffful << PWM_RCAPDAT_RCAPDAT_Pos) /*!< PWM_T::RCAPDAT0: RCAPDAT Mask */
#define PWM_FCAPDAT_FCAPDAT_Pos (0) /*!< PWM_T::FCAPDAT0: FCAPDAT Position */
#define PWM_FCAPDAT_FCAPDAT_Msk (0xfffful << PWM_FCAPDAT_FCAPDAT_Pos) /*!< PWM_T::FCAPDAT0: FCAPDAT Mask */
#define PWM_RCAPDAT0_RCAPDAT_Pos (0) /*!< PWM_T::RCAPDAT0: RCAPDAT Position */
#define PWM_RCAPDAT0_RCAPDAT_Msk (0xfffful << PWM_RCAPDAT0_RCAPDAT_Pos) /*!< PWM_T::RCAPDAT0: RCAPDAT Mask */
#define PWM_FCAPDAT0_FCAPDAT_Pos (0) /*!< PWM_T::FCAPDAT0: FCAPDAT Position */
#define PWM_FCAPDAT0_FCAPDAT_Msk (0xfffful << PWM_FCAPDAT0_FCAPDAT_Pos) /*!< PWM_T::FCAPDAT0: FCAPDAT Mask */
#define PWM_RCAPDAT1_RCAPDAT_Pos (0) /*!< PWM_T::RCAPDAT1: RCAPDAT Position */
#define PWM_RCAPDAT1_RCAPDAT_Msk (0xfffful << PWM_RCAPDAT1_RCAPDAT_Pos) /*!< PWM_T::RCAPDAT1: RCAPDAT Mask */
#define PWM_FCAPDAT1_FCAPDAT_Pos (0) /*!< PWM_T::FCAPDAT1: FCAPDAT Position */
#define PWM_FCAPDAT1_FCAPDAT_Msk (0xfffful << PWM_FCAPDAT1_FCAPDAT_Pos) /*!< PWM_T::FCAPDAT1: FCAPDAT Mask */
#define PWM_RCAPDAT2_RCAPDAT_Pos (0) /*!< PWM_T::RCAPDAT2: RCAPDAT Position */
#define PWM_RCAPDAT2_RCAPDAT_Msk (0xfffful << PWM_RCAPDAT2_RCAPDAT_Pos) /*!< PWM_T::RCAPDAT2: RCAPDAT Mask */
#define PWM_FCAPDAT2_FCAPDAT_Pos (0) /*!< PWM_T::FCAPDAT2: FCAPDAT Position */
#define PWM_FCAPDAT2_FCAPDAT_Msk (0xfffful << PWM_FCAPDAT2_FCAPDAT_Pos) /*!< PWM_T::FCAPDAT2: FCAPDAT Mask */
#define PWM_RCAPDAT3_RCAPDAT_Pos (0) /*!< PWM_T::RCAPDAT3: RCAPDAT Position */
#define PWM_RCAPDAT3_RCAPDAT_Msk (0xfffful << PWM_RCAPDAT3_RCAPDAT_Pos) /*!< PWM_T::RCAPDAT3: RCAPDAT Mask */
#define PWM_FCAPDAT3_FCAPDAT_Pos (0) /*!< PWM_T::FCAPDAT3: FCAPDAT Position */
#define PWM_FCAPDAT3_FCAPDAT_Msk (0xfffful << PWM_FCAPDAT3_FCAPDAT_Pos) /*!< PWM_T::FCAPDAT3: FCAPDAT Mask */
#define PWM_RCAPDAT4_RCAPDAT_Pos (0) /*!< PWM_T::RCAPDAT4: RCAPDAT Position */
#define PWM_RCAPDAT4_RCAPDAT_Msk (0xfffful << PWM_RCAPDAT4_RCAPDAT_Pos) /*!< PWM_T::RCAPDAT4: RCAPDAT Mask */
#define PWM_FCAPDAT4_FCAPDAT_Pos (0) /*!< PWM_T::FCAPDAT4: FCAPDAT Position */
#define PWM_FCAPDAT4_FCAPDAT_Msk (0xfffful << PWM_FCAPDAT4_FCAPDAT_Pos) /*!< PWM_T::FCAPDAT4: FCAPDAT Mask */
#define PWM_RCAPDAT5_RCAPDAT_Pos (0) /*!< PWM_T::RCAPDAT5: RCAPDAT Position */
#define PWM_RCAPDAT5_RCAPDAT_Msk (0xfffful << PWM_RCAPDAT5_RCAPDAT_Pos) /*!< PWM_T::RCAPDAT5: RCAPDAT Mask */
#define PWM_FCAPDAT5_FCAPDAT_Pos (0) /*!< PWM_T::FCAPDAT5: FCAPDAT Position */
#define PWM_FCAPDAT5_FCAPDAT_Msk (0xfffful << PWM_FCAPDAT5_FCAPDAT_Pos) /*!< PWM_T::FCAPDAT5: FCAPDAT Mask */
#define PWM_PDMACTL_CHEN0_1_Pos (0) /*!< PWM_T::PDMACTL: CHEN0_1 Position */
#define PWM_PDMACTL_CHEN0_1_Msk (0x1ul << PWM_PDMACTL_CHEN0_1_Pos) /*!< PWM_T::PDMACTL: CHEN0_1 Mask */
#define PWM_PDMACTL_CAPMOD0_1_Pos (1) /*!< PWM_T::PDMACTL: CAPMOD0_1 Position */
#define PWM_PDMACTL_CAPMOD0_1_Msk (0x3ul << PWM_PDMACTL_CAPMOD0_1_Pos) /*!< PWM_T::PDMACTL: CAPMOD0_1 Mask */
#define PWM_PDMACTL_CAPORD0_1_Pos (3) /*!< PWM_T::PDMACTL: CAPORD0_1 Position */
#define PWM_PDMACTL_CAPORD0_1_Msk (0x1ul << PWM_PDMACTL_CAPORD0_1_Pos) /*!< PWM_T::PDMACTL: CAPORD0_1 Mask */
#define PWM_PDMACTL_CHSEL0_1_Pos (4) /*!< PWM_T::PDMACTL: CHSEL0_1 Position */
#define PWM_PDMACTL_CHSEL0_1_Msk (0x1ul << PWM_PDMACTL_CHSEL0_1_Pos) /*!< PWM_T::PDMACTL: CHSEL0_1 Mask */
#define PWM_PDMACTL_CHEN2_3_Pos (8) /*!< PWM_T::PDMACTL: CHEN2_3 Position */
#define PWM_PDMACTL_CHEN2_3_Msk (0x1ul << PWM_PDMACTL_CHEN2_3_Pos) /*!< PWM_T::PDMACTL: CHEN2_3 Mask */
#define PWM_PDMACTL_CAPMOD2_3_Pos (9) /*!< PWM_T::PDMACTL: CAPMOD2_3 Position */
#define PWM_PDMACTL_CAPMOD2_3_Msk (0x3ul << PWM_PDMACTL_CAPMOD2_3_Pos) /*!< PWM_T::PDMACTL: CAPMOD2_3 Mask */
#define PWM_PDMACTL_CAPORD2_3_Pos (11) /*!< PWM_T::PDMACTL: CAPORD2_3 Position */
#define PWM_PDMACTL_CAPORD2_3_Msk (0x1ul << PWM_PDMACTL_CAPORD2_3_Pos) /*!< PWM_T::PDMACTL: CAPORD2_3 Mask */
#define PWM_PDMACTL_CHSEL2_3_Pos (12) /*!< PWM_T::PDMACTL: CHSEL2_3 Position */
#define PWM_PDMACTL_CHSEL2_3_Msk (0x1ul << PWM_PDMACTL_CHSEL2_3_Pos) /*!< PWM_T::PDMACTL: CHSEL2_3 Mask */
#define PWM_PDMACTL_CHEN4_5_Pos (16) /*!< PWM_T::PDMACTL: CHEN4_5 Position */
#define PWM_PDMACTL_CHEN4_5_Msk (0x1ul << PWM_PDMACTL_CHEN4_5_Pos) /*!< PWM_T::PDMACTL: CHEN4_5 Mask */
#define PWM_PDMACTL_CAPMOD4_5_Pos (17) /*!< PWM_T::PDMACTL: CAPMOD4_5 Position */
#define PWM_PDMACTL_CAPMOD4_5_Msk (0x3ul << PWM_PDMACTL_CAPMOD4_5_Pos) /*!< PWM_T::PDMACTL: CAPMOD4_5 Mask */
#define PWM_PDMACTL_CAPORD4_5_Pos (19) /*!< PWM_T::PDMACTL: CAPORD4_5 Position */
#define PWM_PDMACTL_CAPORD4_5_Msk (0x1ul << PWM_PDMACTL_CAPORD4_5_Pos) /*!< PWM_T::PDMACTL: CAPORD4_5 Mask */
#define PWM_PDMACTL_CHSEL4_5_Pos (20) /*!< PWM_T::PDMACTL: CHSEL4_5 Position */
#define PWM_PDMACTL_CHSEL4_5_Msk (0x1ul << PWM_PDMACTL_CHSEL4_5_Pos) /*!< PWM_T::PDMACTL: CHSEL4_5 Mask */
#define PWM_PDMACAP0_1_CAPBUF_Pos (0) /*!< PWM_T::PDMACAP0_1: CAPBUF Position */
#define PWM_PDMACAP0_1_CAPBUF_Msk (0xfffful << PWM_PDMACAP0_1_CAPBUF_Pos) /*!< PWM_T::PDMACAP0_1: CAPBUF Mask */
#define PWM_PDMACAP2_3_CAPBUF_Pos (0) /*!< PWM_T::PDMACAP2_3: CAPBUF Position */
#define PWM_PDMACAP2_3_CAPBUF_Msk (0xfffful << PWM_PDMACAP2_3_CAPBUF_Pos) /*!< PWM_T::PDMACAP2_3: CAPBUF Mask */
#define PWM_PDMACAP4_5_CAPBUF_Pos (0) /*!< PWM_T::PDMACAP4_5: CAPBUF Position */
#define PWM_PDMACAP4_5_CAPBUF_Msk (0xfffful << PWM_PDMACAP4_5_CAPBUF_Pos) /*!< PWM_T::PDMACAP4_5: CAPBUF Mask */
#define PWM_CAPIEN_CAPRIENn_Pos (0) /*!< PWM_T::CAPIEN: CAPRIENn Position */
#define PWM_CAPIEN_CAPRIENn_Msk (0x3ful << PWM_CAPIEN_CAPRIENn_Pos) /*!< PWM_T::CAPIEN: CAPRIENn Mask */
#define PWM_CAPIEN_CAPRIEN0_Pos (0) /*!< PWM_T::CAPIEN: CAPRIEN0 Position */
#define PWM_CAPIEN_CAPRIEN0_Msk (0x1ul << PWM_CAPIEN_CAPRIEN0_Pos) /*!< PWM_T::CAPIEN: CAPRIEN0 Mask */
#define PWM_CAPIEN_CAPRIEN1_Pos (1) /*!< PWM_T::CAPIEN: CAPRIEN1 Position */
#define PWM_CAPIEN_CAPRIEN1_Msk (0x1ul << PWM_CAPIEN_CAPRIEN1_Pos) /*!< PWM_T::CAPIEN: CAPRIEN1 Mask */
#define PWM_CAPIEN_CAPRIEN2_Pos (2) /*!< PWM_T::CAPIEN: CAPRIEN2 Position */
#define PWM_CAPIEN_CAPRIEN2_Msk (0x1ul << PWM_CAPIEN_CAPRIEN2_Pos) /*!< PWM_T::CAPIEN: CAPRIEN2 Mask */
#define PWM_CAPIEN_CAPRIEN3_Pos (3) /*!< PWM_T::CAPIEN: CAPRIEN3 Position */
#define PWM_CAPIEN_CAPRIEN3_Msk (0x1ul << PWM_CAPIEN_CAPRIEN3_Pos) /*!< PWM_T::CAPIEN: CAPRIEN3 Mask */
#define PWM_CAPIEN_CAPRIEN4_Pos (4) /*!< PWM_T::CAPIEN: CAPRIEN4 Position */
#define PWM_CAPIEN_CAPRIEN4_Msk (0x1ul << PWM_CAPIEN_CAPRIEN4_Pos) /*!< PWM_T::CAPIEN: CAPRIEN4 Mask */
#define PWM_CAPIEN_CAPRIEN5_Pos (5) /*!< PWM_T::CAPIEN: CAPRIEN5 Position */
#define PWM_CAPIEN_CAPRIEN5_Msk (0x1ul << PWM_CAPIEN_CAPRIEN5_Pos) /*!< PWM_T::CAPIEN: CAPRIEN5 Mask */
#define PWM_CAPIEN_CAPFIENn_Pos (8) /*!< PWM_T::CAPIEN: CAPFIENn Position */
#define PWM_CAPIEN_CAPFIENn_Msk (0x3ful << PWM_CAPIEN_CAPFIENn_Pos) /*!< PWM_T::CAPIEN: CAPFIENn Mask */
#define PWM_CAPIEN_CAPFIEN0_Pos (8) /*!< PWM_T::CAPIEN: CAPFIEN0 Position */
#define PWM_CAPIEN_CAPFIEN0_Msk (0x1ul << PWM_CAPIEN_CAPFIEN0_Pos) /*!< PWM_T::CAPIEN: CAPFIEN0 Mask */
#define PWM_CAPIEN_CAPFIEN1_Pos (9) /*!< PWM_T::CAPIEN: CAPFIEN1 Position */
#define PWM_CAPIEN_CAPFIEN1_Msk (0x1ul << PWM_CAPIEN_CAPFIEN1_Pos) /*!< PWM_T::CAPIEN: CAPFIEN1 Mask */
#define PWM_CAPIEN_CAPFIEN2_Pos (10) /*!< PWM_T::CAPIEN: CAPFIEN2 Position */
#define PWM_CAPIEN_CAPFIEN2_Msk (0x1ul << PWM_CAPIEN_CAPFIEN2_Pos) /*!< PWM_T::CAPIEN: CAPFIEN2 Mask */
#define PWM_CAPIEN_CAPFIEN3_Pos (11) /*!< PWM_T::CAPIEN: CAPFIEN3 Position */
#define PWM_CAPIEN_CAPFIEN3_Msk (0x1ul << PWM_CAPIEN_CAPFIEN3_Pos) /*!< PWM_T::CAPIEN: CAPFIEN3 Mask */
#define PWM_CAPIEN_CAPFIEN4_Pos (12) /*!< PWM_T::CAPIEN: CAPFIEN4 Position */
#define PWM_CAPIEN_CAPFIEN4_Msk (0x1ul << PWM_CAPIEN_CAPFIEN4_Pos) /*!< PWM_T::CAPIEN: CAPFIEN4 Mask */
#define PWM_CAPIEN_CAPFIEN5_Pos (13) /*!< PWM_T::CAPIEN: CAPFIEN5 Position */
#define PWM_CAPIEN_CAPFIEN5_Msk (0x1ul << PWM_CAPIEN_CAPFIEN5_Pos) /*!< PWM_T::CAPIEN: CAPFIEN5 Mask */
#define PWM_CAPIF_CRLIFn_Pos (0) /*!< PWM_T::CAPIF: CRLIFn Position */
#define PWM_CAPIF_CRLIFn_Msk (0x3ful << PWM_CAPIF_CRLIFn_Pos) /*!< PWM_T::CAPIF: CRLIFn Mask */
#define PWM_CAPIF_CRLIF0_Pos (0) /*!< PWM_T::CAPIF: CRLIF0 Position */
#define PWM_CAPIF_CRLIF0_Msk (0x1ul << PWM_CAPIF_CRLIF0_Pos) /*!< PWM_T::CAPIF: CRLIF0 Mask */
#define PWM_CAPIF_CRLIF1_Pos (1) /*!< PWM_T::CAPIF: CRLIF1 Position */
#define PWM_CAPIF_CRLIF1_Msk (0x1ul << PWM_CAPIF_CRLIF1_Pos) /*!< PWM_T::CAPIF: CRLIF1 Mask */
#define PWM_CAPIF_CRLIF2_Pos (2) /*!< PWM_T::CAPIF: CRLIF2 Position */
#define PWM_CAPIF_CRLIF2_Msk (0x1ul << PWM_CAPIF_CRLIF2_Pos) /*!< PWM_T::CAPIF: CRLIF2 Mask */
#define PWM_CAPIF_CRLIF3_Pos (3) /*!< PWM_T::CAPIF: CRLIF3 Position */
#define PWM_CAPIF_CRLIF3_Msk (0x1ul << PWM_CAPIF_CRLIF3_Pos) /*!< PWM_T::CAPIF: CRLIF3 Mask */
#define PWM_CAPIF_CRLIF4_Pos (4) /*!< PWM_T::CAPIF: CRLIF4 Position */
#define PWM_CAPIF_CRLIF4_Msk (0x1ul << PWM_CAPIF_CRLIF4_Pos) /*!< PWM_T::CAPIF: CRLIF4 Mask */
#define PWM_CAPIF_CRLIF5_Pos (5) /*!< PWM_T::CAPIF: CRLIF5 Position */
#define PWM_CAPIF_CRLIF5_Msk (0x1ul << PWM_CAPIF_CRLIF5_Pos) /*!< PWM_T::CAPIF: CRLIF5 Mask */
#define PWM_CAPIF_CFLIFn_Pos (8) /*!< PWM_T::CAPIF: CFLIFn Position */
#define PWM_CAPIF_CFLIFn_Msk (0x3ful << PWM_CAPIF_CFLIFn_Pos) /*!< PWM_T::CAPIF: CFLIFn Mask */
#define PWM_CAPIF_CFLIF0_Pos (8) /*!< PWM_T::CAPIF: CFLIF0 Position */
#define PWM_CAPIF_CFLIF0_Msk (0x1ul << PWM_CAPIF_CFLIF0_Pos) /*!< PWM_T::CAPIF: CFLIF0 Mask */
#define PWM_CAPIF_CFLIF1_Pos (9) /*!< PWM_T::CAPIF: CFLIF1 Position */
#define PWM_CAPIF_CFLIF1_Msk (0x1ul << PWM_CAPIF_CFLIF1_Pos) /*!< PWM_T::CAPIF: CFLIF1 Mask */
#define PWM_CAPIF_CFLIF2_Pos (10) /*!< PWM_T::CAPIF: CFLIF2 Position */
#define PWM_CAPIF_CFLIF2_Msk (0x1ul << PWM_CAPIF_CFLIF2_Pos) /*!< PWM_T::CAPIF: CFLIF2 Mask */
#define PWM_CAPIF_CFLIF3_Pos (11) /*!< PWM_T::CAPIF: CFLIF3 Position */
#define PWM_CAPIF_CFLIF3_Msk (0x1ul << PWM_CAPIF_CFLIF3_Pos) /*!< PWM_T::CAPIF: CFLIF3 Mask */
#define PWM_CAPIF_CFLIF4_Pos (12) /*!< PWM_T::CAPIF: CFLIF4 Position */
#define PWM_CAPIF_CFLIF4_Msk (0x1ul << PWM_CAPIF_CFLIF4_Pos) /*!< PWM_T::CAPIF: CFLIF4 Mask */
#define PWM_CAPIF_CFLIF5_Pos (13) /*!< PWM_T::CAPIF: CFLIF5 Position */
#define PWM_CAPIF_CFLIF5_Msk (0x1ul << PWM_CAPIF_CFLIF5_Pos) /*!< PWM_T::CAPIF: CFLIF5 Mask */
#define PWM_PBUF_PBUF_Pos (0) /*!< PWM_T::PBUF0: PBUF Position */
#define PWM_PBUF_PBUF_Msk (0xfffful << PWM_PBUF_PBUF_Pos) /*!< PWM_T::PBUF0: PBUF Mask */
#define PWM_PBUF0_PBUF_Pos (0) /*!< PWM_T::PBUF0: PBUF Position */
#define PWM_PBUF0_PBUF_Msk (0xfffful << PWM_PBUF0_PBUF_Pos) /*!< PWM_T::PBUF0: PBUF Mask */
#define PWM_PBUF2_PBUF_Pos (0) /*!< PWM_T::PBUF2: PBUF Position */
#define PWM_PBUF2_PBUF_Msk (0xfffful << PWM_PBUF2_PBUF_Pos) /*!< PWM_T::PBUF2: PBUF Mask */
#define PWM_PBUF4_PBUF_Pos (0) /*!< PWM_T::PBUF4: PBUF Position */
#define PWM_PBUF4_PBUF_Msk (0xfffful << PWM_PBUF4_PBUF_Pos) /*!< PWM_T::PBUF4: PBUF Mask */
#define PWM_CMPBUF_CMPBUF_Pos (0) /*!< PWM_T::CMPBUF0: CMPBUF Position */
#define PWM_CMPBUF_CMPBUF_Msk (0xfffful << PWM_CMPBUF_CMPBUF_Pos) /*!< PWM_T::CMPBUF0: CMPBUF Mask */
#define PWM_CMPBUF0_CMPBUF_Pos (0) /*!< PWM_T::CMPBUF0: CMPBUF Position */
#define PWM_CMPBUF0_CMPBUF_Msk (0xfffful << PWM_CMPBUF0_CMPBUF_Pos) /*!< PWM_T::CMPBUF0: CMPBUF Mask */
#define PWM_CMPBUF1_CMPBUF_Pos (0) /*!< PWM_T::CMPBUF1: CMPBUF Position */
#define PWM_CMPBUF1_CMPBUF_Msk (0xfffful << PWM_CMPBUF1_CMPBUF_Pos) /*!< PWM_T::CMPBUF1: CMPBUF Mask */
#define PWM_CMPBUF2_CMPBUF_Pos (0) /*!< PWM_T::CMPBUF2: CMPBUF Position */
#define PWM_CMPBUF2_CMPBUF_Msk (0xfffful << PWM_CMPBUF2_CMPBUF_Pos) /*!< PWM_T::CMPBUF2: CMPBUF Mask */
#define PWM_CMPBUF3_CMPBUF_Pos (0) /*!< PWM_T::CMPBUF3: CMPBUF Position */
#define PWM_CMPBUF3_CMPBUF_Msk (0xfffful << PWM_CMPBUF3_CMPBUF_Pos) /*!< PWM_T::CMPBUF3: CMPBUF Mask */
#define PWM_CMPBUF4_CMPBUF_Pos (0) /*!< PWM_T::CMPBUF4: CMPBUF Position */
#define PWM_CMPBUF4_CMPBUF_Msk (0xfffful << PWM_CMPBUF4_CMPBUF_Pos) /*!< PWM_T::CMPBUF4: CMPBUF Mask */
#define PWM_CMPBUF5_CMPBUF_Pos (0) /*!< PWM_T::CMPBUF5: CMPBUF Position */
#define PWM_CMPBUF5_CMPBUF_Msk (0xfffful << PWM_CMPBUF5_CMPBUF_Pos) /*!< PWM_T::CMPBUF5: CMPBUF Mask */
/** @} PWM_CONST */
/** @} end of PWM register group */
/** @} end of REGISTER group */
#if defined ( __CC_ARM )
#pragma no_anon_unions
#endif
#endif /* __PWM_REG_H__ */