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說(shuō)說(shuō)M451例程之PWM的寄存器講解

關(guān)鍵字:M451 發(fā)布時(shí)間:2019-05-22

M451提供了兩路PWM發(fā)生器。每路PWM支持6通道PWM輸出或輸入捕捉。有一個(gè)12位的預(yù)分頻器把時(shí)鐘源分頻后輸入給16位的計(jì)數(shù)器,另外還有一個(gè)16位的比較器。PWM計(jì)數(shù)器支持向上,向下,上下計(jì)數(shù)方式。PWM用比較器和計(jì)數(shù)器的比較來(lái)產(chǎn)生事件,這些事件用來(lái)產(chǎn)生PWM脈沖,中斷,EADC/DAC轉(zhuǎn)換觸發(fā)信號(hào)。

PWM發(fā)生器支持兩種標(biāo)準(zhǔn)PWM輸出模式:獨(dú)立模式和互補(bǔ)模式,它們的架構(gòu)不同。標(biāo)準(zhǔn)輸出模式又有兩種輸出功能:組功能和同步功能。組功能可以在獨(dú)立模式和互補(bǔ)模式下使能。同步功能只有在互補(bǔ)模式下才可以被使能。互補(bǔ)模式,有兩個(gè)比較器產(chǎn)生各種帶12位死區(qū)時(shí)間的PWM脈寬,另外還有一個(gè)自由觸發(fā)比較器來(lái)產(chǎn)生給EADC的觸發(fā)信號(hào)。PWM輸出控制單元,它支持極性輸出,獨(dú)立管腳屏蔽和剎車功能。
PWM也支持輸入捕捉功能,當(dāng)輸入通道有向上跳變、向下跳變、或者兩者都有的跳變時(shí),鎖存PWM計(jì)數(shù)器的值到相應(yīng)的寄存器中。捕捉功能也支持通過(guò)PDMA把捕捉到的數(shù)據(jù)搬移到內(nèi)存。

捕捉功能特性
? 支持12個(gè)16位解析度的輸入捕捉通道
? 支持上升/下降沿捕捉條件
? 支持輸入上升/下降沿 捕捉中斷
? 支持計(jì)數(shù)器重載選項(xiàng)的上升/下降沿 捕捉
? 支持PWM 的所有通道PDMA數(shù)據(jù)搬移功能

據(jù)此可直接觀察寄存器

兩路PWM發(fā)生器

#define AHBPERIPH_BASE PERIPH_BASE
#define APBPERIPH_BASE (PERIPH_BASE + 0x00040000)

#define PWM0_BASE            (APBPERIPH_BASE + 0x18000)

#define PWM0 ((PWM_T *) PWM0_BASE)
#define PWM1 ((PWM_T *) PWM1_BASE)

每路PWM支持6通道PWM輸出或輸入捕捉

/**
 * @brief Configure PWM capture and get the nearest unit time.
 * @param[in] pwm The pointer of the specified PWM module
 *                - PWM0 : PWM Group 0
 *                - PWM1 : PWM Group 1
 * @param[in] u32ChannelNum PWM channel number. Valid values are between 0~5
 * @param[in] u32UnitTimeNsec The unit time of counter
 * @param[in] u32CaptureEdge The condition to latch the counter. This parameter is not used
 * @return The nearest unit time in nano second.
 * @details This function is used to Configure PWM capture and get the nearest unit time.
 */
uint32_t PWM_ConfigCaptureChannel(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32UnitTimeNsec, uint32_t u32CaptureEdge)
{
    uint32_t u32Src;
    uint32_t u32PWMClockSrc;
    uint32_t u32NearestUnitTimeNsec;
    uint16_t u16Prescale = 1, u16CNR = 0xFFFF;

    if(pwm == PWM0)
        u32Src = CLK->CLKSEL2 & CLK_CLKSEL2_PWM0SEL_Msk;
    else//(pwm == PWM1)
        u32Src = CLK->CLKSEL2 & CLK_CLKSEL2_PWM1SEL_Msk;

    if(u32Src == 0)
    {
        //clock source is from PLL clock
        u32PWMClockSrc = CLK_GetPLLClockFreq();
    }
    else
    {
        //clock source is from PCLK
        SystemCoreClockUpdate();
        u32PWMClockSrc = SystemCoreClock;
    }

    u32PWMClockSrc /= 1000;
    for(u16Prescale = 1; u16Prescale <= 0x1000; u16Prescale++)
    {
        u32NearestUnitTimeNsec = (1000000 * u16Prescale) / u32PWMClockSrc;
        if(u32NearestUnitTimeNsec < u32UnitTimeNsec)
        {
            if(u16Prescale == 0x1000)  //limit to the maximum unit time(nano second)
                break;
            if(!((1000000 * (u16Prescale + 1) > (u32NearestUnitTimeNsec * u32PWMClockSrc))))
                break;
            continue;
        }
        break;
    }

    // convert to real register value
    // every two channels share a prescaler
    PWM_SET_PRESCALER(pwm, u32ChannelNum, --u16Prescale);

    // set PWM to down count type(edge aligned)
    (pwm)->CTL1 = ((pwm)->CTL1 & ~(PWM_CTL1_CNTTYPE0_Msk << (2 * u32ChannelNum))) | (1UL << (2 * u32ChannelNum));
    // set PWM to auto-reload mode
    (pwm)->CTL1 &= ~(PWM_CTL1_CNTMODE0_Msk << u32ChannelNum);
    PWM_SET_CNR(pwm, u32ChannelNum, u16CNR);

    return (u32NearestUnitTimeNsec);
}

比如我選擇PWM0  通道零來(lái)說(shuō)

PWM0->CTL1 &= ~PWM_CTL1_CNTTYPE0_Msk;
    PWM0->CTL1 |= 0x1;

    /*Set PWM Timer clock prescaler*/
    PWM_SET_PRESCALER(PWM0, 0, 0); // Divided by 1

    /*Set PWM Timer duty*/
    PWM_SET_CMR(PWM0, 0, 199);

    /*Set PWM Timer period*/
    PWM_SET_CNR(PWM0, 0, 399);

    /* Set waveform generation */
    PWM0->WGCTL0 = 0x10000;
    PWM0->WGCTL1 = 0x20000;

    // Enable output of PWM0 channel 0
    PWM0->POEN |= PWM_POEN_POEN0_Msk;

    // Enable PWM0 channel 0 period interrupt, use channel 0 to measure time.
    PWM0->INTEN0 = (PWM0->INTEN0 & ~PWM_INTEN0_PIEN0_Msk) | PWM_INTEN0_PIEN0_Msk;
    NVIC_EnableIRQ(PWM0P0_IRQn);

    // Start
    PWM0->CNTEN |= PWM_CNTEN_CNTEN0_Msk;//根據(jù)這個(gè)是否明白地址?以及如何給地址賦值

 

 

#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 PERIPH_BASE (0x40000000UL) /*!< (Peripheral) Base Address */


/* Peripheral memory map */
#define AHBPERIPH_BASE PERIPH_BASE
#define APBPERIPH_BASE (PERIPH_BASE + 0x00040000)

APBPERIPH_BASE + 0x18000
#define PWM0_BASE            (APBPERIPH_BASE + 0x18000)

#define PWM0                 ((PWM_T *)   PWM0_BASE)

 PWM0->CNTEN |= PWM_CNTEN_CNTEN0_Msk;
即在

#define PERIPH_BASE          (0x40000000UL)                              /*!< (Peripheral) Base Address */

#define AHBPERIPH_BASE PERIPH_BASE
#define APBPERIPH_BASE (PERIPH_BASE + 0x00040000)  //

APBPERIPH_BASE + 0x18000

PWMx_BA+0x20=
APBPERIPH_BASE + 0x18000+0X20=1
typedef struct
{


/**
 * @var PWM_T::CTL0
 * Offset: 0x00  PWM Control Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |CTRLDn    |Center Re-Load
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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.
 * |[13:8]  |WINLDENn  |Window Load Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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 will load to PBUF at the end point of each period.
 * |        |          |CMPDAT will load to CMPBUF at the end point of each period when valid reload window is set.
 * |        |          |The valid reload window is set by software write 1 to PWM_LOAD register and cleared by hardware after load success.
 * |[21:16] |IMMLDENn  |Immediately Load Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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.
 * |[24]    |GROUPEN   |Group Function Enable
 * |        |          |0 = The output waveform of each PWM channel are independent.
 * |        |          |1 = Unify the PWM_CH2 and PWM_CH4 to output the same waveform as PWM_CH0 and unify the PWM_CH3 and PWM_CH5 to output the same waveform as PWM_CH1.
 * |[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 register is write protected. Refer to SYS_REGLCTL register.
 * |[31]    |DBGTRIOFF |ICE Debug Mode Acknowledge Disable (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 register is write protected. Refer to SYS_REGLCTL register.
 * @var PWM_T::CTL1
 * Offset: 0x04  PWM Control Register 1
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[11:0]  |CNTTYPEn  |PWM Counter Behavior Type
 * |        |          |Each bit n controls corresponding PWM channel n.
 * |        |          |00 = Up counter type (supports in capture mode).
 * |        |          |01 = Down count type (supports in capture mode).
 * |        |          |10 = Up-down counter type.
 * |        |          |11 = Reserved.
 * |[21:16] |CNTMODEn  |PWM Counter Mode
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Auto-reload mode.
 * |        |          |1 = One-shot mode.
 * |[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::SYNC
 * Offset: 0x08  PWM Synchronization Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[2:0]   |PHSENn    |SYNC Phase Enable
 * |        |          |Each bit n controls corresponding PWM channel n.
 * |        |          |0 = PWM counter disable to load PHS value.
 * |        |          |1 = PWM counter enable to load PHS value.
 * |[13:8]  |SINSRCn   |PWM_SYNC_IN Source Selection
 * |        |          |Each bit n controls corresponding PWM channel n.
 * |        |          |00 = Synchronize source from SYNC_IN or SWSYNC.
 * |        |          |01 = Counter equal to 0.
 * |        |          |10 = Counter equal to PWM_CMPDATm, m denotes 1, 3, 5.
 * |        |          |11 = SYNC_OUT will not be generated.
 * |[16]    |SNFLTEN   |PWM_SYNC_IN Noise Filter Enable
 * |        |          |0 = Noise filter of input pin PWM_SYNC_IN is Disabled.
 * |        |          |1 = Noise filter of input pin PWM_SYNC_IN is Enabled.
 * |[19:17] |SFLTCSEL  |SYNC 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.
 * |[22:20] |SFLTCNT   |SYNC Edge Detector Filter Count
 * |        |          |The register bits control the counter number of edge detector.
 * |[23]    |SINPINV   |SYNC Input Pin Inverse
 * |        |          |0 = The state of pin SYNC is passed to the negative edge detector.
 * |        |          |1 = The inverted state of pin SYNC is passed to the negative edge detector.
 * |[26:24] |PHSDIRn   |PWM Phase Direction Control
 * |        |          |Each bit n controls corresponding PWM channel n.
 * |        |          |0 = Control PWM counter count decrement after synchronizing.
 * |        |          |1 = Control PWM counter count increment after synchronizing.
 * @var PWM_T::SWSYNC
 * Offset: 0x0C  PWM Software Control Synchronization Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[2:0]   |SWSYNCn   |Software SYNC Function
 * |        |          |Each bit n controls corresponding PWM channel n.
 * |        |          |When SINSRCn (PWM_SYNC[13:8]) is selected to 0, SYNC_OUT source is come from SYNC_IN or this bit.
 * @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::CLKPSC0_1
 * Offset: 0x14  PWM Clock Pre-scale Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[11:0]  |CLKPSC    |PWM Counter Clock Pre-Scale
 * |        |          |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::CLKPSC2_3
 * Offset: 0x18  PWM Clock Pre-scale Register 2
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[11:0]  |CLKPSC    |PWM Counter Clock Pre-Scale
 * |        |          |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::CLKPSC4_5
 * Offset: 0x1C  PWM Clock Pre-scale Register 4
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[11:0]  |CLKPSC    |PWM Counter Clock Pre-Scale
 * |        |          |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
 * | :----: | :----:   | :---- |
 * |[5:0]   |CNTENn    |PWM Counter Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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
 * | :----: | :----:   | :---- |
 * |[5:0]   |CNTCLRn   |Clear PWM Counter Control Bit
 * |        |          |It is automatically cleared by hardware. Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = No effect.
 * |        |          |1 = Clear 16-bit PWM counter to 0000H.
 * @var PWM_T::LOAD
 * Offset: 0x28  PWM Load Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |LOADn     |Re-Load PWM Comparator Register (CMPDAT) Control Bit
 * |        |          |This bit is software write, hardware clear when current PWM period end.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |Write Operation:
 * |        |          |0 = No effect.
 * |        |          |1 = Set load window of window loading mode.
 * |        |          |Read Operation:
 * |        |          |0 = No load window is set.
 * |        |          |1 = Load window is set.
 * |        |          |Note: This bit only use in window loading mode, WINLDENn(PWM_CTL0[13:8]) = 1.
 * @var PWM_T::PERIOD
 * Offset: 0x30~0x44  PWM Period Register 0~5
 * ---------------------------------------------------------------------------------------------------
 * |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
 * Offset: 0x50~0x64  PWM Comparator Register 0~5
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |CMP       |PWM Comparator Register
 * |        |          |CMP use to compare with CNTR to generate PWM waveform, interrupt and trigger EADC/DAC.
 * |        |          |In independent mode, CMPDAT0~5 denote as 6 independent PWM_CH0~5 compared point.
 * |        |          |In complementary mode, CMPDAT0, 2, 4 denote as first compared point, and 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::DTCTL0_1
 * Offset: 0x70  PWM Dead-Time Control Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[11:0]  |DTCNT     |Dead-Time Counter (Write Protect)
 * |        |          |The dead-time can be calculated from the following formula:
 * |        |          |Dead-time = (DTCNT[11:0]+1) * PWM_CLK period.
 * |        |          |Note: This register 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 register is write protected. Refer to SYS_REGLCTL register.
 * |[24]    |DTCKSEL   |Dead-Time Clock Select (Write Protect) (M45xD/M45xC Only)
 * |        |          |0 = Dead-time clock source from PWM_CLK.
 * |        |          |1 = Dead-time clock source from prescaler output.
 * |        |          |Note: This register is write protected. Refer to SYS_REGLCTL register.
 * @var PWM_T::DTCTL2_3
 * Offset: 0x74  PWM Dead-Time Control Register 2
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[11:0]  |DTCNT     |Dead-Time Counter (Write Protect)
 * |        |          |The dead-time can be calculated from the following formula:
 * |        |          |Dead-time = (DTCNT[11:0]+1) * PWM_CLK period.
 * |        |          |Note: This register 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 register is write protected. Refer to SYS_REGLCTL register.
 * |[24]    |DTCKSEL   |Dead-Time Clock Select (Write Protect) (M45xD/M45xC Only)
 * |        |          |0 = Dead-time clock source from PWM_CLK.
 * |        |          |1 = Dead-time clock source from prescaler output.
 * |        |          |Note: This register is write protected. Refer to SYS_REGLCTL register.
 * @var PWM_T::DTCTL4_5
 * Offset: 0x78  PWM Dead-Time Control Register 4
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[11:0]  |DTCNT     |Dead-Time Counter (Write Protect)
 * |        |          |The dead-time can be calculated from the following formula:
 * |        |          |Dead-time = (DTCNT[11:0]+1) * PWM_CLK period.
 * |        |          |Note: This register 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 register is write protected. Refer to SYS_REGLCTL register.
 * |[24]    |DTCKSEL   |Dead-Time Clock Select (Write Protect) (M45xD/M45xC Only)
 * |        |          |0 = Dead-time clock source from PWM_CLK.
 * |        |          |1 = Dead-time clock source from prescaler output.
 * |        |          |Note: This register is write protected. Refer to SYS_REGLCTL register.
 * @var PWM_T::PHS0_1
 * Offset: 0x80  PWM Counter Phase Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |PHS       |PWM Synchronous Start Phase Bits
 * |        |          |PHS determines the PWM synchronous start phase value. These bits only use in synchronous function.
 * @var PWM_T::PHS2_3
 * Offset: 0x84  PWM Counter Phase Register 2
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |PHS       |PWM Synchronous Start Phase Bits
 * |        |          |PHS determines the PWM synchronous start phase value. These bits only use in synchronous function.
 * @var PWM_T::PHS4_5
 * Offset: 0x88  PWM Counter Phase Register 4
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |PHS       |PWM Synchronous Start Phase Bits
 * |        |          |PHS determines the PWM synchronous start phase value. These bits only use in synchronous function.
 * @var PWM_T::CNT
 * Offset: 0x90~0xA4  PWM Counter Register 0~5
 * ---------------------------------------------------------------------------------------------------
 * |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 Down count.
 * |        |          |1 = Counter is UP count.
 * @var PWM_T::WGCTL0
 * Offset: 0xB0  PWM Generation Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[11:0]  |ZPCTLn    |PWM Zero Point Control
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |00 = Do nothing.
 * |        |          |01 = PWM zero point output Low.
 * |        |          |10 = PWM zero point output High.
 * |        |          |11 = PWM zero point output Toggle.
 * |        |          |PWM can control output level when PWM counter count to zero.
 * |[27:16] |PRDPCTLn  |PWM Period (Center) Point Control
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |00 = Do nothing.
 * |        |          |01 = PWM period (center) point output Low.
 * |        |          |10 = PWM period (center) point output High.
 * |        |          |11 = PWM period (center) point output Toggle.
 * |        |          |PWM can control output level when PWM counter count to (PERIODn+1).
 * |        |          |Note: 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
 * | :----: | :----:   | :---- |
 * |[11:0]  |CMPUCTLn  |PWM Compare Up Point Control
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |00 = Do nothing.
 * |        |          |01 = PWM compare up point output Low.
 * |        |          |10 = PWM compare up point output High.
 * |        |          |11 = PWM compare up point output Toggle.
 * |        |          |PWM can control output level when PWM counter up count to CMPDAT.
 * |        |          |Note: In complementary mode, CMPUCTL1, 3, 5 use as another CMPUCTL for channel 0, 2, 4.
 * |[27:16] |CMPDCTLn  |PWM Compare Down Point Control
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |00 = Do nothing.
 * |        |          |01 = PWM compare down point output Low.
 * |        |          |10 = PWM compare down point output High.
 * |        |          |11 = PWM compare down point output Toggle.
 * |        |          |PWM can control output level when PWM counter down count to CMPDAT.
 * |        |          |Note: In complementary mode, CMPDCTL1, 3, 5 use as another CMPDCTL for channel 0, 2, 4.
 * @var PWM_T::MSKEN
 * Offset: 0xB8  PWM Mask Enable Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |MSKENn    |PWM Mask Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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
 * | :----: | :----:   | :---- |
 * |[5:0]   |MSKDATn   |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 PWMn.
 * |        |          |1 = Output logic high to PWMn.
 * @var PWM_T::BNF
 * Offset: 0xC0  PWM Brake Noise Filter Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[0]     |BRK0NFEN  |PWM Brake 0 Noise Filter Enable
 * |        |          |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]   |BRK0FCNT  |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 inverted state of pin PWMx_BRAKE10 is passed to the negative edge detector.
 * |[8]     |BRK1NFEN  |PWM Brake 1 Noise Filter Enable
 * |        |          |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 inverted state of pin PWMx_BRAKE1 is passed to the negative edge detector.
 * |[16]    |BK0SRC    |Brake 0 Pin Source Select (M45xD/M45xC Only)
 * |        |          |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 (M45xD/M45xC Only)
 * |        |          |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
 * |        |          |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
 * |        |          |0 = Brake Function triggered by BOD Disabled.
 * |        |          |1 = Brake Function triggered by BOD Enabled.
 * |[2]     |RAMBRKEN  |SRAM Parity Error Detection Trigger PWM Brake Function 0 Enable
 * |        |          |0 = Brake Function triggered by SRAM parity error detection Disabled.
 * |        |          |1 = Brake Function triggered by SRAM parity error detection Enabled.
 * |[3]     |CORBRKEN  |Core Lockup Detection Trigger PWM Brake Function 0 Enable
 * |        |          |0 = Brake Function triggered by Core lockup detection Disabled.
 * |        |          |1 = Brake Function triggered by Core lockup detection Enabled.
 * @var PWM_T::BRKCTL0_1
 * Offset: 0xC8  PWM Brake Edge Detect Control Register 0
 * ---------------------------------------------------------------------------------------------------
 * |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 to SYS_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 to SYS_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 register 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 register 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 register 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 to SYS_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 to SYS_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 register 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 register 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 register 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: This register is 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: This register is write protected. Refer to SYS_REGLCTL register.
 * @var PWM_T::BRKCTL2_3
 * Offset: 0xCC  PWM Brake Edge Detect Control Register 2
 * ---------------------------------------------------------------------------------------------------
 * |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 to SYS_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 to SYS_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 register 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 register 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 register 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 to SYS_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 to SYS_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 register 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 register 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 register 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: This register is 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: This register is write protected. Refer to SYS_REGLCTL register.
 * @var PWM_T::BRKCTL4_5
 * Offset: 0xD0  PWM Brake Edge Detect Control Register 4
 * ---------------------------------------------------------------------------------------------------
 * |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 to SYS_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 to SYS_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 register 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 register 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 register 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 to SYS_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 to SYS_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 register 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 register 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 register 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: This register is 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: This register is write protected. Refer to SYS_REGLCTL register.
 * @var PWM_T::POLCTL
 * Offset: 0xD4  PWM Pin Polar Inverse Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |PINVn     |PWM PIN Polar Inverse Control
 * |        |          |The register controls polarity state of PWM output.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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
 * | :----: | :----:   | :---- |
 * |[5:0]   |POENn     |PWM Pin Output Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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
 * | :----: | :----:   | :---- |
 * |[2:0]   |BRKETRGn  |PWM Edge Brake Software Trigger (Write Only) (Write Protect) (M45xD/M45xC Only)
 * |        |          |Each bit n controls the corresponding PWM pair n.
 * |        |          |Write 1 to this bit will trigger edge brake, and set BRKEIFn to 1 in PWM_INTSTS1 register.
 * |        |          |Note: This register is write protected. Refer to SYS_REGLCTL register.
 * |[10:8]  |BRKLTRGn  |PWM Level Brake Software Trigger (Write Only) (Write Protect)
 * |        |          |Each bit n controls the corresponding PWM pair n.
 * |        |          |Write 1 to this bit will trigger level brake, and set BRKLIFn to 1 in PWM_INTSTS1 register.
 * |        |          |Note: This register is write protected. Refer to SYS_REGLCTL register.
 * @var PWM_T::INTEN0
 * Offset: 0xE0  PWM Interrupt Enable Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |ZIENn     |PWM Zero Point Interrupt Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Zero point interrupt Disabled.
 * |        |          |1 = Zero point interrupt Enabled.
 * |        |          |Note: Odd channels will read always 0 at complementary mode.
 * |[7]     |IFAIEN0_1 |PWM_CH0/1 Interrupt Flag Accumulator Interrupt Enable
 * |        |          |0 = Interrupt Flag accumulator interrupt Disabled.
 * |        |          |1 = Interrupt Flag accumulator interrupt Enabled.
 * |[13:8]  |PIENn     |PWM Period Point Interrupt Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Period point interrupt Disabled.
 * |        |          |1 = Period point interrupt Enabled.
 * |        |          |Note1: When up-down counter type period point means center point.
 * |        |          |Note2: Odd channels will read always 0 at complementary mode.
 * |[15]    |IFAIEN2_3 |PWM_CH2/3 Interrupt Flag Accumulator Interrupt Enable
 * |        |          |0 = Interrupt Flag accumulator interrupt Disabled.
 * |        |          |1 = Interrupt Flag accumulator interrupt Enabled.
 * |[21:16] |CMPUIENn  |PWM Compare Up Count Interrupt Enable
 * |        |          |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 use as another CMPUIEN for channel 0, 2, 4.
 * |[23]    |IFAIEN4_5 |PWM_CH4/5 Interrupt Flag Accumulator Interrupt Enable
 * |        |          |0 = Interrupt Flag accumulator interrupt Disabled.
 * |        |          |1 = Interrupt Flag accumulator interrupt Enabled.
 * |[29:24] |CMPDIENn  |PWM Compare Down Count Interrupt Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Compare down count interrupt Disabled.
 * |        |          |1 = Compare down count interrupt Enabled.
 * |        |          |Note: In complementary mode, CMPDIEN1, 3, 5 use 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 register 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 register 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 register 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 register 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 register 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 register is write protected. Refer to SYS_REGLCTL register.
 * @var PWM_T::INTSTS0
 * Offset: 0xE8  PWM Interrupt Flag Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |ZIFn      |PWM Zero Point Interrupt Flag
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |This bit is set by hardware when PWM counter reaches zero, software can write 1 to clear this bit to zero.
 * |[7]     |IFAIF0_1  |PWM_CH0/1 Interrupt Flag Accumulator Interrupt Flag
 * |        |          |Flag is set by hardware when condition match IFSEL0_1 in PWM_IFA register, software can clear this bit by writing 1 to it.
 * |[13:8]  |PIFn      |PWM Period Point Interrupt Flag
 * |        |          |This bit is set by hardware when PWM counter reaches PWM_PERIODn, software can write 1 to clear this bit to zero.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |[15]    |IFAIF2_3  |PWM_CH2/3 Interrupt Flag Accumulator Interrupt Flag
 * |        |          |Flag is set by hardware when condition match IFSEL2_3 in PWM_IFA register, software can clear this bit by writing 1 to it.
 * |[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.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |Note1: If CMPDAT equal to PERIOD, this flag is not working in up counter type selection.
 * |        |          |Note2: In complementary mode, CMPUIF1, 3, 5 use as another CMPUIF for channel 0, 2, 4.
 * |[23]    |IFAIF4_5  |PWM_CH4/5 Interrupt Flag Accumulator Interrupt Flag
 * |        |          |Flag is set by hardware when condition match IFSEL4_5 in PWM_IFA register, software can clear this bit by writing 1 to it.
 * |[29:24] |CMPDIFn   |PWM Compare Down Count Interrupt Flag
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |Flag is set by hardware when PWM counter down count and reaches PWM_CMPDATn, software can clear this bit by writing 1 to it.
 * |        |          |Note1: If CMPDAT equal to PERIOD, this flag is not working in down counter type selection.
 * |        |          |Note2: In complementary mode, CMPDIF1, 3, 5 use 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 register 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 register 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 register 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 register 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 register 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 register 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 register 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 register 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 register 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 register 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 register 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 register is write protected. Refer to SYS_REGLCTL register.
 * |[16]    |BRKESTS0  |PWM Channel0 Edge-Detect Brake Status
 * |        |          |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, writing 1 to clear.
 * |[17]    |BRKESTS1  |PWM Channel1 Edge-Detect Brake Status
 * |        |          |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, writing 1 to clear.
 * |[18]    |BRKESTS2  |PWM Channel2 Edge-Detect Brake Status
 * |        |          |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, writing 1 to clear.
 * |[19]    |BRKESTS3  |PWM Channel3 Edge-Detect Brake Status
 * |        |          |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, writing 1 to clear.
 * |[20]    |BRKESTS4  |PWM Channel4 Edge-Detect Brake Status
 * |        |          |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, writing 1 to clear.
 * |[21]    |BRKESTS5  |PWM Channel5 Edge-Detect Brake Status
 * |        |          |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, writing 1 to clear.
 * |[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::IFA
 * Offset: 0xF0  PWM Interrupt Flag Accumulator Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[3:0]   |IFCNT0_1  |PWM_CH0 And PWM_CH1 Interrupt Flag Counter
 * |        |          |The register sets the count number which defines how many times of PWM_CH0 and PWM_CH1 period occurs to set bit IFAIF0_1 to request the PWM period interrupt.
 * |        |          |PWM flag will be set in every IFCNT0_1 [3:0] times of PWM period.
 * |[6:4]   |IFSEL0_1  |PWM_CH0 And PWM_CH1 Interrupt Flag Accumulator Source Select
 * |        |          |000 = CNT equal to Zero in channel 0.
 * |        |          |001 = CNT equal to PERIOD in channel 0.
 * |        |          |010 = CNT equal to CMPU in channel 0.
 * |        |          |011 = CNT equal to CMPD in channel 0.
 * |        |          |100 = CNT equal to Zero in channel 1.
 * |        |          |101 = CNT equal to PERIOD in channel 1.
 * |        |          |110 = CNT equal to CMPU in channel 1.
 * |        |          |111 = CNT equal to CMPD in channel 1.
 * |[7]     |IFAEN0_1  |PWM_CH0 And PWM_CH1 Interrupt Flag Accumulator Enable
 * |        |          |0 = PWM_CH0 and PWM_CH1 interrupt flag accumulator disable.
 * |        |          |1 = PWM_CH0 and PWM_CH1 interrupt flag accumulator enable.
 * |[11:8]  |IFCNT2_3  |PWM_CH2 And PWM_CH3 Interrupt Flag Counter
 * |        |          |The register sets the count number which defines how many times of PWM_CH2 and PWM_CH3 period occurs to set bit IFAIF2_3 to request the PWM period interrupt.
 * |        |          |PWM flag will be set in every IFCNT2_3[3:0] times of PWM period.
 * |[14:12] |IFSEL2_3  |PWM_CH2 And PWM_CH3 Interrupt Flag Accumulator Source Select
 * |        |          |000 = CNT equal to Zero in channel 2.
 * |        |          |001 = CNT equal to PERIOD in channel 2.
 * |        |          |010 = CNT equal to CMPU in channel 2.
 * |        |          |011 = CNT equal to CMPD in channel 2.
 * |        |          |100 = CNT equal to Zero in channel 3.
 * |        |          |101 = CNT equal to PERIOD in channel 3.
 * |        |          |110 = CNT equal to CMPU in channel 3.
 * |        |          |111 = CNT equal to CMPD in channel 3.
 * |[15]    |IFAEN2_3  |PWM_CH2 And PWM_CH3 Interrupt Flag Accumulator Enable
 * |        |          |0 = PWM_CH2 and PWM_CH3 interrupt flag accumulator disable.
 * |        |          |1 = PWM_CH2 and PWM_CH3 interrupt flag accumulator enable.
 * |[19:16] |IFCNT4_5  |PWM_CH4 And PWM_CH5 Interrupt Flag Counter
 * |        |          |The register sets the count number which defines how many times of PWM_CH4 and PWM_CH5 period occurs to set bit IFAIF4_5 to request the PWM period interrupt.
 * |        |          |PWM flag will be set in every IFCNT4_5[3:0] times of PWM period.
 * |[22:20] |IFSEL4_5  |PWM_CH4 And PWM_CH5 Interrupt Flag Accumulator Source Select
 * |        |          |000 = CNT equal to Zero in channel 4.
 * |        |          |001 = CNT equal to PERIOD in channel 4.
 * |        |          |010 = CNT equal to CMPU in channel 4.
 * |        |          |011 = CNT equal to CMPD in channel 4.
 * |        |          |100 = CNT equal to Zero in channel 5.
 * |        |          |101 = CNT equal to PERIOD in channel 5.
 * |        |          |110 = CNT equal to CMPU in channel 5.
 * |        |          |111 = CNT equal to CMPD in channel 5.
 * |[23]    |IFAEN4_5  |PWM_CH4 And PWM_CH5 Interrupt Flag Accumulator Enable
 * |        |          |0 = PWM_CH4 and PWM_CH5 interrupt flag accumulator disable.
 * |        |          |1 = PWM_CH4 and PWM_CH5 interrupt flag accumulator enable.
 * @var PWM_T::DACTRGEN
 * Offset: 0xF4  PWM Trigger DAC Enable Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |ZTEn      |PWM Zero Point Trigger DAC Enable
 * |        |          |0 = PWM period point trigger DAC function Disabled.
 * |        |          |1 = PWM period point trigger DAC function Enabled.
 * |        |          |PWM can trigger EADC/DAC/DMA to start action when PWM counter down count to zero if this bit is set to 1.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |[13:8]  |PTEn      |PWM Period Point Trigger DAC Enable
 * |        |          |0 = PWM period point trigger DAC function Disabled.
 * |        |          |1 = PWM period point trigger DAC function Enabled.
 * |        |          |PWM can trigger DAC to start action when PWM counter up count to (PERIODn+1) if this bit is set to 1.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |[21:16] |CUTRGEn   |PWM Compare Up Count Point Trigger DAC Enable
 * |        |          |0 = PWM Compare Up point trigger DAC function Disabled.
 * |        |          |1 = PWM Compare Up point trigger DAC function Enabled.
 * |        |          |PWM can trigger DAC to start action when PWM counter up count to CMPDAT if this bit is set to 1.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |Note1: This bit should keep at 0 when PWM counter operating in down counter type.
 * |        |          |Note2: In complementary mode, CUTRGE1, 3, 5 use as another CUTRGE for channel 0, 2, 4.
 * |[29:24] |CDTRGEn   |PWM Compare Down Count Point Trigger DAC Enable
 * |        |          |0 = PWM Compare Down count point trigger DAC function Disabled.
 * |        |          |1 = PWM Compare Down count point trigger DAC function Enabled.
 * |        |          |PWM can trigger DAC to start action when PWM counter down count to CMPDAT if this bit is set to 1.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |Note1: This bit should keep at 0 when PWM counter operating in up counter type.
 * |        |          |Note2: In complementary mode, CDTRGE1, 3, 5 use as another CDTRGE for channel 0, 2, 4.
 * @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 = PWM_CH1 zero point.
 * |        |          |0110 = PWM_CH1 period point.
 * |        |          |0111 = PWM_CH1 zero or period point.
 * |        |          |1000 = PWM_CH1 up-count CMPDAT point.
 * |        |          |1001 = PWM_CH1 down-count CMPDAT point.
 * |        |          |1010 = PWM_CH0 up-count free CMPDAT point.
 * |        |          |1011 = PWM_CH0 down-count free CMPDAT point.
 * |        |          |1100 = PWM_CH2 up-count free CMPDAT point.
 * |        |          |1101 = PWM_CH2 down-count free CMPDAT point.
 * |        |          |1110 = PWM_CH4 up-count free CMPDAT point.
 * |        |          |1111 = PWM_CH4 down-count free CMPDAT point.
 * |[7]     |TRGEN0    |PWM_CH0 Trigger EADC enable bit
 * |[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 = PWM_CH1 zero point.
 * |        |          |0110 = PWM_CH1 period point.
 * |        |          |0111 = PWM_CH1 zero or period point.
 * |        |          |1000 = PWM_CH1 up-count CMPDAT point.
 * |        |          |1001 = PWM_CH1 down-count CMPDAT point.
 * |        |          |1010 = PWM_CH0 up-count free CMPDAT point.
 * |        |          |1011 = PWM_CH0 down-count free CMPDAT point.
 * |        |          |1100 = PWM_CH2 up-count free CMPDAT point.
 * |        |          |1101 = PWM_CH2 down-count free CMPDAT point.
 * |        |          |1110 = PWM_CH4 up-count free CMPDAT point.
 * |        |          |1111 = PWM_CH4 down-count free CMPDAT point.
 * |[15]    |TRGEN1    |PWM_CH1 Trigger EADC enable bit
 * |[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 = PWM_CH3 zero point.
 * |        |          |0110 = PWM_CH3 period point.
 * |        |          |0111 = PWM_CH3 zero or period point.
 * |        |          |1000 = PWM_CH3 up-count CMPDAT point.
 * |        |          |1001 = PWM_CH3 down-count CMPDAT point.
 * |        |          |1010 = PWM_CH0 up-count free CMPDAT point.
 * |        |          |1011 = PWM_CH0 down-count free CMPDAT point.
 * |        |          |1100 = PWM_CH2 up-count free CMPDAT point.
 * |        |          |1101 = PWM_CH2 down-count free CMPDAT point.
 * |        |          |1110 = PWM_CH4 up-count free CMPDAT point.
 * |        |          |1111 = PWM_CH4 down-count free CMPDAT point.
 * |[23]    |TRGEN2    |PWM_CH2 Trigger EADC enable bit
 * |[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 = PWM_CH3 zero point.
 * |        |          |0110 = PWM_CH3 period point.
 * |        |          |0111 = PWM_CH3 zero or period point.
 * |        |          |1000 = PWM_CH3 up-count CMPDAT point.
 * |        |          |1001 = PWM_CH3 down-count CMPDAT point.
 * |        |          |1010 = PWM_CH0 up-count free CMPDAT point.
 * |        |          |1011 = PWM_CH0 down-count free CMPDAT point.
 * |        |          |1100 = PWM_CH2 up-count free CMPDAT point.
 * |        |          |1101 = PWM_CH2 down-count free CMPDAT point.
 * |        |          |1110 = PWM_CH4 up-count free CMPDAT point.
 * |        |          |1111 = PWM_CH4 down-count free CMPDAT point.
 * |[31]    |TRGEN3    |PWM_CH3 Trigger EADC enable bit
 * @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 = PWM_CH5 zero point.
 * |        |          |0110 = PWM_CH5 period point.
 * |        |          |0111 = PWM_CH5 zero or period point.
 * |        |          |1000 = PWM_CH5 up-count CMPDAT point.
 * |        |          |1001 = PWM_CH5 down-count CMPDAT point.
 * |        |          |1010 = PWM_CH0 up-count free CMPDAT point.
 * |        |          |1011 = PWM_CH0 down-count free CMPDAT point.
 * |        |          |1100 = PWM_CH2 up-count free CMPDAT point.
 * |        |          |1101 = PWM_CH2 down-count free CMPDAT point.
 * |        |          |1110 = PWM_CH4 up-count free CMPDAT point.
 * |        |          |1111 = PWM_CH4 down-count free CMPDAT point.
 * |[7]     |TRGEN4    |PWM_CH4 Trigger EADC enable bit
 * |[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 = PWM_CH5 zero point.
 * |        |          |0110 = PWM_CH5 period point.
 * |        |          |0111 = PWM_CH5 zero or period point.
 * |        |          |1000 = PWM_CH5 up-count CMPDAT point.
 * |        |          |1001 = PWM_CH5 down-count CMPDAT point.
 * |        |          |1010 = PWM_CH0 up-count free CMPDAT point.
 * |        |          |1011 = PWM_CH0 down-count free CMPDAT point.
 * |        |          |1100 = PWM_CH2 up-count free CMPDAT point.
 * |        |          |1101 = PWM_CH2 down-count free CMPDAT point.
 * |        |          |1110 = PWM_CH4 up-count free CMPDAT point.
 * |        |          |1111 = PWM_CH4 down-count free CMPDAT point.
 * |[15]    |TRGEN5    |PWM_CH5 Trigger EADC enable bit
 * @var PWM_T::FTCMPDAT0_1
 * Offset: 0x100  PWM Free Trigger Compare Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FTCMP     |PWM Free Trigger Compare Register
 * |        |          |FTCMP use to compare with even CNTR to trigger EADC.
 * |        |          |FTCMPDAT0, 2, 4 corresponding complementary pairs PWM_CH0and PWM_CH1, PWM_CH2 and PWM_CH3, PWM_CH4 and PWM_CH5.
 * @var PWM_T::FTCMPDAT2_3
 * Offset: 0x104  PWM Free Trigger Compare Register 2
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FTCMP     |PWM Free Trigger Compare Register
 * |        |          |FTCMP use to compare with even CNTR to trigger EADC.
 * |        |          |FTCMPDAT0, 2, 4 corresponding complementary pairs PWM_CH0and PWM_CH1, PWM_CH2 and PWM_CH3, PWM_CH4 and PWM_CH5.
 * @var PWM_T::FTCMPDAT4_5
 * Offset: 0x108  PWM Free Trigger Compare Register 4
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FTCMP     |PWM Free Trigger Compare Register
 * |        |          |FTCMP use to compare with even CNTR to trigger EADC.
 * |        |          |FTCMPDAT0, 2, 4 corresponding complementary pairs PWM_CH0and PWM_CH1, PWM_CH2 and PWM_CH3, PWM_CH4 and PWM_CH5.
 * @var PWM_T::SSCTL
 * Offset: 0x110  PWM Synchronous Start Control Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |SSENn     |PWM Synchronous Start Function Enable
 * |        |          |When synchronous start function is enabled, the PWM counter enable register (PWM_CNTEN) can be enabled by writing PWM synchronous start trigger bit (CNTSEN).
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = PWM synchronous start function Disabled.
 * |        |          |1 = PWM synchronous start function Enabled.
 * @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.
 * |        |          |Note: This bit only present in PWM0_BA.
 * @var PWM_T::STATUS
 * Offset: 0x120  PWM Status Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |CNTMAXFn  |Time-Base Counter Equal To 0xFFFF Latched Flag
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = indicates the time-base counter never reached its maximum value 0xFFFF.
 * |        |          |1 = indicates the time-base counter reached its maximum value, software can write 1 to clear this bit.
 * |[10:8]  |SYNCINFn  |Input Synchronization Latched Flag
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Indicates no SYNC_IN event has occurred.
 * |        |          |1 = Indicates an SYNC_IN event has occurred, software can write 1 to clear this bit.
 * |[21:16] |ADCTRGFn  |EADC Start Of Conversion Flag
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Indicates no EADC start of conversion trigger event has occurred.
 * |        |          |1 = Indicates an EADC start of conversion trigger event has occurred, software can write 1 to clear this bit.
 * |[24]    |DACTRGF   |DAC Start Of Conversion Flag
 * |        |          |0 = Indicates no DAC start of conversion trigger event has occurred.
 * |        |          |1 = Indicates an DAC start of conversion trigger event has occurred, software can write 1 to clear this bit
 * @var PWM_T::CAPINEN
 * Offset: 0x200  PWM Capture Input Enable Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |CAPINENn  |Capture Input Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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
 * | :----: | :----:   | :---- |
 * |[5:0]   |CAPENn    |Capture Function Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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).
 * |[13:8]  |CAPINVn   |Capture Inverter Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Capture source inverter Disabled.
 * |        |          |1 = Capture source inverter Enabled. Reverse the input signal from GPIO.
 * |[21:16] |RCRLDENn  |Rising Capture Reload Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Rising capture reload counter Disabled.
 * |        |          |1 = Rising capture reload counter Enabled.
 * |[29:24] |FCRLDENn  |Falling Capture Reload Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |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
 * | :----: | :----:   | :---- |
 * |[5:0]   |CRLIFOVn  |Capture Rising Latch Interrupt Flag Overrun Status (Read Only)
 * |        |          |This flag indicates if rising latch happened when the corresponding CRLIF is 1.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |Note: This bit will be cleared automatically when user clear corresponding CRLIF.
 * |[13:8]  |CFLIFOVn  |Capture Falling Latch Interrupt Flag Overrun Status (Read Only)
 * |        |          |This flag indicates if falling latch happened when the corresponding CFLIF is 1.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |Note: This bit will be cleared automatically when user clear corresponding CFLIF.
 * @var PWM_T::RCAPDAT0
 * Offset: 0x20C  PWM Rising Capture Data Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |RCAPDAT   |PWM Rising Capture Data Register (Read Only)
 * |        |          |When rising capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::FCAPDAT0
 * Offset: 0x210  PWM Falling Capture Data Register 0
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FCAPDAT   |PWM Falling Capture Data Register (Read Only)
 * |        |          |When falling capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::RCAPDAT1
 * Offset: 0x214  PWM Rising Capture Data Register 1
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |RCAPDAT   |PWM Rising Capture Data Register (Read Only)
 * |        |          |When rising capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::FCAPDAT1
 * Offset: 0x218  PWM Falling Capture Data Register 1
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FCAPDAT   |PWM Falling Capture Data Register (Read Only)
 * |        |          |When falling capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::RCAPDAT2
 * Offset: 0x21C  PWM Rising Capture Data Register 2
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |RCAPDAT   |PWM Rising Capture Data Register (Read Only)
 * |        |          |When rising capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::FCAPDAT2
 * Offset: 0x220  PWM Falling Capture Data Register 2
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FCAPDAT   |PWM Falling Capture Data Register (Read Only)
 * |        |          |When falling capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::RCAPDAT3
 * Offset: 0x224  PWM Rising Capture Data Register 3
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |RCAPDAT   |PWM Rising Capture Data Register (Read Only)
 * |        |          |When rising capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::FCAPDAT3
 * Offset: 0x228  PWM Falling Capture Data Register 3
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FCAPDAT   |PWM Falling Capture Data Register (Read Only)
 * |        |          |When falling capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::RCAPDAT4
 * Offset: 0x22C  PWM Rising Capture Data Register 4
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |RCAPDAT   |PWM Rising Capture Data Register (Read Only)
 * |        |          |When rising capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::FCAPDAT4
 * Offset: 0x230  PWM Falling Capture Data Register 4
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FCAPDAT   |PWM Falling Capture Data Register (Read Only)
 * |        |          |When falling capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::RCAPDAT5
 * Offset: 0x234  PWM Rising Capture Data Register 5
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |RCAPDAT   |PWM Rising Capture Data Register (Read Only)
 * |        |          |When rising capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::FCAPDAT5
 * Offset: 0x238  PWM Falling Capture Data Register 5
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FCAPDAT   |PWM Falling Capture Data Register (Read Only)
 * |        |          |When falling capture condition happened, the PWM counter value will be saved in this register.
 * @var PWM_T::PDMACTL
 * Offset: 0x23C  PWM PDMA Control Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[0]     |CHEN0_1   |Channel 0/1 PDMA Enable
 * |        |          |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
 * |        |          |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
 * |        |          |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::PDMACAP0_1
 * Offset: 0x240  PWM Capture Channel 01 PDMA Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |CAPBUF    |PWM Capture PDMA Register
 * |        |          |(Read Only)
 * |        |          |This register is use as a buffer to transfer PWM capture rising or falling data to memory by PDMA.
 * @var PWM_T::PDMACAP2_3
 * Offset: 0x244  PWM Capture Channel 23 PDMA Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |CAPBUF    |PWM Capture PDMA Register
 * |        |          |(Read Only)
 * |        |          |This register is use as a buffer to transfer PWM capture rising or falling data to memory by PDMA.
 * @var PWM_T::PDMACAP4_5
 * Offset: 0x248  PWM Capture Channel 45 PDMA Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |CAPBUF    |PWM Capture PDMA Register
 * |        |          |(Read Only)
 * |        |          |This register is use 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
 * | :----: | :----:   | :---- |
 * |[5:0]   |CAPRIENn  |PWM Capture Rising Latch Interrupt Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Capture rising edge latch interrupt Disabled.
 * |        |          |1 = Capture rising edge latch interrupt Enabled.
 * |        |          |Note: When Capture with PDMA operating, CINTENR corresponding channel CAPRIEN must be disabled.
 * |[13:8]  |CAPFIENn  |PWM Capture Falling Latch Interrupt Enable
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = Capture falling edge latch interrupt Disabled.
 * |        |          |1 = Capture falling edge latch interrupt Enabled.
 * |        |          |Note: When Capture with PDMA operating, CINTENR corresponding channel CAPFIEN must be disabled.
 * @var PWM_T::CAPIF
 * Offset: 0x254  PWM Capture Interrupt Flag Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[5:0]   |CRLIFn    |PWM Capture Rising Latch Interrupt Flag
 * |        |          |This bit is writing 1 to clear. Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = No capture rising latch condition happened.
 * |        |          |1 = Capture rising latch condition happened, this flag will be set to high.
 * |        |          |Note: When Capture with PDMA operating, CIFR corresponding channel CRLIF will cleared by hardware after PDMA transfer data.
 * |[13:8]  |CFLIFn    |PWM Capture Falling Latch Interrupt Flag
 * |        |          |This bit is writing 1 to clear. Each bit n controls the corresponding PWM channel n.
 * |        |          |0 = No capture falling latch condition happened.
 * |        |          |1 = Capture falling latch condition happened, this flag will be set to high.
 * |        |          |Note: When Capture with PDMA operating, CIFR corresponding channel CFLIF will cleared by hardware after PDMA transfer data.
 * @var PWM_T::PBUF
 * Offset: 0x304~0x318  PWM PERIOD0~5 Buffer
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |PBUF      |PWM Period Register Buffer
 * |        |          |(Read Only)
 * |        |          |Used as PERIOD active register.
 * @var PWM_T::CMPBUF
 * Offset: 0x31C~0x330  PWM CMPDAT0~5 Buffer
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |CMPBUF    |PWM Comparator Register Buffer
 * |        |          |(Read Only)
 * |        |          |Used as CMP active register.
 * @var PWM_T::FTCBUF0_1
 * Offset: 0x340  PWM FTCMPDAT0_1 Buffer
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FTCMPBUF  |PWM FTCMPDAT Buffer (Read Only)
 * |        |          |Used as FTCMPDAT active register.
 * @var PWM_T::FTCBUF2_3
 * Offset: 0x344  PWM FTCMPDAT2_3 Buffer
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FTCMPBUF  |PWM FTCMPDAT Buffer (Read Only)
 * |        |          |Used as FTCMPDAT active register.
 * @var PWM_T::FTCBUF4_5
 * Offset: 0x348  PWM FTCMPDAT4_5 Buffer
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[15:0]  |FTCMPBUF  |PWM FTCMPDAT Buffer (Read Only)
 * |        |          |Used as FTCMPDAT active register.
 * @var PWM_T::FTCI
 * Offset: 0x34C  PWM FTCMPDAT Indicator Register
 * ---------------------------------------------------------------------------------------------------
 * |Bits    |Field     |Descriptions
 * | :----: | :----:   | :---- |
 * |[2:0]   |FTCMUn    |PWM FTCMPDAT Up Indicator
 * |        |          |Indicator will be set to high when FTCMPDATn equal to PERIODn and DIRF=1, software can write 1 to clear this bit.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 * |[10:8]  |FTCMDn    |PWM FTCMPDAT Down Indicator
 * |        |          |Indicator will be set to high when FTCMPDATn equal to PERIODn and DIRF=0, software can write 1 to clear this bit.
 * |        |          |Each bit n controls the corresponding PWM channel n.
 */

    __IO uint32_t CTL0;          /* Offset: 0x00  PWM Control Register 0                                             */
    __IO uint32_t CTL1;          /* Offset: 0x04  PWM Control Register 1                                             */
    __IO uint32_t SYNC;          /* Offset: 0x08  PWM Synchronization Register                                       */
    __IO uint32_t SWSYNC;        /* Offset: 0x0C  PWM Software Control Synchronization Register                      */
    __IO uint32_t CLKSRC;        /* Offset: 0x10  PWM Clock Source Register                                          */
    __IO uint32_t CLKPSC0_1;     /* Offset: 0x14  PWM Clock Pre-scale Register 0                                     */
    __IO uint32_t CLKPSC2_3;     /* Offset: 0x18  PWM Clock Pre-scale Register 2                                     */
    __IO uint32_t CLKPSC4_5;     /* Offset: 0x1C  PWM Clock Pre-scale Register 4                                     */
    __IO uint32_t CNTEN;         /* Offset: 0x20  PWM Counter Enable Register                                        */
    __IO uint32_t CNTCLR;        /* Offset: 0x24  PWM Clear Counter Register                                         */
    __IO uint32_t LOAD;          /* Offset: 0x28  PWM Load Register                                                  */
    __I  uint32_t RESERVE0[1];  
    __IO uint32_t PERIOD[6];     /* Offset: 0x30~0x44  PWM Period Register 0~5                                       */
    __I  uint32_t RESERVE1[2];  
    __IO uint32_t CMPDAT[6];     /* Offset: 0x50~0x64  PWM Comparator Register 0~5                                   */
    __I  uint32_t RESERVE2[2];  
    __IO uint32_t DTCTL0_1;      /* Offset: 0x70  PWM Dead-Time Control Register 0                                   */
    __IO uint32_t DTCTL2_3;      /* Offset: 0x74  PWM Dead-Time Control Register 2                                   */
    __IO uint32_t DTCTL4_5;      /* Offset: 0x78  PWM Dead-Time Control Register 4                                   */
    __I  uint32_t RESERVE3[1];  
    __IO uint32_t PHS0_1;        /* Offset: 0x80  PWM Counter Phase Register 0                                       */
    __IO uint32_t PHS2_3;        /* Offset: 0x84  PWM Counter Phase Register 2                                       */
    __IO uint32_t PHS4_5;        /* Offset: 0x88  PWM Counter Phase Register 4                                       */
    __I  uint32_t RESERVE4[1];  
    __I  uint32_t CNT[6];        /* Offset: 0x90~0xA4  PWM Counter Register 0~5                                      */
    __I  uint32_t RESERVE5[2];  
    __IO uint32_t WGCTL0;        /* Offset: 0xB0  PWM Generation Register 0                                          */
    __IO uint32_t WGCTL1;        /* Offset: 0xB4  PWM Generation Register 1                                          */
    __IO uint32_t MSKEN;         /* Offset: 0xB8  PWM Mask Enable Register                                           */
    __IO uint32_t MSK;           /* Offset: 0xBC  PWM Mask Data Register                                             */
    __IO uint32_t BNF;           /* Offset: 0xC0  PWM Brake Noise Filter Register                                    */
    __IO uint32_t FAILBRK;       /* Offset: 0xC4  PWM System Fail Brake Control Register                             */
    __IO uint32_t BRKCTL0_1;     /* Offset: 0xC8  PWM Brake Edge Detect Control Register 0                           */
    __IO uint32_t BRKCTL2_3;     /* Offset: 0xCC  PWM Brake Edge Detect Control Register 2                           */
    __IO uint32_t BRKCTL4_5;     /* Offset: 0xD0  PWM Brake Edge Detect Control Register 4                           */
    __IO uint32_t POLCTL;        /* Offset: 0xD4  PWM Pin Polar Inverse Register                                     */
    __IO uint32_t POEN;          /* Offset: 0xD8  PWM Output Enable Register                                         */
    __O  uint32_t SWBRK;         /* Offset: 0xDC  PWM Software Brake Control Register                                */
    __IO uint32_t INTEN0;        /* Offset: 0xE0  PWM Interrupt Enable Register 0                                    */
    __IO uint32_t INTEN1;        /* Offset: 0xE4  PWM Interrupt Enable Register 1                                    */
    __IO uint32_t INTSTS0;       /* Offset: 0xE8  PWM Interrupt Flag Register 0                                      */
    __IO uint32_t INTSTS1;       /* Offset: 0xEC  PWM Interrupt Flag Register 1                                      */
    __IO uint32_t IFA;           /* Offset: 0xF0  PWM Interrupt Flag Accumulator Register                            */
    __IO uint32_t DACTRGEN;      /* Offset: 0xF4  PWM Trigger DAC Enable Register                                    */
    __IO uint32_t EADCTS0;       /* Offset: 0xF8  PWM Trigger EADC Source Select Register 0                          */
    __IO uint32_t EADCTS1;       /* Offset: 0xFC  PWM Trigger EADC Source Select Register 1                          */
    __IO uint32_t FTCMPDAT0_1;   /* Offset: 0x100  PWM Free Trigger Compare Register 0                               */
    __IO uint32_t FTCMPDAT2_3;   /* Offset: 0x104  PWM Free Trigger Compare Register 2                               */
    __IO uint32_t FTCMPDAT4_5;   /* Offset: 0x108  PWM Free Trigger Compare Register 4                               */
    __I  uint32_t RESERVE6[1];  
    __IO uint32_t SSCTL;         /* Offset: 0x110  PWM Synchronous Start Control Register                            */
    __O  uint32_t SSTRG;         /* Offset: 0x114  PWM Synchronous Start Trigger Register                            */
    __I  uint32_t RESERVE7[2];  
    __IO uint32_t STATUS;        /* Offset: 0x120  PWM Status Register                                               */
    __I  uint32_t RESERVE8[55]; 
    __IO uint32_t CAPINEN;       /* Offset: 0x200  PWM Capture Input Enable Register                                 */
    __IO uint32_t CAPCTL;        /* Offset: 0x204  PWM Capture Control Register                                      */
    __I  uint32_t CAPSTS;        /* Offset: 0x208  PWM Capture Status Register                                       */
    __I  uint32_t RCAPDAT0;      /* Offset: 0x20C  PWM Rising Capture Data Register 0                                */
    __I  uint32_t FCAPDAT0;      /* Offset: 0x210  PWM Falling Capture Data Register 0                               */
    __I  uint32_t RCAPDAT1;      /* Offset: 0x214  PWM Rising Capture Data Register 1                                */
    __I  uint32_t FCAPDAT1;      /* Offset: 0x218  PWM Falling Capture Data Register 1                               */
    __I  uint32_t RCAPDAT2;      /* Offset: 0x21C  PWM Rising Capture Data Register 2                                */
    __I  uint32_t FCAPDAT2;      /* Offset: 0x220  PWM Falling Capture Data Register 2                               */
    __I  uint32_t RCAPDAT3;      /* Offset: 0x224  PWM Rising Capture Data Register 3                                */
    __I  uint32_t FCAPDAT3;      /* Offset: 0x228  PWM Falling Capture Data Register 3                               */
    __I  uint32_t RCAPDAT4;      /* Offset: 0x22C  PWM Rising Capture Data Register 4                                */
    __I  uint32_t FCAPDAT4;      /* Offset: 0x230  PWM Falling Capture Data Register 4                               */
    __I  uint32_t RCAPDAT5;      /* Offset: 0x234  PWM Rising Capture Data Register 5                                */
    __I  uint32_t FCAPDAT5;      /* Offset: 0x238  PWM Falling Capture Data Register 5                               */
    __IO uint32_t PDMACTL;       /* Offset: 0x23C  PWM PDMA Control Register                                         */
    __I  uint32_t PDMACAP0_1;    /* Offset: 0x240  PWM Capture Channel 01 PDMA Register                              */
    __I  uint32_t PDMACAP2_3;    /* Offset: 0x244  PWM Capture Channel 23 PDMA Register                              */
    __I  uint32_t PDMACAP4_5;    /* Offset: 0x248  PWM Capture Channel 45 PDMA Register                              */
    __I  uint32_t RESERVE9[1];  
    __IO uint32_t CAPIEN;        /* Offset: 0x250  PWM Capture Interrupt Enable Register                             */
    __IO uint32_t CAPIF;         /* Offset: 0x254  PWM Capture Interrupt Flag Register                               */
    __I  uint32_t RESERVE10[43];
    __I  uint32_t PBUF[6];       /* Offset: 0x304~0x318  PWM PERIOD0~5 Buffer                                        */
    __I  uint32_t CMPBUF[6];     /* Offset: 0x31C~0x330  PWM CMPDAT0~5 Buffer                                        */
    __I  uint32_t RESERVE11[3]; 
    __I  uint32_t FTCBUF0_1;     /* Offset: 0x340  PWM FTCMPDAT0_1 Buffer                                            */
    __I  uint32_t FTCBUF2_3;     /* Offset: 0x344  PWM FTCMPDAT2_3 Buffer                                            */
    __I  uint32_t FTCBUF4_5;     /* Offset: 0x348  PWM FTCMPDAT4_5 Buffer                                            */
    __IO uint32_t FTCI;          /* Offset: 0x34C  PWM FTCMPDAT Indicator Register                                   */

} PWM_T;

 

這里我們對(duì)照數(shù)據(jù)手冊(cè),一個(gè)一個(gè)說(shuō):

PWM0 管腳功能通過(guò)SYS_GPC_MFPL寄存器配置,PWM1 管腳功能通過(guò)SYS_GPC_MFPH寄存
器配置,

PWM_BRAKE0 和 PWM_BRAKE1的管腳功能通過(guò)GPB_MFP 和 GPC_MFP寄存器配置
PWM0_SYNC_IN,

PWM0_BRAKE0 和 PWM0_BRAKE1 管腳功能通過(guò)SYS_GPD_MFPL多功能寄
存器配置.

PWM1_BRAKE0 和 PWM1_BRAKE1 管腳功能通過(guò) SYS_GPE_MFPL多功能寄存器配
置。

/* Set PC multi-function pins for PWM0 Channel0~3 */
SYS->GPC_MFPL = (SYS->GPC_MFPL & (~SYS_GPC_MFPL_PC0MFP_Msk));
SYS->GPC_MFPL |= SYS_GPC_MFPL_PC0MFP_PWM0_CH0;
SYS->GPC_MFPL = (SYS->GPC_MFPL & (~SYS_GPC_MFPL_PC1MFP_Msk));
SYS->GPC_MFPL |= SYS_GPC_MFPL_PC1MFP_PWM0_CH1;
SYS->GPC_MFPL = (SYS->GPC_MFPL & (~SYS_GPC_MFPL_PC2MFP_Msk));
SYS->GPC_MFPL |= SYS_GPC_MFPL_PC2MFP_PWM0_CH2;
SYS->GPC_MFPL = (SYS->GPC_MFPL & (~SYS_GPC_MFPL_PC3MFP_Msk));
SYS->GPC_MFPL |= SYS_GPC_MFPL_PC3MFP_PWM0_CH3;

PWM0_SYNC_OUT 管腳功能通過(guò)SYS_GPB_MFPL多功能寄存器配置。


The PWM 時(shí)鐘可以通過(guò)CLK_APBCLK1[17:16]來(lái)使能。

PWM時(shí)鐘源通過(guò)CLK_CLKSEL2[1:0]來(lái)選擇 。

通過(guò)結(jié)構(gòu)體和宏定義來(lái)分配地址,在地址上賦值

宏定義

#define CLK_CLKSEL2_PWM0SEL_Pos          (0)                                               /*!< CLK_T::CLKSEL2: PWM0SEL Position          */
#define CLK_CLKSEL2_PWM0SEL_Msk          (0x1ul << CLK_CLKSEL2_PWM0SEL_Pos)                /*!< CLK_T::CLKSEL2: PWM0SEL Mask              */

#define CLK_CLKSEL2_PWM1SEL_Pos          (1)                                               /*!< CLK_T::CLKSEL2: PWM1SEL Position          */
#define CLK_CLKSEL2_PWM1SEL_Msk          (0x1ul << CLK_CLKSEL2_PWM1SEL_Pos)                /*!< CLK_T::CLKSEL2: PWM1SEL Mask     
#define CLK_CLKSEL2_PWM0SEL_PLL (0x0UL<<CLK_CLKSEL2_PWM0SEL_Pos) /*!< Setting PWM0 clock source as PLL */
#define CLK_CLKSEL2_PWM0SEL_PCLK0 (0x1UL<<CLK_CLKSEL2_PWM0SEL_Pos) /*!< Setting PWM0 clock source as PCLK0 */

CLK->APBCLK1 |= CLK_APBCLK1_PWM0CKEN_Msk;

/*---------------------------------------------------------------------------------------------------------*/
/* PWM clock frequency configuration */
/*---------------------------------------------------------------------------------------------------------*/
/* Select HCLK clock divider as 2 */
CLK->CLKDIV0 = (CLK->CLKDIV0 & ~CLK_CLKDIV0_HCLKDIV_Msk) | CLK_CLKDIV0_HCLK(2);

/* PWM clock frequency can be set equal or double to HCLK by choosing case 1 or case 2 */
/* case 1.PWM clock frequency is set equal to HCLK: select PWM module clock source as PCLK */
CLK->CLKSEL2 = (CLK->CLKSEL2 & ~CLK_CLKSEL2_PWM0SEL_Msk) | CLK_CLKSEL2_PWM0SEL_PCLK0;

#define CLK_CLKSEL2_PWM0SEL_Pos (0) /*!< CLK_T::CLKSEL2: PWM0SEL Position */
#define CLK_CLKSEL2_PWM0SEL_Msk (0x1ul << CLK_CLKSEL2_PWM0SEL_Pos) /*!< CLK_T::CLKSEL2: PWM0SEL Mask

    PWM0->CTL1 &= ~PWM_CTL1_CNTTYPE0_Msk;
    PWM0->CTL1 |= 0x1;

    /*Set PWM Timer clock prescaler*/
    PWM_SET_PRESCALER(PWM0, 0, 0); // Divided by 1

    /*Set PWM Timer duty*/
    PWM_SET_CMR(PWM0, 0, 199);

    /*Set PWM Timer period*/
    PWM_SET_CNR(PWM0, 0, 399);

    /* Set waveform generation */
    PWM0->WGCTL0 = 0x10000;
    PWM0->WGCTL1 = 0x20000;
 /* Set waveform generation */
    PWM0->WGCTL0 = 0x10000;
    PWM0->WGCTL1 = 0x20000;

    // Enable output of PWM0 channel 0
    PWM0->POEN |= PWM_POEN_POEN0_Msk;

    // Enable PWM0 channel 0 period interrupt, use channel 0 to measure time.
    PWM0->INTEN0 = (PWM0->INTEN0 & ~PWM_INTEN0_PIEN0_Msk) | PWM_INTEN0_PIEN0_Msk;
    NVIC_EnableIRQ(PWM0P0_IRQn);

    // Start
    PWM0->CNTEN |= PWM_CNTEN_CNTEN0_Msk;

 


          
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