/**************************************************************************//** * @file epwm.h * @version V3.00 * @brief M480 series EPWM driver header file * * @copyright (C) 2016 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #ifndef __EPWM_H__ #define __EPWM_H__ #ifdef __cplusplus extern "C" { #endif /** @addtogroup Standard_Driver Standard Driver @{ */ /** @addtogroup EPWM_Driver EPWM Driver @{ */ /** @addtogroup EPWM_EXPORTED_CONSTANTS EPWM Exported Constants @{ */ #define EPWM_CHANNEL_NUM (6U) /*!< EPWM channel number \hideinitializer */ #define EPWM_CH_0_MASK (0x1U) /*!< EPWM channel 0 mask \hideinitializer */ #define EPWM_CH_1_MASK (0x2U) /*!< EPWM channel 1 mask \hideinitializer */ #define EPWM_CH_2_MASK (0x4U) /*!< EPWM channel 2 mask \hideinitializer */ #define EPWM_CH_3_MASK (0x8U) /*!< EPWM channel 3 mask \hideinitializer */ #define EPWM_CH_4_MASK (0x10U) /*!< EPWM channel 4 mask \hideinitializer */ #define EPWM_CH_5_MASK (0x20U) /*!< EPWM channel 5 mask \hideinitializer */ /*---------------------------------------------------------------------------------------------------------*/ /* Counter Type Constant Definitions */ /*---------------------------------------------------------------------------------------------------------*/ #define EPWM_UP_COUNTER (0U) /*!< Up counter type \hideinitializer */ #define EPWM_DOWN_COUNTER (1U) /*!< Down counter type \hideinitializer */ #define EPWM_UP_DOWN_COUNTER (2U) /*!< Up-Down counter type \hideinitializer */ /*---------------------------------------------------------------------------------------------------------*/ /* Aligned Type Constant Definitions */ /*---------------------------------------------------------------------------------------------------------*/ #define EPWM_EDGE_ALIGNED (1U) /*!< EPWM working in edge aligned type(down count) \hideinitializer */ #define EPWM_CENTER_ALIGNED (2U) /*!< EPWM working in center aligned type \hideinitializer */ /*---------------------------------------------------------------------------------------------------------*/ /* Output Level Constant Definitions */ /*---------------------------------------------------------------------------------------------------------*/ #define EPWM_OUTPUT_NOTHING (0U) /*!< EPWM output nothing \hideinitializer */ #define EPWM_OUTPUT_LOW (1U) /*!< EPWM output low \hideinitializer */ #define EPWM_OUTPUT_HIGH (2U) /*!< EPWM output high \hideinitializer */ #define EPWM_OUTPUT_TOGGLE (3U) /*!< EPWM output toggle \hideinitializer */ /*---------------------------------------------------------------------------------------------------------*/ /* Synchronous Start Function Control Constant Definitions */ /*---------------------------------------------------------------------------------------------------------*/ #define EPWM_SSCTL_SSRC_EPWM0 (0U<CTL1 = (epwm)->CTL1 | (0x7ul<CTL1 = (epwm)->CTL1 & ~(0x7ul<CTL0 = (epwm)->CTL0 | EPWM_CTL0_GROUPEN_Msk) /** * @brief This macro disable group mode * @param[in] epwm The pointer of the specified EPWM module * @return None * @details This macro is used to disable group mode of EPWM module. * \hideinitializer */ #define EPWM_DISABLE_GROUP_MODE(epwm) ((epwm)->CTL0 = (epwm)->CTL0 & ~EPWM_CTL0_GROUPEN_Msk) /** * @brief Enable timer synchronous start counting function of specified channel(s) * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Bit 0 represents channel 0, bit 1 represents channel 1... * @param[in] u32SyncSrc Synchronous start source selection, valid values are: * - \ref EPWM_SSCTL_SSRC_EPWM0 * - \ref EPWM_SSCTL_SSRC_EPWM1 * - \ref EPWM_SSCTL_SSRC_BPWM0 * - \ref EPWM_SSCTL_SSRC_BPWM1 * @return None * @details This macro is used to enable timer synchronous start counting function of specified channel(s). * \hideinitializer */ #define EPWM_ENABLE_TIMER_SYNC(epwm, u32ChannelMask, u32SyncSrc) ((epwm)->SSCTL = ((epwm)->SSCTL & ~EPWM_SSCTL_SSRC_Msk) | (u32SyncSrc) | (u32ChannelMask)) /** * @brief Disable timer synchronous start counting function of specified channel(s) * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Bit 0 represents channel 0, bit 1 represents channel 1... * @return None * @details This macro is used to disable timer synchronous start counting function of specified channel(s). * \hideinitializer */ #define EPWM_DISABLE_TIMER_SYNC(epwm, u32ChannelMask) \ do{ \ int i;\ for(i = 0; i < 6; i++) { \ if((u32ChannelMask) & (1 << i)) \ (epwm)->SSCTL &= ~(1UL << i); \ } \ }while(0) /** * @brief This macro enable EPWM counter synchronous start counting function. * @param[in] epwm The pointer of the specified EPWM module * @return None * @details This macro is used to make selected EPWM0 and EPWM1 channel(s) start counting at the same time. * To configure synchronous start counting channel(s) by EPWM_ENABLE_TIMER_SYNC() and EPWM_DISABLE_TIMER_SYNC(). * \hideinitializer */ #define EPWM_TRIGGER_SYNC_START(epwm) ((epwm)->SSTRG = EPWM_SSTRG_CNTSEN_Msk) /** * @brief This macro enable output inverter of specified channel(s) * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Bit 0 represents channel 0, bit 1 represents channel 1... * @return None * @details This macro is used to enable output inverter of specified channel(s). * \hideinitializer */ #define EPWM_ENABLE_OUTPUT_INVERTER(epwm, u32ChannelMask) ((epwm)->POLCTL = (u32ChannelMask)) /** * @brief This macro get captured rising data * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @return None * @details This macro is used to get captured rising data of specified channel. * \hideinitializer */ #define EPWM_GET_CAPTURE_RISING_DATA(epwm, u32ChannelNum) ((epwm)->CAPDAT[(u32ChannelNum)].RCAPDAT) /** * @brief This macro get captured falling data * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @return None * @details This macro is used to get captured falling data of specified channel. * \hideinitializer */ #define EPWM_GET_CAPTURE_FALLING_DATA(epwm, u32ChannelNum) ((epwm)->CAPDAT[(u32ChannelNum)].FCAPDAT) /** * @brief This macro mask output logic to high or low * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Bit 0 represents channel 0, bit 1 represents channel 1... * @param[in] u32LevelMask Output logic to high or low * @return None * @details This macro is used to mask output logic to high or low of specified channel(s). * @note If u32ChannelMask parameter is 0, then mask function will be disabled. * \hideinitializer */ #define EPWM_MASK_OUTPUT(epwm, u32ChannelMask, u32LevelMask) \ { \ (epwm)->MSKEN = (u32ChannelMask); \ (epwm)->MSK = (u32LevelMask); \ } /** * @brief This macro set the prescaler of the selected channel * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @param[in] u32Prescaler Clock prescaler of specified channel. Valid values are between 0 ~ 0xFFF * @return None * @details This macro is used to set the prescaler of specified channel. * @note Every even channel N, and channel (N + 1) share a prescaler. So if channel 0 prescaler changed, channel 1 will also be affected. * The clock of EPWM counter is divided by (u32Prescaler + 1). * \hideinitializer */ #define EPWM_SET_PRESCALER(epwm, u32ChannelNum, u32Prescaler) ((epwm)->CLKPSC[(u32ChannelNum) >> 1] = (u32Prescaler)) /** * @brief This macro get the prescaler of the selected channel * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @return Return Clock prescaler of specified channel. Valid values are between 0 ~ 0xFFF * @details This macro is used to get the prescaler of specified channel. * @note Every even channel N, and channel (N + 1) share a prescaler. So if channel 0 prescaler changed, channel 1 will also be affected. * The clock of EPWM counter is divided by (u32Prescaler + 1). * \hideinitializer */ #define EPWM_GET_PRESCALER(epwm, u32ChannelNum) ((epwm)->CLKPSC[(u32ChannelNum) >> 1U]) /** * @brief This macro set the comparator of the selected channel * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @param[in] u32CMR Comparator of specified channel. Valid values are between 0~0xFFFF * @return None * @details This macro is used to set the comparator of specified channel. * @note This new setting will take effect on next EPWM period. * \hideinitializer */ #define EPWM_SET_CMR(epwm, u32ChannelNum, u32CMR) ((epwm)->CMPDAT[(u32ChannelNum)]= (u32CMR)) /** * @brief This macro get the comparator of the selected channel * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @return Return the comparator of specified channel. Valid values are between 0~0xFFFF * @details This macro is used to get the comparator of specified channel. * \hideinitializer */ #define EPWM_GET_CMR(epwm, u32ChannelNum) ((epwm)->CMPDAT[(u32ChannelNum)]) /** * @brief This macro set the free trigger comparator of the selected channel * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @param[in] u32FTCMR Free trigger comparator of specified channel. Valid values are between 0~0xFFFF * @return None * @details This macro is used to set the free trigger comparator of specified channel. * @note This new setting will take effect on next EPWM period. * \hideinitializer */ #define EPWM_SET_FTCMR(epwm, u32ChannelNum, u32FTCMR) (((epwm)->FTCMPDAT[((u32ChannelNum) >> 1U)]) = (u32FTCMR)) /** * @brief This macro set the period of the selected channel * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @param[in] u32CNR Period of specified channel. Valid values are between 0~0xFFFF * @return None * @details This macro is used to set the period of specified channel. * @note This new setting will take effect on next EPWM period. * @note EPWM counter will stop if period length set to 0. * \hideinitializer */ #define EPWM_SET_CNR(epwm, u32ChannelNum, u32CNR) ((epwm)->PERIOD[(u32ChannelNum)] = (u32CNR)) /** * @brief This macro get the period of the selected channel * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @return Return the period of specified channel. Valid values are between 0~0xFFFF * @details This macro is used to get the period of specified channel. * \hideinitializer */ #define EPWM_GET_CNR(epwm, u32ChannelNum) ((epwm)->PERIOD[(u32ChannelNum)]) /** * @brief This macro set the EPWM aligned type * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Bit 0 represents channel 0, bit 1 represents channel 1... * @param[in] u32AlignedType EPWM aligned type, valid values are: * - \ref EPWM_EDGE_ALIGNED * - \ref EPWM_CENTER_ALIGNED * @return None * @details This macro is used to set the EPWM aligned type of specified channel(s). * \hideinitializer */ #define EPWM_SET_ALIGNED_TYPE(epwm, u32ChannelMask, u32AlignedType) \ do{ \ int i; \ for(i = 0; i < 6; i++) { \ if((u32ChannelMask) & (1 << i)) \ (epwm)->CTL1 = (((epwm)->CTL1 & ~(3UL << (i << 1))) | ((u32AlignedType) << (i << 1))); \ } \ }while(0) /** * @brief Set load window of window loading mode for specified channel(s) * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Bit 0 represents channel 0, bit 1 represents channel 1... * @return None * @details This macro is used to set load window of window loading mode for specified channel(s). * \hideinitializer */ #define EPWM_SET_LOAD_WINDOW(epwm, u32ChannelMask) ((epwm)->LOAD |= (u32ChannelMask)) /** * @brief Trigger synchronous event from specified channel(s) * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are 0, 2, 4 * Bit 0 represents channel 0, bit 1 represents channel 2 and bit 2 represents channel 4 * @return None * @details This macro is used to trigger synchronous event from specified channel(s). * \hideinitializer */ #define EPWM_TRIGGER_SYNC(epwm, u32ChannelNum) ((epwm)->SWSYNC |= (1 << ((u32ChannelNum) >> 1))) /** * @brief Clear counter of specified channel(s) * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Bit 0 represents channel 0, bit 1 represents channel 1... * @return None * @details This macro is used to clear counter of specified channel(s). * \hideinitializer */ #define EPWM_CLR_COUNTER(epwm, u32ChannelMask) ((epwm)->CNTCLR |= (u32ChannelMask)) /** * @brief Set output level at zero, compare up, period(center) and compare down of specified channel(s) * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Bit 0 represents channel 0, bit 1 represents channel 1... * @param[in] u32ZeroLevel output level at zero point, valid values are: * - \ref EPWM_OUTPUT_NOTHING * - \ref EPWM_OUTPUT_LOW * - \ref EPWM_OUTPUT_HIGH * - \ref EPWM_OUTPUT_TOGGLE * @param[in] u32CmpUpLevel output level at compare up point, valid values are: * - \ref EPWM_OUTPUT_NOTHING * - \ref EPWM_OUTPUT_LOW * - \ref EPWM_OUTPUT_HIGH * - \ref EPWM_OUTPUT_TOGGLE * @param[in] u32PeriodLevel output level at period(center) point, valid values are: * - \ref EPWM_OUTPUT_NOTHING * - \ref EPWM_OUTPUT_LOW * - \ref EPWM_OUTPUT_HIGH * - \ref EPWM_OUTPUT_TOGGLE * @param[in] u32CmpDownLevel output level at compare down point, valid values are: * - \ref EPWM_OUTPUT_NOTHING * - \ref EPWM_OUTPUT_LOW * - \ref EPWM_OUTPUT_HIGH * - \ref EPWM_OUTPUT_TOGGLE * @return None * @details This macro is used to Set output level at zero, compare up, period(center) and compare down of specified channel(s). * \hideinitializer */ #define EPWM_SET_OUTPUT_LEVEL(epwm, u32ChannelMask, u32ZeroLevel, u32CmpUpLevel, u32PeriodLevel, u32CmpDownLevel) \ do{ \ int i; \ for(i = 0; i < 6; i++) { \ if((u32ChannelMask) & (1 << i)) { \ (epwm)->WGCTL0 = (((epwm)->WGCTL0 & ~(3UL << (i << 1))) | ((u32ZeroLevel) << (i << 1))); \ (epwm)->WGCTL0 = (((epwm)->WGCTL0 & ~(3UL << (EPWM_WGCTL0_PRDPCTL0_Pos + (i << 1)))) | ((u32PeriodLevel) << (EPWM_WGCTL0_PRDPCTL0_Pos + (i << 1)))); \ (epwm)->WGCTL1 = (((epwm)->WGCTL1 & ~(3UL << (i << 1))) | ((u32CmpUpLevel) << (i << 1))); \ (epwm)->WGCTL1 = (((epwm)->WGCTL1 & ~(3UL << (EPWM_WGCTL1_CMPDCTL0_Pos + (i << 1)))) | ((u32CmpDownLevel) << (EPWM_WGCTL1_CMPDCTL0_Pos + (i << 1)))); \ } \ } \ }while(0) /** * @brief Trigger brake event from specified channel(s) * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Bit 0 represents channel 0, bit 1 represents channel 2 and bit 2 represents channel 4 * @param[in] u32BrakeType Type of brake trigger. * - \ref EPWM_FB_EDGE * - \ref EPWM_FB_LEVEL * @return None * @details This macro is used to trigger brake event from specified channel(s). * \hideinitializer */ #define EPWM_TRIGGER_BRAKE(epwm, u32ChannelMask, u32BrakeType) ((epwm)->SWBRK |= ((u32ChannelMask) << (u32BrakeType))) /** * @brief Set Dead zone clock source * @param[in] epwm The pointer of the specified EPWM module * @param[in] u32ChannelNum EPWM channel number. Valid values are between 0~5 * @param[in] u32AfterPrescaler Dead zone clock source is from prescaler output. Valid values are TRUE (after prescaler) or FALSE (before prescaler). * @return None * @details This macro is used to set Dead zone clock source. Every two channels share the same setting. * @note The write-protection function should be disabled before using this function. * \hideinitializer */ #define EPWM_SET_DEADZONE_CLK_SRC(epwm, u32ChannelNum, u32AfterPrescaler) \ ((epwm)->DTCTL[(u32ChannelNum) >> 1] = (((epwm)->DTCTL[(u32ChannelNum) >> 1] & ~EPWM_DTCTL0_1_DTCKSEL_Msk) | \ ((u32AfterPrescaler) << EPWM_DTCTL0_1_DTCKSEL_Pos))) /*---------------------------------------------------------------------------------------------------------*/ /* Define EPWM functions prototype */ /*---------------------------------------------------------------------------------------------------------*/ uint32_t EPWM_ConfigCaptureChannel(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32UnitTimeNsec, uint32_t u32CaptureEdge); uint32_t EPWM_ConfigOutputChannel(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32Frequency, uint32_t u32DutyCycle); void EPWM_Start(EPWM_T *epwm, uint32_t u32ChannelMask); void EPWM_Stop(EPWM_T *epwm, uint32_t u32ChannelMask); void EPWM_ForceStop(EPWM_T *epwm, uint32_t u32ChannelMask); void EPWM_EnableADCTrigger(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32Condition); void EPWM_DisableADCTrigger(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_ClearADCTriggerFlag(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32Condition); uint32_t EPWM_GetADCTriggerFlag(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableDACTrigger(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32Condition); void EPWM_DisableDACTrigger(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_ClearDACTriggerFlag(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32Condition); uint32_t EPWM_GetDACTriggerFlag(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableFaultBrake(EPWM_T *epwm, uint32_t u32ChannelMask, uint32_t u32LevelMask, uint32_t u32BrakeSource); void EPWM_EnableCapture(EPWM_T *epwm, uint32_t u32ChannelMask); void EPWM_DisableCapture(EPWM_T *epwm, uint32_t u32ChannelMask); void EPWM_EnableOutput(EPWM_T *epwm, uint32_t u32ChannelMask); void EPWM_DisableOutput(EPWM_T *epwm, uint32_t u32ChannelMask); void EPWM_EnablePDMA(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32RisingFirst, uint32_t u32Mode); void EPWM_DisablePDMA(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableDeadZone(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32Duration); void EPWM_DisableDeadZone(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableCaptureInt(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32Edge); void EPWM_DisableCaptureInt(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32Edge); void EPWM_ClearCaptureIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32Edge); uint32_t EPWM_GetCaptureIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableDutyInt(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32IntDutyType); void EPWM_DisableDutyInt(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_ClearDutyIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum); uint32_t EPWM_GetDutyIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableFaultBrakeInt(EPWM_T *epwm, uint32_t u32BrakeSource); void EPWM_DisableFaultBrakeInt(EPWM_T *epwm, uint32_t u32BrakeSource); void EPWM_ClearFaultBrakeIntFlag(EPWM_T *epwm, uint32_t u32BrakeSource); uint32_t EPWM_GetFaultBrakeIntFlag(EPWM_T *epwm, uint32_t u32BrakeSource); void EPWM_EnablePeriodInt(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32IntPeriodType); void EPWM_DisablePeriodInt(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_ClearPeriodIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum); uint32_t EPWM_GetPeriodIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableZeroInt(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_DisableZeroInt(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_ClearZeroIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum); uint32_t EPWM_GetZeroIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableAcc(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32IntFlagCnt, uint32_t u32IntAccSrc); void EPWM_DisableAcc(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableAccInt(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_DisableAccInt(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_ClearAccInt(EPWM_T *epwm, uint32_t u32ChannelNum); uint32_t EPWM_GetAccInt(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableAccPDMA(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_DisableAccPDMA(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_ClearFTDutyIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum); uint32_t EPWM_GetFTDutyIntFlag(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_EnableLoadMode(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32LoadMode); void EPWM_DisableLoadMode(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32LoadMode); void EPWM_ConfigSyncPhase(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32SyncSrc, uint32_t u32Direction, uint32_t u32StartPhase); void EPWM_EnableSyncPhase(EPWM_T *epwm, uint32_t u32ChannelMask); void EPWM_DisableSyncPhase(EPWM_T *epwm, uint32_t u32ChannelMask); void EPWM_EnableSyncNoiseFilter(EPWM_T *epwm, uint32_t u32ClkCnt, uint32_t u32ClkDivSel); void EPWM_DisableSyncNoiseFilter(EPWM_T *epwm); void EPWM_EnableSyncPinInverse(EPWM_T *epwm); void EPWM_DisableSyncPinInverse(EPWM_T *epwm); void EPWM_SetClockSource(EPWM_T *epwm, uint32_t u32ChannelNum, uint32_t u32ClkSrcSel); void EPWM_EnableBrakeNoiseFilter(EPWM_T *epwm, uint32_t u32BrakePinNum, uint32_t u32ClkCnt, uint32_t u32ClkDivSel); void EPWM_DisableBrakeNoiseFilter(EPWM_T *epwm, uint32_t u32BrakePinNum); void EPWM_EnableBrakePinInverse(EPWM_T *epwm, uint32_t u32BrakePinNum); void EPWM_DisableBrakePinInverse(EPWM_T *epwm, uint32_t u32BrakePinNum); void EPWM_SetBrakePinSource(EPWM_T *epwm, uint32_t u32BrakePinNum, uint32_t u32SelAnotherModule); void EPWM_SetLeadingEdgeBlanking(EPWM_T *epwm, uint32_t u32TrigSrcSel, uint32_t u32TrigType, uint32_t u32BlankingCnt, uint32_t u32BlankingEnable); uint32_t EPWM_GetWrapAroundFlag(EPWM_T *epwm, uint32_t u32ChannelNum); void EPWM_ClearWrapAroundFlag(EPWM_T *epwm, uint32_t u32ChannelNum); /*@}*/ /* end of group EPWM_EXPORTED_FUNCTIONS */ /*@}*/ /* end of group EPWM_Driver */ /*@}*/ /* end of group Standard_Driver */ #ifdef __cplusplus } #endif #endif /* __EPWM_H__ */ /*** (C) COPYRIGHT 2016 Nuvoton Technology Corp. ***/