/**************************************************************************//** * @file pwm.c * @version V3.00 * $Revision: 21 $ * $Date: 15/08/11 10:26a $ * @brief M451 series PWM driver source file * * @note * Copyright (C) 2014~2015 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #include "M451Series.h" /** @addtogroup Standard_Driver Standard Driver @{ */ /** @addtogroup PWM_Driver PWM Driver @{ */ /** @addtogroup PWM_EXPORTED_FUNCTIONS PWM Exported Functions @{ */ /** * @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); } /** * @brief This function Configure PWM generator and get the nearest frequency in edge aligned auto-reload mode * @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] u32Frequency Target generator frequency * @param[in] u32DutyCycle Target generator duty cycle percentage. Valid range are between 0 ~ 100. 10 means 10%, 20 means 20%... * @return Nearest frequency clock in nano second * @note Since every two channels, (0 & 1), (2 & 3), shares a prescaler. Call this API to configure PWM frequency may affect * existing frequency of other channel. */ uint32_t PWM_ConfigOutputChannel(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32Frequency, uint32_t u32DutyCycle) { uint32_t u32Src; uint32_t u32PWMClockSrc; uint32_t i; 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; } for(u16Prescale = 1; u16Prescale < 0xFFF; u16Prescale++)//prescale could be 0~0xFFF { i = (u32PWMClockSrc / u32Frequency) / u16Prescale; // If target value is larger than CNR, need to use a larger prescaler if(i > (0x10000)) continue; u16CNR = i; break; } // Store return value here 'cos we're gonna change u16Prescale & u16CNR to the real value to fill into register i = u32PWMClockSrc / (u16Prescale * u16CNR); // 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); if(u32DutyCycle) { PWM_SET_CMR(pwm, u32ChannelNum, u32DutyCycle * (u16CNR + 1) / 100 - 1); (pwm)->WGCTL0 &= ~((PWM_WGCTL0_PRDPCTL0_Msk | PWM_WGCTL0_ZPCTL0_Msk) << (u32ChannelNum * 2)); (pwm)->WGCTL0 |= (PWM_OUTPUT_LOW << (u32ChannelNum * 2 + PWM_WGCTL0_PRDPCTL0_Pos)); (pwm)->WGCTL1 &= ~((PWM_WGCTL1_CMPDCTL0_Msk | PWM_WGCTL1_CMPUCTL0_Msk) << (u32ChannelNum * 2)); (pwm)->WGCTL1 |= (PWM_OUTPUT_HIGH << (u32ChannelNum * 2 + PWM_WGCTL1_CMPDCTL0_Pos)); } else { PWM_SET_CMR(pwm, u32ChannelNum, 0); (pwm)->WGCTL0 &= ~((PWM_WGCTL0_PRDPCTL0_Msk | PWM_WGCTL0_ZPCTL0_Msk) << (u32ChannelNum * 2)); (pwm)->WGCTL0 |= (PWM_OUTPUT_LOW << (u32ChannelNum * 2 + PWM_WGCTL0_ZPCTL0_Pos)); (pwm)->WGCTL1 &= ~((PWM_WGCTL1_CMPDCTL0_Msk | PWM_WGCTL1_CMPUCTL0_Msk) << (u32ChannelNum * 2)); (pwm)->WGCTL1 |= (PWM_OUTPUT_HIGH << (u32ChannelNum * 2 + PWM_WGCTL1_CMPDCTL0_Pos)); } return(i); } /** * @brief Start PWM module * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel. * Bit 0 is channel 0, bit 1 is channel 1... * @return None * @details This function is used to start PWM module. */ void PWM_Start(PWM_T *pwm, uint32_t u32ChannelMask) { (pwm)->CNTEN |= u32ChannelMask; } /** * @brief Stop PWM module * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel. * Bit 0 is channel 0, bit 1 is channel 1... * @return None * @details This function is used to stop PWM module. */ void PWM_Stop(PWM_T *pwm, uint32_t u32ChannelMask) { uint32_t i; for(i = 0; i < PWM_CHANNEL_NUM; i ++) { if(u32ChannelMask & (1 << i)) { (pwm)->PERIOD[i] = 0; } } } /** * @brief Stop PWM generation immediately by clear channel enable bit * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel. * Bit 0 is channel 0, bit 1 is channel 1... * @return None * @details This function is used to stop PWM generation immediately by clear channel enable bit. */ void PWM_ForceStop(PWM_T *pwm, uint32_t u32ChannelMask) { (pwm)->CNTEN &= ~u32ChannelMask; } /** * @brief Enable selected channel to trigger EADC * @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] u32Condition The condition to trigger EADC. Combination of following conditions: * - \ref PWM_TRIGGER_ADC_EVEN_ZERO_POINT * - \ref PWM_TRIGGER_ADC_EVEN_PERIOD_POINT * - \ref PWM_TRIGGER_ADC_EVEN_ZERO_OR_PERIOD_POINT * - \ref PWM_TRIGGER_ADC_EVEN_COMPARE_UP_COUNT_POINT * - \ref PWM_TRIGGER_ADC_EVEN_COMPARE_DOWN_COUNT_POINT * - \ref PWM_TRIGGER_ADC_ODD_ZERO_POINT * - \ref PWM_TRIGGER_ADC_ODD_PERIOD_POINT * - \ref PWM_TRIGGER_ADC_ODD_ZERO_OR_PERIOD_POINT * - \ref PWM_TRIGGER_ADC_ODD_COMPARE_UP_COUNT_POINT * - \ref PWM_TRIGGER_ADC_ODD_COMPARE_DOWN_COUNT_POINT * - \ref PWM_TRIGGER_ADC_CH_0_FREE_COMPARE_UP_COUNT_POINT * - \ref PWM_TRIGGER_ADC_CH_0_FREE_COMPARE_DOWN_COUNT_POINT * - \ref PWM_TRIGGER_ADC_CH_2_FREE_COMPARE_UP_COUNT_POINT * - \ref PWM_TRIGGER_ADC_CH_2_FREE_COMPARE_DOWN_COUNT_POINT * - \ref PWM_TRIGGER_ADC_CH_4_FREE_COMPARE_UP_COUNT_POINT * - \ref PWM_TRIGGER_ADC_CH_4_FREE_COMPARE_DOWN_COUNT_POINT * @return None * @details This function is used to enable selected channel to trigger EADC. */ void PWM_EnableADCTrigger(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32Condition) { if(u32ChannelNum < 4) { (pwm)->EADCTS0 &= ~((PWM_EADCTS0_TRGSEL0_Msk) << (u32ChannelNum * 8)); (pwm)->EADCTS0 |= ((PWM_EADCTS0_TRGEN0_Msk | u32Condition) << (u32ChannelNum * 8)); } else { (pwm)->EADCTS1 &= ~((PWM_EADCTS1_TRGSEL4_Msk) << ((u32ChannelNum - 4) * 8)); (pwm)->EADCTS1 |= ((PWM_EADCTS1_TRGEN4_Msk | u32Condition) << ((u32ChannelNum - 4) * 8)); } } /** * @brief Disable selected channel to trigger EADC * @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 * @return None * @details This function is used to disable selected channel to trigger EADC. */ void PWM_DisableADCTrigger(PWM_T *pwm, uint32_t u32ChannelNum) { if(u32ChannelNum < 4) { (pwm)->EADCTS0 &= ~(PWM_EADCTS0_TRGEN0_Msk << (u32ChannelNum * 8)); } else { (pwm)->EADCTS1 &= ~(PWM_EADCTS1_TRGEN4_Msk << ((u32ChannelNum - 4) * 8)); } } /** * @brief Clear selected channel trigger EADC flag * @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] u32Condition This parameter is not used * @return None * @details This function is used to clear selected channel trigger EADC flag. */ void PWM_ClearADCTriggerFlag(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32Condition) { (pwm)->STATUS = (PWM_STATUS_ADCTRGF0_Msk << u32ChannelNum); } /** * @brief Get selected channel trigger EADC flag * @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 * @retval 0 The specified channel trigger EADC to start of conversion flag is not set * @retval 1 The specified channel trigger EADC to start of conversion flag is set * @details This function is used to get PWM trigger EADC to start of conversion flag for specified channel. */ uint32_t PWM_GetADCTriggerFlag(PWM_T *pwm, uint32_t u32ChannelNum) { return (((pwm)->STATUS & (PWM_STATUS_ADCTRGF0_Msk << u32ChannelNum)) ? 1 : 0); } /** * @brief Enable selected channel to trigger DAC * @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] u32Condition The condition to trigger DAC. Combination of following conditions: * - \ref PWM_TRIGGER_DAC_ZERO_POINT * - \ref PWM_TRIGGER_DAC_PERIOD_POINT * - \ref PWM_TRIGGER_DAC_COMPARE_UP_COUNT_POINT * - \ref PWM_TRIGGER_DAC_COMPARE_DOWN_COUNT_POINT * @return None * @details This function is used to enable selected channel to trigger DAC. */ void PWM_EnableDACTrigger(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32Condition) { (pwm)->DACTRGEN |= (u32Condition << u32ChannelNum); } /** * @brief Disable selected channel to trigger DAC * @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 * @return None * @details This function is used to disable selected channel to trigger DAC. */ void PWM_DisableDACTrigger(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->DACTRGEN &= ~((PWM_TRIGGER_DAC_ZERO_POINT | PWM_TRIGGER_DAC_PERIOD_POINT | PWM_TRIGGER_DAC_COMPARE_UP_COUNT_POINT | \ PWM_TRIGGER_DAC_COMPARE_DOWN_COUNT_POINT) << u32ChannelNum); } /** * @brief Clear selected channel trigger DAC flag * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelNum PWM channel number. This parameter is not used * @param[in] u32Condition The condition to trigger DAC. This parameter is not used * @return None * @details This function is used to clear selected channel trigger DAC flag. */ void PWM_ClearDACTriggerFlag(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32Condition) { (pwm)->STATUS = PWM_STATUS_DACTRGF_Msk; } /** * @brief Get selected channel trigger DAC flag * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelNum PWM channel number. This parameter is not used * @retval 0 The specified channel trigger DAC to start of conversion flag is not set * @retval 1 The specified channel trigger DAC to start of conversion flag is set * @details This function is used to get selected channel trigger DAC flag. */ uint32_t PWM_GetDACTriggerFlag(PWM_T *pwm, uint32_t u32ChannelNum) { return (((pwm)->STATUS & PWM_STATUS_DACTRGF_Msk) ? 1 : 0); } /** * @brief This function enable fault brake of selected channel(s) * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel. * @param[in] u32LevelMask Output high or low while fault brake occurs, each bit represent the level of a channel * while fault brake occurs. Bit 0 represents channel 0, bit 1 represents channel 1... * @param[in] u32BrakeSource Fault brake source, could be one of following source * - \ref PWM_FB_EDGE_ACMP0 * - \ref PWM_FB_EDGE_ACMP1 * - \ref PWM_FB_EDGE_BKP0 * - \ref PWM_FB_EDGE_BKP1 * - \ref PWM_FB_EDGE_SYS_CSS * - \ref PWM_FB_EDGE_SYS_BOD * - \ref PWM_FB_EDGE_SYS_RAM * - \ref PWM_FB_EDGE_SYS_COR * - \ref PWM_FB_LEVEL_ACMP0 * - \ref PWM_FB_LEVEL_ACMP1 * - \ref PWM_FB_LEVEL_BKP0 * - \ref PWM_FB_LEVEL_BKP1 * - \ref PWM_FB_LEVEL_SYS_CSS * - \ref PWM_FB_LEVEL_SYS_BOD * - \ref PWM_FB_LEVEL_SYS_RAM * - \ref PWM_FB_LEVEL_SYS_COR * @return None * @details This function is used to enable fault brake of selected channel(s). * The write-protection function should be disabled before using this function. */ void PWM_EnableFaultBrake(PWM_T *pwm, uint32_t u32ChannelMask, uint32_t u32LevelMask, uint32_t u32BrakeSource) { uint32_t i; for(i = 0; i < PWM_CHANNEL_NUM; i ++) { if(u32ChannelMask & (1 << i)) { if((u32BrakeSource == PWM_FB_EDGE_SYS_CSS) || (u32BrakeSource == PWM_FB_EDGE_SYS_BOD) || \ (u32BrakeSource == PWM_FB_EDGE_SYS_RAM) || (u32BrakeSource == PWM_FB_EDGE_SYS_COR) || \ (u32BrakeSource == PWM_FB_LEVEL_SYS_CSS) || (u32BrakeSource == PWM_FB_LEVEL_SYS_BOD) || \ (u32BrakeSource == PWM_FB_LEVEL_SYS_RAM) || (u32BrakeSource == PWM_FB_LEVEL_SYS_COR)) { *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) |= (u32BrakeSource & (PWM_BRKCTL0_1_SYSEBEN_Msk | PWM_BRKCTL0_1_SYSLBEN_Msk)); (pwm)->FAILBRK |= (u32BrakeSource & 0xF); } else { *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) |= u32BrakeSource; } } if(u32LevelMask & (1 << i)) { if(i % 2 == 0) { //set brake action as high level for even channel *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) &= ~PWM_BRKCTL0_1_BRKAEVEN_Msk; *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) |= ((3UL) << PWM_BRKCTL0_1_BRKAEVEN_Pos); } else { //set brake action as high level for odd channel *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) &= ~PWM_BRKCTL0_1_BRKAODD_Msk; *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) |= ((3UL) << PWM_BRKCTL0_1_BRKAODD_Pos); } } else { if(i % 2 == 0) { //set brake action as low level for even channel *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) &= ~PWM_BRKCTL0_1_BRKAEVEN_Msk; *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) |= ((2UL) << PWM_BRKCTL0_1_BRKAEVEN_Pos); } else { //set brake action as low level for odd channel *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) &= ~PWM_BRKCTL0_1_BRKAODD_Msk; *(__IO uint32_t *)(&((pwm)->BRKCTL0_1) + (i >> 1)) |= ((2UL) << PWM_BRKCTL0_1_BRKAODD_Pos); } } } } /** * @brief Enable capture of selected channel(s) * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel. * Bit 0 is channel 0, bit 1 is channel 1... * @return None * @details This function is used to enable capture of selected channel(s). */ void PWM_EnableCapture(PWM_T *pwm, uint32_t u32ChannelMask) { (pwm)->CAPINEN |= u32ChannelMask; (pwm)->CAPCTL |= u32ChannelMask; } /** * @brief Disable capture of selected channel(s) * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel. * Bit 0 is channel 0, bit 1 is channel 1... * @return None * @details This function is used to disable capture of selected channel(s). */ void PWM_DisableCapture(PWM_T *pwm, uint32_t u32ChannelMask) { (pwm)->CAPINEN &= ~u32ChannelMask; (pwm)->CAPCTL &= ~u32ChannelMask; } /** * @brief Enables PWM output generation of selected channel(s) * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel. * Set bit 0 to 1 enables channel 0 output, set bit 1 to 1 enables channel 1 output... * @return None * @details This function is used to enable PWM output generation of selected channel(s). */ void PWM_EnableOutput(PWM_T *pwm, uint32_t u32ChannelMask) { (pwm)->POEN |= u32ChannelMask; } /** * @brief Disables PWM output generation of selected channel(s) * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel * Set bit 0 to 1 disables channel 0 output, set bit 1 to 1 disables channel 1 output... * @return None * @details This function is used to disable PWM output generation of selected channel(s). */ void PWM_DisableOutput(PWM_T *pwm, uint32_t u32ChannelMask) { (pwm)->POEN &= ~u32ChannelMask; } /** * @brief Enables PDMA transfer of selected channel for PWM capture * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelNum PWM channel number. * @param[in] u32RisingFirst The capture order is rising, falling first. Every two channels share the same setting. Valid values are TRUE and FALSE. * @param[in] u32Mode Captured data transferred by PDMA interrupt type. It could be either * - \ref PWM_CAPTURE_PDMA_RISING_LATCH * - \ref PWM_CAPTURE_PDMA_FALLING_LATCH * - \ref PWM_CAPTURE_PDMA_RISING_FALLING_LATCH * @return None * @details This function is used to enable PDMA transfer of selected channel(s) for PWM capture. * @note This function can only selects even or odd channel of pairs to do PDMA transfer. */ void PWM_EnablePDMA(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32RisingFirst, uint32_t u32Mode) { uint32_t u32IsOddCh; u32IsOddCh = u32ChannelNum % 2; (pwm)->PDMACTL = ((pwm)->PDMACTL & ~((PWM_PDMACTL_CHSEL0_1_Msk | PWM_PDMACTL_CAPORD0_1_Msk | PWM_PDMACTL_CAPMOD0_1_Msk) << ((u32ChannelNum >> 1) * 8))) | \ (((u32IsOddCh << PWM_PDMACTL_CHSEL0_1_Pos) | (u32RisingFirst << PWM_PDMACTL_CAPORD0_1_Pos) | \ u32Mode | PWM_PDMACTL_CHEN0_1_Msk) << ((u32ChannelNum >> 1) * 8)); } /** * @brief Disables PDMA transfer of selected channel for PWM capture * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelNum PWM channel number. * @return None * @details This function is used to enable PDMA transfer of selected channel(s) for PWM capture. */ void PWM_DisablePDMA(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->PDMACTL &= ~(PWM_PDMACTL_CHEN0_1_Msk << ((u32ChannelNum >> 1) * 8)); } /** * @brief Enable Dead zone of selected channel * @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] u32Duration Dead zone length in PWM clock count, valid values are between 0~0xFFF, but 0 means there is no Dead zone. * @return None * @details This function is used to enable Dead zone of selected channel. * The write-protection function should be disabled before using this function. * @note Every two channels share the same setting. */ void PWM_EnableDeadZone(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32Duration) { // every two channels share the same setting *(__IO uint32_t *)(&((pwm)->DTCTL0_1) + (u32ChannelNum >> 1)) &= ~PWM_DTCTL0_1_DTCNT_Msk; *(__IO uint32_t *)(&((pwm)->DTCTL0_1) + (u32ChannelNum >> 1)) |= PWM_DTCTL0_1_DTEN_Msk | u32Duration; } /** * @brief Disable Dead zone of selected channel * @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 * @return None * @details This function is used to disable Dead zone of selected channel. * The write-protection function should be disabled before using this function. */ void PWM_DisableDeadZone(PWM_T *pwm, uint32_t u32ChannelNum) { // every two channels shares the same setting *(__IO uint32_t *)(&((pwm)->DTCTL0_1) + (u32ChannelNum >> 1)) &= ~PWM_DTCTL0_1_DTEN_Msk; } /** * @brief Enable capture interrupt of selected channel. * @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] u32Edge Rising or falling edge to latch counter. * - \ref PWM_CAPTURE_INT_RISING_LATCH * - \ref PWM_CAPTURE_INT_FALLING_LATCH * @return None * @details This function is used to enable capture interrupt of selected channel. */ void PWM_EnableCaptureInt(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32Edge) { (pwm)->CAPIEN |= (u32Edge << u32ChannelNum); } /** * @brief Disable capture interrupt of selected channel. * @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] u32Edge Rising or falling edge to latch counter. * - \ref PWM_CAPTURE_INT_RISING_LATCH * - \ref PWM_CAPTURE_INT_FALLING_LATCH * @return None * @details This function is used to disable capture interrupt of selected channel. */ void PWM_DisableCaptureInt(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32Edge) { (pwm)->CAPIEN &= ~(u32Edge << u32ChannelNum); } /** * @brief Clear capture interrupt of selected channel. * @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] u32Edge Rising or falling edge to latch counter. * - \ref PWM_CAPTURE_INT_RISING_LATCH * - \ref PWM_CAPTURE_INT_FALLING_LATCH * @return None * @details This function is used to clear capture interrupt of selected channel. */ void PWM_ClearCaptureIntFlag(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32Edge) { (pwm)->CAPIF = (u32Edge << u32ChannelNum); } /** * @brief Get capture interrupt of selected channel. * @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 * @retval 0 No capture interrupt * @retval 1 Rising edge latch interrupt * @retval 2 Falling edge latch interrupt * @retval 3 Rising and falling latch interrupt * @details This function is used to get capture interrupt of selected channel. */ uint32_t PWM_GetCaptureIntFlag(PWM_T *pwm, uint32_t u32ChannelNum) { return (((((pwm)->CAPIF & (PWM_CAPIF_CFLIF0_Msk << u32ChannelNum)) ? 1 : 0) << 1) | \ (((pwm)->CAPIF & (PWM_CAPIF_CRLIF0_Msk << u32ChannelNum)) ? 1 : 0)); } /** * @brief Enable duty interrupt of selected channel * @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] u32IntDutyType Duty interrupt type, could be either * - \ref PWM_DUTY_INT_DOWN_COUNT_MATCH_CMP * - \ref PWM_DUTY_INT_UP_COUNT_MATCH_CMP * @return None * @details This function is used to enable duty interrupt of selected channel. */ void PWM_EnableDutyInt(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32IntDutyType) { (pwm)->INTEN0 |= (u32IntDutyType << u32ChannelNum); } /** * @brief Disable duty interrupt of selected channel * @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 * @return None * @details This function is used to disable duty interrupt of selected channel. */ void PWM_DisableDutyInt(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTEN0 &= ~((PWM_DUTY_INT_DOWN_COUNT_MATCH_CMP | PWM_DUTY_INT_UP_COUNT_MATCH_CMP) << u32ChannelNum); } /** * @brief Clear duty interrupt flag of selected channel * @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 * @return None * @details This function is used to clear duty interrupt flag of selected channel. */ void PWM_ClearDutyIntFlag(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTSTS0 = (PWM_INTSTS0_CMPUIF0_Msk | PWM_INTSTS0_CMPDIF0_Msk) << u32ChannelNum; } /** * @brief Get duty interrupt flag of selected channel * @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 * @return Duty interrupt flag of specified channel * @retval 0 Duty interrupt did not occur * @retval 1 Duty interrupt occurred * @details This function is used to get duty interrupt flag of selected channel. */ uint32_t PWM_GetDutyIntFlag(PWM_T *pwm, uint32_t u32ChannelNum) { return ((((pwm)->INTSTS0 & ((PWM_INTSTS0_CMPDIF0_Msk | PWM_INTSTS0_CMPUIF0_Msk) << u32ChannelNum))) ? 1 : 0); } /** * @brief This function enable fault brake interrupt * @param[in] pwm The pointer of the specified PWM module * @param[in] u32BrakeSource Fault brake source. * - \ref PWM_FB_EDGE * - \ref PWM_FB_LEVEL * @return None * @details This function is used to enable fault brake interrupt. * The write-protection function should be disabled before using this function. * @note Every two channels share the same setting. */ void PWM_EnableFaultBrakeInt(PWM_T *pwm, uint32_t u32BrakeSource) { (pwm)->INTEN1 |= (0x7 << u32BrakeSource); } /** * @brief This function disable fault brake interrupt * @param[in] pwm The pointer of the specified PWM module * @param[in] u32BrakeSource Fault brake source. * - \ref PWM_FB_EDGE * - \ref PWM_FB_LEVEL * @return None * @details This function is used to disable fault brake interrupt. * The write-protection function should be disabled before using this function. * @note Every two channels share the same setting. */ void PWM_DisableFaultBrakeInt(PWM_T *pwm, uint32_t u32BrakeSource) { (pwm)->INTEN1 &= ~(0x7 << u32BrakeSource); } /** * @brief This function clear fault brake interrupt of selected source * @param[in] pwm The pointer of the specified PWM module * @param[in] u32BrakeSource Fault brake source. * - \ref PWM_FB_EDGE * - \ref PWM_FB_LEVEL * @return None * @details This function is used to clear fault brake interrupt of selected source. * The write-protection function should be disabled before using this function. */ void PWM_ClearFaultBrakeIntFlag(PWM_T *pwm, uint32_t u32BrakeSource) { (pwm)->INTSTS1 = (0x3f << u32BrakeSource); } /** * @brief This function get fault brake interrupt flag of selected source * @param[in] pwm The pointer of the specified PWM module * @param[in] u32BrakeSource Fault brake source, could be either * - \ref PWM_FB_EDGE * - \ref PWM_FB_LEVEL * @return Fault brake interrupt flag of specified source * @retval 0 Fault brake interrupt did not occurred * @retval 1 Fault brake interrupt occurred * @details This function is used to get fault brake interrupt flag of selected source. */ uint32_t PWM_GetFaultBrakeIntFlag(PWM_T *pwm, uint32_t u32BrakeSource) { return (((pwm)->INTSTS1 & (0x3f << u32BrakeSource)) ? 1 : 0); } /** * @brief Enable period interrupt of selected channel * @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] u32IntPeriodType Period interrupt type. This parameter is not used. * @return None * @details This function is used to enable period interrupt of selected channel. */ void PWM_EnablePeriodInt(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32IntPeriodType) { (pwm)->INTEN0 |= (PWM_INTEN0_PIEN0_Msk << u32ChannelNum); } /** * @brief Disable period interrupt of selected channel * @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 * @return None * @details This function is used to disable period interrupt of selected channel. */ void PWM_DisablePeriodInt(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTEN0 &= ~(PWM_INTEN0_PIEN0_Msk << u32ChannelNum); } /** * @brief Clear period interrupt of selected channel * @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 * @return None * @details This function is used to clear period interrupt of selected channel. */ void PWM_ClearPeriodIntFlag(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTSTS0 = (PWM_INTSTS0_PIF0_Msk << u32ChannelNum); } /** * @brief Get period interrupt of selected channel * @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 * @return Period interrupt flag of specified channel * @retval 0 Period interrupt did not occur * @retval 1 Period interrupt occurred * @details This function is used to get period interrupt of selected channel. */ uint32_t PWM_GetPeriodIntFlag(PWM_T *pwm, uint32_t u32ChannelNum) { return ((((pwm)->INTSTS0 & (PWM_INTSTS0_PIF0_Msk << u32ChannelNum))) ? 1 : 0); } /** * @brief Enable zero interrupt of selected channel * @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 * @return None * @details This function is used to enable zero interrupt of selected channel. */ void PWM_EnableZeroInt(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTEN0 |= (PWM_INTEN0_ZIEN0_Msk << u32ChannelNum); } /** * @brief Disable zero interrupt of selected channel * @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 * @return None * @details This function is used to disable zero interrupt of selected channel. */ void PWM_DisableZeroInt(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTEN0 &= ~(PWM_INTEN0_ZIEN0_Msk << u32ChannelNum); } /** * @brief Clear zero interrupt of selected channel * @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 * @return None * @details This function is used to clear zero interrupt of selected channel. */ void PWM_ClearZeroIntFlag(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTSTS0 = (PWM_INTSTS0_ZIF0_Msk << u32ChannelNum); } /** * @brief Get zero interrupt of selected channel * @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 * @return Zero interrupt flag of specified channel * @retval 0 Zero interrupt did not occur * @retval 1 Zero interrupt occurred * @details This function is used to get zero interrupt of selected channel. */ uint32_t PWM_GetZeroIntFlag(PWM_T *pwm, uint32_t u32ChannelNum) { return ((((pwm)->INTSTS0 & (PWM_INTSTS0_ZIF0_Msk << u32ChannelNum))) ? 1 : 0); } /** * @brief Enable interrupt flag accumulator of selected channel * @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] u32IntFlagCnt Interrupt flag counter. Valid values are between 0~15. * @param[in] u32IntAccSrc Interrupt flag accumulator source selection. * - \ref PWM_IFA_EVEN_ZERO_POINT * - \ref PWM_IFA_EVEN_PERIOD_POINT * - \ref PWM_IFA_EVEN_COMPARE_UP_COUNT_POINT * - \ref PWM_IFA_EVEN_COMPARE_DOWN_COUNT_POINT * - \ref PWM_IFA_ODD_ZERO_POINT * - \ref PWM_IFA_ODD_PERIOD_POINT * - \ref PWM_IFA_ODD_COMPARE_UP_COUNT_POINT * - \ref PWM_IFA_ODD_COMPARE_DOWN_COUNT_POINT * @return None * @details This function is used to enable interrupt flag accumulator of selected channel. * @note Every two channels share the same setting. */ void PWM_EnableAcc(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32IntFlagCnt, uint32_t u32IntAccSrc) { (pwm)->IFA = ((pwm)->IFA & ~((PWM_IFA_IFCNT0_1_Msk | PWM_IFA_IFSEL0_1_Msk) << ((u32ChannelNum >> 1) * 8))) | \ ((PWM_IFA_IFAEN0_1_Msk | (u32IntAccSrc << PWM_IFA_IFSEL0_1_Pos) | u32IntFlagCnt) << ((u32ChannelNum >> 1) * 8)); } /** * @brief Disable interrupt flag accumulator of selected channel * @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 * @return None * @details This function is used to Disable interrupt flag accumulator of selected channel. * @note Every two channels share the same setting. */ void PWM_DisableAcc(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->IFA = (pwm)->IFA & ~(PWM_IFA_IFAEN0_1_Msk << ((u32ChannelNum >> 1) * 8)); } /** * @brief Enable interrupt flag accumulator interrupt of selected channel * @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 * @return None * @details This function is used to enable interrupt flag accumulator interrupt of selected channel. * @note Every two channels share the same setting. */ void PWM_EnableAccInt(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTEN0 |= (PWM_INTEN0_IFAIEN0_1_Msk << ((u32ChannelNum >> 1) * 8)); } /** * @brief Disable interrupt flag accumulator interrupt of selected channel * @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 * @return None * @details This function is used to disable interrupt flag accumulator interrupt of selected channel. * @note Every two channels share the same setting. */ void PWM_DisableAccInt(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTEN0 &= ~(PWM_INTEN0_IFAIEN0_1_Msk << ((u32ChannelNum >> 1) * 8)); } /** * @brief Clear interrupt flag accumulator interrupt of selected channel * @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 * @return None * @details This function is used to clear interrupt flag accumulator interrupt of selected channel. * @note Every two channels share the same setting. */ void PWM_ClearAccInt(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->INTSTS0 = (PWM_INTSTS0_IFAIF0_1_Msk << ((u32ChannelNum >> 1) * 8)); } /** * @brief Get interrupt flag accumulator interrupt of selected channel * @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 * @retval 0 Accumulator interrupt did not occur * @retval 1 Accumulator interrupt occurred * @details This function is used to Get interrupt flag accumulator interrupt of selected channel. * @note Every two channels share the same setting. */ uint32_t PWM_GetAccInt(PWM_T *pwm, uint32_t u32ChannelNum) { return (((pwm)->INTSTS0 & (PWM_INTSTS0_IFAIF0_1_Msk << ((u32ChannelNum >> 1) * 8))) ? 1 : 0); } /** * @brief Clear free trigger duty interrupt flag of selected channel * @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 * @return None * @details This function is used to clear free trigger duty interrupt flag of selected channel. */ void PWM_ClearFTDutyIntFlag(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->FTCI = ((PWM_FTCI_FTCMU0_Msk | PWM_FTCI_FTCMD0_Msk) << (u32ChannelNum >> 1)); } /** * @brief Get free trigger duty interrupt flag of selected channel * @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 * @return Duty interrupt flag of specified channel * @retval 0 Free trigger duty interrupt did not occur * @retval 1 Free trigger duty interrupt occurred * @details This function is used to get free trigger duty interrupt flag of selected channel. */ uint32_t PWM_GetFTDutyIntFlag(PWM_T *pwm, uint32_t u32ChannelNum) { return (((pwm)->FTCI & ((PWM_FTCI_FTCMU0_Msk | PWM_FTCI_FTCMD0_Msk) << (u32ChannelNum >> 1))) ? 1 : 0); } /** * @brief Enable load mode of selected channel * @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] u32LoadMode PWM counter loading mode. * - \ref PWM_LOAD_MODE_IMMEDIATE * - \ref PWM_LOAD_MODE_WINDOW * - \ref PWM_LOAD_MODE_CENTER * @return None * @details This function is used to enable load mode of selected channel. */ void PWM_EnableLoadMode(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32LoadMode) { (pwm)->CTL0 |= (u32LoadMode << u32ChannelNum); } /** * @brief Disable load mode of selected channel * @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] u32LoadMode PWM counter loading mode. * - \ref PWM_LOAD_MODE_IMMEDIATE * - \ref PWM_LOAD_MODE_WINDOW * - \ref PWM_LOAD_MODE_CENTER * @return None * @details This function is used to disable load mode of selected channel. */ void PWM_DisableLoadMode(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32LoadMode) { (pwm)->CTL0 &= ~(u32LoadMode << u32ChannelNum); } /** * @brief Configure synchronization phase of selected channel * @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] u32SyncSrc PWM synchronize source selection. * - \ref PWM_SYNC_OUT_FROM_SYNCIN_SWSYNC * - \ref PWM_SYNC_OUT_FROM_COUNT_TO_ZERO * - \ref PWM_SYNC_OUT_FROM_COUNT_TO_COMPARATOR * - \ref PWM_SYNC_OUT_DISABLE * @param[in] u32Direction Phase direction. Control PWM counter count decrement or increment after synchronizing. * - \ref PWM_PHS_DIR_DECREMENT * - \ref PWM_PHS_DIR_INCREMENT * @param[in] u32StartPhase Synchronous start phase value. Valid values are between 0~65535. * @return None * @details This function is used to configure synchronization phase of selected channel. * @note Every two channels share the same setting. */ void PWM_ConfigSyncPhase(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32SyncSrc, uint32_t u32Direction, uint32_t u32StartPhase) { // every two channels shares the same setting u32ChannelNum >>= 1; (pwm)->SYNC = (((pwm)->SYNC & ~((PWM_SYNC_SINSRC0_Msk << (u32ChannelNum << 1)) | (PWM_SYNC_PHSDIR0_Msk << u32ChannelNum))) | \ (u32Direction << PWM_SYNC_PHSDIR0_Pos << u32ChannelNum) | (u32SyncSrc << PWM_SYNC_SINSRC0_Pos) << (u32ChannelNum << 1)); *(__IO uint32_t *)(&((pwm)->PHS0_1) + u32ChannelNum) = u32StartPhase; } /** * @brief Enable SYNC phase of selected channel(s) * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel. * Bit 0 is channel 0, bit 1 is channel 1... * @return None * @details This function is used to enable SYNC phase of selected channel(s). * @note Every two channels share the same setting. */ void PWM_EnableSyncPhase(PWM_T *pwm, uint32_t u32ChannelMask) { uint32_t i; for(i = 0; i < PWM_CHANNEL_NUM; i ++) { if(u32ChannelMask & (1 << i)) { (pwm)->SYNC |= (PWM_SYNC_PHSEN0_Msk << (i >> 1)); } } } /** * @brief Disable SYNC phase of selected channel(s) * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ChannelMask Combination of enabled channels. Each bit corresponds to a channel. * Bit 0 is channel 0, bit 1 is channel 1... * @return None * @details This function is used to disable SYNC phase of selected channel(s). * @note Every two channels share the same setting. */ void PWM_DisableSyncPhase(PWM_T *pwm, uint32_t u32ChannelMask) { uint32_t i; for(i = 0; i < PWM_CHANNEL_NUM; i ++) { if(u32ChannelMask & (1 << i)) { (pwm)->SYNC &= ~(PWM_SYNC_PHSEN0_Msk << (i >> 1)); } } } /** * @brief Enable PWM SYNC_IN noise filter function * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32ClkCnt SYNC Edge Detector Filter Count. This controls the counter number of edge detector. * The valid value is 0~7. * @param[in] u32ClkDivSel SYNC Edge Detector Filter Clock Selection. * - \ref PWM_NF_CLK_DIV_1 * - \ref PWM_NF_CLK_DIV_2 * - \ref PWM_NF_CLK_DIV_4 * - \ref PWM_NF_CLK_DIV_8 * - \ref PWM_NF_CLK_DIV_16 * - \ref PWM_NF_CLK_DIV_32 * - \ref PWM_NF_CLK_DIV_64 * - \ref PWM_NF_CLK_DIV_128 * @return None * @details This function is used to enable PWM SYNC_IN noise filter function. */ void PWM_EnableSyncNoiseFilter(PWM_T *pwm, uint32_t u32ClkCnt, uint32_t u32ClkDivSel) { (pwm)->SYNC = ((pwm)->SYNC & ~(PWM_SYNC_SFLTCNT_Msk | PWM_SYNC_SFLTCSEL_Msk)) | \ ((u32ClkCnt << PWM_SYNC_SFLTCNT_Pos) | (u32ClkDivSel << PWM_SYNC_SFLTCSEL_Pos) | PWM_SYNC_SNFLTEN_Msk); } /** * @brief Disable PWM SYNC_IN noise filter function * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @return None * @details This function is used to Disable PWM SYNC_IN noise filter function. */ void PWM_DisableSyncNoiseFilter(PWM_T *pwm) { (pwm)->SYNC &= ~PWM_SYNC_SNFLTEN_Msk; } /** * @brief Enable PWM SYNC input pin inverse function * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @return None * @details This function is used to enable PWM SYNC input pin inverse function. */ void PWM_EnableSyncPinInverse(PWM_T *pwm) { (pwm)->SYNC |= PWM_SYNC_SINPINV_Msk; } /** * @brief Disable PWM SYNC input pin inverse function * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @return None * @details This function is used to Disable PWM SYNC input pin inverse function. */ void PWM_DisableSyncPinInverse(PWM_T *pwm) { (pwm)->SYNC &= ~PWM_SYNC_SINPINV_Msk; } /** * @brief Set PWM clock source * @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] u32ClkSrcSel PWM external clock source. * - \ref PWM_CLKSRC_PWM_CLK * - \ref PWM_CLKSRC_TIMER0 * - \ref PWM_CLKSRC_TIMER1 * - \ref PWM_CLKSRC_TIMER2 * - \ref PWM_CLKSRC_TIMER3 * @return None * @details This function is used to set PWM clock source. * @note Every two channels share the same setting. */ void PWM_SetClockSource(PWM_T *pwm, uint32_t u32ChannelNum, uint32_t u32ClkSrcSel) { (pwm)->CLKSRC = (pwm)->CLKSRC & ~(PWM_CLKSRC_ECLKSRC0_Msk << ((u32ChannelNum >> 1) * PWM_CLKSRC_ECLKSRC2_Pos)) | \ (u32ClkSrcSel << ((u32ChannelNum >> 1) * PWM_CLKSRC_ECLKSRC2_Pos)); } /** * @brief Enable PWM brake noise filter function * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32BrakePinNum Brake pin selection. Valid values are 0 or 1. * @param[in] u32ClkCnt SYNC Edge Detector Filter Count. This controls the counter number of edge detector * @param[in] u32ClkDivSel SYNC Edge Detector Filter Clock Selection. * - \ref PWM_NF_CLK_DIV_1 * - \ref PWM_NF_CLK_DIV_2 * - \ref PWM_NF_CLK_DIV_4 * - \ref PWM_NF_CLK_DIV_8 * - \ref PWM_NF_CLK_DIV_16 * - \ref PWM_NF_CLK_DIV_32 * - \ref PWM_NF_CLK_DIV_64 * - \ref PWM_NF_CLK_DIV_128 * @return None * @details This function is used to enable PWM brake noise filter function. */ void PWM_EnableBrakeNoiseFilter(PWM_T *pwm, uint32_t u32BrakePinNum, uint32_t u32ClkCnt, uint32_t u32ClkDivSel) { (pwm)->BNF = ((pwm)->BNF & ~((PWM_BNF_BRK0FCNT_Msk | PWM_BNF_BRK0NFSEL_Msk) << (u32BrakePinNum * PWM_BNF_BRK1NFEN_Pos))) | \ (((u32ClkCnt << PWM_BNF_BRK0FCNT_Pos) | (u32ClkDivSel << PWM_BNF_BRK0NFSEL_Pos) | PWM_BNF_BRK0NFEN_Msk) << (u32BrakePinNum * PWM_BNF_BRK1NFEN_Pos)); } /** * @brief Disable PWM brake noise filter function * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32BrakePinNum Brake pin selection. Valid values are 0 or 1. * @return None * @details This function is used to disable PWM brake noise filter function. */ void PWM_DisableBrakeNoiseFilter(PWM_T *pwm, uint32_t u32BrakePinNum) { (pwm)->BNF &= ~(PWM_BNF_BRK0NFEN_Msk << (u32BrakePinNum * PWM_BNF_BRK1NFEN_Pos)); } /** * @brief Enable PWM brake pin inverse function * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32BrakePinNum Brake pin selection. Valid values are 0 or 1. * @return None * @details This function is used to enable PWM brake pin inverse function. */ void PWM_EnableBrakePinInverse(PWM_T *pwm, uint32_t u32BrakePinNum) { (pwm)->BNF |= (PWM_BNF_BRK0PINV_Msk << (u32BrakePinNum * PWM_BNF_BRK1NFEN_Pos)); } /** * @brief Disable PWM brake pin inverse function * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32BrakePinNum Brake pin selection. Valid values are 0 or 1. * @return None * @details This function is used to disable PWM brake pin inverse function. */ void PWM_DisableBrakePinInverse(PWM_T *pwm, uint32_t u32BrakePinNum) { (pwm)->BNF &= ~(PWM_BNF_BRK0PINV_Msk << (u32BrakePinNum * PWM_BNF_BRK1NFEN_Pos)); } /** * @brief Set PWM brake pin source * @param[in] pwm The pointer of the specified PWM module * - PWM0 : PWM Group 0 * - PWM1 : PWM Group 1 * @param[in] u32BrakePinNum Brake pin selection. Valid values are 0 or 1. * @param[in] u32SelAnotherModule Select to another module. Valid values are TRUE or FALSE. * @return None * @details This function is used to set PWM brake pin source. * @note This function is only supported in M45xD/M45xC. */ void PWM_SetBrakePinSource(PWM_T *pwm, uint32_t u32BrakePinNum, uint32_t u32SelAnotherModule) { (pwm)->BNF = ((pwm)->BNF & ~(PWM_BNF_BK0SRC_Msk << (u32BrakePinNum * 8))) | (u32SelAnotherModule << (PWM_BNF_BK0SRC_Pos + u32BrakePinNum * 8)); } /** * @brief Get the time-base counter reached its maximum value flag of selected channel * @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 * @return Count to max interrupt flag of specified channel * @retval 0 Count to max interrupt did not occur * @retval 1 Count to max interrupt occurred * @details This function is used to get the time-base counter reached its maximum value flag of selected channel. */ uint32_t PWM_GetWrapAroundFlag(PWM_T *pwm, uint32_t u32ChannelNum) { return (((pwm)->STATUS & (PWM_STATUS_CNTMAXF0_Msk << u32ChannelNum)) ? 1 : 0); } /** * @brief Clear the time-base counter reached its maximum value flag of selected channel * @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 * @return None * @details This function is used to clear the time-base counter reached its maximum value flag of selected channel. */ void PWM_ClearWrapAroundFlag(PWM_T *pwm, uint32_t u32ChannelNum) { (pwm)->STATUS = (PWM_STATUS_CNTMAXF0_Msk << u32ChannelNum); } /*@}*/ /* end of group PWM_EXPORTED_FUNCTIONS */ /*@}*/ /* end of group PWM_Driver */ /*@}*/ /* end of group Standard_Driver */ /*** (C) COPYRIGHT 2014~2015 Nuvoton Technology Corp. ***/