/**************************************************************************//** * * @copyright (C) 2020 Nuvoton Technology Corp. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2021-9-22 Wayne First version * ******************************************************************************/ #include #if (defined(BSP_USING_EPWM) && defined(RT_USING_PWM)) #define LOG_TAG "drv.epwm" #define DBG_ENABLE #define DBG_SECTION_NAME LOG_TAG #define DBG_LEVEL DBG_INFO #define DBG_COLOR #include #include #include #include "NuMicro.h" enum { EPWM_START = -1, #if defined(BSP_USING_EPWM0) EPWM0_IDX, #endif #if defined(BSP_USING_EPWM1) EPWM1_IDX, #endif EPWM_CNT }; struct nu_epwm { struct rt_device_pwm dev; char *name; EPWM_T *base; uint32_t rstidx; uint32_t modid; }; typedef struct nu_epwm *nu_epwm_t; static struct nu_epwm nu_epwm_arr [] = { #if defined(BSP_USING_EPWM0) { .name = "epwm0", .base = EPWM0, .rstidx = EPWM0_RST, .modid = EPWM0_MODULE }, #endif #if defined(BSP_USING_EPWM1) { .name = "epwm1", .base = EPWM1, .rstidx = EPWM1_RST, .modid = EPWM1_MODULE }, #endif #if (EPWM_CNT==0) 0 #endif }; /* epwm nu_epwm */ static rt_err_t nu_epwm_control(struct rt_device_pwm *device, int cmd, void *arg); static struct rt_pwm_ops nu_epwm_ops = { .control = nu_epwm_control }; static rt_err_t nu_epwm_enable(struct rt_device_pwm *device, struct rt_pwm_configuration *configuration, rt_bool_t enable) { rt_err_t result = RT_EOK; EPWM_T *pwm_base = ((nu_epwm_t)device)->base; rt_uint32_t pwm_channel = ((struct rt_pwm_configuration *)configuration)->channel; if (enable == RT_TRUE) { EPWM_EnableOutput(pwm_base, 1 << pwm_channel); EPWM_Start(pwm_base, 1 << pwm_channel); } else { EPWM_DisableOutput(pwm_base, 1 << pwm_channel); EPWM_ForceStop(pwm_base, 1 << pwm_channel); } return result; } static rt_err_t nu_epwm_set(struct rt_device_pwm *device, struct rt_pwm_configuration *configuration) { if ((((struct rt_pwm_configuration *)configuration)->period) <= 0) return -(RT_ERROR); rt_uint8_t pwm_channel_pair; rt_uint32_t pwm_freq, pwm_dutycycle ; EPWM_T *pwm_base = ((nu_epwm_t)device)->base; rt_uint8_t pwm_channel = ((struct rt_pwm_configuration *)configuration)->channel; rt_uint32_t pwm_period = ((struct rt_pwm_configuration *)configuration)->period; rt_uint32_t pwm_pulse = ((struct rt_pwm_configuration *)configuration)->pulse; rt_uint32_t pre_pwm_prescaler = EPWM_GET_PRESCALER(pwm_base, pwm_channel); if ((pwm_channel % 2) == 0) pwm_channel_pair = pwm_channel + 1; else pwm_channel_pair = pwm_channel - 1; pwm_freq = (uint64_t)1000000000 / pwm_period; pwm_dutycycle = (pwm_pulse * 100) / pwm_period; EPWM_ConfigOutputChannel(pwm_base, pwm_channel, pwm_freq, pwm_dutycycle) ; if ((pre_pwm_prescaler != 0) || (EPWM_GET_CNR(pwm_base, pwm_channel_pair) != 0) || (EPWM_GET_CMR(pwm_base, pwm_channel_pair) != 0)) { if (pre_pwm_prescaler < EPWM_GET_PRESCALER(pwm_base, pwm_channel)) { EPWM_SET_CNR(pwm_base, pwm_channel_pair, ((EPWM_GET_CNR(pwm_base, pwm_channel_pair) + 1) * (pre_pwm_prescaler + 1)) / (EPWM_GET_PRESCALER(pwm_base, pwm_channel) + 1)); EPWM_SET_CMR(pwm_base, pwm_channel_pair, (EPWM_GET_CMR(pwm_base, pwm_channel_pair) * (pre_pwm_prescaler + 1)) / (EPWM_GET_PRESCALER(pwm_base, pwm_channel) + 1)); } else if (pre_pwm_prescaler > EPWM_GET_PRESCALER(pwm_base, pwm_channel)) { EPWM_SET_CNR(pwm_base, pwm_channel, ((EPWM_GET_CNR(pwm_base, pwm_channel) + 1) * (EPWM_GET_PRESCALER(pwm_base, pwm_channel) + 1)) / (pre_pwm_prescaler + 1)); EPWM_SET_CMR(pwm_base, pwm_channel, (EPWM_GET_CMR(pwm_base, pwm_channel) * (EPWM_GET_PRESCALER(pwm_base, pwm_channel) + 1)) / (pre_pwm_prescaler + 1)); } } return RT_EOK; } static rt_uint32_t nu_epwm_clksr(struct rt_device_pwm *device) { return CLK_GetPCLK0Freq(); //Both PCLK0 && PCLK1 are the same. } static rt_err_t nu_epwm_get(struct rt_device_pwm *device, struct rt_pwm_configuration *configuration) { rt_uint32_t pwm_real_period, pwm_real_duty, time_tick, u32EPWMClockSrc ; EPWM_T *pwm_base = ((nu_epwm_t)device)->base; rt_uint32_t pwm_channel = ((struct rt_pwm_configuration *)configuration)->channel; rt_uint32_t pwm_prescale = EPWM_GET_PRESCALER(pwm_base, pwm_channel); rt_uint32_t pwm_period = EPWM_GET_CNR(pwm_base, pwm_channel); rt_uint32_t pwm_pulse = EPWM_GET_CMR(pwm_base, pwm_channel); u32EPWMClockSrc = nu_epwm_clksr(device); time_tick = (uint64_t)1000000000000 / u32EPWMClockSrc; pwm_real_period = (((pwm_prescale + 1) * (pwm_period + 1)) * time_tick) / 1000; pwm_real_duty = (((pwm_prescale + 1) * pwm_pulse * time_tick)) / 1000; ((struct rt_pwm_configuration *)configuration)->period = pwm_real_period; ((struct rt_pwm_configuration *)configuration)->pulse = pwm_real_duty; LOG_I("%s %d %d %d\n", ((nu_epwm_t)device)->name, configuration->channel, configuration->period, configuration->pulse); return RT_EOK; } static rt_err_t nu_epwm_control(struct rt_device_pwm *device, int cmd, void *arg) { struct rt_pwm_configuration *configuration = (struct rt_pwm_configuration *)arg; RT_ASSERT(device); RT_ASSERT(configuration); if (((((struct rt_pwm_configuration *)configuration)->channel) + 1) > EPWM_CHANNEL_NUM) return -(RT_ERROR); switch (cmd) { case PWM_CMD_ENABLE: return nu_epwm_enable(device, configuration, RT_TRUE); case PWM_CMD_DISABLE: return nu_epwm_enable(device, configuration, RT_FALSE); case PWM_CMD_SET: return nu_epwm_set(device, configuration); case PWM_CMD_GET: return nu_epwm_get(device, configuration); } return -(RT_EINVAL); } int rt_hw_epwm_init(void) { rt_err_t ret; int i; for (i = (EPWM_START + 1); i < EPWM_CNT; i++) { CLK_EnableModuleClock(nu_epwm_arr[i].modid); SYS_ResetModule(nu_epwm_arr[i].rstidx); ret = rt_device_pwm_register(&nu_epwm_arr[i].dev, nu_epwm_arr[i].name, &nu_epwm_ops, &nu_epwm_arr[i]); RT_ASSERT(ret == RT_EOK); } return 0; } INIT_DEVICE_EXPORT(rt_hw_epwm_init); #endif