// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include #include "esp_log.h" #include "esp_err.h" #include "freertos/FreeRTOS.h" #include "freertos/semphr.h" #include "freertos/xtensa_api.h" #include "freertos/task.h" #include "soc/mcpwm_periph.h" #include "soc/gpio_periph.h" #include "driver/mcpwm.h" #include "driver/periph_ctrl.h" static mcpwm_dev_t *MCPWM[2] = {&MCPWM0, &MCPWM1}; static const char *MCPWM_TAG = "MCPWM"; static portMUX_TYPE mcpwm_spinlock = portMUX_INITIALIZER_UNLOCKED; #define MCPWM_CHECK(a, str, ret_val) if (!(a)) { \ ESP_LOGE(MCPWM_TAG,"%s:%d (%s):%s", __FILE__, __LINE__, __FUNCTION__, str); \ return (ret_val); \ } #define MCPWM_UNIT_NUM_ERROR "MCPWM UNIT NUM ERROR" #define MCPWM_TIMER_ERROR "MCPWM TIMER NUM ERROR" #define MCPWM_PARAM_ADDR_ERROR "MCPWM PARAM ADDR ERROR" #define MCPWM_DUTY_TYPE_ERROR "MCPWM DUTY TYPE ERROR" #define MCPWM_GPIO_ERROR "MCPWM GPIO NUM ERROR" #define MCPWM_OP_ERROR "MCPWM OPERATOR ERROR" #define MCPWM_DB_ERROR "MCPWM DEADTIME TYPE ERROR" #define MCPWM_BASE_CLK (2 * APB_CLK_FREQ) //2*APB_CLK_FREQ 160Mhz #define MCPWM_CLK_PRESCL 15 //MCPWM clock prescale #define TIMER_CLK_PRESCALE 9 //MCPWM timer prescales #define MCPWM_CLK (MCPWM_BASE_CLK/(MCPWM_CLK_PRESCL +1)) #define MCPWM_PIN_IGNORE (-1) #define OFFSET_FOR_GPIO_IDX_1 6 #define OFFSET_FOR_GPIO_IDX_2 75 esp_err_t mcpwm_gpio_init(mcpwm_unit_t mcpwm_num, mcpwm_io_signals_t io_signal, int gpio_num) { if (gpio_num == MCPWM_PIN_IGNORE) { //IGNORE return ESP_OK; } MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK((GPIO_IS_VALID_GPIO(gpio_num)), MCPWM_GPIO_ERROR, ESP_ERR_INVALID_ARG); periph_module_enable(PERIPH_PWM0_MODULE + mcpwm_num); PIN_FUNC_SELECT(GPIO_PIN_MUX_REG[gpio_num], PIN_FUNC_GPIO); bool mcpwm_gpio_sig = (io_signal <= MCPWM2B); if (mcpwm_num == MCPWM_UNIT_0) { if (mcpwm_gpio_sig) { MCPWM_CHECK((GPIO_IS_VALID_OUTPUT_GPIO(gpio_num)), MCPWM_GPIO_ERROR, ESP_ERR_INVALID_ARG); gpio_set_direction(gpio_num, GPIO_MODE_OUTPUT); gpio_matrix_out(gpio_num, PWM0_OUT0A_IDX + io_signal, 0, 0); } else { gpio_set_direction(gpio_num, GPIO_MODE_INPUT); gpio_matrix_in(gpio_num, PWM0_SYNC0_IN_IDX + io_signal - OFFSET_FOR_GPIO_IDX_1, 0); } } else { //MCPWM_UNIT_1 if (mcpwm_gpio_sig) { MCPWM_CHECK((GPIO_IS_VALID_OUTPUT_GPIO(gpio_num)), MCPWM_GPIO_ERROR, ESP_ERR_INVALID_ARG); gpio_set_direction(gpio_num, GPIO_MODE_OUTPUT); gpio_matrix_out(gpio_num, PWM1_OUT0A_IDX + io_signal, 0, 0); } else if (io_signal >= MCPWM_SYNC_0 && io_signal <= MCPWM_FAULT_2) { gpio_set_direction(gpio_num, GPIO_MODE_INPUT); gpio_matrix_in(gpio_num, PWM1_SYNC0_IN_IDX + io_signal - OFFSET_FOR_GPIO_IDX_1, 0); } else { gpio_set_direction(gpio_num, GPIO_MODE_INPUT); gpio_matrix_in(gpio_num, PWM1_SYNC0_IN_IDX + io_signal - OFFSET_FOR_GPIO_IDX_2, 0); } } return ESP_OK; } esp_err_t mcpwm_set_pin(mcpwm_unit_t mcpwm_num, const mcpwm_pin_config_t *mcpwm_pin) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); mcpwm_gpio_init(mcpwm_num, MCPWM0A, mcpwm_pin->mcpwm0a_out_num); //MCPWM0A mcpwm_gpio_init(mcpwm_num, MCPWM0B, mcpwm_pin->mcpwm0b_out_num); //MCPWM0B mcpwm_gpio_init(mcpwm_num, MCPWM1A, mcpwm_pin->mcpwm1a_out_num); //MCPWM1A mcpwm_gpio_init(mcpwm_num, MCPWM1B, mcpwm_pin->mcpwm1b_out_num); //MCPWM1B mcpwm_gpio_init(mcpwm_num, MCPWM2A, mcpwm_pin->mcpwm2a_out_num); //MCPWM2A mcpwm_gpio_init(mcpwm_num, MCPWM2B, mcpwm_pin->mcpwm2b_out_num); //MCPWM2B mcpwm_gpio_init(mcpwm_num, MCPWM_SYNC_0, mcpwm_pin->mcpwm_sync0_in_num); //SYNC0 mcpwm_gpio_init(mcpwm_num, MCPWM_SYNC_1, mcpwm_pin->mcpwm_sync1_in_num); //SYNC1 mcpwm_gpio_init(mcpwm_num, MCPWM_SYNC_2, mcpwm_pin->mcpwm_sync2_in_num); //SYNC2 mcpwm_gpio_init(mcpwm_num, MCPWM_FAULT_0, mcpwm_pin->mcpwm_fault0_in_num); //FAULT0 mcpwm_gpio_init(mcpwm_num, MCPWM_FAULT_1, mcpwm_pin->mcpwm_fault1_in_num); //FAULT1 mcpwm_gpio_init(mcpwm_num, MCPWM_FAULT_2, mcpwm_pin->mcpwm_fault2_in_num); //FAULT2 mcpwm_gpio_init(mcpwm_num, MCPWM_CAP_0, mcpwm_pin->mcpwm_cap0_in_num); //CAP0 mcpwm_gpio_init(mcpwm_num, MCPWM_CAP_1, mcpwm_pin->mcpwm_cap1_in_num); //CAP1 mcpwm_gpio_init(mcpwm_num, MCPWM_CAP_2, mcpwm_pin->mcpwm_cap2_in_num); //CAP2 return ESP_OK; } esp_err_t mcpwm_start(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->timer[timer_num].mode.start = 2; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_stop(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->timer[timer_num].mode.start = 0; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_set_frequency(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, uint32_t frequency) { uint32_t mcpwm_num_of_pulse; uint32_t previous_period; uint32_t set_duty_a, set_duty_b; MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); mcpwm_num_of_pulse = MCPWM_CLK / (frequency * (TIMER_CLK_PRESCALE + 1)); previous_period = MCPWM[mcpwm_num]->timer[timer_num].period.period + 1; MCPWM[mcpwm_num]->timer[timer_num].period.prescale = TIMER_CLK_PRESCALE; MCPWM[mcpwm_num]->timer[timer_num].period.period = mcpwm_num_of_pulse - 1; MCPWM[mcpwm_num]->timer[timer_num].period.upmethod = 0; set_duty_a = (((MCPWM[mcpwm_num]->channel[timer_num].cmpr_value[0].cmpr_val) * mcpwm_num_of_pulse) / previous_period); set_duty_b = (((MCPWM[mcpwm_num]->channel[timer_num].cmpr_value[1].cmpr_val) * mcpwm_num_of_pulse) / previous_period); MCPWM[mcpwm_num]->channel[timer_num].cmpr_value[0].cmpr_val = set_duty_a; MCPWM[mcpwm_num]->channel[timer_num].cmpr_value[1].cmpr_val = set_duty_b; MCPWM[mcpwm_num]->channel[timer_num].cmpr_cfg.a_upmethod = 0; MCPWM[mcpwm_num]->channel[timer_num].cmpr_cfg.b_upmethod = 0; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_set_duty(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_operator_t op_num, float duty) { uint32_t set_duty; MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(op_num < MCPWM_OPR_MAX, MCPWM_OP_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); set_duty = (MCPWM[mcpwm_num]->timer[timer_num].period.period + 1) * (duty) / 100; MCPWM[mcpwm_num]->channel[timer_num].cmpr_value[op_num].cmpr_val = set_duty; MCPWM[mcpwm_num]->channel[timer_num].cmpr_cfg.a_upmethod = BIT(0); MCPWM[mcpwm_num]->channel[timer_num].cmpr_cfg.b_upmethod = BIT(0); portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_set_duty_in_us(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_operator_t op_num, uint32_t duty) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(op_num < MCPWM_OPR_MAX, MCPWM_OP_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].cmpr_value[op_num].cmpr_val = duty; MCPWM[mcpwm_num]->channel[timer_num].cmpr_cfg.a_upmethod = BIT(0); MCPWM[mcpwm_num]->channel[timer_num].cmpr_cfg.b_upmethod = BIT(0); portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_set_duty_type(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_operator_t op_num, mcpwm_duty_type_t duty_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(op_num < MCPWM_OPR_MAX, MCPWM_OP_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(duty_num < MCPWM_DUTY_MODE_MAX, MCPWM_DUTY_TYPE_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); if (op_num == MCPWM_OPR_A) { if (MCPWM[mcpwm_num]->timer[timer_num].mode.mode == MCPWM_UP_COUNTER) { if (duty_num == MCPWM_DUTY_MODE_1) { MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utea = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utep = 0; } else { //MCPWM_DUTY_MODE_0 MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utea = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utep = 0; } } else if (MCPWM[mcpwm_num]->timer[timer_num].mode.mode == MCPWM_DOWN_COUNTER) { if (duty_num == MCPWM_DUTY_MODE_1) { MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtep = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtea = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtez = 0; } else { //MCPWM_DUTY_MODE_0 MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtep = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtea = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtez = 0; } } else { //Timer count up-down if (duty_num == MCPWM_DUTY_MODE_1) { MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utea = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtea = 1; } else { //MCPWM_DUTY_MODE_0 MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utea = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtea = 2; } } } if (op_num == MCPWM_OPR_B) { if (MCPWM[mcpwm_num]->timer[timer_num].mode.mode == MCPWM_UP_COUNTER) { if (duty_num == MCPWM_DUTY_MODE_1) { MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].uteb = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utep = 0; } else { //MCPWM_DUTY_MODE_0 MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].uteb = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utep = 0; } } else if (MCPWM[mcpwm_num]->timer[timer_num].mode.mode == MCPWM_DOWN_COUNTER) { if (duty_num == MCPWM_DUTY_MODE_1) { MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtep = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dteb = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtez = 0; } else { //MCPWM_DUTY_MODE_0 MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtep = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dteb = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtez = 0; } } else { //Timer count up-down if (duty_num == MCPWM_DUTY_MODE_1) { MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].uteb = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dteb = 1; } else { //MCPWM_DUTY_MODE_0 MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].uteb = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dteb = 2; } } } portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_init(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, const mcpwm_config_t *mcpwm_conf) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); periph_module_enable(PERIPH_PWM0_MODULE + mcpwm_num); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->clk_cfg.prescale = MCPWM_CLK_PRESCL; mcpwm_set_frequency(mcpwm_num, timer_num, mcpwm_conf->frequency); MCPWM[mcpwm_num]->timer[timer_num].mode.mode = mcpwm_conf ->counter_mode; mcpwm_set_duty(mcpwm_num, timer_num, 0, mcpwm_conf->cmpr_a); mcpwm_set_duty(mcpwm_num, timer_num, 1, mcpwm_conf->cmpr_b); mcpwm_set_duty_type(mcpwm_num, timer_num, 0, mcpwm_conf->duty_mode); mcpwm_set_duty_type(mcpwm_num, timer_num, 1, mcpwm_conf->duty_mode); mcpwm_start(mcpwm_num, timer_num); MCPWM[mcpwm_num]->timer_sel.operator0_sel = 0; MCPWM[mcpwm_num]->timer_sel.operator1_sel = 1; MCPWM[mcpwm_num]->timer_sel.operator2_sel = 2; MCPWM[mcpwm_num]->update_cfg.global_up_en = 1; MCPWM[mcpwm_num]->update_cfg.global_force_up = 1; MCPWM[mcpwm_num]->update_cfg.global_force_up = 0; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } uint32_t mcpwm_get_frequency(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num) { uint32_t frequency; MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); frequency = MCPWM_CLK / ((MCPWM[mcpwm_num]->timer[timer_num].period.period + 1) * (TIMER_CLK_PRESCALE + 1)); return frequency; } float mcpwm_get_duty(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_operator_t op_num) { float duty; MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(op_num < MCPWM_OPR_MAX, MCPWM_OP_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); duty = 100.0 * (MCPWM[mcpwm_num]->channel[timer_num].cmpr_value[op_num].cmpr_val) / (MCPWM[mcpwm_num]->timer[timer_num].period.period + 1); portEXIT_CRITICAL(&mcpwm_spinlock); return duty; } esp_err_t mcpwm_set_signal_high(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_operator_t op_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(op_num < MCPWM_OPR_MAX, MCPWM_OP_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); if (op_num == MCPWM_OPR_A) { MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utea = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utep = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtez = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtea = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtep = 2; } else { //MCPWM_OPR_B MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].uteb = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utep = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtez = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dteb = 2; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtep = 2; } portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_set_signal_low(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_operator_t op_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(op_num < MCPWM_OPR_MAX, MCPWM_OP_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); if (op_num == 0) { MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utea = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utep = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtez = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtea = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtep = 1; } if (op_num == 1) { MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utez = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].uteb = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].utep = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtez = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dteb = 1; MCPWM[mcpwm_num]->channel[timer_num].generator[op_num].dtep = 1; } portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_carrier_enable(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].carrier_cfg.en = 1; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_carrier_disable(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].carrier_cfg.en = 0; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_carrier_set_period(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, uint8_t carrier_period) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].carrier_cfg.prescale = carrier_period; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_carrier_set_duty_cycle(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, uint8_t carrier_duty) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].carrier_cfg.duty = carrier_duty; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_carrier_oneshot_mode_enable(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, uint8_t pulse_width) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].carrier_cfg.oshtwth = pulse_width; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_carrier_oneshot_mode_disable(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].carrier_cfg.oshtwth = 0; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_carrier_output_invert(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_carrier_out_ivt_t carrier_ivt_mode) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].carrier_cfg.out_invert = carrier_ivt_mode; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_carrier_init(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, const mcpwm_carrier_config_t *carrier_conf) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); mcpwm_carrier_enable(mcpwm_num, timer_num); mcpwm_carrier_set_period(mcpwm_num, timer_num, carrier_conf->carrier_period); mcpwm_carrier_set_duty_cycle(mcpwm_num, timer_num, carrier_conf->carrier_duty); if (carrier_conf->carrier_os_mode == MCPWM_ONESHOT_MODE_EN) { mcpwm_carrier_oneshot_mode_enable(mcpwm_num, timer_num, carrier_conf->pulse_width_in_os); } else { mcpwm_carrier_oneshot_mode_disable(mcpwm_num, timer_num); } mcpwm_carrier_output_invert(mcpwm_num, timer_num, carrier_conf->carrier_ivt_mode); MCPWM[mcpwm_num]->channel[timer_num].carrier_cfg.in_invert = 0; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_deadtime_enable(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_deadtime_type_t dt_mode, uint32_t red, uint32_t fed) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(dt_mode < MCPWM_DEADTIME_TYPE_MAX, MCPWM_DB_ERROR, ESP_ERR_INVALID_ARG ); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_upmethod = BIT(0); MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_upmethod = BIT(0); MCPWM[mcpwm_num]->channel[timer_num].db_cfg.clk_sel = 0; MCPWM[mcpwm_num]->channel[timer_num].db_red_cfg.red = red; MCPWM[mcpwm_num]->channel[timer_num].db_fed_cfg.fed = fed; switch (dt_mode) { case MCPWM_BYPASS_RED: MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outbypass = 0; //S0 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outbypass = 1; //S1 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_outinvert = 0; //S2 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_outinvert = 0; //S3 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_insel = 0; //S4 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_insel = 0; //S5 break; case MCPWM_BYPASS_FED: MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outbypass = 1; //S0 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outbypass = 0; //S1 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_outinvert = 0; //S2 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_outinvert = 0; //S3 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_insel = 0; //S4 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_insel = 0; //S5 break; case MCPWM_ACTIVE_HIGH_MODE: MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outbypass = 0; //S0 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outbypass = 0; //S1 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_outinvert = 0; //S2 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_outinvert = 0; //S3 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_insel = 0; //S4 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_insel = 0; //S5 break; case MCPWM_ACTIVE_LOW_MODE: MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outbypass = 0; //S0 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outbypass = 0; //S1 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_outinvert = 1; //S2 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_outinvert = 1; //S3 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_insel = 0; //S4 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_insel = 0; //S5 break; case MCPWM_ACTIVE_HIGH_COMPLIMENT_MODE: MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outbypass = 0; //S0 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outbypass = 0; //S1 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_outinvert = 0; //S2 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_outinvert = 1; //S3 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_insel = 0; //S4 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_insel = 0; //S5 break; case MCPWM_ACTIVE_LOW_COMPLIMENT_MODE: MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outbypass = 0; //S0 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outbypass = 0; //S1 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_outinvert = 1; //S2 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_outinvert = 0; //S3 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_insel = 0; //S4 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_insel = 0; //S5 break; case MCPWM_ACTIVE_RED_FED_FROM_PWMXA: MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outbypass = 0; //S0 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_outinvert = 0; //S3 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_insel = 0; //S4 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outswap = 1; //S6 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outswap = 0; //S7 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.deb_mode = 1; //S8 break; case MCPWM_ACTIVE_RED_FED_FROM_PWMXB: MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outbypass = 0; //S0 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_outinvert = 0; //S3 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_insel = 1; //S4 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outswap = 1; //S6 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outswap = 0; //S7 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.deb_mode = 1; //S8 break; default : break; } portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_deadtime_disable(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outbypass = 1; //S0 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outbypass = 1; //S1 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_outinvert = 0; //S2 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_outinvert = 0; //S3 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.red_insel = 0; //S4 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.fed_insel = 0; //S5 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.a_outswap = 0; //S6 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.b_outswap = 0; //S7 MCPWM[mcpwm_num]->channel[timer_num].db_cfg.deb_mode = 0; //S8 portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_fault_init(mcpwm_unit_t mcpwm_num, mcpwm_fault_input_level_t intput_level, mcpwm_fault_signal_t fault_sig) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); switch (fault_sig) { case MCPWM_SELECT_F0: MCPWM[mcpwm_num]->fault_detect.f0_en = 1; MCPWM[mcpwm_num]->fault_detect.f0_pole = intput_level; break; case MCPWM_SELECT_F1: MCPWM[mcpwm_num]->fault_detect.f1_en = 1; MCPWM[mcpwm_num]->fault_detect.f1_pole = intput_level; break; case MCPWM_SELECT_F2: MCPWM[mcpwm_num]->fault_detect.f2_en = 1; MCPWM[mcpwm_num]->fault_detect.f2_pole = intput_level; break; default : break; } portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_fault_deinit(mcpwm_unit_t mcpwm_num, mcpwm_fault_signal_t fault_sig) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); if (fault_sig == MCPWM_SELECT_F0) { MCPWM[mcpwm_num]->fault_detect.f0_en = 0; } else if (fault_sig == MCPWM_SELECT_F1) { MCPWM[mcpwm_num]->fault_detect.f1_en = 0; } else { //MCPWM_SELECT_F2 MCPWM[mcpwm_num]->fault_detect.f2_en = 0; } portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_fault_set_cyc_mode(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_fault_signal_t fault_sig, mcpwm_action_on_pwmxa_t action_on_pwmxa, mcpwm_action_on_pwmxb_t action_on_pwmxb) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->channel[timer_num].tz_cfg1.cbcpulse = BIT(0); if (fault_sig == MCPWM_SELECT_F0) { MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f0_cbc = 1; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f0_ost = 0; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_cbc_d = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_cbc_u = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_cbc_d = action_on_pwmxb; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_cbc_u = action_on_pwmxb; } else if (fault_sig == MCPWM_SELECT_F1) { MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f1_cbc = 1; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f1_ost = 0; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_cbc_d = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_cbc_u = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_cbc_d = action_on_pwmxb; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_cbc_u = action_on_pwmxb; } else { //MCPWM_SELECT_F2 MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f2_cbc = 1; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f2_ost = 0; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_cbc_d = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_cbc_u = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_cbc_d = action_on_pwmxb; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_cbc_u = action_on_pwmxb; } portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_fault_set_oneshot_mode(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_fault_signal_t fault_sig, mcpwm_action_on_pwmxa_t action_on_pwmxa, mcpwm_action_on_pwmxb_t action_on_pwmxb) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); //clear the ost triggered status MCPWM[mcpwm_num]->channel[timer_num].tz_cfg1.clr_ost = 1; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg1.clr_ost = 0; if (fault_sig == MCPWM_SELECT_F0) { MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f0_ost = 1; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f0_cbc = 0; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_ost_d = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_ost_u = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_ost_d = action_on_pwmxb; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_ost_u = action_on_pwmxb; } else if (fault_sig == MCPWM_SELECT_F1) { MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f1_ost = 1; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f1_cbc = 0; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_ost_d = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_ost_u = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_ost_d = action_on_pwmxb; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_ost_u = action_on_pwmxb; } else { //MCPWM_SELECT_F2 MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f2_ost = 1; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.f2_cbc = 0; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_ost_d = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.a_ost_u = action_on_pwmxa; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_ost_d = action_on_pwmxb; MCPWM[mcpwm_num]->channel[timer_num].tz_cfg0.b_ost_u = action_on_pwmxb; } portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_capture_enable(mcpwm_unit_t mcpwm_num, mcpwm_capture_signal_t cap_sig, mcpwm_capture_on_edge_t cap_edge, uint32_t num_of_pulse) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); //We have to do this here, since there is no standalone init function //without enabling any PWM channels. MCPWM[mcpwm_num]->clk_cfg.prescale = MCPWM_CLK_PRESCL; MCPWM[mcpwm_num]->cap_timer_cfg.timer_en = 1; MCPWM[mcpwm_num]->cap_cfg_ch[cap_sig].en = 1; MCPWM[mcpwm_num]->cap_cfg_ch[cap_sig].mode = (1 << cap_edge); MCPWM[mcpwm_num]->cap_cfg_ch[cap_sig].prescale = num_of_pulse; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_capture_disable(mcpwm_unit_t mcpwm_num, mcpwm_capture_signal_t cap_sig) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->cap_cfg_ch[cap_sig].en = 0; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } uint32_t mcpwm_capture_signal_get_value(mcpwm_unit_t mcpwm_num, mcpwm_capture_signal_t cap_sig) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); return MCPWM[mcpwm_num]->cap_val_ch[cap_sig]; } uint32_t mcpwm_capture_signal_get_edge(mcpwm_unit_t mcpwm_num, mcpwm_capture_signal_t cap_sig) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); if (cap_sig == MCPWM_SELECT_CAP0) { return ( MCPWM[mcpwm_num]->cap_status.cap0_edge + 1); } else if (cap_sig == MCPWM_SELECT_CAP1) { return (MCPWM[mcpwm_num]->cap_status.cap1_edge + 1); } else { //MCPWM_SELECT_CAP2 return (MCPWM[mcpwm_num]->cap_status.cap2_edge + 1); } return 0; } esp_err_t mcpwm_sync_enable(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num, mcpwm_sync_signal_t sync_sig, uint32_t phase_val) { uint32_t set_phase; MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); set_phase = (MCPWM[mcpwm_num]->timer[timer_num].period.period + 1) * (phase_val) / 1000; MCPWM[mcpwm_num]->timer[timer_num].sync.timer_phase = set_phase; if (timer_num == MCPWM_TIMER_0) { MCPWM[mcpwm_num]->timer_synci_cfg.t0_in_sel = sync_sig; } else if (timer_num == MCPWM_TIMER_1) { MCPWM[mcpwm_num]->timer_synci_cfg.t1_in_sel = sync_sig; } else { //MCPWM_TIMER_2 MCPWM[mcpwm_num]->timer_synci_cfg.t2_in_sel = sync_sig; } MCPWM[mcpwm_num]->timer[timer_num].sync.out_sel = 0; MCPWM[mcpwm_num]->timer[timer_num].sync.in_en = 1; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_sync_disable(mcpwm_unit_t mcpwm_num, mcpwm_timer_t timer_num) { MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(timer_num < MCPWM_TIMER_MAX, MCPWM_TIMER_ERROR, ESP_ERR_INVALID_ARG); portENTER_CRITICAL(&mcpwm_spinlock); MCPWM[mcpwm_num]->timer[timer_num].sync.in_en = 0; portEXIT_CRITICAL(&mcpwm_spinlock); return ESP_OK; } esp_err_t mcpwm_isr_register(mcpwm_unit_t mcpwm_num, void (*fn)(void *), void *arg, int intr_alloc_flags, intr_handle_t *handle) { esp_err_t ret; MCPWM_CHECK(mcpwm_num < MCPWM_UNIT_MAX, MCPWM_UNIT_NUM_ERROR, ESP_ERR_INVALID_ARG); MCPWM_CHECK(fn != NULL, MCPWM_PARAM_ADDR_ERROR, ESP_ERR_INVALID_ARG); ret = esp_intr_alloc((ETS_PWM0_INTR_SOURCE + mcpwm_num), intr_alloc_flags, fn, arg, handle); return ret; }