kopia lustrzana https://github.com/espressif/esp-idf
mcpwm: fix bldc example force output level inverted
set_force_level can only set the generator level before the deadtime module. if the deadtime module enables the inverter, then the real output level is inverted accordinglypull/11637/head
morris
rodzic
6a7f730c77
commit
5680d28b0e
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@ -59,6 +59,7 @@ esp_err_t mcpwm_del_generator(mcpwm_gen_handle_t gen);
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* @note The force level will be applied to the generator immediately, regardless any other events that would change the generator's behaviour.
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* @note If the `hold_on` is true, the force level will retain forever, until user removes the force level by setting the force level to `-1`.
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* @note If the `hold_on` is false, the force level can be overridden by the next event action.
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* @note The force level set by this function can be inverted by GPIO matrix or dead-time module. So the level set here doesn't equal to the final output level.
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*
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* @param[in] gen MCPWM generator handle, allocated by `mcpwm_new_generator()`
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* @param[in] level GPIO level to be applied to MCPWM generator, specially, -1 means to remove the force level
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@ -77,6 +77,56 @@ TEST_CASE("mcpwm_generator_force_level_hold_on", "[mcpwm]")
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TEST_ESP_OK(mcpwm_del_operator(oper));
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}
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// mcpwm_generator_set_force_level acts before the dead time module
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// so the value output on the generator is a combined result
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TEST_CASE("mcpwm_force_level_and_dead_time", "[mcpwm]")
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{
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printf("create operator and generators\r\n");
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mcpwm_oper_handle_t oper = NULL;
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mcpwm_operator_config_t operator_config = {
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.group_id = 0,
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};
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TEST_ESP_OK(mcpwm_new_operator(&operator_config, &oper));
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mcpwm_gen_handle_t gen_a = NULL;
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mcpwm_gen_handle_t gen_b = NULL;
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const int gen_a_gpio = 0;
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const int gen_b_gpio = 2;
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mcpwm_generator_config_t generator_config = {
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.gen_gpio_num = gen_a_gpio,
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.flags.io_loop_back = true, // loop back for test
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};
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TEST_ESP_OK(mcpwm_new_generator(oper, &generator_config, &gen_a));
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generator_config.gen_gpio_num = gen_b_gpio;
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generator_config.flags.invert_pwm = true; // Inversion add to the GPIO matrix
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TEST_ESP_OK(mcpwm_new_generator(oper, &generator_config, &gen_b));
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mcpwm_dead_time_config_t dt_config = {
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.posedge_delay_ticks = 5,
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};
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ESP_ERROR_CHECK(mcpwm_generator_set_dead_time(gen_a, gen_a, &dt_config));
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dt_config = (mcpwm_dead_time_config_t) {
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.negedge_delay_ticks = 5,
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.flags.invert_output = true, // Inversion applied by the dead time module
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};
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ESP_ERROR_CHECK(mcpwm_generator_set_dead_time(gen_b, gen_b, &dt_config));
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printf("add force level to the generator, hold on");
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for (int i = 0; i < 10; i++) {
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TEST_ESP_OK(mcpwm_generator_set_force_level(gen_b, 0, true));
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vTaskDelay(pdMS_TO_TICKS(10));
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TEST_ASSERT_EQUAL(0, gpio_get_level(gen_b_gpio));
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TEST_ESP_OK(mcpwm_generator_set_force_level(gen_b, 1, true));
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vTaskDelay(pdMS_TO_TICKS(10));
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TEST_ASSERT_EQUAL(1, gpio_get_level(gen_b_gpio));
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}
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printf("delete generator and operator\r\n");
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TEST_ESP_OK(mcpwm_del_generator(gen_a));
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TEST_ESP_OK(mcpwm_del_generator(gen_b));
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TEST_ESP_OK(mcpwm_del_operator(oper));
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}
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TEST_CASE("mcpwm_generator_force_level_recovery", "[mcpwm]")
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{
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printf("create mcpwm timer\r\n");
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@ -61,24 +61,26 @@ static void bldc_set_phase_up_vm(mcpwm_gen_handle_t (*gens)[2])
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// U+ = PWM, U- = _PWM_
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_HIGH], -1, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_LOW], -1, true);
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// V+ = 0, V- = 1
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// V+ = 0, V- = 1 --[because gen_low is inverted by dead time]--> V+ = 0, V- = 0
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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// W+ = 0, W- = 0
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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// W+ = 0, W- = 0 --[because gen_low is inverted by dead time]--> W+ = 0, W- = 1
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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}
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// W+U-
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static void bldc_set_phase_wp_um(mcpwm_gen_handle_t (*gens)[2])
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{
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// U+ = 0, U- = 1
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// U+ = 0, U- = 1 --[because gen_low is inverted by dead time]--> U+ = 0, U- = 0
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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// V+ = 0, V- = 0
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// V+ = 0, V- = 0 --[because gen_low is inverted by dead time]--> V+ = 0, V- = 1
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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// W+ = PWM, W- = _PWM_
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_HIGH], -1, true);
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@ -88,13 +90,13 @@ static void bldc_set_phase_wp_um(mcpwm_gen_handle_t (*gens)[2])
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// W+V-
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static void bldc_set_phase_wp_vm(mcpwm_gen_handle_t (*gens)[2])
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{
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// U+ = 0, U- = 0
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// U+ = 0, U- = 0 --[because gen_low is inverted by dead time]--> U+ = 0, U- = 1
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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// V+ = 0, V- = 1
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// V+ = 0, V- = 1 --[because gen_low is inverted by dead time]--> V+ = 0, V- = 0
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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// W+ = PWM, W- = _PWM_
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_HIGH], -1, true);
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@ -104,23 +106,7 @@ static void bldc_set_phase_wp_vm(mcpwm_gen_handle_t (*gens)[2])
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// V+U-
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static void bldc_set_phase_vp_um(mcpwm_gen_handle_t (*gens)[2])
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{
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// U+ = 0, U- = 1
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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// V+ = PWM, V- = _PWM_
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_HIGH], -1, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], -1, true);
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// W+ = 0, W- = 0
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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}
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// V+W-
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static void bldc_set_phase_vp_wm(mcpwm_gen_handle_t (*gens)[2])
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{
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// U+ = 0, U- = 0
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// U+ = 0, U- = 1 --[because gen_low is inverted by dead time]--> U+ = 0, U- = 0
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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@ -128,11 +114,27 @@ static void bldc_set_phase_vp_wm(mcpwm_gen_handle_t (*gens)[2])
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_HIGH], -1, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], -1, true);
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// W+ = 0, W- = 1
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// W+ = 0, W- = 0 --[because gen_low is inverted by dead time]--> W+ = 0, W- = 1
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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}
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// V+W-
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static void bldc_set_phase_vp_wm(mcpwm_gen_handle_t (*gens)[2])
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{
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// U+ = 0, U- = 0 --[because gen_low is inverted by dead time]--> U+ = 0, U- = 1
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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// V+ = PWM, V- = _PWM_
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_HIGH], -1, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], -1, true);
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// W+ = 0, W- = 1 --[because gen_low is inverted by dead time]--> W+ = 0, W- = 0
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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}
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// U+W- / A+C-
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static void bldc_set_phase_up_wm(mcpwm_gen_handle_t (*gens)[2])
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{
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@ -140,13 +142,13 @@ static void bldc_set_phase_up_wm(mcpwm_gen_handle_t (*gens)[2])
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_HIGH], -1, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_U][BLDC_MCPWM_GEN_INDEX_LOW], -1, true);
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// V+ = 0, V- = 0
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// V+ = 0, V- = 0 --[because gen_low is inverted by dead time]--> V+ = 0, V- = 1
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_V][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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// W+ = 0, W- = 1
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// W+ = 0, W- = 1 --[because gen_low is inverted by dead time]--> W+ = 0, W- = 0
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_LOW], 1, true);
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mcpwm_generator_set_force_level(gens[BLDC_MCPWM_OP_INDEX_W][BLDC_MCPWM_GEN_INDEX_LOW], 0, true);
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}
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static const bldc_hall_phase_action_t s_hall_actions[] = {
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@ -255,6 +257,8 @@ void app_main(void)
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}
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ESP_LOGI(TAG, "Set generator actions");
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// gen_high and gen_low output the same waveform after the following configuration
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// we will use the dead time module to add edge delay, also make gen_high and gen_low complementary
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for (int i = 0; i < 3; i++) {
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ESP_ERROR_CHECK(mcpwm_generator_set_action_on_timer_event(generators[i][BLDC_MCPWM_GEN_INDEX_HIGH],
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MCPWM_GEN_TIMER_EVENT_ACTION(MCPWM_TIMER_DIRECTION_UP, MCPWM_TIMER_EVENT_EMPTY, MCPWM_GEN_ACTION_HIGH)));
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@ -264,6 +268,15 @@ void app_main(void)
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MCPWM_GEN_BRAKE_EVENT_ACTION(MCPWM_TIMER_DIRECTION_UP, MCPWM_OPER_BRAKE_MODE_CBC, MCPWM_GEN_ACTION_LOW)));
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ESP_ERROR_CHECK(mcpwm_generator_set_action_on_brake_event(generators[i][BLDC_MCPWM_GEN_INDEX_HIGH],
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MCPWM_GEN_BRAKE_EVENT_ACTION(MCPWM_TIMER_DIRECTION_UP, MCPWM_OPER_BRAKE_MODE_CBC, MCPWM_GEN_ACTION_LOW)));
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ESP_ERROR_CHECK(mcpwm_generator_set_action_on_timer_event(generators[i][BLDC_MCPWM_GEN_INDEX_LOW],
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MCPWM_GEN_TIMER_EVENT_ACTION(MCPWM_TIMER_DIRECTION_UP, MCPWM_TIMER_EVENT_EMPTY, MCPWM_GEN_ACTION_HIGH)));
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ESP_ERROR_CHECK(mcpwm_generator_set_action_on_compare_event(generators[i][BLDC_MCPWM_GEN_INDEX_LOW],
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MCPWM_GEN_COMPARE_EVENT_ACTION(MCPWM_TIMER_DIRECTION_UP, comparators[i], MCPWM_GEN_ACTION_LOW)));
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ESP_ERROR_CHECK(mcpwm_generator_set_action_on_brake_event(generators[i][BLDC_MCPWM_GEN_INDEX_LOW],
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MCPWM_GEN_BRAKE_EVENT_ACTION(MCPWM_TIMER_DIRECTION_UP, MCPWM_OPER_BRAKE_MODE_CBC, MCPWM_GEN_ACTION_LOW)));
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ESP_ERROR_CHECK(mcpwm_generator_set_action_on_brake_event(generators[i][BLDC_MCPWM_GEN_INDEX_LOW],
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MCPWM_GEN_BRAKE_EVENT_ACTION(MCPWM_TIMER_DIRECTION_UP, MCPWM_OPER_BRAKE_MODE_CBC, MCPWM_GEN_ACTION_LOW)));
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}
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ESP_LOGI(TAG, "Setup deadtime");
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@ -278,14 +291,14 @@ void app_main(void)
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.flags.invert_output = true,
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};
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for (int i = 0; i < 3; i++) {
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ESP_ERROR_CHECK(mcpwm_generator_set_dead_time(generators[i][BLDC_MCPWM_GEN_INDEX_HIGH], generators[i][BLDC_MCPWM_GEN_INDEX_LOW], &dt_config));
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ESP_ERROR_CHECK(mcpwm_generator_set_dead_time(generators[i][BLDC_MCPWM_GEN_INDEX_LOW], generators[i][BLDC_MCPWM_GEN_INDEX_LOW], &dt_config));
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}
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ESP_LOGI(TAG, "Turn off all the gates");
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for (int i = 0; i < 3; i++) {
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for (int j = 0; j < 2; j++) {
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ESP_ERROR_CHECK(mcpwm_generator_set_force_level(generators[i][j], 0, true));
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}
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ESP_ERROR_CHECK(mcpwm_generator_set_force_level(generators[i][BLDC_MCPWM_GEN_INDEX_HIGH], 0, true));
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// because gen_low is inverted by dead time module, so we need to set force level to 1
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ESP_ERROR_CHECK(mcpwm_generator_set_force_level(generators[i][BLDC_MCPWM_GEN_INDEX_LOW], 1, true));
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}
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ESP_LOGI(TAG, "Create Hall sensor capture channels");
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