ShuiBeng.git - Gitblit

			@@ -33,8 +33,8 @@
			exti_interrupt_enable(HALL_A_EXTI);
			exti_interrupt_enable(HALL_B_EXTI);
			exti_interrupt_enable(HALL_C_EXTI);
			StartSpeedTime(); //start speed timer
			// motor_phasechange(); // Ö´ÐÐÒ»´Î»»Ïà
			StartSpeedTime(); //start speed timer
			motor_phasechange(); // Ö´ÐÐÒ»´Î»»Ïà

			motor_drive.enable_flag = 1;
			}
			@@ -207,21 +207,17 @@
			void HAL_HallExti_TriggerCallback(void)
			{
			uint8_t step = 0;

			// /* »ñÈ¡»ô¶û´«¸ÐÆ÷Òý½Å×´Ì¬,×÷Îª»»ÏàµÄÒÀ¾Ý */
			// if (exti_interrupt_flag_get(HALL_A_EXTI \| HALL_B_EXTI \| HALL_C_EXTI)) // ÅÐ¶ÏÊÇ·ñÓÉ´¥·¢ÖÐ¶Ï²úÉú
			// {

			// // exti_interrupt_flag_clear(HALL_A_EXTI \| HALL_B_EXTI \| HALL_C_EXTI);
			// }
			for (step = 0; step < 30; step++)
			{
			}
			motor_step = get_hall_state();
			// update_motor_speed(step, __HAL_TIM_GET_COMPARE(htim, TIM_CHANNEL_1));//TODO Ö÷¶¨Ê±Æ÷´¦»ñµÃ¼ÆÊýÊ±¼ä
			// update_motor_speed(step, 300u * GetSpeedTimerOutcnt() + timer_counter_read(TIMER2));
			SEGGER_RTT_printf(0, "Hall state is:%d!\n", motor_step);
			motor_drive.timeout = 0;
			// /* »ñÈ¡»ô¶û´«¸ÐÆ÷Òý½Å×´Ì¬,×÷Îª»»ÏàµÄÒÀ¾Ý */
			if (exti_interrupt_flag_get(HALL_A_EXTI \| HALL_B_EXTI \| HALL_C_EXTI)) // ÅÐ¶ÏÊÇ·ñÓÉ´¥·¢ÖÐ¶Ï²úÉú
			{
			// update_motor_speed(step, __HAL_TIM_GET_COMPARE(htim, TIM_CHANNEL_1)); //TODO Ö÷¶¨Ê±Æ÷´¦»ñµÃ¼ÆÊýÊ±¼ä
			update_motor_speed(motor_step, 300u * GetSpeedTimerOutcnt() + timer_counter_read(TIMER2));
			SEGGER_RTT_printf(0, "Hall state is:%d!\n", motor_step);
			motor_drive.timeout = 0;
			// // exti_interrupt_flag_clear(HALL_A_EXTI \| HALL_B_EXTI \| HALL_C_EXTI);
			}

			// if (RESET != exti_interrupt_flag_get(EXTI_4))
			// {
			// SEGGER_RTT_printf(0, "HALL_A_EXTI triggle!\n");
			@@ -234,7 +230,7 @@
			// {
			// SEGGER_RTT_printf(0, "HALL_B_EXTI triggle!\n");
			// }
			// motor_phasechange();
			motor_phasechange();
			// HAL_TIM_GenerateEvent(&htimx_bldcm, TIM_EVENTSOURCE_COM); // Èí¼þ²úÉú»»ÏàÊÂ¼þ£¬´ËÊ±²Å½«ÅäÖÃÐ´Èë
			}

			@@ -248,105 +244,61 @@
			}
			switch (step)
			{
			/* next step: step 2 configuration .A-C` breakover---------------------------- */
			/* next step: step 3 configuration .W-U` breakover---------------------------- */
			case 1:
			/* channel U configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_U, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_ENABLE);
			MOTOR_U_L_DISABLE;

			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_DISABLE);
			MOTOR_U_L_ENABLE;
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCXN_DISABLE);

			/* channel V configuration */
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCX_DISABLE);
			MOTOR_V_L_DISABLE;
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_DISABLE);

			/* channel W configuration */
			// timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_W, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCX_DISABLE);
			MOTOR_W_L_ENABLE;
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_ENABLE);

			step++;
			break;

			/* next step: step 3 configuration .B-C` breakover---------------------------- */
			case 2:
			/* channel U configuration */
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_DISABLE);
			timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCXN_DISABLE);
			MOTOR_U_L_DISABLE;

			/* channel V configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_V, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCX_ENABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_DISABLE);
			MOTOR_V_L_DISABLE;

			/* channel W configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_W, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_ENABLE);
			MOTOR_W_L_ENABLE;

			step++;
			break;

			/* next step: step 4 configuration .B-A` breakover---------------------------- */
			case 3:
			/* channel U configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_U, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCXN_ENABLE);
			MOTOR_U_L_ENABLE;

			/* channel V configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_V, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCX_ENABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_DISABLE);
			MOTOR_V_L_DISABLE;

			/* channel W configuration */
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_DISABLE);
			MOTOR_W_L_DISABLE;

			step++;
			break;

			/* next step: step 5 configuration .C-A` breakover---------------------------- */
			case 4:
			/* channel U configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_U, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCXN_ENABLE);
			MOTOR_U_L_ENABLE;

			/* channel V configuration */
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_DISABLE);
			MOTOR_V_L_DISABLE;

			/* channel W configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_W, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCX_ENABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_DISABLE);
			MOTOR_W_L_DISABLE;
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_ENABLE);

			step++;
			break;

			/* next step: step 6 configuration .C-B` breakover---------------------------- */
			case 5:
			/* next step: step 6 configuration .u-v` breakover---------------------------- */
			case 2:
			/* channel U configuration */
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_DISABLE);
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_U, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_ENABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCXN_DISABLE);
			MOTOR_U_L_DISABLE;

			/* channel V configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_V, TIMER_OC_MODE_PWM0);
			// timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_V, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_ENABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_DISABLE);
			MOTOR_V_L_ENABLE;

			/* channel W configuration */
			// timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_W, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_ENABLE);
			MOTOR_W_L_DISABLE;

			break;

			/* next step: step 2 configuration .W-V` breakover---------------------------- */
			case 3:
			/* channel U configuration */
			// timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_U, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCXN_ENABLE);
			MOTOR_U_L_DISABLE;

			/* channel V configuration */
			// timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_V, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_DISABLE);
			MOTOR_V_L_ENABLE;

			/* channel W configuration */
			@@ -354,10 +306,52 @@
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCX_ENABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_DISABLE);
			MOTOR_W_L_DISABLE;
			step++;

			break;

			/* next step: step 1 configuration .A-B` breakover---------------------------- */
			/* next step: step 5 configuration .V-W` breakover---------------------------- */
			case 4:
			/* channel U configuration */
			// timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_U, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCXN_ENABLE);
			MOTOR_U_L_DISABLE;

			/* channel V configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_V, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_ENABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_DISABLE);
			MOTOR_V_L_DISABLE;

			/* channel W configuration */
			// timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_W, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_DISABLE);
			MOTOR_W_L_ENABLE;

			break;

			/* next step: step 1 configuration .V-U` breakover---------------------------- */
			case 5:
			/* channel U configuration */
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_U, TIMER_CCXN_DISABLE);
			MOTOR_U_L_ENABLE;

			/* channel V configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_V, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_ENABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_ENABLE);
			MOTOR_V_L_DISABLE;

			/* channel W configuration */
			// timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_W, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_DISABLE);
			MOTOR_W_L_DISABLE;
			break;

			/* next step: step 4 configuration .U-W` breakover---------------------------- */
			case 6:
			/* channel U configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_U, TIMER_OC_MODE_PWM0);
			@@ -366,17 +360,16 @@
			MOTOR_U_L_DISABLE;

			/* channel V configuration */
			timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_V, TIMER_OC_MODE_PWM0);
			// timer_channel_output_mode_config(TIMER0, MOTOR_OUT_CH_V, TIMER_OC_MODE_PWM0);
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_V, TIMER_CCXN_ENABLE);
			MOTOR_V_L_ENABLE;
			MOTOR_V_L_DISABLE;

			/* channel W configuration */
			timer_channel_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCX_DISABLE);
			// timer_channel_complementary_output_state_config(TIMER0, MOTOR_OUT_CH_W, TIMER_CCXN_DISABLE);
			MOTOR_W_L_DISABLE;
			MOTOR_W_L_ENABLE;

			step = 1;
			break;
			}
			}