/**************************************************************************** * apps/examples/foc/foc_motor_f32.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you 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. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include "foc_motor_f32.h" #include "foc_cfg.h" #include "foc_adc.h" #include "foc_debug.h" /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /**************************************************************************** * Private Type Definition ****************************************************************************/ /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: foc_motor_configure ****************************************************************************/ static int foc_motor_configure(FAR struct foc_motor_f32_s *motor) { #ifdef CONFIG_INDUSTRY_FOC_CONTROL_PI struct foc_initdata_f32_s ctrl_cfg; #endif #ifdef CONFIG_INDUSTRY_FOC_MODULATION_SVM3 struct foc_mod_cfg_f32_s mod_cfg; #endif #ifdef CONFIG_EXAMPLES_FOC_STATE_USE_MODEL_PMSM struct foc_model_pmsm_cfg_f32_s pmsm_cfg; #endif int ret = OK; DEBUGASSERT(motor); /* Initialize velocity ramp */ ret = foc_ramp_init_f32(&motor->ramp, motor->per, RAMP_CFG_THR, RAMP_CFG_ACC, RAMP_CFG_ACC); if (ret < 0) { PRINTF("ERROR: foc_ramp_init failed %d\n", ret); goto errout; } /* Initialize FOC handler */ ret = foc_handler_init_f32(&motor->handler, &g_foc_control_pi_f32, &g_foc_mod_svm3_f32); if (ret < 0) { PRINTF("ERROR: foc_handler_init failed %d\n", ret); goto errout; } #ifdef CONFIG_INDUSTRY_FOC_CONTROL_PI /* Get PI controller configuration */ ctrl_cfg.id_kp = (motor->envp->pi_kp / 1000.0f); ctrl_cfg.id_ki = (motor->envp->pi_ki / 1000.0f); ctrl_cfg.iq_kp = (motor->envp->pi_kp / 1000.0f); ctrl_cfg.iq_ki = (motor->envp->pi_ki / 1000.0f); #endif #ifdef CONFIG_INDUSTRY_FOC_MODULATION_SVM3 /* Get SVM3 modulation configuration */ mod_cfg.pwm_duty_max = motor->pwm_duty_max; #endif /* Configure FOC handler */ foc_handler_cfg_f32(&motor->handler, &ctrl_cfg, &mod_cfg); #ifdef CONFIG_EXAMPLES_FOC_STATE_USE_MODEL_PMSM /* Initialize PMSM model */ ret = foc_model_init_f32(&motor->model, &g_foc_model_pmsm_ops_f32); if (ret < 0) { PRINTF("ERROR: foc_model_init failed %d\n", ret); goto errout; } /* Get PMSM model configuration */ pmsm_cfg.poles = FOC_MODEL_POLES; pmsm_cfg.res = FOC_MODEL_RES; pmsm_cfg.ind = FOC_MODEL_IND; pmsm_cfg.iner = FOC_MODEL_INER; pmsm_cfg.flux_link = FOC_MODEL_FLUX; pmsm_cfg.ind_d = FOC_MODEL_INDD; pmsm_cfg.ind_q = FOC_MODEL_INDQ; pmsm_cfg.per = motor->per; pmsm_cfg.iphase_adc = motor->iphase_adc; /* Configure PMSM model */ foc_model_cfg_f32(&motor->model, &pmsm_cfg); #endif errout: return ret; } /**************************************************************************** * Name: foc_motor_vbus ****************************************************************************/ static int foc_motor_vbus(FAR struct foc_motor_f32_s *motor, uint32_t vbus) { DEBUGASSERT(motor); /* Update motor VBUS */ motor->vbus = (vbus * VBUS_ADC_SCALE); return OK; } /**************************************************************************** * Name: foc_motor_vel ****************************************************************************/ static int foc_motor_vel(FAR struct foc_motor_f32_s *motor, uint32_t vel) { DEBUGASSERT(motor); /* Update motor velocity destination */ motor->vel_des = (vel * SETPOINT_ADC_SCALE * motor->envp->velmax / 1000.0f); return OK; } /**************************************************************************** * Name: foc_motor_state ****************************************************************************/ static int foc_motor_state(FAR struct foc_motor_f32_s *motor, int state) { int ret = OK; DEBUGASSERT(motor); /* Get open-loop currents * NOTE: Id always set to 0 */ motor->dq_ref.q = (motor->envp->qparam / 1000.0f); motor->dq_ref.d = 0.0f; /* Update motor state */ switch (state) { case FOC_EXAMPLE_STATE_FREE: { motor->vel_set = 0.0f; motor->dir = DIR_NONE; /* Force DQ vector to zero */ motor->dq_ref.q = 0.0f; motor->dq_ref.d = 0.0f; break; } case FOC_EXAMPLE_STATE_STOP: { motor->vel_set = 0.0f; motor->dir = DIR_NONE; /* DQ vector not zero - active brake */ break; } case FOC_EXAMPLE_STATE_CW: { motor->vel_set = 0.0f; motor->dir = DIR_CW; break; } case FOC_EXAMPLE_STATE_CCW: { motor->vel_set = 0.0f; motor->dir = DIR_CCW; break; } default: { ret = -EINVAL; goto errout; } } errout: return ret; } /**************************************************************************** * Name: foc_motor_start ****************************************************************************/ static int foc_motor_start(FAR struct foc_motor_f32_s *motor, bool start) { int ret = OK; DEBUGASSERT(motor); if (start == true) { /* Start motor if VBUS data present */ if (motor->mq.vbus > 0) { /* Configure motor controller */ PRINTF("Configure motor %d!\n", motor->envp->id); ret = foc_motor_configure(motor); if (ret < 0) { PRINTF("ERROR: foc_motor_configure failed %d!\n", ret); goto errout; } /* Start/stop FOC dev request */ motor->startstop = true; } else { /* Return error if no VBUS data */ PRINTF("ERROR: start request without VBUS!\n"); goto errout; } } else { /* Start/stop FOC dev request */ motor->startstop = true; } errout: return ret; } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: foc_motor_init ****************************************************************************/ int foc_motor_init(FAR struct foc_motor_f32_s *motor, FAR struct foc_ctrl_env_s *envp) { #ifdef CONFIG_EXAMPLES_FOC_HAVE_OPENLOOP struct foc_openloop_cfg_f32_s ol_cfg; #endif int ret = OK; DEBUGASSERT(motor); DEBUGASSERT(envp); /* Reset data */ memset(motor, 0, sizeof(struct foc_motor_f32_s)); /* Connect envp with motor handler */ motor->envp = envp; /* Initialize motor data */ motor->per = (float)(1.0f / CONFIG_EXAMPLES_FOC_NOTIFIER_FREQ); motor->iphase_adc = ((CONFIG_EXAMPLES_FOC_IPHASE_ADC) / 100000.0f); #ifdef CONFIG_EXAMPLES_FOC_HAVE_OPENLOOP /* Initialize open-loop angle handler */ foc_angle_init_f32(&motor->openloop, &g_foc_angle_ol_f32); /* Configure open-loop angle handler */ ol_cfg.per = motor->per; foc_angle_cfg_f32(&motor->openloop, &ol_cfg); #endif return ret; } /**************************************************************************** * Name: foc_motor_deinit ****************************************************************************/ int foc_motor_deinit(FAR struct foc_motor_f32_s *motor) { int ret = OK; DEBUGASSERT(motor); #ifdef CONFIG_EXAMPLES_FOC_STATE_USE_MODEL_PMSM /* Deinitialize PMSM model */ ret = foc_model_deinit_f32(&motor->model); if (ret < 0) { PRINTF("ERROR: foc_model_deinit failed %d\n", ret); goto errout; } #endif /* Deinitialize FOC handler */ ret = foc_handler_deinit_f32(&motor->handler); if (ret < 0) { PRINTF("ERROR: foc_handler_deinit failed %d\n", ret); goto errout; } /* Reset data */ memset(motor, 0, sizeof(struct foc_motor_f32_s)); errout: return ret; } /**************************************************************************** * Name: foc_motor_get ****************************************************************************/ int foc_motor_get(FAR struct foc_motor_f32_s *motor) { struct foc_angle_in_f32_s ain; struct foc_angle_out_f32_s aout; int ret = OK; DEBUGASSERT(motor); /* Update open-loop angle handler */ ain.vel = motor->vel_set; ain.angle = motor->angle_now; ain.dir = motor->dir; #ifdef CONFIG_EXAMPLES_FOC_HAVE_OPENLOOP foc_angle_run_f32(&motor->openloop, &ain, &aout); /* Store open-loop angle */ motor->angle_ol = aout.angle; /* Get phase angle now */ if (motor->openloop_now == true) { motor->angle_now = motor->angle_ol; } else #endif { /* TODO: get phase angle from observer or sensor */ ASSERT(0); } return ret; } /**************************************************************************** * Name: foc_motor_control ****************************************************************************/ int foc_motor_control(FAR struct foc_motor_f32_s *motor) { int ret = OK; DEBUGASSERT(motor); /* No velocity feedback - assume that velocity now is velocity set * TODO: velocity observer or sensor */ motor->vel_now = motor->vel_set; /* Run velocity ramp controller */ ret = foc_ramp_run_f32(&motor->ramp, motor->vel_des, motor->vel_now, &motor->vel_set); if (ret < 0) { PRINTF("ERROR: foc_ramp_run failed %d\n", ret); goto errout; } errout: return ret; } /**************************************************************************** * Name: foc_motor_handle ****************************************************************************/ int foc_motor_handle(FAR struct foc_motor_f32_s *motor, FAR struct foc_mq_s *handle) { int ret = OK; DEBUGASSERT(motor); DEBUGASSERT(handle); /* Terminate */ if (handle->quit == true) { motor->mq.quit = true; } /* Update motor VBUS */ if (motor->mq.vbus != handle->vbus) { PRINTFV("Set vbus=%" PRIu32 " for FOC driver %d!\n", handle->vbus, motor->envp->id); ret = foc_motor_vbus(motor, handle->vbus); if (ret < 0) { PRINTF("ERROR: foc_motor_vbus failed %d!\n", ret); goto errout; } motor->mq.vbus = handle->vbus; } /* Update motor velocity destination * NOTE: only velocity control supported for now */ if (motor->mq.setpoint != handle->setpoint) { PRINTFV("Set setpoint=%" PRIu32 " for FOC driver %d!\n", handle->setpoint, motor->envp->id); ret = foc_motor_vel(motor, handle->setpoint); if (ret < 0) { PRINTF("ERROR: foc_motor_vel failed %d!\n", ret); goto errout; } motor->mq.setpoint = handle->setpoint; } /* Update motor state */ if (motor->mq.app_state != handle->app_state) { PRINTFV("Set app_state=%d for FOC driver %d!\n", handle->app_state, motor->envp->id); ret = foc_motor_state(motor, handle->app_state); if (ret < 0) { PRINTF("ERROR: foc_motor_state failed %d!\n", ret); goto errout; } motor->mq.app_state = handle->app_state; } /* Start/stop controller */ if (motor->mq.start != handle->start) { PRINTFV("Set start=%d for FOC driver %d!\n", handle->start, motor->envp->id); /* Start/stop motor controller */ ret = foc_motor_start(motor, handle->start); if (ret < 0) { PRINTF("ERROR: foc_motor_start failed %d!\n", ret); goto errout; } motor->mq.start = handle->start; } errout: return ret; }