/**************************************************************************** * control/lib_foc.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 /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: foc_current_control * * Description: * This function implements FOC current control algorithm. * * Input Parameters: * foc - (in/out) pointer to the FOC data * * Returned Value: * None * ****************************************************************************/ static void foc_current_control(FAR struct foc_data_s *foc) { FAR pid_controller_t *id_pid = &foc->id_pid; FAR pid_controller_t *iq_pid = &foc->iq_pid; FAR dq_frame_t *v_dq = &foc->v_dq; /* Get dq current error */ foc->i_dq_err.d = foc->i_dq_ref.d - foc->i_dq.d; foc->i_dq_err.q = foc->i_dq_ref.q - foc->i_dq.q; /* NOTE: PI controllers saturation is updated in foc_vdq_mag_max_set() */ /* PI controller for d-current (flux loop) */ v_dq->d = pi_controller(id_pid, foc->i_dq_err.d); /* PI controller for q-current (torque loop) */ v_dq->q = pi_controller(iq_pid, foc->i_dq_err.q); /* Saturate voltage DQ vector. * The maximum DQ voltage magnitude depends on the maximum possible * phase voltage and the maximum supported duty cycle. */ dq_saturate(v_dq, foc->vdq_mag_max); } /**************************************************************************** * Name: foc_vab_mod_scale_set * * Description: * * Input Parameters: * foc - (in/out) pointer to the FOC data * scale - (in) scaling factor for alpha-beta voltage * * Returned Value: * None * ****************************************************************************/ static void foc_vab_mod_scale_set(FAR struct foc_data_s *foc, float scale) { foc->vab_mod_scale = scale; } /**************************************************************************** * Name: foc_vdq_mag_max_set * * Description: * Set maximum dq voltage vector magnitude * * Input Parameters: * foc - (in/out) pointer to the FOC data * max - (in) maximum dq voltage magnitude * * Returned Value: * None * ****************************************************************************/ static void foc_vdq_mag_max_set(FAR struct foc_data_s *foc, float max) { foc->vdq_mag_max = max; /* Update regulators saturation */ pi_saturation_set(&foc->id_pid, -foc->vdq_mag_max, foc->vdq_mag_max); pi_saturation_set(&foc->iq_pid, -foc->vdq_mag_max, foc->vdq_mag_max); } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: foc_init * * Description: * Initialize FOC controller * * Input Parameters: * foc - (in/out) pointer to the FOC data * id_kp - (in) KP for d current * id_ki - (in) KI for d current * iq_kp - (in) KP for q current * iq_ki - (in) KI for q current * * Returned Value: * None * ****************************************************************************/ void foc_init(FAR struct foc_data_s *foc, float id_kp, float id_ki, float iq_kp, float iq_ki) { /* Reset data */ memset(foc, 0, sizeof(struct foc_data_s)); /* Initialize PI current d component */ pi_controller_init(&foc->id_pid, id_kp, id_ki); /* Initialize PI current q component */ pi_controller_init(&foc->iq_pid, iq_kp, iq_ki); } /**************************************************************************** * Name: foc_idq_ref_set * * Description: * Set dq reference current vector * * Input Parameters: * foc - (in/out) pointer to the FOC data * d - (in) reference d current * q - (in) reference q current * * Returned Value: * None * ****************************************************************************/ void foc_idq_ref_set(FAR struct foc_data_s *foc, float d, float q) { foc->i_dq_ref.d = d; foc->i_dq_ref.q = q; } /**************************************************************************** * Name: foc_vbase_update * * Description: * Update base voltage for FOC controller * * Input Parameters: * foc - (in/out) pointer to the FOC data * vbase - (in) base voltage for FOC * * Returned Value: * None * ****************************************************************************/ void foc_vbase_update(FAR struct foc_data_s *foc, float vbase) { float scale = 0.0f; float mag_max = 0.0f; /* Only if voltage is valid */ if (vbase >= 0.0f) { scale = 1.0f / vbase; mag_max = vbase; } foc_vab_mod_scale_set(foc, scale); foc_vdq_mag_max_set(foc, mag_max); } /**************************************************************************** * Name: foc_process * * Description: * Process FOC (Field Oriented Control) * * Input Parameters: * foc - (in/out) pointer to the FOC data * i_abc - (in) pointer to the ABC current frame * angle - (in) pointer to the phase angle data * * Returned Value: * None * * TODO: add some reference and a brief description of the FOC * ****************************************************************************/ void foc_process(FAR struct foc_data_s *foc, FAR abc_frame_t *i_abc, FAR phase_angle_t *angle) { DEBUGASSERT(foc != NULL); DEBUGASSERT(i_abc != NULL); DEBUGASSERT(angle != NULL); /* Copy ABC current to foc data */ foc->i_abc.a = i_abc->a; foc->i_abc.b = i_abc->b; foc->i_abc.c = i_abc->c; /* Convert abc current to alpha-beta current */ clarke_transform(&foc->i_abc, &foc->i_ab); /* Convert alpha-beta current to dq current */ park_transform(angle, &foc->i_ab, &foc->i_dq); /* Run FOC current control (current dq -> voltage dq) */ foc_current_control(foc); /* Inverse Park transform (voltage dq -> voltage alpha-beta) */ inv_park_transform(angle, &foc->v_dq, &foc->v_ab); /* Normalize the alpha-beta voltage to get the alpha-beta modulation * voltage */ foc->v_ab_mod.a = foc->v_ab.a * foc->vab_mod_scale; foc->v_ab_mod.b = foc->v_ab.b * foc->vab_mod_scale; }