Chetan Sharma
/
HKCC_Controller_MBed_OS
Modifying the HKCC for no readily apparent reason
Diff: FOC/foc.cpp
- Revision:
- 37:c0f352d6e8e3
- Parent:
- 35:69b24894c11d
- Child:
- 38:67e4e1453a4b
--- a/FOC/foc.cpp Fri Mar 02 15:24:00 2018 +0000 +++ b/FOC/foc.cpp Fri Apr 13 13:50:54 2018 +0000 @@ -1,8 +1,5 @@ -#include "user_config.h" -#include "hw_config.h" + #include "foc.h" - -#include "FastMath.h" using namespace FastMath; @@ -10,10 +7,12 @@ /// Inverse DQ0 Transform /// ///Phase current amplitude = lengh of dq vector/// ///i.e. iq = 1, id = 0, peak phase current of 1/// - - *a = d*cosf(theta) - q*sinf(theta); - *b = d*cosf(theta - (2.0f*PI/3.0f)) - q*sinf(theta - (2.0f*PI/3.0f)); - *c = d*cosf(theta + (2.0f*PI/3.0f)) - q*sinf(theta +(2.0f*PI/3.0f)); + float cf = FastCos(theta); + float sf = FastSin(theta); + + *a = cf*d - sf*q; // Faster Inverse DQ0 transform + *b = (0.86602540378f*sf-.5f*cf)*d - (-0.86602540378f*cf-.5f*sf)*q; + *c = (-0.86602540378f*sf-.5f*cf)*d - (0.86602540378f*cf-.5f*sf)*q; } @@ -22,11 +21,12 @@ ///Phase current amplitude = lengh of dq vector/// ///i.e. iq = 1, id = 0, peak phase current of 1/// - //float cos = cosf(theta); - //float sin = sinf(theta); + float cf = FastCos(theta); + float sf = FastSin(theta); - *d = (2.0f/3.0f)*(a*cosf(theta) + b*cosf(theta - (2.0f*PI/3.0f)) + c*cosf(theta + (2.0f*PI/3.0f))); - *q = (2.0f/3.0f)*(-a*sinf(theta) - b*sinf(theta - (2.0f*PI/3.0f)) - c*sinf(theta + (2.0f*PI/3.0f))); + *d = 0.6666667f*(cf*a + (0.86602540378f*sf-.5f*cf)*b + (-0.86602540378f*sf-.5f*cf)*c); ///Faster DQ0 Transform + *q = 0.6666667f*(-sf*a - (-0.86602540378f*cf-.5f*sf)*b - (0.86602540378f*cf-.5f*sf)*c); + } void svm(float v_bus, float u, float v, float w, float *dtc_u, float *dtc_v, float *dtc_w){ @@ -65,6 +65,7 @@ controller->i_q_ref = 0; controller->i_d = 0; controller->i_q = 0; + controller->i_q_filt = 0; controller->q_int = 0; controller->d_int = 0; controller->v_q = 0; @@ -72,9 +73,12 @@ } -void commutate(ControllerStruct *controller, GPIOStruct *gpio, float theta){ +void commutate(ControllerStruct *controller, ObserverStruct *observer, GPIOStruct *gpio, float theta){ + /// Observer Prediction /// + observer->i_d_est += DT*(observer->i_d_dot); + observer->i_q_est += DT*(observer->i_q_dot); + /// Commutation Loop /// - controller->loop_count ++; if(PHASE_ORDER){ // Check current sensor ordering controller->i_b = I_SCALE*(float)(controller->adc2_raw - controller->adc2_offset); // Calculate phase currents from ADC readings @@ -91,15 +95,31 @@ //dq0(controller->theta_elec, controller->i_a, controller->i_b, controller->i_c, &controller->i_d, &controller->i_q); //dq0 transform on currents controller->i_d = 0.6666667f*(c*controller->i_a + (0.86602540378f*s-.5f*c)*controller->i_b + (-0.86602540378f*s-.5f*c)*controller->i_c); ///Faster DQ0 Transform controller->i_q = 0.6666667f*(-s*controller->i_a - (-0.86602540378f*c-.5f*s)*controller->i_b - (0.86602540378f*c-.5f*s)*controller->i_c); - controller->i_q_filt = .95f*controller->i_q_filt + .05f*controller->i_q; - float s_cog = sinf(12.0f*theta); - float cogging_current =-0.33f*s_cog + .25f*s; + + controller->i_q_filt = 0.95f*controller->i_q_filt + 0.05f*controller->i_q; + observer->i_d_m = controller->i_d; + observer->i_q_m = controller->i_q; + + observer->e_d = observer->i_d_m - observer->i_d_est; + observer->e_q = observer->i_q_m - observer->i_q_est; + observer->e_d_int += observer->e_d; + observer->e_q_int += observer->e_q; + + observer->i_d_est += K_O*observer->e_d + .001f*observer->e_d_int; + observer->i_q_est += K_O*observer->e_q + .001f*observer->e_q_int; + + + //float s_cog = sinf(12.0f*theta); + + //float cogging_current =-0.33f*s_cog + .25f*s; /// PI Controller /// float i_d_error = controller->i_d_ref - controller->i_d; - float i_q_error = controller->i_q_ref - controller->i_q + cogging_current; - float v_d_ff = 2.0f*(2*controller->i_d_ref*R_PHASE); //feed-forward voltage - float v_q_ff = controller->dtheta_elec*WB*1.73205081f; + float i_q_error = controller->i_q_ref - controller->i_q ;// + cogging_current; + + float v_d_ff = 2.0f*(controller->i_d_ref*R_PHASE - controller->dtheta_elec*L_Q*controller->i_q_ref); //feed-forward voltages + float v_q_ff = 2.0f*(controller->i_q_ref*R_PHASE + controller->dtheta_elec*(L_D*controller->i_d_ref + WB)); + controller->d_int += i_d_error; controller->q_int += i_q_error; @@ -116,7 +136,7 @@ //controller->v_d = v_d_ff; //controller->v_q = v_q_ff; - limit_norm(&controller->v_d, &controller->v_q, 1.2f*controller->v_bus); // Normalize voltage vector to lie within curcle of radius v_bus + limit_norm(&controller->v_d, &controller->v_q, 1.0f*controller->v_bus); // Normalize voltage vector to lie within curcle of radius v_bus //abc(controller->theta_elec, controller->v_d, controller->v_q, &controller->v_u, &controller->v_v, &controller->v_w); //inverse dq0 transform on voltages controller->v_u = c*controller->v_d - s*controller->v_q; // Faster Inverse DQ0 transform @@ -124,6 +144,8 @@ controller->v_w = (-0.86602540378f*s-.5f*c)*controller->v_d - (0.86602540378f*c-.5f*s)*controller->v_q; svm(controller->v_bus, controller->v_u, controller->v_v, controller->v_w, &controller->dtc_u, &controller->dtc_v, &controller->dtc_w); //space vector modulation + observer->i_d_dot = 0.5f*(controller->v_d - 2.0f*(observer->i_d_est*R_PHASE - controller->dtheta_elec*L_Q*observer->i_q_est))/L_D; //feed-forward voltage + observer->i_q_dot = 0.5f*(controller->v_q - 2.0f*(observer->i_q_est*R_PHASE + controller->dtheta_elec*(L_D*observer->i_d_est + WB)))/L_Q; if(PHASE_ORDER){ // Check which phase order to use, TIM1->CCR3 = (PWM_ARR)*(1.0f-controller->dtc_u); // Write duty cycles @@ -156,7 +178,7 @@ float torque_ref = controller->kp*(controller->p_des - controller->theta_mech) + controller->t_ff + controller->kd*(controller->v_des - controller->dtheta_mech); //float torque_ref = -.1*(controller->p_des - controller->theta_mech); controller->i_q_ref = torque_ref/KT_OUT; - controller->i_d_ref = 0; + controller->i_d_ref = 0.0f; }