Bayley Wang / Mbed 2 deprecated foc-ed_in_the_bot_compact

robot

Dependencies:   FastPWM3 mbed

main.cpp@72:5f1da97d62e1, 2017-02-05 (annotated)

Committer:
bwang
Date:
Sun Feb 05 12:23:46 2017 +0000
Revision:
72:5f1da97d62e1
Parent:
71:292dfc44ca53
Child:
73:d44bc3a46942
added config_logging.h

Who changed what in which revision?

UserRevisionLine numberNew contents of line
bwang 0:bac9c3a3a6ca 1 #include "mbed.h"
bwang 0:bac9c3a3a6ca 2 #include "math.h"
bwang 19:a6cf15f89f3d 3
bwang 0:bac9c3a3a6ca 4 #include "PositionSensor.h"
bwang 0:bac9c3a3a6ca 5 #include "FastPWM.h"
bwang 18:3863ca45cf26 6 #include "PwmIn.h"
bwang 19:a6cf15f89f3d 7 #include "MathHelpers.h"
bwang 42:030e0ec4eac5 8 #include "Transforms.h"
bwang 42:030e0ec4eac5 9 #include "DQMapper.h"
bwang 42:030e0ec4eac5 10 #include "ThrottleMapper.h"
bwang 42:030e0ec4eac5 11
bwang 42:030e0ec4eac5 12 #include "BREMSStructs.h"
bwang 42:030e0ec4eac5 13 #include "BREMSConfig.h"
bwang 30:c25c5bf0d951 14
bwang 15:b583cd30b063 15 #include "config_motor.h"
bwang 15:b583cd30b063 16 #include "config_loop.h"
bwang 19:a6cf15f89f3d 17 #include "config_pins.h"
bwang 15:b583cd30b063 18 #include "config_inverter.h"
bwang 29:50e6e4e46580 19 #include "config_driving.h"
bwang 72:5f1da97d62e1 20 #include "config_logging.h"
bwang 0:bac9c3a3a6ca 21
bwang 42:030e0ec4eac5 22 #include "main.h"
bwang 0:bac9c3a3a6ca 23
bwang 42:030e0ec4eac5 24 IOStruct io;
bwang 42:030e0ec4eac5 25 ReadDataStruct read;
bwang 42:030e0ec4eac5 26 FOCStruct foc;
bwang 42:030e0ec4eac5 27 ControlStruct control;
bwang 2:eabe8feaaabb 28
bwang 42:030e0ec4eac5 29 DQMapper *dq;
bwang 42:030e0ec4eac5 30 ThrottleMapper *th;
bwang 2:eabe8feaaabb 31
bwang 44:3fd6a43b91f0 32 int loop_counter = 0;
bwang 25:3f2b585ae72d 33 bool control_enabled = false;
dicarloj 13:41d102a53caf 34
bwang 42:030e0ec4eac5 35 void update_velocity() {
bwang 42:030e0ec4eac5 36 read.last_p_mech = read.p_mech;
bwang 42:030e0ec4eac5 37 read.p_mech = io.pos->GetMechPosition();
bwang 44:3fd6a43b91f0 38
bwang 42:030e0ec4eac5 39 float dp_mech = read.p_mech - read.last_p_mech;
bwang 42:030e0ec4eac5 40 if (dp_mech < -PI) dp_mech += 2 * PI;
bwang 42:030e0ec4eac5 41 if (dp_mech > PI) dp_mech -= 2 * PI;
bwang 44:3fd6a43b91f0 42
bwang 42:030e0ec4eac5 43 float w_raw = dp_mech * F_SW; //rad/s
bwang 42:030e0ec4eac5 44 if (w_raw > W_CRAZY) w_raw = read.w; //with this limiting scheme noise < 0
bwang 42:030e0ec4eac5 45 if (w_raw < -W_CRAZY) w_raw = read.w; //so we need to throw out the large deltas first
bwang 44:3fd6a43b91f0 46
bwang 44:3fd6a43b91f0 47 read.w = update_filter(read.w, w_raw, W_FILTER_STRENGTH);
bwang 42:030e0ec4eac5 48 }
bwang 2:eabe8feaaabb 49
bwang 42:030e0ec4eac5 50 void commutate() {
bwang 56:c681001dfa46 51 /*safety checks, do we do anything this cycle?*/
bwang 56:c681001dfa46 52 if (!control_enabled && io.throttle_in->get_enabled() && io.pos->IsValid() && is_driving()) {
bwang 52:fd3d8df99287 53 go_enabled();
bwang 52:fd3d8df99287 54 }
bwang 42:030e0ec4eac5 55
bwang 42:030e0ec4eac5 56 /*update velocity, references*/
bwang 42:030e0ec4eac5 57 update_velocity();
bwang 44:3fd6a43b91f0 58 if (loop_counter % SLOW_LOOP_COUNTER == 0) {
bwang 44:3fd6a43b91f0 59 loop_counter = 0;
bwang 44:3fd6a43b91f0 60 slow_loop();
bwang 44:3fd6a43b91f0 61 }
bwang 44:3fd6a43b91f0 62 loop_counter++;
bwang 42:030e0ec4eac5 63
bwang 42:030e0ec4eac5 64 /*update position, sin, cos*/
bwang 42:030e0ec4eac5 65 foc.p = io.pos->GetElecPosition() - POS_OFFSET;
bwang 42:030e0ec4eac5 66 float sin_p = sinf(foc.p);
bwang 42:030e0ec4eac5 67 float cos_p = cosf(foc.p);
bwang 42:030e0ec4eac5 68
bwang 49:da8604278d76 69 /*scale and offset currents (adval1, 2 are updated in ISR)*/
bwang 42:030e0ec4eac5 70 foc.ia = ((float) read.adval1 / 4096.0f * AVDD - I_OFFSET - read.ia_supp_offset) / I_SCALE;
bwang 42:030e0ec4eac5 71 foc.ib = ((float) read.adval2 / 4096.0f * AVDD - I_OFFSET - read.ib_supp_offset) / I_SCALE;
bwang 42:030e0ec4eac5 72
bwang 42:030e0ec4eac5 73 /*compute d, q*/
bwang 42:030e0ec4eac5 74 clarke(foc.ia, foc.ib, &foc.alpha, &foc.beta);
bwang 42:030e0ec4eac5 75 park(foc.alpha, foc.beta, sin_p, cos_p, &foc.d, &foc.q);
bwang 42:030e0ec4eac5 76
bwang 42:030e0ec4eac5 77 /*PI controller*/
bwang 44:3fd6a43b91f0 78 control.d_filtered = update_filter(control.d_filtered, foc.d, DQ_FILTER_STRENGTH);
bwang 44:3fd6a43b91f0 79 control.q_filtered = update_filter(control.q_filtered, foc.q, DQ_FILTER_STRENGTH);
bwang 42:030e0ec4eac5 80
bwang 42:030e0ec4eac5 81 float d_err = control.d_ref - control.d_filtered;
bwang 42:030e0ec4eac5 82 float q_err = control.q_ref - control.q_filtered;
bwang 42:030e0ec4eac5 83
bwang 58:7316c5a4c417 84 control.d_integral += d_err * KI_D;
bwang 58:7316c5a4c417 85 control.q_integral += q_err * KI_Q;
bwang 42:030e0ec4eac5 86
bwang 64:b4175385d718 87 constrain_norm(&control.d_integral, &control.q_integral, 0.5f, 1.0f, 1.0f);
bwang 42:030e0ec4eac5 88
bwang 58:7316c5a4c417 89 foc.vd = KP_D * d_err + control.d_integral;// - Lq * POLE_PAIRS * read.w * foc.q / BUS_VOLTAGE / 2.0f;
bwang 58:7316c5a4c417 90 foc.vq = KP_Q * q_err + control.q_integral;// + Ld * POLE_PAIRS * read.w * foc.d / BUS_VOLTAGE / 2.0f;
bwang 42:030e0ec4eac5 91
bwang 64:b4175385d718 92 constrain_norm(&foc.vd, &foc.vq, 1.0f, 1.0f, 1.0f);
bwang 42:030e0ec4eac5 93
bwang 42:030e0ec4eac5 94 if (!control_enabled) {
bwang 42:030e0ec4eac5 95 foc.vd = 0.0f;
bwang 42:030e0ec4eac5 96 foc.vq = 0.0f;
bwang 42:030e0ec4eac5 97 }
bwang 42:030e0ec4eac5 98
bwang 42:030e0ec4eac5 99 /*inverse transforms*/
bwang 42:030e0ec4eac5 100 invpark(foc.vd, foc.vq, sin_p, cos_p, &foc.valpha, &foc.vbeta);
bwang 42:030e0ec4eac5 101
bwang 42:030e0ec4eac5 102 float va, vb, vc, voff;
bwang 42:030e0ec4eac5 103
bwang 42:030e0ec4eac5 104 invclarke(foc.valpha, foc.vbeta, &va, &vb);
bwang 42:030e0ec4eac5 105 vc = -va - vb;
bwang 42:030e0ec4eac5 106
bwang 42:030e0ec4eac5 107 /*SVPWM*/
bwang 44:3fd6a43b91f0 108 voff = (fminf(va, fminf(vb, vc)) + fmaxf(va, fmaxf(vb, vc)))/2.0f;//don't think about it
bwang 42:030e0ec4eac5 109 va = va - voff;
bwang 42:030e0ec4eac5 110 vb = vb - voff;
bwang 42:030e0ec4eac5 111 vc = vc - voff;
bwang 42:030e0ec4eac5 112
bwang 56:c681001dfa46 113 /*safety checks, reset integral*/
bwang 56:c681001dfa46 114 if (!io.throttle_in->get_enabled() || !io.pos->IsValid() || !is_driving()) {
bwang 56:c681001dfa46 115 /*do this even in disabled state, to keep integral down*/
bwang 56:c681001dfa46 116 go_disabled();
bwang 56:c681001dfa46 117 }
bwang 56:c681001dfa46 118
bwang 42:030e0ec4eac5 119 /*output to timers*/
bwang 47:1c9868e226d0 120 set_dtc(io.a, 0.5f + 0.5f * va);
bwang 47:1c9868e226d0 121 set_dtc(io.b, 0.5f + 0.5f * vb);
bwang 47:1c9868e226d0 122 set_dtc(io.c, 0.5f + 0.5f * vc);
bwang 42:030e0ec4eac5 123 }
bwang 42:030e0ec4eac5 124
bwang 44:3fd6a43b91f0 125 void slow_loop() {
bwang 70:5e39beeb4a21 126 control.torque_percent = update_filter(control.torque_percent, th->map(io.throttle_in->get_throttle(), read.w), THROTTLE_FILTER_STRENGTH);
bwang 70:5e39beeb4a21 127 dq->map(control.torque_percent, read.w, &control.d_ref, &control.q_ref);
bwang 44:3fd6a43b91f0 128 }
bwang 44:3fd6a43b91f0 129
bwang 42:030e0ec4eac5 130 void go_enabled() {
bwang 42:030e0ec4eac5 131 control_enabled = true;
bwang 42:030e0ec4eac5 132 io.en->write(1);
bwang 42:030e0ec4eac5 133 }
bwang 42:030e0ec4eac5 134
bwang 42:030e0ec4eac5 135 void go_disabled() {
bwang 52:fd3d8df99287 136 control.d_integral = 0.0f;
bwang 52:fd3d8df99287 137 control.q_integral = 0.0f;
bwang 42:030e0ec4eac5 138 control_enabled = false;
bwang 42:030e0ec4eac5 139 io.en->write(0);
bwang 42:030e0ec4eac5 140 }
bwang 42:030e0ec4eac5 141
bwang 52:fd3d8df99287 142 bool is_driving() {
bwang 55:3568b78dc203 143 return io.throttle_in->get_throttle() > 0.01f || fabsf(read.w) > W_SAFE;
bwang 52:fd3d8df99287 144 }
bwang 52:fd3d8df99287 145
bwang 44:3fd6a43b91f0 146 float update_filter(float old, float x, float str) {
bwang 42:030e0ec4eac5 147 return str * old + (1.0f - str) * x;
bwang 42:030e0ec4eac5 148 }
dicarloj 13:41d102a53caf 149
bwang 72:5f1da97d62e1 150 void log() {
bwang 70:5e39beeb4a21 151 io.pc->printf("%d,%d,%d,%d,%d,%d,%d,%d\n", (int) read.w, (int) control.d_ref, (int) control.d_filtered, (int) control.q_ref, (int) control.q_filtered, (int) (255 * control.torque_percent),
bwang 70:5e39beeb4a21 152 (int) (255 * control.d_integral), (int) (255 * control.q_integral));
bwang 72:5f1da97d62e1 153 wait(1.0f / LOG_FREQUENCY);
bwang 70:5e39beeb4a21 154 }
bwang 70:5e39beeb4a21 155
bwang 70:5e39beeb4a21 156
bwang 1:7b61790f6be9 157 extern "C" void TIM1_UP_TIM10_IRQHandler(void) {
bwang 1:7b61790f6be9 158 if (TIM1->SR & TIM_SR_UIF ) {
bwang 4:a6669248ce4d 159 ADC1->CR2 |= 0x40000000;
bwang 4:a6669248ce4d 160 volatile int delay;
bwang 4:a6669248ce4d 161 for (delay = 0; delay < 35; delay++);
bwang 42:030e0ec4eac5 162 read.adval1 = ADC1->DR;
bwang 42:030e0ec4eac5 163 read.adval2 = ADC2->DR;
bwang 4:a6669248ce4d 164 commutate();
bwang 1:7b61790f6be9 165 }
bwang 1:7b61790f6be9 166 TIM1->SR = 0x00;
bwang 1:7b61790f6be9 167 }
bwang 1:7b61790f6be9 168
bwang 0:bac9c3a3a6ca 169 int main() {
bwang 59:0416da6c3060 170 dq = new LutMapper();
bwang 45:cf8ad81fb0f0 171 th = new NullThrottleMapper();
bwang 47:1c9868e226d0 172 BREMSInit(&io, &read, &foc, &control, false);
bwang 48:a1a09c83d42c 173
bwang 0:bac9c3a3a6ca 174 for (;;) {
bwang 72:5f1da97d62e1 175 if (ENABLE_LOGGING) {
bwang 72:5f1da97d62e1 176 log();
bwang 72:5f1da97d62e1 177 }
bwang 0:bac9c3a3a6ca 178 }
bwang 42:030e0ec4eac5 179 }