Bayley Wang
robot
main.cpp@20:91ae97a811e3, 2016-11-05 (annotated)
- Committer:
- bwang
- Date:
- Sat Nov 05 07:52:36 2016 +0000
- Revision:
- 20:91ae97a811e3
- Parent:
- 19:a6cf15f89f3d
- Child:
- 21:b7fb355c8c2d
added driving.h
Who changed what in which revision?
| User | Revision | Line number | New 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 | 18:3863ca45cf26 | 8 | |
| bwang | 15:b583cd30b063 | 9 | #include "config_motor.h" |
| bwang | 15:b583cd30b063 | 10 | #include "config_loop.h" |
| bwang | 19:a6cf15f89f3d | 11 | #include "config_pins.h" |
| bwang | 15:b583cd30b063 | 12 | #include "config_inverter.h" |
| bwang | 0:bac9c3a3a6ca | 13 | |
| bwang | 1:7b61790f6be9 | 14 | FastPWM *a; |
| bwang | 1:7b61790f6be9 | 15 | FastPWM *b; |
| bwang | 1:7b61790f6be9 | 16 | FastPWM *c; |
| bwang | 0:bac9c3a3a6ca | 17 | DigitalOut en(EN); |
| bwang | 18:3863ca45cf26 | 18 | PwmIn throttle_in(TH_PIN, 1100, 1900); |
| bwang | 0:bac9c3a3a6ca | 19 | PositionSensorEncoder pos(CPR, 0); |
| bwang | 0:bac9c3a3a6ca | 20 | |
| bwang | 0:bac9c3a3a6ca | 21 | Serial pc(USBTX, USBRX); |
| bwang | 0:bac9c3a3a6ca | 22 | |
| bwang | 1:7b61790f6be9 | 23 | int adval1, adval2; |
| bwang | 2:eabe8feaaabb | 24 | float ia, ib, ic, alpha, beta, d, q, vd, vq, p; |
| bwang | 15:b583cd30b063 | 25 | float p_mech, last_p_mech, w; |
| bwang | 2:eabe8feaaabb | 26 | |
| bwang | 1:7b61790f6be9 | 27 | float ia_supp_offset = 0.0f, ib_supp_offset = 0.0f; //current sensor offset due to bias resistor inaccuracies, etc (mV) |
| bwang | 1:7b61790f6be9 | 28 | |
| bwang | 2:eabe8feaaabb | 29 | float d_integral = 0.0f, q_integral = 0.0f; |
| bwang | 2:eabe8feaaabb | 30 | float last_d = 0.0f, last_q = 0.0f; |
| bwang | 14:59c4fcc1a4f7 | 31 | float d_ref = 0.0f, q_ref = 0.0f; |
| bwang | 2:eabe8feaaabb | 32 | |
| bwang | 16:f283d6032fe5 | 33 | bool control_enabled = false; |
| dicarloj | 13:41d102a53caf | 34 | |
| bwang | 4:a6669248ce4d | 35 | void commutate(); |
| bwang | 3:9b20da3f0055 | 36 | void zero_current(); |
| bwang | 3:9b20da3f0055 | 37 | void config_globals(); |
| bwang | 3:9b20da3f0055 | 38 | void startup_msg(); |
| bwang | 2:eabe8feaaabb | 39 | |
| bwang | 16:f283d6032fe5 | 40 | void go_enabled(); |
| bwang | 16:f283d6032fe5 | 41 | void go_disabled(); |
| dicarloj | 13:41d102a53caf | 42 | |
| bwang | 1:7b61790f6be9 | 43 | extern "C" void TIM1_UP_TIM10_IRQHandler(void) { |
| bwang | 1:7b61790f6be9 | 44 | if (TIM1->SR & TIM_SR_UIF ) { |
| bwang | 4:a6669248ce4d | 45 | ADC1->CR2 |= 0x40000000; |
| bwang | 4:a6669248ce4d | 46 | volatile int delay; |
| bwang | 4:a6669248ce4d | 47 | for (delay = 0; delay < 35; delay++); |
| bwang | 1:7b61790f6be9 | 48 | adval1 = ADC1->DR; |
| bwang | 1:7b61790f6be9 | 49 | adval2 = ADC2->DR; |
| bwang | 4:a6669248ce4d | 50 | commutate(); |
| bwang | 1:7b61790f6be9 | 51 | } |
| bwang | 1:7b61790f6be9 | 52 | TIM1->SR = 0x00; |
| bwang | 1:7b61790f6be9 | 53 | } |
| bwang | 1:7b61790f6be9 | 54 | |
| bwang | 1:7b61790f6be9 | 55 | void zero_current(){ |
| bwang | 1:7b61790f6be9 | 56 | for (int i = 0; i < 1000; i++){ |
| bwang | 1:7b61790f6be9 | 57 | ia_supp_offset += (float) (ADC1->DR); |
| bwang | 1:7b61790f6be9 | 58 | ib_supp_offset += (float) (ADC2->DR); |
| bwang | 1:7b61790f6be9 | 59 | ADC1->CR2 |= 0x40000000; |
| bwang | 1:7b61790f6be9 | 60 | wait_us(100); |
| bwang | 1:7b61790f6be9 | 61 | } |
| bwang | 1:7b61790f6be9 | 62 | ia_supp_offset /= 1000.0f; |
| bwang | 1:7b61790f6be9 | 63 | ib_supp_offset /= 1000.0f; |
| bwang | 1:7b61790f6be9 | 64 | ia_supp_offset = ia_supp_offset / 4096.0f * AVDD - I_OFFSET; |
| bwang | 1:7b61790f6be9 | 65 | ib_supp_offset = ib_supp_offset / 4096.0f * AVDD - I_OFFSET; |
| bwang | 1:7b61790f6be9 | 66 | } |
| bwang | 0:bac9c3a3a6ca | 67 | |
| bwang | 17:2b852039bb05 | 68 | void update_velocity() { |
| bwang | 15:b583cd30b063 | 69 | last_p_mech = p_mech; |
| bwang | 15:b583cd30b063 | 70 | p_mech = pos.GetMechPosition(); |
| bwang | 15:b583cd30b063 | 71 | float dp_mech = p_mech - last_p_mech; |
| bwang | 19:a6cf15f89f3d | 72 | if (dp_mech < -PI) dp_mech += 2 * PI; |
| bwang | 19:a6cf15f89f3d | 73 | if (dp_mech > PI) dp_mech -= 2 * PI; |
| bwang | 15:b583cd30b063 | 74 | float loop_period = (float) (TIM1->ARR) / 90.0f; |
| bwang | 15:b583cd30b063 | 75 | float w_raw = dp_mech * (float) 1e6 / loop_period; //rad/s |
| bwang | 15:b583cd30b063 | 76 | w = W_FILTER_STRENGTH * w + (1.0f - W_FILTER_STRENGTH) * w_raw; |
| bwang | 18:3863ca45cf26 | 77 | } |
| bwang | 18:3863ca45cf26 | 78 | |
| bwang | 18:3863ca45cf26 | 79 | float get_torque_cmd(float throttle, float w) { |
| bwang | 19:a6cf15f89f3d | 80 | return throttle * FORWARD_TORQUE_MAX; |
| bwang | 18:3863ca45cf26 | 81 | } |
| bwang | 18:3863ca45cf26 | 82 | |
| bwang | 18:3863ca45cf26 | 83 | //fill in d, q ref based on torque cmd and current velocity |
| bwang | 18:3863ca45cf26 | 84 | void get_dq(float torque, float w, float *d, float *q) { |
| bwang | 18:3863ca45cf26 | 85 | *d = 0.0f; |
| bwang | 18:3863ca45cf26 | 86 | *q = torque / KT < Q_MAX ? torque / KT : Q_MAX; |
| bwang | 18:3863ca45cf26 | 87 | } |
| bwang | 17:2b852039bb05 | 88 | |
| bwang | 17:2b852039bb05 | 89 | void commutate() { |
| bwang | 18:3863ca45cf26 | 90 | if(control_enabled && !throttle_in.get_enabled()) go_disabled(); |
| bwang | 18:3863ca45cf26 | 91 | if(!control_enabled && throttle_in.get_enabled()) go_enabled(); |
| bwang | 17:2b852039bb05 | 92 | |
| bwang | 17:2b852039bb05 | 93 | update_velocity(); |
| bwang | 17:2b852039bb05 | 94 | |
| bwang | 17:2b852039bb05 | 95 | p = pos.GetElecPosition() - POS_OFFSET; |
| bwang | 17:2b852039bb05 | 96 | if (p < 0) p += 2 * PI; |
| bwang | 15:b583cd30b063 | 97 | |
| bwang | 18:3863ca45cf26 | 98 | float torque = get_torque_cmd(throttle_in.get_throttle(), w); |
| bwang | 19:a6cf15f89f3d | 99 | get_dq(torque, w, &d_ref, &q_ref); |
| bwang | 16:f283d6032fe5 | 100 | |
| bwang | 2:eabe8feaaabb | 101 | float sin_p = sinf(p); |
| bwang | 2:eabe8feaaabb | 102 | float cos_p = cosf(p); |
| bwang | 2:eabe8feaaabb | 103 | |
| bwang | 1:7b61790f6be9 | 104 | ia = ((float) adval1 / 4096.0f * AVDD - I_OFFSET - ia_supp_offset) / I_SCALE; |
| bwang | 1:7b61790f6be9 | 105 | ib = ((float) adval2 / 4096.0f * AVDD - I_OFFSET - ib_supp_offset) / I_SCALE; |
| bwang | 2:eabe8feaaabb | 106 | ic = -ia - ib; |
| bwang | 0:bac9c3a3a6ca | 107 | |
| bwang | 10:f49df0fe0382 | 108 | float u = CURRENT_U; |
| bwang | 10:f49df0fe0382 | 109 | float v = CURRENT_V; |
| bwang | 2:eabe8feaaabb | 110 | |
| bwang | 2:eabe8feaaabb | 111 | alpha = u; |
| bwang | 2:eabe8feaaabb | 112 | beta = 1 / sqrtf(3.0f) * u + 2 / sqrtf(3.0f) * v; |
| bwang | 2:eabe8feaaabb | 113 | |
| bwang | 2:eabe8feaaabb | 114 | d = alpha * cos_p - beta * sin_p; |
| bwang | 2:eabe8feaaabb | 115 | q = -alpha * sin_p - beta * cos_p; |
| bwang | 2:eabe8feaaabb | 116 | |
| bwang | 3:9b20da3f0055 | 117 | float d_err = d_ref - d; |
| bwang | 3:9b20da3f0055 | 118 | float q_err = q_ref - q; |
| bwang | 2:eabe8feaaabb | 119 | |
| bwang | 2:eabe8feaaabb | 120 | d_integral += d_err * KI; |
| bwang | 2:eabe8feaaabb | 121 | q_integral += q_err * KI; |
| bwang | 2:eabe8feaaabb | 122 | |
| bwang | 20:91ae97a811e3 | 123 | q_integral = constrain(q_integral, -INTEGRAL_MAX, INTEGRAL_MAX); |
| bwang | 20:91ae97a811e3 | 124 | d_integral = constrain(d_integral, -INTEGRAL_MAX, INTEGRAL_MAX); |
| bwang | 2:eabe8feaaabb | 125 | |
| bwang | 20:91ae97a811e3 | 126 | vd = constrain(vd, -1.0f, 1.0f); |
| bwang | 20:91ae97a811e3 | 127 | vq = constrain(vq, -1.0f, 1.0f); |
| bwang | 4:a6669248ce4d | 128 | |
| bwang | 2:eabe8feaaabb | 129 | float valpha = vd * cos_p - vq * sin_p; |
| bwang | 2:eabe8feaaabb | 130 | float vbeta = vd * sin_p + vq * cos_p; |
| bwang | 2:eabe8feaaabb | 131 | |
| bwang | 2:eabe8feaaabb | 132 | float va = valpha; |
| bwang | 2:eabe8feaaabb | 133 | float vb = -0.5f * valpha - sqrtf(3) / 2.0f * vbeta; |
| bwang | 2:eabe8feaaabb | 134 | float vc = -0.5f * valpha + sqrtf(3) / 2.0f * vbeta; |
| bwang | 2:eabe8feaaabb | 135 | |
| dicarloj | 13:41d102a53caf | 136 | float voff = (fminf(va, fminf(vb, vc)) + fmaxf(va, fmaxf(vb, vc)))/2.0f; |
| dicarloj | 13:41d102a53caf | 137 | va = va - voff; |
| dicarloj | 13:41d102a53caf | 138 | vb = vb - voff; |
| dicarloj | 13:41d102a53caf | 139 | vc = vc - voff; |
| dicarloj | 13:41d102a53caf | 140 | |
| bwang | 2:eabe8feaaabb | 141 | set_dtc(a, 0.5f + 0.5f * va); |
| bwang | 2:eabe8feaaabb | 142 | set_dtc(b, 0.5f + 0.5f * vb); |
| bwang | 2:eabe8feaaabb | 143 | set_dtc(c, 0.5f + 0.5f * vc); |
| bwang | 0:bac9c3a3a6ca | 144 | } |
| bwang | 0:bac9c3a3a6ca | 145 | |
| bwang | 0:bac9c3a3a6ca | 146 | int main() { |
| bwang | 0:bac9c3a3a6ca | 147 | config_globals(); |
| bwang | 0:bac9c3a3a6ca | 148 | startup_msg(); |
| bwang | 0:bac9c3a3a6ca | 149 | |
| bwang | 0:bac9c3a3a6ca | 150 | for (;;) { |
| bwang | 0:bac9c3a3a6ca | 151 | } |
| bwang | 0:bac9c3a3a6ca | 152 | } |
| bwang | 16:f283d6032fe5 | 153 | |
| bwang | 16:f283d6032fe5 | 154 | void go_enabled() { |
| bwang | 16:f283d6032fe5 | 155 | d_integral = 0.0f; |
| bwang | 16:f283d6032fe5 | 156 | q_integral = 0.0f; |
| bwang | 16:f283d6032fe5 | 157 | control_enabled = true; |
| bwang | 16:f283d6032fe5 | 158 | en = 1; |
| bwang | 16:f283d6032fe5 | 159 | } |
| bwang | 16:f283d6032fe5 | 160 | |
| bwang | 16:f283d6032fe5 | 161 | void go_disabled() { |
| bwang | 16:f283d6032fe5 | 162 | control_enabled = false; |
| bwang | 16:f283d6032fe5 | 163 | en = 0; |
| bwang | 16:f283d6032fe5 | 164 | } |
| bwang | 16:f283d6032fe5 | 165 | |
| bwang | 17:2b852039bb05 | 166 | void startup_msg() { |
| bwang | 17:2b852039bb05 | 167 | pc.printf("%s\n\r\n\r", "FOC'ed in the Bot Rev A."); |
| bwang | 17:2b852039bb05 | 168 | pc.printf("%s\n\r", "====Config Data===="); |
| bwang | 17:2b852039bb05 | 169 | pc.printf("Current Sensor Offset: %f mV\n\r", I_OFFSET); |
| bwang | 17:2b852039bb05 | 170 | pc.printf("Current Sensor Scale: %f mv/A\n\r", I_SCALE); |
| bwang | 17:2b852039bb05 | 171 | pc.printf("Bus Voltage: %f V\n\r", BUS_VOLTAGE); |
| bwang | 17:2b852039bb05 | 172 | pc.printf("Pole pairs: %d\n\r", (int) POLE_PAIRS); |
| bwang | 17:2b852039bb05 | 173 | pc.printf("Resolver lobes: %d\n\r", (int) RESOLVER_LOBES); |
| bwang | 17:2b852039bb05 | 174 | pc.printf("Loop KP: %f\n\r", KP); |
| bwang | 17:2b852039bb05 | 175 | pc.printf("Loop KI: %f\n\r", KI); |
| bwang | 17:2b852039bb05 | 176 | pc.printf("Ia offset: %f mV\n\r", ia_supp_offset); |
| bwang | 17:2b852039bb05 | 177 | pc.printf("Ib offset: %f mV\n\r", ib_supp_offset); |
| bwang | 17:2b852039bb05 | 178 | pc.printf("\n\r"); |
| bwang | 17:2b852039bb05 | 179 | } |
| bwang | 17:2b852039bb05 | 180 | |
| bwang | 17:2b852039bb05 | 181 | void config_globals() { |
| bwang | 17:2b852039bb05 | 182 | pc.baud(115200); |
| bwang | 17:2b852039bb05 | 183 | |
| bwang | 17:2b852039bb05 | 184 | //Enable clocks for GPIOs |
| bwang | 17:2b852039bb05 | 185 | RCC->AHB1ENR |= RCC_AHB1ENR_GPIOAEN; |
| bwang | 17:2b852039bb05 | 186 | RCC->AHB1ENR |= RCC_AHB1ENR_GPIOBEN; |
| bwang | 17:2b852039bb05 | 187 | RCC->AHB1ENR |= RCC_AHB1ENR_GPIOCEN; |
| bwang | 17:2b852039bb05 | 188 | |
| bwang | 17:2b852039bb05 | 189 | RCC->APB2ENR |= RCC_APB2ENR_TIM1EN; //enable TIM1 clock |
| bwang | 17:2b852039bb05 | 190 | |
| bwang | 17:2b852039bb05 | 191 | a = new FastPWM(PWMA); |
| bwang | 17:2b852039bb05 | 192 | b = new FastPWM(PWMB); |
| bwang | 17:2b852039bb05 | 193 | c = new FastPWM(PWMC); |
| bwang | 17:2b852039bb05 | 194 | |
| bwang | 17:2b852039bb05 | 195 | NVIC_EnableIRQ(TIM1_UP_TIM10_IRQn); //Enable TIM1 IRQ |
| bwang | 17:2b852039bb05 | 196 | |
| bwang | 17:2b852039bb05 | 197 | TIM1->DIER |= TIM_DIER_UIE; //enable update interrupt |
| bwang | 17:2b852039bb05 | 198 | TIM1->CR1 = 0x40; //CMS = 10, interrupt only when counting up |
| bwang | 17:2b852039bb05 | 199 | TIM1->CR1 |= TIM_CR1_ARPE; //autoreload on, |
| bwang | 17:2b852039bb05 | 200 | TIM1->RCR |= 0x01; //update event once per up/down count of tim1 |
| bwang | 17:2b852039bb05 | 201 | TIM1->EGR |= TIM_EGR_UG; |
| bwang | 17:2b852039bb05 | 202 | |
| bwang | 17:2b852039bb05 | 203 | TIM1->PSC = 0x00; //no prescaler, timer counts up in sync with the peripheral clock |
| bwang | 17:2b852039bb05 | 204 | TIM1->ARR = 0x4650; //5 Khz |
| bwang | 17:2b852039bb05 | 205 | TIM1->CCER |= ~(TIM_CCER_CC1NP); //Interupt when low side is on. |
| bwang | 17:2b852039bb05 | 206 | TIM1->CR1 |= TIM_CR1_CEN; |
| bwang | 17:2b852039bb05 | 207 | |
| bwang | 17:2b852039bb05 | 208 | //ADC Setup |
| bwang | 17:2b852039bb05 | 209 | RCC->APB2ENR |= RCC_APB2ENR_ADC1EN; // clock for ADC1 |
| bwang | 17:2b852039bb05 | 210 | RCC->APB2ENR |= RCC_APB2ENR_ADC2EN; // clock for ADC2 |
| bwang | 17:2b852039bb05 | 211 | |
| bwang | 17:2b852039bb05 | 212 | ADC->CCR = 0x00000006; //Regular simultaneous mode, 3 channels |
| bwang | 17:2b852039bb05 | 213 | |
| bwang | 17:2b852039bb05 | 214 | ADC1->CR2 |= ADC_CR2_ADON; //ADC1 on |
| bwang | 17:2b852039bb05 | 215 | ADC1->SQR3 = 0x0000004; //PA_4 as ADC1, sequence 0 |
| bwang | 17:2b852039bb05 | 216 | |
| bwang | 17:2b852039bb05 | 217 | ADC2->CR2 |= ADC_CR2_ADON; //ADC2 ON |
| bwang | 17:2b852039bb05 | 218 | ADC2->SQR3 = 0x00000008; //PB_0 as ADC2, sequence 1 |
| bwang | 17:2b852039bb05 | 219 | |
| bwang | 17:2b852039bb05 | 220 | GPIOA->MODER |= (1 << 8); |
| bwang | 17:2b852039bb05 | 221 | GPIOA->MODER |= (1 << 9); |
| bwang | 17:2b852039bb05 | 222 | |
| bwang | 17:2b852039bb05 | 223 | GPIOA->MODER |= (1 << 2); |
| bwang | 17:2b852039bb05 | 224 | GPIOA->MODER |= (1 << 3); |
| bwang | 17:2b852039bb05 | 225 | |
| bwang | 17:2b852039bb05 | 226 | GPIOA->MODER |= (1 << 0); |
| bwang | 17:2b852039bb05 | 227 | GPIOA->MODER |= (1 << 1); |
| bwang | 17:2b852039bb05 | 228 | |
| bwang | 17:2b852039bb05 | 229 | GPIOB->MODER |= (1 << 0); |
| bwang | 17:2b852039bb05 | 230 | GPIOB->MODER |= (1 << 1); |
| bwang | 17:2b852039bb05 | 231 | |
| bwang | 17:2b852039bb05 | 232 | GPIOC->MODER |= (1 << 2); |
| bwang | 17:2b852039bb05 | 233 | GPIOC->MODER |= (1 << 3); |
| bwang | 17:2b852039bb05 | 234 | |
| bwang | 17:2b852039bb05 | 235 | //DAC setup |
| bwang | 17:2b852039bb05 | 236 | RCC->APB1ENR |= 0x20000000; |
| bwang | 17:2b852039bb05 | 237 | DAC->CR |= DAC_CR_EN2; |
| bwang | 17:2b852039bb05 | 238 | |
| bwang | 17:2b852039bb05 | 239 | GPIOA->MODER |= (1 << 10); |
| bwang | 17:2b852039bb05 | 240 | GPIOA->MODER |= (1 << 11); |
| bwang | 17:2b852039bb05 | 241 | |
| bwang | 17:2b852039bb05 | 242 | //Zero duty cycles |
| bwang | 17:2b852039bb05 | 243 | set_dtc(a, 0.0f); |
| bwang | 17:2b852039bb05 | 244 | set_dtc(b, 0.0f); |
| bwang | 17:2b852039bb05 | 245 | set_dtc(c, 0.0f); |
| bwang | 17:2b852039bb05 | 246 | |
| bwang | 17:2b852039bb05 | 247 | wait_ms(250); |
| bwang | 17:2b852039bb05 | 248 | zero_current(); |
| bwang | 17:2b852039bb05 | 249 | p_mech = pos.GetMechPosition(); |
| bwang | 17:2b852039bb05 | 250 | en = 1; |
| bwang | 17:2b852039bb05 | 251 | } |