Joint_control_2AS5147_DRV8323RH_HKC_FOC_2020_9_17 - 1

Users » shaorui » Code » Joint_control_2AS5147_DRV8323RH_HKC_FOC_2020_9_17

Shao Rui / Joint_control_2AS5147_DRV8323RH_HKC_FOC_2020_9_17

Dependencies: mbed-dev-f303 FastPWM3

PositionSensor/PositionSensor.cpp@38:67e4e1453a4b, 2018-05-14 (annotated)

Committer:: benkatz
Date:: Mon May 14 20:59:02 2018 +0000
Revision:: 38:67e4e1453a4b
Parent:: 37:c0f352d6e8e3
Child:: 45:aadebe074af6

Fixed bug introduced into the calibration procedure when absolute zero offset was added

Who changed what in which revision?

User	Revision	Line number	New contents of line
benkatz	0:4e1c4df6aabd	1
benkatz	0:4e1c4df6aabd	2	#include "mbed.h"
benkatz	0:4e1c4df6aabd	3	#include "PositionSensor.h"
benkatz	22:60276ba87ac6	4	//#include "offset_lut.h"
benkatz	6:4ee1cdc43aa8	5	//#include <math.h>
benkatz	0:4e1c4df6aabd	6
benkatz	14:80ce59119d93	7	PositionSensorAM5147::PositionSensorAM5147(int CPR, float offset, int ppairs){
benkatz	14:80ce59119d93	8	//_CPR = CPR;
benkatz	14:80ce59119d93	9	_CPR = CPR;
benkatz	14:80ce59119d93	10	_ppairs = ppairs;
benkatz	22:60276ba87ac6	11	ElecOffset = offset;
benkatz	14:80ce59119d93	12	rotations = 0;
benkatz	14:80ce59119d93	13	spi = new SPI(PC_12, PC_11, PC_10);
benkatz	36:d88fd41f60a6	14	spi->format(16, 1); // mbed v>127 breaks 16-bit spi, so transaction is broken into 2 8-bit words
benkatz	26:2b865c00d7e9	15	spi->frequency(25000000);
benkatz	37:c0f352d6e8e3	16
benkatz	14:80ce59119d93	17	cs = new DigitalOut(PA_15);
benkatz	14:80ce59119d93	18	cs->write(1);
benkatz	22:60276ba87ac6	19	readAngleCmd = 0xffff;
benkatz	37:c0f352d6e8e3	20	MechOffset = offset;
benkatz	22:60276ba87ac6	21	modPosition = 0;
benkatz	22:60276ba87ac6	22	oldModPosition = 0;
benkatz	22:60276ba87ac6	23	oldVel = 0;
benkatz	22:60276ba87ac6	24	raw = 0;
benkatz	22:60276ba87ac6	25	}
benkatz	22:60276ba87ac6	26
benkatz	22:60276ba87ac6	27	void PositionSensorAM5147::Sample(){
benkatz	37:c0f352d6e8e3	28	GPIOA->ODR &= ~(1 << 15);
benkatz	36:d88fd41f60a6	29	raw = spi->write(readAngleCmd);
benkatz	25:f5741040c4bb	30	raw &= 0x3FFF; //Extract last 14 bits
benkatz	37:c0f352d6e8e3	31	GPIOA->ODR \|= (1 << 15);
benkatz	25:f5741040c4bb	32	int off_1 = offset_lut[raw>>7];
benkatz	25:f5741040c4bb	33	int off_2 = offset_lut[((raw>>7)+1)%128];
benkatz	25:f5741040c4bb	34	int off_interp = off_1 + ((off_2 - off_1)*(raw - ((raw>>7)<<7))>>7); // Interpolate between lookup table entries
benkatz	25:f5741040c4bb	35	int angle = raw + off_interp; // Correct for nonlinearity with lookup table from calibration
benkatz	22:60276ba87ac6	36	if(angle - old_counts > _CPR/2){
benkatz	22:60276ba87ac6	37	rotations -= 1;
benkatz	22:60276ba87ac6	38	}
benkatz	22:60276ba87ac6	39	else if (angle - old_counts < -_CPR/2){
benkatz	22:60276ba87ac6	40	rotations += 1;
benkatz	22:60276ba87ac6	41	}
benkatz	22:60276ba87ac6	42
benkatz	22:60276ba87ac6	43	old_counts = angle;
benkatz	22:60276ba87ac6	44	oldModPosition = modPosition;
benkatz	22:60276ba87ac6	45	modPosition = ((6.28318530718f * ((float) angle))/ (float)_CPR);
benkatz	22:60276ba87ac6	46	position = (6.28318530718f * ((float) angle+(_CPR*rotations)))/ (float)_CPR;
benkatz	22:60276ba87ac6	47	MechPosition = position - MechOffset;
benkatz	26:2b865c00d7e9	48	float elec = ((6.28318530718f/(float)_CPR) * (float) ((_ppairs*angle)%_CPR)) + ElecOffset;
benkatz	22:60276ba87ac6	49	if(elec < 0) elec += 6.28318530718f;
benkatz	23:2adf23ee0305	50	else if(elec > 6.28318530718f) elec -= 6.28318530718f ;
benkatz	22:60276ba87ac6	51	ElecPosition = elec;
benkatz	22:60276ba87ac6	52
benkatz	22:60276ba87ac6	53	float vel;
benkatz	22:60276ba87ac6	54	if(modPosition<.1f && oldModPosition>6.1f){
benkatz	22:60276ba87ac6	55	vel = (modPosition - oldModPosition + 6.28318530718f)*40000.0f;
benkatz	22:60276ba87ac6	56	}
benkatz	22:60276ba87ac6	57	else if(modPosition>6.1f && oldModPosition<0.1f){
benkatz	22:60276ba87ac6	58	vel = (modPosition - oldModPosition - 6.28318530718f)*40000.0f;
benkatz	22:60276ba87ac6	59	}
benkatz	22:60276ba87ac6	60	else{
benkatz	22:60276ba87ac6	61	vel = (modPosition-oldModPosition)*40000.0f;
benkatz	22:60276ba87ac6	62	}
benkatz	22:60276ba87ac6	63
benkatz	35:69b24894c11d	64	int n = 40;
benkatz	22:60276ba87ac6	65	float sum = vel;
benkatz	22:60276ba87ac6	66	for (int i = 1; i < (n); i++){
benkatz	22:60276ba87ac6	67	velVec[n - i] = velVec[n-i-1];
benkatz	22:60276ba87ac6	68	sum += velVec[n-i];
benkatz	22:60276ba87ac6	69	}
benkatz	22:60276ba87ac6	70	velVec[0] = vel;
benkatz	22:60276ba87ac6	71	MechVelocity = sum/(float)n;
benkatz	22:60276ba87ac6	72	ElecVelocity = MechVelocity*_ppairs;
benkatz	34:51647c6c500d	73	ElecVelocityFilt = 0.99fElecVelocityFilt + 0.01fElecVelocity;
benkatz	14:80ce59119d93	74	}
benkatz	8:10ae7bc88d6e	75
benkatz	14:80ce59119d93	76	int PositionSensorAM5147::GetRawPosition(){
benkatz	22:60276ba87ac6	77	return raw;
benkatz	14:80ce59119d93	78	}
benkatz	38:67e4e1453a4b	79
benkatz	38:67e4e1453a4b	80	float PositionSensorAM5147::GetMechPositionFixed(){
benkatz	38:67e4e1453a4b	81	return MechPosition+MechOffset;
benkatz	38:67e4e1453a4b	82	}
benkatz	14:80ce59119d93	83
benkatz	14:80ce59119d93	84	float PositionSensorAM5147::GetMechPosition(){
benkatz	14:80ce59119d93	85	return MechPosition;
benkatz	14:80ce59119d93	86	}
benkatz	14:80ce59119d93	87
benkatz	14:80ce59119d93	88	float PositionSensorAM5147::GetElecPosition(){
benkatz	22:60276ba87ac6	89	return ElecPosition;
benkatz	14:80ce59119d93	90	}
benkatz	14:80ce59119d93	91
benkatz	37:c0f352d6e8e3	92	float PositionSensorAM5147::GetElecVelocity(){
benkatz	37:c0f352d6e8e3	93	return ElecVelocity;
benkatz	37:c0f352d6e8e3	94	}
benkatz	37:c0f352d6e8e3	95
benkatz	14:80ce59119d93	96	float PositionSensorAM5147::GetMechVelocity(){
benkatz	22:60276ba87ac6	97	return MechVelocity;
benkatz	14:80ce59119d93	98	}
benkatz	14:80ce59119d93	99
benkatz	14:80ce59119d93	100	void PositionSensorAM5147::ZeroPosition(){
benkatz	14:80ce59119d93	101	rotations = 0;
benkatz	28:8c7e29f719c5	102	MechOffset = 0;
benkatz	28:8c7e29f719c5	103	Sample();
benkatz	14:80ce59119d93	104	MechOffset = GetMechPosition();
benkatz	14:80ce59119d93	105	}
benkatz	0:4e1c4df6aabd	106
benkatz	22:60276ba87ac6	107	void PositionSensorAM5147::SetElecOffset(float offset){
benkatz	22:60276ba87ac6	108	ElecOffset = offset;
benkatz	22:60276ba87ac6	109	}
benkatz	37:c0f352d6e8e3	110	void PositionSensorAM5147::SetMechOffset(float offset){
benkatz	37:c0f352d6e8e3	111	MechOffset = offset;
benkatz	37:c0f352d6e8e3	112	}
benkatz	22:60276ba87ac6	113
benkatz	22:60276ba87ac6	114	int PositionSensorAM5147::GetCPR(){
benkatz	22:60276ba87ac6	115	return _CPR;
benkatz	22:60276ba87ac6	116	}
benkatz	22:60276ba87ac6	117
benkatz	22:60276ba87ac6	118
benkatz	22:60276ba87ac6	119	void PositionSensorAM5147::WriteLUT(int new_lut[128]){
benkatz	22:60276ba87ac6	120	memcpy(offset_lut, new_lut, sizeof(offset_lut));
benkatz	22:60276ba87ac6	121	}
benkatz	20:bf9ea5125d52	122
benkatz	22:60276ba87ac6	123
benkatz	37:c0f352d6e8e3	124
benkatz	10:370851e6e132	125	PositionSensorEncoder::PositionSensorEncoder(int CPR, float offset, int ppairs) {
benkatz	10:370851e6e132	126	_ppairs = ppairs;
benkatz	0:4e1c4df6aabd	127	_CPR = CPR;
benkatz	0:4e1c4df6aabd	128	_offset = offset;
benkatz	3:6a0015d88d06	129	MechPosition = 0;
benkatz	22:60276ba87ac6	130	out_old = 0;
benkatz	22:60276ba87ac6	131	oldVel = 0;
benkatz	22:60276ba87ac6	132	raw = 0;
benkatz	0:4e1c4df6aabd	133
benkatz	0:4e1c4df6aabd	134	// Enable clock for GPIOA
benkatz	0:4e1c4df6aabd	135	__GPIOA_CLK_ENABLE(); //equivalent from hal_rcc.h
benkatz	0:4e1c4df6aabd	136
benkatz	0:4e1c4df6aabd	137	GPIOA->MODER \|= GPIO_MODER_MODER6_1 \| GPIO_MODER_MODER7_1 ; //PA6 & PA7 as Alternate Function /!< GPIO port mode register, Address offset: 0x00 /
benkatz	0:4e1c4df6aabd	138	GPIOA->OTYPER \|= GPIO_OTYPER_OT_6 \| GPIO_OTYPER_OT_7 ; //PA6 & PA7 as Inputs /!< GPIO port output type register, Address offset: 0x04 /
benkatz	0:4e1c4df6aabd	139	GPIOA->OSPEEDR \|= GPIO_OSPEEDER_OSPEEDR6 \| GPIO_OSPEEDER_OSPEEDR7 ; //Low speed /!< GPIO port output speed register, Address offset: 0x08 /
benkatz	0:4e1c4df6aabd	140	GPIOA->PUPDR \|= GPIO_PUPDR_PUPDR6_1 \| GPIO_PUPDR_PUPDR7_1 ; //Pull Down /!< GPIO port pull-up/pull-down register, Address offset: 0x0C /
benkatz	0:4e1c4df6aabd	141	GPIOA->AFR[0] \|= 0x22000000 ; //AF02 for PA6 & PA7 /!< GPIO alternate function registers, Address offset: 0x20-0x24 /
benkatz	0:4e1c4df6aabd	142	GPIOA->AFR[1] \|= 0x00000000 ; //nibbles here refer to gpio8..15 /!< GPIO alternate function registers, Address offset: 0x20-0x24 /
benkatz	0:4e1c4df6aabd	143
benkatz	0:4e1c4df6aabd	144	// configure TIM3 as Encoder input
benkatz	0:4e1c4df6aabd	145	// Enable clock for TIM3
benkatz	0:4e1c4df6aabd	146	__TIM3_CLK_ENABLE();
benkatz	0:4e1c4df6aabd	147
benkatz	22:60276ba87ac6	148	TIM3->CR1 = 0x0001; // CEN(Counter ENable)='1' < TIM control register 1
benkatz	22:60276ba87ac6	149	TIM3->SMCR = TIM_ENCODERMODE_TI12; // SMS='011' (Encoder mode 3) < TIM slave mode control register
benkatz	22:60276ba87ac6	150	TIM3->CCMR1 = 0x1111; // CC1S='01' CC2S='01' < TIM capture/compare mode register 1, maximum digital filtering
benkatz	22:60276ba87ac6	151	TIM3->CCMR2 = 0x0000; // < TIM capture/compare mode register 2
benkatz	22:60276ba87ac6	152	TIM3->CCER = 0x0011; // CC1P CC2P < TIM capture/compare enable register
benkatz	22:60276ba87ac6	153	TIM3->PSC = 0x0000; // Prescaler = (0+1) < TIM prescaler
benkatz	22:60276ba87ac6	154	TIM3->ARR = CPR; // IM auto-reload register
benkatz	0:4e1c4df6aabd	155
benkatz	7:dc5f27756e02	156	TIM3->CNT = 0x000; //reset the counter before we use it
benkatz	0:4e1c4df6aabd	157
benkatz	3:6a0015d88d06	158	// Extra Timer for velocity measurement
benkatz	9:d7eb815cb057	159
benkatz	3:6a0015d88d06	160	__TIM2_CLK_ENABLE();
benkatz	22:60276ba87ac6	161	TIM3->CR2 = 0x030; //MMS = 101
benkatz	3:6a0015d88d06	162
benkatz	3:6a0015d88d06	163	TIM2->PSC = 0x03;
benkatz	3:6a0015d88d06	164	//TIM2->CR2 \|= TIM_CR2_TI1S;
benkatz	22:60276ba87ac6	165	TIM2->SMCR = 0x24; //TS = 010 for ITR2, SMS = 100 (reset counter at edge)
benkatz	22:60276ba87ac6	166	TIM2->CCMR1 = 0x3; // CC1S = 11, IC1 mapped on TRC
benkatz	3:6a0015d88d06	167
benkatz	3:6a0015d88d06	168	//TIM2->CR2 \|= TIM_CR2_TI1S;
benkatz	3:6a0015d88d06	169	TIM2->CCER \|= TIM_CCER_CC1P;
benkatz	3:6a0015d88d06	170	//TIM2->CCER \|= TIM_CCER_CC1NP;
benkatz	3:6a0015d88d06	171	TIM2->CCER \|= TIM_CCER_CC1E;
benkatz	3:6a0015d88d06	172
benkatz	3:6a0015d88d06	173
benkatz	22:60276ba87ac6	174	TIM2->CR1 = 0x01; //CEN, enable timer
benkatz	9:d7eb815cb057	175
benkatz	22:60276ba87ac6	176	TIM3->CR1 = 0x01; // CEN
benkatz	8:10ae7bc88d6e	177	ZPulse = new InterruptIn(PC_4);
benkatz	8:10ae7bc88d6e	178	ZSense = new DigitalIn(PC_4);
benkatz	8:10ae7bc88d6e	179	//ZPulse = new InterruptIn(PB_0);
benkatz	8:10ae7bc88d6e	180	//ZSense = new DigitalIn(PB_0);
benkatz	0:4e1c4df6aabd	181	ZPulse->enable_irq();
benkatz	0:4e1c4df6aabd	182	ZPulse->rise(this, &PositionSensorEncoder::ZeroEncoderCount);
benkatz	7:dc5f27756e02	183	//ZPulse->fall(this, &PositionSensorEncoder::ZeroEncoderCountDown);
benkatz	0:4e1c4df6aabd	184	ZPulse->mode(PullDown);
benkatz	7:dc5f27756e02	185	flag = 0;
benkatz	0:4e1c4df6aabd	186
benkatz	0:4e1c4df6aabd	187
benkatz	1:b8bceb4daed5	188	//ZTest = new DigitalOut(PC_2);
benkatz	1:b8bceb4daed5	189	//ZTest->write(1);
benkatz	22:60276ba87ac6	190	}
benkatz	0:4e1c4df6aabd	191
benkatz	22:60276ba87ac6	192	void PositionSensorEncoder::Sample(){
benkatz	0:4e1c4df6aabd	193
benkatz	22:60276ba87ac6	194	}
benkatz	22:60276ba87ac6	195
benkatz	0:4e1c4df6aabd	196
benkatz	22:60276ba87ac6	197	float PositionSensorEncoder::GetMechPosition() { //returns rotor angle in radians.
benkatz	8:10ae7bc88d6e	198	int raw = TIM3->CNT;
benkatz	7:dc5f27756e02	199	float unsigned_mech = (6.28318530718f/(float)_CPR) * (float) ((raw)%_CPR);
benkatz	7:dc5f27756e02	200	return (float) unsigned_mech;// + 6.28318530718f* (float) rotations;
benkatz	0:4e1c4df6aabd	201	}
benkatz	0:4e1c4df6aabd	202
benkatz	22:60276ba87ac6	203	float PositionSensorEncoder::GetElecPosition() { //returns rotor electrical angle in radians.
benkatz	7:dc5f27756e02	204	int raw = TIM3->CNT;
benkatz	10:370851e6e132	205	float elec = ((6.28318530718f/(float)_CPR) * (float) ((_ppairs*raw)%_CPR)) - _offset;
benkatz	8:10ae7bc88d6e	206	if(elec < 0) elec += 6.28318530718f;
benkatz	8:10ae7bc88d6e	207	return elec;
benkatz	0:4e1c4df6aabd	208	}
benkatz	0:4e1c4df6aabd	209
benkatz	13:a3fa0a31b114	210
benkatz	3:6a0015d88d06	211
benkatz	3:6a0015d88d06	212	float PositionSensorEncoder::GetMechVelocity(){
benkatz	22:60276ba87ac6	213
benkatz	9:d7eb815cb057	214	float out = 0;
benkatz	3:6a0015d88d06	215	float rawPeriod = TIM2->CCR1; //Clock Ticks
benkatz	22:60276ba87ac6	216	int currentTime = TIM2->CNT;
benkatz	22:60276ba87ac6	217	if(currentTime > 2000000){rawPeriod = currentTime;}
benkatz	3:6a0015d88d06	218	float dir = -2.0f*(float)(((TIM3->CR1)>>4)&1)+1.0f; // +/- 1
benkatz	22:60276ba87ac6	219	float meas = dir180000000.0f(6.28318530718f/(float)_CPR)/rawPeriod;
benkatz	22:60276ba87ac6	220	if(isinf(meas)){ meas = 1;}
benkatz	11:c83b18d41e54	221	out = meas;
benkatz	22:60276ba87ac6	222	//if(meas == oldVel){
benkatz	22:60276ba87ac6	223	// out = .9f*out_old;
benkatz	22:60276ba87ac6	224	// }
benkatz	22:60276ba87ac6	225
benkatz	22:60276ba87ac6	226
benkatz	22:60276ba87ac6	227	oldVel = meas;
benkatz	22:60276ba87ac6	228	out_old = out;
benkatz	22:60276ba87ac6	229	int n = 16;
benkatz	22:60276ba87ac6	230	float sum = out;
benkatz	22:60276ba87ac6	231	for (int i = 1; i < (n); i++){
benkatz	22:60276ba87ac6	232	velVec[n - i] = velVec[n-i-1];
benkatz	22:60276ba87ac6	233	sum += velVec[n-i];
benkatz	9:d7eb815cb057	234	}
benkatz	22:60276ba87ac6	235	velVec[0] = out;
benkatz	22:60276ba87ac6	236	return sum/(float)n;
benkatz	3:6a0015d88d06	237	}
benkatz	13:a3fa0a31b114	238
benkatz	13:a3fa0a31b114	239	float PositionSensorEncoder::GetElecVelocity(){
benkatz	13:a3fa0a31b114	240	return _ppairs*GetMechVelocity();
benkatz	13:a3fa0a31b114	241	}
benkatz	13:a3fa0a31b114	242
benkatz	0:4e1c4df6aabd	243	void PositionSensorEncoder::ZeroEncoderCount(void){
benkatz	7:dc5f27756e02	244	if (ZSense->read() == 1 & flag == 0){
benkatz	0:4e1c4df6aabd	245	if (ZSense->read() == 1){
benkatz	8:10ae7bc88d6e	246	GPIOC->ODR ^= (1 << 4);
benkatz	7:dc5f27756e02	247	TIM3->CNT = 0x000;
benkatz	1:b8bceb4daed5	248	//state = !state;
benkatz	1:b8bceb4daed5	249	//ZTest->write(state);
benkatz	7:dc5f27756e02	250	GPIOC->ODR ^= (1 << 4);
benkatz	7:dc5f27756e02	251	//flag = 1;
benkatz	7:dc5f27756e02	252	}
benkatz	7:dc5f27756e02	253	}
benkatz	7:dc5f27756e02	254	}
benkatz	22:60276ba87ac6	255
benkatz	22:60276ba87ac6	256	void PositionSensorEncoder::ZeroPosition(void){
benkatz	22:60276ba87ac6	257
benkatz	22:60276ba87ac6	258	}
benkatz	7:dc5f27756e02	259
benkatz	7:dc5f27756e02	260	void PositionSensorEncoder::ZeroEncoderCountDown(void){
benkatz	7:dc5f27756e02	261	if (ZSense->read() == 0){
benkatz	7:dc5f27756e02	262	if (ZSense->read() == 0){
benkatz	7:dc5f27756e02	263	GPIOC->ODR ^= (1 << 4);
benkatz	7:dc5f27756e02	264	flag = 0;
benkatz	7:dc5f27756e02	265	float dir = -2.0f*(float)(((TIM3->CR1)>>4)&1)+1.0f;
benkatz	7:dc5f27756e02	266	if(dir != dir){
benkatz	7:dc5f27756e02	267	dir = dir;
benkatz	7:dc5f27756e02	268	rotations += dir;
benkatz	7:dc5f27756e02	269	}
benkatz	7:dc5f27756e02	270
benkatz	7:dc5f27756e02	271	GPIOC->ODR ^= (1 << 4);
benkatz	7:dc5f27756e02	272
benkatz	0:4e1c4df6aabd	273	}
benkatz	0:4e1c4df6aabd	274	}
benkatz	22:60276ba87ac6	275	}
benkatz	22:60276ba87ac6	276	void PositionSensorEncoder::SetElecOffset(float offset){
benkatz	22:60276ba87ac6	277
benkatz	22:60276ba87ac6	278	}
benkatz	22:60276ba87ac6	279
benkatz	22:60276ba87ac6	280	int PositionSensorEncoder::GetRawPosition(void){
benkatz	22:60276ba87ac6	281	return 0;
benkatz	22:60276ba87ac6	282	}
benkatz	22:60276ba87ac6	283
benkatz	22:60276ba87ac6	284	int PositionSensorEncoder::GetCPR(){
benkatz	22:60276ba87ac6	285	return _CPR;
benkatz	22:60276ba87ac6	286	}
benkatz	22:60276ba87ac6	287
benkatz	22:60276ba87ac6	288
benkatz	22:60276ba87ac6	289	void PositionSensorEncoder::WriteLUT(int new_lut[128]){
benkatz	22:60276ba87ac6	290	memcpy(offset_lut, new_lut, sizeof(offset_lut));
benkatz	22:60276ba87ac6	291	}

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Type:	Program
Created:	12 May 2021
Imports:	3
Forks:	0
Commits:	56
Dependents:	0
Dependencies:	2
Followers:	1

PositionSensor/PositionSensor.cpp@38:67e4e1453a4b, 2018-05-14 (annotated)

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