Axis - C++ class for controlling DC motor with encoder f…

Users » jebradshaw » Code » Axis

C++ class for controlling DC motor with encoder feedback. Dependencies include LS7366LIB, MotCon, and PID.

Axis.cpp@7:d0458137d6e0, 2016-05-19 (annotated)

Committer:: jebradshaw
Date:: Thu May 19 12:41:53 2016 +0000
Revision:: 7:d0458137d6e0
Parent:: 5:79dcaa63700c
Child:: 8:7e399d7c990d

Updated 20160519 - Plan to add motor state and output format variable ('e'-encoder counts, 'r'-radians, 'd'-degrees)

Who changed what in which revision?

User	Revision	Line number	New contents of line
jebradshaw	0:cf7192f9f99a	1
jebradshaw	0:cf7192f9f99a	2	#include "Axis.h"
jebradshaw	0:cf7192f9f99a	3	#include "LS7366.h"
jebradshaw	0:cf7192f9f99a	4	#include "MotCon.h"
jebradshaw	0:cf7192f9f99a	5	#include "PID.h"
jebradshaw	0:cf7192f9f99a	6
jebradshaw	2:653433f4ee72	7	Axis::Axis(SPI& spi, PinName cs, PinName pwm, PinName dir, PinName analog, int* limit, float totalCnts): _spi(spi), _cs(cs), _pwm(pwm), _dir(dir) , _analog(analog){
jebradshaw	4:4079f92f9c26	8	this->_cs = 1; // Initialize chip select as off (high)
jebradshaw	4:4079f92f9c26	9	this->_pwm = 0.0;
jebradshaw	4:4079f92f9c26	10	this->_dir = 0;
jebradshaw	4:4079f92f9c26	11	this->co = 0.0;
jebradshaw	4:4079f92f9c26	12	this->Tdelay = .01;
jebradshaw	4:4079f92f9c26	13	this->Pk = 120.0; //80.0; //rough gains, seem to work well but could use tuning
jebradshaw	4:4079f92f9c26	14	this->Ik = 55.0; //35.0;
jebradshaw	4:4079f92f9c26	15	this->Dk = 0.0;
jebradshaw	4:4079f92f9c26	16	this->set_point = 0.0;
jebradshaw	4:4079f92f9c26	17	this->set_point_last = 0.0;
jebradshaw	4:4079f92f9c26	18	this->pos = 0.0;
jebradshaw	4:4079f92f9c26	19	this->vel = 0.0;
jebradshaw	4:4079f92f9c26	20	this->acc = 0.0;
jebradshaw	4:4079f92f9c26	21	this->pos_cmd = 0.0;
jebradshaw	4:4079f92f9c26	22	this->vel_cmd = 0.0;
jebradshaw	4:4079f92f9c26	23	this->vel_avg_cmd = 0;
jebradshaw	4:4079f92f9c26	24	this->acc_cmd = 0.0;
jebradshaw	4:4079f92f9c26	25	this->vel_max = 2700.0 * Tdelay; //counts * Tdelay
jebradshaw	4:4079f92f9c26	26	this->acc_max = 1200.0 * Tdelay; //counts/sec/sec * Tdelay
jebradshaw	4:4079f92f9c26	27	this->p_higher = 0.0;
jebradshaw	4:4079f92f9c26	28	this->p_lower = 0.0;
jebradshaw	4:4079f92f9c26	29	this->vel_accum = 0.0;
jebradshaw	4:4079f92f9c26	30	this->moveTime = 0.0;
jebradshaw	4:4079f92f9c26	31	this->totalCounts = totalCnts;
jebradshaw	4:4079f92f9c26	32	this->enc = 0;
jebradshaw	4:4079f92f9c26	33	this->moveStatus = 0; //status flag to indicate state of profile movement
jebradshaw	4:4079f92f9c26	34	this->moveState = 0; //used for state machine in movement profiles
jebradshaw	4:4079f92f9c26	35	this->debug = 0;
jebradshaw	4:4079f92f9c26	36	this->update.attach(this, &Axis::paramUpdate, Tdelay);
jebradshaw	5:79dcaa63700c	37	this->axisState = 0;
jebradshaw	5:79dcaa63700c	38	this->mot_I_lim = .35;
jebradshaw	7:d0458137d6e0	39	this->motInvert = 0;
jebradshaw	7:d0458137d6e0	40	this->dataFormat = 'r'; //default is radians
jebradshaw	0:cf7192f9f99a	41
jebradshaw	4:4079f92f9c26	42	this->pid = new PID(0.0,0.0,0.0,Tdelay); //Kc, Ti, Td, interval
jebradshaw	4:4079f92f9c26	43	this->ls7366 = new LS7366(spi, cs); //LS7366 encoder interface IC
jebradshaw	4:4079f92f9c26	44	this->motcon = new MotCon(pwm, dir);
jebradshaw	4:4079f92f9c26	45	this->ptr_limit = limit;
jebradshaw	0:cf7192f9f99a	46
jebradshaw	0:cf7192f9f99a	47	//start at 0
jebradshaw	0:cf7192f9f99a	48	this->ls7366->LS7366_reset_counter();
jebradshaw	0:cf7192f9f99a	49	this->ls7366->LS7366_quad_mode_x4();
jebradshaw	0:cf7192f9f99a	50	this->ls7366->LS7366_write_DTR(0);
jebradshaw	0:cf7192f9f99a	51
jebradshaw	0:cf7192f9f99a	52	this->set_point = 0.0;
jebradshaw	0:cf7192f9f99a	53	this->pid->setSetPoint(this->set_point);
jebradshaw	0:cf7192f9f99a	54	this->enc = this->ls7366->LS7366_read_counter(); //update class variable
jebradshaw	0:cf7192f9f99a	55	}
jebradshaw	0:cf7192f9f99a	56
jebradshaw	2:653433f4ee72	57	void Axis::init(void){
jebradshaw	0:cf7192f9f99a	58	//resets the controllers internals
jebradshaw	0:cf7192f9f99a	59	this->pid->reset();
jebradshaw	0:cf7192f9f99a	60
jebradshaw	0:cf7192f9f99a	61	//Encoder counts limit
jebradshaw	2:653433f4ee72	62	this->pid->setInputLimits(-this->totalCounts, this->totalCounts);
jebradshaw	0:cf7192f9f99a	63	//Pwm output from 0.0 to 1.0
jebradshaw	0:cf7192f9f99a	64	this->pid->setOutputLimits(-1.0, 1.0);
jebradshaw	0:cf7192f9f99a	65	//If there's a bias.
jebradshaw	0:cf7192f9f99a	66	this->pid->setBias(0.0);
jebradshaw	0:cf7192f9f99a	67	this->pid->setMode(AUTO_MODE);
jebradshaw	0:cf7192f9f99a	68
jebradshaw	0:cf7192f9f99a	69	this->pid->setInterval(this->Tdelay);
jebradshaw	0:cf7192f9f99a	70
jebradshaw	0:cf7192f9f99a	71	//start at 0
jebradshaw	0:cf7192f9f99a	72	this->ls7366->LS7366_reset_counter();
jebradshaw	0:cf7192f9f99a	73	this->ls7366->LS7366_quad_mode_x4();
jebradshaw	0:cf7192f9f99a	74	this->ls7366->LS7366_write_DTR(0);
jebradshaw	0:cf7192f9f99a	75
jebradshaw	0:cf7192f9f99a	76	this->set_point = 0.0;
jebradshaw	0:cf7192f9f99a	77	this->pid->setSetPoint(this->set_point);
jebradshaw	0:cf7192f9f99a	78	this->enc = this->ls7366->LS7366_read_counter(); //update class variable
jebradshaw	0:cf7192f9f99a	79
jebradshaw	0:cf7192f9f99a	80	//resets the controllers internals
jebradshaw	0:cf7192f9f99a	81	this->pid->reset();
jebradshaw	0:cf7192f9f99a	82	//start at 0
jebradshaw	0:cf7192f9f99a	83	this->set_point = 0.0;
jebradshaw	0:cf7192f9f99a	84	this->pid->setSetPoint(0);
jebradshaw	0:cf7192f9f99a	85
jebradshaw	0:cf7192f9f99a	86	this->pid->setTunings(this->Pk, this->Ik, this->Dk); //turns on controller
jebradshaw	0:cf7192f9f99a	87	}
jebradshaw	0:cf7192f9f99a	88
jebradshaw	0:cf7192f9f99a	89	void Axis::paramUpdate(void){
jebradshaw	0:cf7192f9f99a	90	//testOut = 1;
jebradshaw	0:cf7192f9f99a	91	this->enc = this->ls7366->LS7366_read_counter();
jebradshaw	0:cf7192f9f99a	92	this->pos = (float)this->enc; // * this->countsPerDeg * PI/180.0; //times counts/degree and convert to radians
jebradshaw	0:cf7192f9f99a	93
jebradshaw	0:cf7192f9f99a	94	this->vel = (this->pos - this->pos_last) * this->Tdelay;
jebradshaw	0:cf7192f9f99a	95	this->acc = (this->vel - this->vel_last);
jebradshaw	0:cf7192f9f99a	96
jebradshaw	0:cf7192f9f99a	97	this->pid->setSetPoint(this->set_point);
jebradshaw	0:cf7192f9f99a	98
jebradshaw	0:cf7192f9f99a	99	//Update the process variable.
jebradshaw	0:cf7192f9f99a	100	this->pid->setProcessValue(this->pos);
jebradshaw	0:cf7192f9f99a	101	//Set the new output.
jebradshaw	0:cf7192f9f99a	102	this->co = this->pid->compute();
jebradshaw	0:cf7192f9f99a	103
jebradshaw	7:d0458137d6e0	104	DigitalOut led3(P1_21);
jebradshaw	7:d0458137d6e0	105	if(this->axisState){
jebradshaw	7:d0458137d6e0	106	if(this->motInvert==0){
jebradshaw	7:d0458137d6e0	107	this->motcon->mot_control(this->co); //send controller output to PWM motor control command
jebradshaw	7:d0458137d6e0	108	led3=1;
jebradshaw	7:d0458137d6e0	109	}
jebradshaw	7:d0458137d6e0	110	else{
jebradshaw	7:d0458137d6e0	111	this->motcon->mot_control(this->co, 1); //send controller output to PWM motor control command
jebradshaw	7:d0458137d6e0	112	led3=0;
jebradshaw	7:d0458137d6e0	113	}
jebradshaw	7:d0458137d6e0	114	}
jebradshaw	4:4079f92f9c26	115	else{
jebradshaw	4:4079f92f9c26	116	this->co = 0.0;
jebradshaw	4:4079f92f9c26	117	this->motcon->mot_control(0.0); //turn off motor command
jebradshaw	4:4079f92f9c26	118	}
jebradshaw	4:4079f92f9c26	119
jebradshaw	0:cf7192f9f99a	120	this->pos_last = this->pos;
jebradshaw	0:cf7192f9f99a	121	this->vel_last = this->vel;
jebradshaw	0:cf7192f9f99a	122	this->set_point_last = this->set_point;
jebradshaw	0:cf7192f9f99a	123	//testOut = 0;
jebradshaw	0:cf7192f9f99a	124	}
jebradshaw	0:cf7192f9f99a	125
jebradshaw	2:653433f4ee72	126	void Axis::center(void){
jebradshaw	2:653433f4ee72	127	this->pid->setInputLimits(-this->totalCounts, this->totalCounts);
jebradshaw	2:653433f4ee72	128
jebradshaw	5:79dcaa63700c	129	while((*this->ptr_limit == 1) && (this->readCurrent() < mot_I_lim)){ //limit switch not pressed and mot current not exceeded
jebradshaw	0:cf7192f9f99a	130	this->set_point += 100;
jebradshaw	7:d0458137d6e0	131	wait(.05);
jebradshaw	0:cf7192f9f99a	132	if(this->debug)
jebradshaw	2:653433f4ee72	133	printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f limit=%d motI=%.3f\r\n", t.read(), this->set_point, this->co, this->pos, this->vel, this->acc,*this->ptr_limit, this->_analog.read());
jebradshaw	0:cf7192f9f99a	134	}
jebradshaw	5:79dcaa63700c	135	wait(.5);
jebradshaw	5:79dcaa63700c	136	while((*this->ptr_limit == 0)){ //limit switch is pressed
jebradshaw	5:79dcaa63700c	137	this->set_point -= 10;
jebradshaw	5:79dcaa63700c	138	wait(.1);
jebradshaw	5:79dcaa63700c	139	if(this->debug)
jebradshaw	2:653433f4ee72	140	printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f limit=%d motI=%.3f\r\n", t.read(), this->set_point, this->co, this->pos, this->vel, this->acc,*this->ptr_limit, this->_analog.read());
jebradshaw	0:cf7192f9f99a	141	}
jebradshaw	5:79dcaa63700c	142	this->zero(); //zero channel
jebradshaw	0:cf7192f9f99a	143
jebradshaw	5:79dcaa63700c	144	this->set_point = -(totalCounts/2.0);
jebradshaw	5:79dcaa63700c	145	wait(5.0);
jebradshaw	5:79dcaa63700c	146	this->zero();
jebradshaw	0:cf7192f9f99a	147
jebradshaw	2:653433f4ee72	148	if(this->debug)
jebradshaw	2:653433f4ee72	149	printf("HOME END:T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f limit=%d motI=%.3f\r\n", t.read(), this->set_point, this->co, this->pos, this->vel, this->acc,*this->ptr_limit, this->_analog.read());
jebradshaw	0:cf7192f9f99a	150	// pc.printf("End Home\r\n\r\n");
jebradshaw	0:cf7192f9f99a	151	}
jebradshaw	0:cf7192f9f99a	152
jebradshaw	2:653433f4ee72	153	void Axis::moveUpdate(void){
jebradshaw	2:653433f4ee72	154
jebradshaw	5:79dcaa63700c	155	/* if(*this->ptr_limit == 0){
jebradshaw	2:653433f4ee72	156	this->moveState = 4; //terminate the move
jebradshaw	2:653433f4ee72	157	printf("\r\nLimit reached on axis!\r\n");
jebradshaw	2:653433f4ee72	158	}
jebradshaw	5:79dcaa63700c	159	*/
jebradshaw	2:653433f4ee72	160	if(this->debug)
jebradshaw	2:653433f4ee72	161	printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f limit=%d motI=%.3f\r\n", t.read(), this->set_point, this->co, this->pos, this->vel, this->acc,*this->ptr_limit, this->_analog.read());
jebradshaw	2:653433f4ee72	162
jebradshaw	0:cf7192f9f99a	163	switch(this->moveState){
jebradshaw	0:cf7192f9f99a	164	case 0:
jebradshaw	0:cf7192f9f99a	165	break;
jebradshaw	0:cf7192f9f99a	166
jebradshaw	0:cf7192f9f99a	167	//accelerate
jebradshaw	0:cf7192f9f99a	168	case 1:
jebradshaw	0:cf7192f9f99a	169	//testOut = 1;
jebradshaw	0:cf7192f9f99a	170	this->vel_accum += this->acc_cmd * this->Tdelay; //add acceleration to the velocity accumulator
jebradshaw	0:cf7192f9f99a	171	if(this->vel_avg_cmd > 0.0){ //check the sign of the movement
jebradshaw	0:cf7192f9f99a	172	if(this->vel_accum >= this->vel_cmd) //if the accumulator reaches or exceeds the velocity command
jebradshaw	0:cf7192f9f99a	173	this->vel_accum = this->vel_cmd; // only add the velocity command to the accumulator
jebradshaw	0:cf7192f9f99a	174	}
jebradshaw	0:cf7192f9f99a	175	else{ //if the sign was negative
jebradshaw	0:cf7192f9f99a	176	if(this->vel_accum <= this->vel_cmd)
jebradshaw	0:cf7192f9f99a	177	this->vel_accum = this->vel_cmd;
jebradshaw	0:cf7192f9f99a	178	}
jebradshaw	0:cf7192f9f99a	179	//testOut = 0;
jebradshaw	0:cf7192f9f99a	180
jebradshaw	0:cf7192f9f99a	181	this->set_point += this->vel_accum;
jebradshaw	0:cf7192f9f99a	182	//pc.printf("T=%.2f SP=%.3f co=%.3f enc=%d pos=%.3f vel=%.3f acc=%.3f vel_accum=%.2f accelCnt=%.2f \r\n", t.read(), con0.set_point, con0.co, con0.enc, con0.pos, con0.vel, con0.acc, vel_accum, accelCnt);
jebradshaw	0:cf7192f9f99a	183	//pc.printf("acc_up,%.2f,%.3f,%.1f,%.3f,%.3f,%.2f,%.2f\r\n", this->t.read(), this->set_point, this->pos, this->vel, this->acc, this->vel_accum, this->acc_cmd);
jebradshaw	0:cf7192f9f99a	184
jebradshaw	0:cf7192f9f99a	185	if(this->t.read()>=(this->moveTime/3.0) \|\| (abs(this->vel_accum) > abs(this->vel_cmd)))
jebradshaw	0:cf7192f9f99a	186	this->moveState = 2;
jebradshaw	0:cf7192f9f99a	187	break;
jebradshaw	0:cf7192f9f99a	188
jebradshaw	0:cf7192f9f99a	189	//constant velocity
jebradshaw	0:cf7192f9f99a	190	case 2:
jebradshaw	0:cf7192f9f99a	191	//testOut = 1;
jebradshaw	0:cf7192f9f99a	192	//this->vel_accum += this->vel_cmd * this->Tdelay;
jebradshaw	0:cf7192f9f99a	193	this->set_point += this->vel_cmd;
jebradshaw	0:cf7192f9f99a	194	//testOut = 0;
jebradshaw	0:cf7192f9f99a	195	//pc.printf("T=%.2f SP=%.3f co=%.3f enc=%d pos=%.3f vel=%.3f acc=%.3f vel_accum=%.2f accelCnt=%.2f \r\n", t.read(), con0.set_point, con0.co, con0.enc, con0.pos, con0.vel, con0.acc, vel_accum, accelCnt);
jebradshaw	0:cf7192f9f99a	196	//pc.printf("vel_cn,%.2f,%.3f,%.1f,%.3f,%.3f,%.2f,%.2f\r\n", this->t.read(), this->set_point, this->pos, this->vel, this->acc, this->vel_accum, this->acc_cmd);
jebradshaw	0:cf7192f9f99a	197
jebradshaw	0:cf7192f9f99a	198	if(this->t.read()>=(2.0/3.0 * this->moveTime))
jebradshaw	0:cf7192f9f99a	199	this->moveState = 3;
jebradshaw	0:cf7192f9f99a	200	break;
jebradshaw	0:cf7192f9f99a	201
jebradshaw	0:cf7192f9f99a	202	//decelerate
jebradshaw	0:cf7192f9f99a	203	case 3:
jebradshaw	0:cf7192f9f99a	204	this->vel_accum -= this->acc_cmd * this->Tdelay;
jebradshaw	0:cf7192f9f99a	205
jebradshaw	0:cf7192f9f99a	206	this->set_point += this->vel_accum; //ramp down velocity by acceleration
jebradshaw	0:cf7192f9f99a	207	//pc.printf("T=%.2f SP=%.3f co=%.3f enc=%d pos=%.3f vel=%.3f acc=%.3f vel_accum=%.2f accelCnt=%.2f \r\n", t.read(), con0.set_point, con0.co, con0.enc, con0.pos, con0.vel, con0.acc, vel_accum, accelCnt);
jebradshaw	0:cf7192f9f99a	208	//pc.printf("acc_dn,%.2f,%.3f,%.1f,%.3f,%.3f,%.2f,%.2f\r\n", this->t.read(), this->set_point, this->pos, this->vel, this->acc, this->vel_accum, this->acc_cmd);
jebradshaw	0:cf7192f9f99a	209
jebradshaw	0:cf7192f9f99a	210	if(this->vel_avg_cmd > 0.0){
jebradshaw	1:cd249816dba8	211	if(this->pos_cmd <= this->pos){
jebradshaw	1:cd249816dba8	212	//finish with position command
jebradshaw	1:cd249816dba8	213	this->set_point = this->pos_cmd;
jebradshaw	0:cf7192f9f99a	214	this->moveState = 4;
jebradshaw	1:cd249816dba8	215	}
jebradshaw	0:cf7192f9f99a	216	}
jebradshaw	0:cf7192f9f99a	217	else{
jebradshaw	1:cd249816dba8	218	if(this->pos_cmd >= this->pos){
jebradshaw	1:cd249816dba8	219	//finish with position command
jebradshaw	5:79dcaa63700c	220	//this->set_point = this->pos_cmd; //May be causing jerk after multi-axis movements J Bradshaw 20151124
jebradshaw	1:cd249816dba8	221	this->moveState = 4;
jebradshaw	1:cd249816dba8	222	}
jebradshaw	0:cf7192f9f99a	223	}
jebradshaw	0:cf7192f9f99a	224
jebradshaw	0:cf7192f9f99a	225	if(this->t.read()>=this->moveTime){
jebradshaw	1:cd249816dba8	226	//finish with position command
jebradshaw	5:79dcaa63700c	227	//this->set_point = this->pos_cmd; //May be causing jerk after multi-axis movements J Bradshaw 20151124
jebradshaw	0:cf7192f9f99a	228	this->moveState = 4;
jebradshaw	0:cf7192f9f99a	229	}
jebradshaw	0:cf7192f9f99a	230	break;
jebradshaw	0:cf7192f9f99a	231
jebradshaw	0:cf7192f9f99a	232	case 4:
jebradshaw	0:cf7192f9f99a	233	this->moveProfile.detach(); //turn off the trapazoidal update ticker
jebradshaw	0:cf7192f9f99a	234	this->t.stop();
jebradshaw	0:cf7192f9f99a	235	this->moveState = 0;
jebradshaw	0:cf7192f9f99a	236	break;
jebradshaw	0:cf7192f9f99a	237	}//switch moveStatus
jebradshaw	0:cf7192f9f99a	238	return;
jebradshaw	0:cf7192f9f99a	239	}
jebradshaw	0:cf7192f9f99a	240
jebradshaw	0:cf7192f9f99a	241	// position - encoder position to move to
jebradshaw	0:cf7192f9f99a	242	// time - duration of the movement
jebradshaw	0:cf7192f9f99a	243	void Axis::moveTrapezoid(float positionCmd, float time){
jebradshaw	0:cf7192f9f99a	244	this->pos_cmd = positionCmd;
jebradshaw	0:cf7192f9f99a	245	this->moveTime = time;
jebradshaw	4:4079f92f9c26	246	float enc_distance = this->pos_cmd - (float)this->enc;// * 1.0/con0.countsPerDeg * 180.0/PI;
jebradshaw	0:cf7192f9f99a	247
jebradshaw	0:cf7192f9f99a	248	this->vel_avg_cmd = enc_distance / time;
jebradshaw	0:cf7192f9f99a	249	this->vel_cmd = 1.5 * this->vel_avg_cmd * this->Tdelay;
jebradshaw	0:cf7192f9f99a	250	this->acc_cmd = 4.5 * (enc_distance / (this->moveTime * this->moveTime)) * this->Tdelay;
jebradshaw	0:cf7192f9f99a	251
jebradshaw	0:cf7192f9f99a	252	//pc.printf("tx=%f encdist=%.3f vAvg=%.3f vMax=%.3f Acc=%.3f \r\n", this->moveTime, enc_distance,this->vel_avg_cmd,this->vel_cmd,this->acc_cmd);
jebradshaw	0:cf7192f9f99a	253
jebradshaw	0:cf7192f9f99a	254	//establish encoder velocities and accelerations for position control per Tdelay
jebradshaw	0:cf7192f9f99a	255	this->vel_accum = 0.0;
jebradshaw	0:cf7192f9f99a	256
jebradshaw	0:cf7192f9f99a	257	// this->set_point = this->pos;
jebradshaw	0:cf7192f9f99a	258	this->moveState = 1;
jebradshaw	0:cf7192f9f99a	259	this->t.reset();
jebradshaw	0:cf7192f9f99a	260	this->t.start();
jebradshaw	0:cf7192f9f99a	261	this->moveProfile.attach(this, &Axis::moveUpdate, this->Tdelay);
jebradshaw	0:cf7192f9f99a	262	}
jebradshaw	2:653433f4ee72	263
jebradshaw	4:4079f92f9c26	264	float Axis::readCurrent(void){
jebradshaw	4:4079f92f9c26	265	motCurrent = this->_analog.read() * 3.3;
jebradshaw	4:4079f92f9c26	266	return motCurrent;
jebradshaw	2:653433f4ee72	267	}
jebradshaw	2:653433f4ee72	268
jebradshaw	2:653433f4ee72	269	void Axis::axisOff(void){
jebradshaw	4:4079f92f9c26	270	this->co = 0;
jebradshaw	2:653433f4ee72	271	this->axisState = 0;
jebradshaw	2:653433f4ee72	272	}
jebradshaw	2:653433f4ee72	273
jebradshaw	2:653433f4ee72	274	void Axis::axisOn(void){
jebradshaw	4:4079f92f9c26	275	this->co = 0.0;
jebradshaw	4:4079f92f9c26	276	this->pid->reset();
jebradshaw	4:4079f92f9c26	277	//start at 0
jebradshaw	4:4079f92f9c26	278	this->set_point = 0.0;
jebradshaw	4:4079f92f9c26	279	this->pid->setSetPoint(0);
jebradshaw	4:4079f92f9c26	280
jebradshaw	4:4079f92f9c26	281	this->pid->setTunings(this->Pk, this->Ik, this->Dk); //turns on controller
jebradshaw	2:653433f4ee72	282	this->axisState = 1;
jebradshaw	5:79dcaa63700c	283	}
jebradshaw	5:79dcaa63700c	284
jebradshaw	5:79dcaa63700c	285	void Axis::zero(void){
jebradshaw	5:79dcaa63700c	286	this->ls7366->LS7366_reset_counter();
jebradshaw	5:79dcaa63700c	287	this->ls7366->LS7366_quad_mode_x4();
jebradshaw	5:79dcaa63700c	288	this->ls7366->LS7366_write_DTR(0);
jebradshaw	5:79dcaa63700c	289
jebradshaw	5:79dcaa63700c	290	this->set_point = 0.0;
jebradshaw	5:79dcaa63700c	291	this->pid->setSetPoint(0);
jebradshaw	2:653433f4ee72	292	}

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Type:	Library
Created:	17 Dec 2015
Imports:	48
Forks:	0
Commits:	14
Dependents:	1
Dependencies:	3
Followers:	4

Axis.cpp@7:d0458137d6e0, 2016-05-19 (annotated)

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