LPC1768_6axis_Arm - Serial interface for controlling robotic arm.

Users » jebradshaw » Code » LPC1768_6axis_Arm

Joseph Bradshaw / Mbed 2 deprecated LPC1768_6axis_Arm

Serial interface for controlling robotic arm.

This program uses a LPC1768 processor for controlling a robotic arm. The basis for the program is the Axis () class which uses a PID controller to actuate a DC motor with quadrature encoder feedback.

Youtube video of robotic arm using the 6-axis controller performing an internally programmed gate, then performing the home function.

https://developer.mbed.org/users/jebradshaw/code/Axis/

The Axis Class has 3 dependencies (MotCon, LS7366LIB, and PID). The class encapsulates the required functionality of controlling a DC motor with encoder feedback through pin assignments, an SPI bus, and a pointer for the limit switch source.

The LS7366 encoder interface IC off-loads the critical time and counting requirements from the processor using an SPI bus interface for the class. The Axis class then uses a state machine to perform trapezoidal movement profiles with a Ticker class. Parameters can be adjusted through the serial interface using a FT232RL USB to serial interface IC for computer communication.

The MotCon class is a basic class that defines a PWM output pin and a single direction signal intended to control an H-Bridge motor driver IC. I used an MC33926 motor driver for each motor which are rated at 5.0-28V and 5.0 amp peak, with an RDSon max resistance of 225 milli-ohms. This part also has 3.0V to 5V TTL/CMOS inputs logic levels and various protection circuitry on board. I also liked this particular motor driver chip because you can use a PWM frequency of up to 20KHz, getting the frequency out of the audio range.

/media/uploads/jebradshaw/axiscontroller_protoboardsmall.jpg

Above is the prototype for the controller. Originally, a PCF8574 I/O expander was used to read the limit switches by the I2C bus. This has now been re-written to use 6 external interrupts directly for the limit/homing switches. Six motor driver breakout boards using the MC33926 motor driver chip were used to drive the motors.

I use the mbed online compiler to generate the .bin file, use bin2hex to convert it and upload the hex file using Flash Magic to the processor with the serial bootloader. I prefer to use the FT232RL usb to serial converter IC for PC comms due to the high level of reliability and USB driver support (typically already built in Windows 7+). I've started putting this on a PCB and hope to finish by the end of the month (Dec 2015).

Well 3 months later, I've completed the first PCB prototype. A few minor errors but it's working!!

/media/uploads/jebradshaw/pcb_artwork.jpg Express PCB Artwork

/media/uploads/jebradshaw/6axiscontroller_innerpowerlayer.jpg Inner Power Layer Breakup for motor current

/media/uploads/jebradshaw/6axiscontroller_pcb_prototype_trimmed.jpg First Prototype

/media/uploads/jebradshaw/lpc1768_axiscontroller_part1_20161214.bmp

/media/uploads/jebradshaw/lpc1768_axiscontroller_part2_20161216.bmp

/media/uploads/jebradshaw/lpc1768_axiscontroller_part3_20161216.bmp

/media/uploads/jebradshaw/lpc1768_axiscontroller_part4_20190124_2.jpg

Latest documentation (schematic and parts layout) can be found here Download and open with Adobe /media/uploads/jebradshaw/axiscontroller_schematics_v2.0.pdf

Latest PCB File (Express PCB) /media/uploads/jebradshaw/lpc1768_axiscontroller_20161216.pcb

Parts Layout /media/uploads/jebradshaw/silkscreen_top_stencil.jpg /media/uploads/jebradshaw/axiscontroller_bottommirrorimage_20161216.jpg

Python script for converting mbed .bin output to intel hex format (no bin2hex 64K limit) https://pypi.python.org/pypi/IntelHex

Example batch script for speeding up conversion process for FlashMagic (http://www.flashmagictool.com/) programming of board /media/uploads/jebradshaw/axisconvert.bat

https://os.mbed.com/users/jebradshaw/code/axis_ScorbotController_20180706/

Latest firmware: 20190823 - /media/uploads/jebradshaw/axis_scorbotcontroller_20190823_velocity_test.lpc1768.bin

lpc_axis.cpp@0:02d2a7571614, 2015-09-25 (annotated)

Committer:: jebradshaw
Date:: Fri Sep 25 19:28:01 2015 +0000
Revision:: 0:02d2a7571614
Child:: 1:0d7a1f813571

- LPC1768 working with 6 Axis objects declared

Who changed what in which revision?

User	Revision	Line number	New contents of line
jebradshaw	0:02d2a7571614	1	// Test program for WSE-PROJ-SBC Scorbot Interface
jebradshaw	0:02d2a7571614	2	// J Bradshaw
jebradshaw	0:02d2a7571614	3	//lpc_axis.cpp
jebradshaw	0:02d2a7571614	4
jebradshaw	0:02d2a7571614	5	// 20150731
jebradshaw	0:02d2a7571614	6	// 20150827 - Got Ticker Trapeziodal profile command working (moveTrapezoid, muveUpdate)
jebradshaw	0:02d2a7571614	7	// 20150924 - Port from the mbed to the LPC1768 processor for the 6 axis robotic arm controller
jebradshaw	0:02d2a7571614	8
jebradshaw	0:02d2a7571614	9	#include "mbed.h"
jebradshaw	0:02d2a7571614	10	#include "Axis.h"
jebradshaw	0:02d2a7571614	11	#include "stdlib.h"
jebradshaw	0:02d2a7571614	12	#include "PCF8574.h" //library for the
jebradshaw	0:02d2a7571614	13
jebradshaw	0:02d2a7571614	14	#include <string>
jebradshaw	0:02d2a7571614	15
jebradshaw	0:02d2a7571614	16	#define PI 3.14159
jebradshaw	0:02d2a7571614	17	#define PCF8574_ADDR 0 // I2c PCF8574 address is 0x00
jebradshaw	0:02d2a7571614	18
jebradshaw	0:02d2a7571614	19	DigitalOut led1(P1_18); //blue
jebradshaw	0:02d2a7571614	20	DigitalOut led2(P1_20); //
jebradshaw	0:02d2a7571614	21	DigitalOut led3(P1_21);
jebradshaw	0:02d2a7571614	22
jebradshaw	0:02d2a7571614	23	Serial pc(P0_2, P0_3); //pc serial interface (USB)
jebradshaw	0:02d2a7571614	24	SPI spi(P0_9, P0_8, P0_7); //MOSI, MISO, SCK
jebradshaw	0:02d2a7571614	25
jebradshaw	0:02d2a7571614	26	int limit0, limit1, limit2, limit3, limit4, limit5; //global limit switch values
jebradshaw	0:02d2a7571614	27
jebradshaw	0:02d2a7571614	28	Timer t;
jebradshaw	0:02d2a7571614	29	//instantiate axis object
jebradshaw	0:02d2a7571614	30	Axis axis1(spi, P1_24, P2_5, P1_0, &limit0); //spi bus, LS7366_cs, pwm, dir, limitSwitch
jebradshaw	0:02d2a7571614	31	Axis axis2(spi, P1_25, P2_4, P1_1, &limit1);
jebradshaw	0:02d2a7571614	32	Axis axis3(spi, P1_26, P2_3, P1_4, &limit2);
jebradshaw	0:02d2a7571614	33	Axis axis4(spi, P1_27, P2_2, P1_8, &limit3);
jebradshaw	0:02d2a7571614	34	Axis axis5(spi, P1_28, P2_1, P1_9, &limit4);
jebradshaw	0:02d2a7571614	35	Axis axis6(spi, P1_29, P2_0, P1_10, &limit5);
jebradshaw	0:02d2a7571614	36
jebradshaw	0:02d2a7571614	37	PCF8574 pcf(P0_10,P0_11,PCF8574_ADDR,false); // Declare PCF8574 i2c with sda and scl (p28,p27) (10K pullups!)
jebradshaw	0:02d2a7571614	38	//uint8_t data;
jebradshaw	0:02d2a7571614	39	Ticker pulse;
jebradshaw	0:02d2a7571614	40
jebradshaw	0:02d2a7571614	41	static void myerror(std::string msg)
jebradshaw	0:02d2a7571614	42	{
jebradshaw	0:02d2a7571614	43	printf("Error %s\n",msg.c_str());
jebradshaw	0:02d2a7571614	44	exit(1);
jebradshaw	0:02d2a7571614	45	}
jebradshaw	0:02d2a7571614	46
jebradshaw	0:02d2a7571614	47	void updateLimitSwitches(int state){
jebradshaw	0:02d2a7571614	48	if((state & 0x01) == 0x01)
jebradshaw	0:02d2a7571614	49	limit0 = 1;
jebradshaw	0:02d2a7571614	50	else
jebradshaw	0:02d2a7571614	51	limit0 = 0;
jebradshaw	0:02d2a7571614	52
jebradshaw	0:02d2a7571614	53	if((state & 0x02) == 0x02)
jebradshaw	0:02d2a7571614	54	limit1 = 1;
jebradshaw	0:02d2a7571614	55	else
jebradshaw	0:02d2a7571614	56	limit1 = 0;
jebradshaw	0:02d2a7571614	57
jebradshaw	0:02d2a7571614	58	if((state & 0x04) == 0x04)
jebradshaw	0:02d2a7571614	59	limit2 = 1;
jebradshaw	0:02d2a7571614	60	else
jebradshaw	0:02d2a7571614	61	limit2 = 0;
jebradshaw	0:02d2a7571614	62
jebradshaw	0:02d2a7571614	63	if((state & 0x08) == 0x08)
jebradshaw	0:02d2a7571614	64	limit3 = 1;
jebradshaw	0:02d2a7571614	65	else
jebradshaw	0:02d2a7571614	66	limit3 = 0;
jebradshaw	0:02d2a7571614	67
jebradshaw	0:02d2a7571614	68	if((state & 0x10) == 0x10)
jebradshaw	0:02d2a7571614	69	limit4 = 1;
jebradshaw	0:02d2a7571614	70	else
jebradshaw	0:02d2a7571614	71	limit4 = 0;
jebradshaw	0:02d2a7571614	72
jebradshaw	0:02d2a7571614	73	if((state & 0x20) == 0x20)
jebradshaw	0:02d2a7571614	74	limit5 = 1;
jebradshaw	0:02d2a7571614	75	else
jebradshaw	0:02d2a7571614	76	limit5 = 0;
jebradshaw	0:02d2a7571614	77	}
jebradshaw	0:02d2a7571614	78
jebradshaw	0:02d2a7571614	79	void pcf8574_it(uint8_t data, PCF8574 *o)
jebradshaw	0:02d2a7571614	80	{
jebradshaw	0:02d2a7571614	81	int state;
jebradshaw	0:02d2a7571614	82	state = pcf.read();
jebradshaw	0:02d2a7571614	83	printf("PCF8574 interrupt data = %02x\n",state);
jebradshaw	0:02d2a7571614	84	updateLimitSwitches(state);
jebradshaw	0:02d2a7571614	85	}
jebradshaw	0:02d2a7571614	86
jebradshaw	0:02d2a7571614	87	void home_test(void){
jebradshaw	0:02d2a7571614	88	axis1.pid->setInputLimits(-20000.0, 20000.0);
jebradshaw	0:02d2a7571614	89	while(*axis1.ptr_limit == 1){
jebradshaw	0:02d2a7571614	90	axis1.set_point += 100;
jebradshaw	0:02d2a7571614	91	axis1.pid->setSetPoint(axis1.set_point);
jebradshaw	0:02d2a7571614	92
jebradshaw	0:02d2a7571614	93	axis2.set_point -= 100;
jebradshaw	0:02d2a7571614	94	axis2.pid->setSetPoint(axis2.set_point);
jebradshaw	0:02d2a7571614	95
jebradshaw	0:02d2a7571614	96	wait(.05);
jebradshaw	0:02d2a7571614	97	if(axis1.debug)
jebradshaw	0:02d2a7571614	98	printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f limit=%d\r\n", t.read(), axis1.set_point, axis1.co, axis1.pos, axis1.vel, axis1.acc,*axis1.ptr_limit);
jebradshaw	0:02d2a7571614	99	}
jebradshaw	0:02d2a7571614	100	/*
jebradshaw	0:02d2a7571614	101	this->set_point -= 1000;
jebradshaw	0:02d2a7571614	102	this->pid->setSetPoint(this->set_point);
jebradshaw	0:02d2a7571614	103	wait(.5);
jebradshaw	0:02d2a7571614	104
jebradshaw	0:02d2a7571614	105	while(*this->ptr_limit == 1){
jebradshaw	0:02d2a7571614	106	this->set_point += 10;
jebradshaw	0:02d2a7571614	107	this->pid->setSetPoint(this->set_point);
jebradshaw	0:02d2a7571614	108	wait(.02);
jebradshaw	0:02d2a7571614	109	if(this->debug)
jebradshaw	0:02d2a7571614	110	printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f limit=%d\r\n", t.read(), this->set_point, this->co, this->pos, this->vel, this->acc,*this->ptr_limit);
jebradshaw	0:02d2a7571614	111	}*/
jebradshaw	0:02d2a7571614	112
jebradshaw	0:02d2a7571614	113	}
jebradshaw	0:02d2a7571614	114
jebradshaw	0:02d2a7571614	115	void alive(void){
jebradshaw	0:02d2a7571614	116	led1 = !led1;
jebradshaw	0:02d2a7571614	117	if(led1)
jebradshaw	0:02d2a7571614	118	pulse.attach(&alive, .3); // the address of the function to be attached (flip) and the interval (2 seconds)
jebradshaw	0:02d2a7571614	119	else
jebradshaw	0:02d2a7571614	120	pulse.attach(&alive, 1.5); // the address of the function to be attached (flip) and the interval (2 seconds)
jebradshaw	0:02d2a7571614	121	}
jebradshaw	0:02d2a7571614	122	//------------------- MAIN --------------------------------
jebradshaw	0:02d2a7571614	123	int main()
jebradshaw	0:02d2a7571614	124	{
jebradshaw	0:02d2a7571614	125	wait(.2);
jebradshaw	0:02d2a7571614	126	pulse.attach(&alive, 2.0); // the address of the function to be attached (flip) and the interval (2 seconds)
jebradshaw	0:02d2a7571614	127
jebradshaw	0:02d2a7571614	128	pc.baud(921600);
jebradshaw	0:02d2a7571614	129	//i2c.frequency(100000);
jebradshaw	0:02d2a7571614	130	//LimitSwitch_0.mode(PullUp); //set the mbed to use a pullup resistor
jebradshaw	0:02d2a7571614	131	pc.printf("\r\n%s\r\n", __FILE__); //display the filename (this source file)
jebradshaw	0:02d2a7571614	132
jebradshaw	0:02d2a7571614	133	// Set all IO port bits to 1 to enable inputs and test error
jebradshaw	0:02d2a7571614	134	pcf = 0xff;
jebradshaw	0:02d2a7571614	135	if(pcf.getError() != 0)
jebradshaw	0:02d2a7571614	136	myerror(pcf.getErrorMessage());
jebradshaw	0:02d2a7571614	137
jebradshaw	0:02d2a7571614	138	// Assign interrupt function to pin P0_17 (mbed p12)
jebradshaw	0:02d2a7571614	139	pcf.interrupt(P0_17,&pcf8574_it);
jebradshaw	0:02d2a7571614	140	updateLimitSwitches(pcf.read());
jebradshaw	0:02d2a7571614	141
jebradshaw	0:02d2a7571614	142	if(pcf.getError() != 0)
jebradshaw	0:02d2a7571614	143	myerror(pcf.getErrorMessage());
jebradshaw	0:02d2a7571614	144
jebradshaw	0:02d2a7571614	145	axis1.init(90.0/10680.0);
jebradshaw	0:02d2a7571614	146	axis2.init(180.0/20500.0);
jebradshaw	0:02d2a7571614	147	axis1.debug = 1;
jebradshaw	0:02d2a7571614	148	axis2.debug = 1;
jebradshaw	0:02d2a7571614	149
jebradshaw	0:02d2a7571614	150	t.start(); // Set up timer
jebradshaw	0:02d2a7571614	151
jebradshaw	0:02d2a7571614	152	/*
jebradshaw	0:02d2a7571614	153	while(1){
jebradshaw	0:02d2a7571614	154	//axis1.motcon->mot_control(.5); //works
jebradshaw	0:02d2a7571614	155	pc.printf("%.2f,%.2f,%.2f,%.2f,%.2f,%.2f \r\n", axis1.pos, axis2.pos,axis3.pos,axis4.pos,axis5.pos,axis6.pos);
jebradshaw	0:02d2a7571614	156	wait(.2);
jebradshaw	0:02d2a7571614	157	}
jebradshaw	0:02d2a7571614	158	*/
jebradshaw	0:02d2a7571614	159
jebradshaw	0:02d2a7571614	160	while(1){
jebradshaw	0:02d2a7571614	161
jebradshaw	0:02d2a7571614	162	if(pc.readable())
jebradshaw	0:02d2a7571614	163	{
jebradshaw	0:02d2a7571614	164	char c = pc.getc();
jebradshaw	0:02d2a7571614	165	if(c == 'A'){
jebradshaw	0:02d2a7571614	166	home_test();
jebradshaw	0:02d2a7571614	167	}
jebradshaw	0:02d2a7571614	168	if(c == '?') //move command
jebradshaw	0:02d2a7571614	169	{
jebradshaw	0:02d2a7571614	170	pc.printf("T - Trapezoidal Profile Move command\r\n");
jebradshaw	0:02d2a7571614	171	//pc.printf("M - Move command\r\n");
jebradshaw	0:02d2a7571614	172	pc.printf("H- Home\r\n");
jebradshaw	0:02d2a7571614	173	pc.printf("S- Set point in encoder counts\r\n");
jebradshaw	0:02d2a7571614	174	pc.printf("Z - Zero Encoders \r\n");
jebradshaw	0:02d2a7571614	175	pc.printf("X - Excercise Robotic Arm \r\n");
jebradshaw	0:02d2a7571614	176	pc.printf("spacebar - Emergency Stop \r\n");
jebradshaw	0:02d2a7571614	177
jebradshaw	0:02d2a7571614	178	}
jebradshaw	0:02d2a7571614	179	if((c == 'X' \|\| c == 'x')) //Excercise axes
jebradshaw	0:02d2a7571614	180	{
jebradshaw	0:02d2a7571614	181	pc.printf("\r\nPress q to quit Excercise\r\n");
jebradshaw	0:02d2a7571614	182	pc.printf("Received move test command\r\n");
jebradshaw	0:02d2a7571614	183	int qFlag=0;
jebradshaw	0:02d2a7571614	184	float lastmovetime = 0.0;
jebradshaw	0:02d2a7571614	185	t.reset();
jebradshaw	0:02d2a7571614	186	while(qFlag==0){
jebradshaw	0:02d2a7571614	187	float movetime = rand() % 5;
jebradshaw	0:02d2a7571614	188	movetime += 1.0;
jebradshaw	0:02d2a7571614	189	lastmovetime = t.read() + movetime;
jebradshaw	0:02d2a7571614	190
jebradshaw	0:02d2a7571614	191	axis1.moveTrapezoid((rand() % 7000) - 3500, movetime);
jebradshaw	0:02d2a7571614	192	axis2.moveTrapezoid((rand() % 5000) - 2500, movetime);
jebradshaw	0:02d2a7571614	193	axis3.moveTrapezoid((rand() % 3000) - 1500, movetime);
jebradshaw	0:02d2a7571614	194	axis4.moveTrapezoid((rand() % 3000) - 1500, movetime);
jebradshaw	0:02d2a7571614	195	axis5.moveTrapezoid((rand() % 3000) - 1500, movetime);
jebradshaw	0:02d2a7571614	196	axis6.moveTrapezoid((rand() % 3000) - 1500, movetime);
jebradshaw	0:02d2a7571614	197
jebradshaw	0:02d2a7571614	198	while(t.read() <= lastmovetime + 1.0){
jebradshaw	0:02d2a7571614	199	//pc.printf("T=%.2f ax1SP=%.3f ax1pos=%.3f ax2SP=%.3f ax2pos=%.3f \r\n", t.read(), axis1.set_point, axis1.pos, axis2.set_point, axis2.pos);
jebradshaw	0:02d2a7571614	200	pc.printf("%.2f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f\r\n", t.read(), axis1.set_point, axis1.pos, axis2.set_point, axis2.pos,
jebradshaw	0:02d2a7571614	201	axis3.set_point, axis3.pos, axis4.set_point, axis4.pos,axis5.set_point, axis5.pos, axis6.set_point, axis6.pos);
jebradshaw	0:02d2a7571614	202	wait(.01);
jebradshaw	0:02d2a7571614	203
jebradshaw	0:02d2a7571614	204	if(pc.readable()){ //if user types a 'q' or 'Q'
jebradshaw	0:02d2a7571614	205	char c = pc.getc();
jebradshaw	0:02d2a7571614	206	if(c == 'q' \|\| c == 'Q') //quit after current movement
jebradshaw	0:02d2a7571614	207	qFlag = 1; //set the flag to terminate the excercise
jebradshaw	0:02d2a7571614	208	if(c == ' '){ //stop immediately
jebradshaw	0:02d2a7571614	209	axis1.moveState = 4;
jebradshaw	0:02d2a7571614	210	axis2.moveState = 4;
jebradshaw	0:02d2a7571614	211	axis3.moveState = 4;
jebradshaw	0:02d2a7571614	212	axis4.moveState = 4;
jebradshaw	0:02d2a7571614	213	axis5.moveState = 4;
jebradshaw	0:02d2a7571614	214	axis6.moveState = 4;
jebradshaw	0:02d2a7571614	215	qFlag = 1; //set the flag to terminate the excercise
jebradshaw	0:02d2a7571614	216	break;
jebradshaw	0:02d2a7571614	217	}
jebradshaw	0:02d2a7571614	218	}
jebradshaw	0:02d2a7571614	219	}
jebradshaw	0:02d2a7571614	220	if(t.read() < 0.0){ //if time goes negative, reset the timer
jebradshaw	0:02d2a7571614	221	t.reset();
jebradshaw	0:02d2a7571614	222	}
jebradshaw	0:02d2a7571614	223	}
jebradshaw	0:02d2a7571614	224	}
jebradshaw	0:02d2a7571614	225	if(c == 'T' \|\| c == 't') //move Trapazoid command
jebradshaw	0:02d2a7571614	226	{
jebradshaw	0:02d2a7571614	227	float position = 0.0;
jebradshaw	0:02d2a7571614	228	float time = 0.0;
jebradshaw	0:02d2a7571614	229
jebradshaw	0:02d2a7571614	230	pc.printf("Enter axis to move trapazoid\r\n");
jebradshaw	0:02d2a7571614	231	pc.scanf("%c",&c);
jebradshaw	0:02d2a7571614	232
jebradshaw	0:02d2a7571614	233	pc.printf("\r\n\r\nEnter position:");
jebradshaw	0:02d2a7571614	234	pc.scanf("%f",&position);
jebradshaw	0:02d2a7571614	235	pc.printf("%f\r\n", position);
jebradshaw	0:02d2a7571614	236
jebradshaw	0:02d2a7571614	237	pc.printf("Enter time:");
jebradshaw	0:02d2a7571614	238	pc.scanf("%f",&time);
jebradshaw	0:02d2a7571614	239	pc.printf("%f\r\n", time);
jebradshaw	0:02d2a7571614	240
jebradshaw	0:02d2a7571614	241	switch(c){
jebradshaw	0:02d2a7571614	242	case '1':
jebradshaw	0:02d2a7571614	243	pc.printf("Moving Robotic Axis 1\r\n");
jebradshaw	0:02d2a7571614	244	axis1.moveTrapezoid(position, time);
jebradshaw	0:02d2a7571614	245	break;
jebradshaw	0:02d2a7571614	246
jebradshaw	0:02d2a7571614	247	case '2':
jebradshaw	0:02d2a7571614	248	pc.printf("Moving Robotic Axis 2\r\n");
jebradshaw	0:02d2a7571614	249	axis2.moveTrapezoid(position, time);
jebradshaw	0:02d2a7571614	250	break;
jebradshaw	0:02d2a7571614	251
jebradshaw	0:02d2a7571614	252	case '3':
jebradshaw	0:02d2a7571614	253	pc.printf("Moving Robotic Axis 3\r\n");
jebradshaw	0:02d2a7571614	254	axis3.moveTrapezoid(position, time);
jebradshaw	0:02d2a7571614	255	break;
jebradshaw	0:02d2a7571614	256
jebradshaw	0:02d2a7571614	257	case '4':
jebradshaw	0:02d2a7571614	258	pc.printf("Moving Robotic Axis 4\r\n");
jebradshaw	0:02d2a7571614	259	axis4.moveTrapezoid(position, time);
jebradshaw	0:02d2a7571614	260	break;
jebradshaw	0:02d2a7571614	261
jebradshaw	0:02d2a7571614	262	case '5':
jebradshaw	0:02d2a7571614	263	pc.printf("Moving Robotic Axis 5\r\n");
jebradshaw	0:02d2a7571614	264	axis5.moveTrapezoid(position, time);
jebradshaw	0:02d2a7571614	265	break;
jebradshaw	0:02d2a7571614	266
jebradshaw	0:02d2a7571614	267	case '6':
jebradshaw	0:02d2a7571614	268	pc.printf("Moving Robotic Axis 6\r\n");
jebradshaw	0:02d2a7571614	269	axis6.moveTrapezoid(position, time);
jebradshaw	0:02d2a7571614	270	break;
jebradshaw	0:02d2a7571614	271	}
jebradshaw	0:02d2a7571614	272	}
jebradshaw	0:02d2a7571614	273	if(c == 'H' \|\| c == 'h')
jebradshaw	0:02d2a7571614	274	{
jebradshaw	0:02d2a7571614	275	pc.printf("Enter axis to home\r\n");
jebradshaw	0:02d2a7571614	276	pc.scanf("%c",&c);
jebradshaw	0:02d2a7571614	277	switch(c){
jebradshaw	0:02d2a7571614	278	case '1':
jebradshaw	0:02d2a7571614	279	pc.printf("Homing Robotic Axis 1\r\n");
jebradshaw	0:02d2a7571614	280	/* axis2.ls7366->LS7366_reset_counter();
jebradshaw	0:02d2a7571614	281	axis2.ls7366->LS7366_quad_mode_x4();
jebradshaw	0:02d2a7571614	282	axis2.ls7366->LS7366_write_DTR(0);
jebradshaw	0:02d2a7571614	283	axis2.enc = axis1.ls7366->LS7366_read_counter();
jebradshaw	0:02d2a7571614	284	*/
jebradshaw	0:02d2a7571614	285	axis1.home(11000);
jebradshaw	0:02d2a7571614	286	break;
jebradshaw	0:02d2a7571614	287	case '2':
jebradshaw	0:02d2a7571614	288	pc.printf("Homing Robotic Axis 2\r\n");
jebradshaw	0:02d2a7571614	289	axis2.home(6000);
jebradshaw	0:02d2a7571614	290	break;
jebradshaw	0:02d2a7571614	291	}
jebradshaw	0:02d2a7571614	292	}
jebradshaw	0:02d2a7571614	293	if(c == 'S' \|\| c == 's')
jebradshaw	0:02d2a7571614	294	{
jebradshaw	0:02d2a7571614	295	pc.printf("Enter axis to give set point\r\n");
jebradshaw	0:02d2a7571614	296	pc.scanf("%c",&c);
jebradshaw	0:02d2a7571614	297	switch(c){
jebradshaw	0:02d2a7571614	298	case '1':
jebradshaw	0:02d2a7571614	299	pc.printf("Enter value for set point axis 1\r\n");
jebradshaw	0:02d2a7571614	300	pc.scanf("%f",&axis1.set_point);
jebradshaw	0:02d2a7571614	301	pc.printf("%f\r\n",axis1.set_point);
jebradshaw	0:02d2a7571614	302	t.reset();
jebradshaw	0:02d2a7571614	303	while((axis1.enc > (axis1.set_point + 100)) \|\| (axis1.enc < (axis1.set_point - 100))){
jebradshaw	0:02d2a7571614	304	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n", t.read(), axis1.set_point, axis1.co, axis1.pos, axis1.vel, axis1.acc);
jebradshaw	0:02d2a7571614	305	wait(.009);
jebradshaw	0:02d2a7571614	306	}
jebradshaw	0:02d2a7571614	307	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n\n", t.read(), axis1.set_point, axis1.co, axis1.pos, axis1.vel, axis1.acc);
jebradshaw	0:02d2a7571614	308
jebradshaw	0:02d2a7571614	309	break;
jebradshaw	0:02d2a7571614	310
jebradshaw	0:02d2a7571614	311	case '2':
jebradshaw	0:02d2a7571614	312	pc.printf("Enter value for set point axis 2\r\n");
jebradshaw	0:02d2a7571614	313	pc.scanf("%f",&axis2.set_point);
jebradshaw	0:02d2a7571614	314	pc.printf("%f\r\n",axis2.set_point);
jebradshaw	0:02d2a7571614	315	t.reset();
jebradshaw	0:02d2a7571614	316	while((axis2.enc > (axis2.set_point + 100)) \|\| (axis2.enc < (axis2.set_point - 100))){
jebradshaw	0:02d2a7571614	317	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n", t.read(), axis2.set_point, axis2.co, axis2.pos, axis2.vel, axis2.acc);
jebradshaw	0:02d2a7571614	318	wait(.009);
jebradshaw	0:02d2a7571614	319	}
jebradshaw	0:02d2a7571614	320	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n\n", t.read(), axis2.set_point, axis2.co, axis2.pos, axis2.vel, axis2.acc);
jebradshaw	0:02d2a7571614	321	break;
jebradshaw	0:02d2a7571614	322
jebradshaw	0:02d2a7571614	323	case '3':
jebradshaw	0:02d2a7571614	324	pc.printf("Enter value for set point axis 3\r\n");
jebradshaw	0:02d2a7571614	325	pc.scanf("%f",&axis3.set_point);
jebradshaw	0:02d2a7571614	326	pc.printf("%f\r\n",axis3.set_point);
jebradshaw	0:02d2a7571614	327	t.reset();
jebradshaw	0:02d2a7571614	328	while((axis3.enc > (axis3.set_point + 100)) \|\| (axis3.enc < (axis3.set_point - 100))){
jebradshaw	0:02d2a7571614	329	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n", t.read(), axis3.set_point, axis3.co, axis3.pos, axis3.vel, axis3.acc);
jebradshaw	0:02d2a7571614	330	wait(.009);
jebradshaw	0:02d2a7571614	331	}
jebradshaw	0:02d2a7571614	332	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n\n", t.read(), axis3.set_point, axis3.co, axis3.pos, axis3.vel, axis3.acc);
jebradshaw	0:02d2a7571614	333	break;
jebradshaw	0:02d2a7571614	334
jebradshaw	0:02d2a7571614	335	case '4':
jebradshaw	0:02d2a7571614	336	pc.printf("Enter value for set point axis 4\r\n");
jebradshaw	0:02d2a7571614	337	pc.scanf("%f",&axis4.set_point);
jebradshaw	0:02d2a7571614	338	pc.printf("%f\r\n",axis4.set_point);
jebradshaw	0:02d2a7571614	339	t.reset();
jebradshaw	0:02d2a7571614	340	while((axis4.enc > (axis4.set_point + 100)) \|\| (axis4.enc < (axis4.set_point - 100))){
jebradshaw	0:02d2a7571614	341	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n", t.read(), axis4.set_point, axis4.co, axis4.pos, axis4.vel, axis4.acc);
jebradshaw	0:02d2a7571614	342	wait(.009);
jebradshaw	0:02d2a7571614	343	}
jebradshaw	0:02d2a7571614	344	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n\n", t.read(), axis4.set_point, axis4.co, axis4.pos, axis4.vel, axis4.acc);
jebradshaw	0:02d2a7571614	345	break;
jebradshaw	0:02d2a7571614	346
jebradshaw	0:02d2a7571614	347	case '5':
jebradshaw	0:02d2a7571614	348	pc.printf("Enter value for set point axis 5\r\n");
jebradshaw	0:02d2a7571614	349	pc.scanf("%f",&axis5.set_point);
jebradshaw	0:02d2a7571614	350	pc.printf("%f\r\n",axis5.set_point);
jebradshaw	0:02d2a7571614	351	t.reset();
jebradshaw	0:02d2a7571614	352	while((axis5.enc > (axis5.set_point + 100)) \|\| (axis5.enc < (axis5.set_point - 100))){
jebradshaw	0:02d2a7571614	353	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n", t.read(), axis5.set_point, axis5.co, axis5.pos, axis5.vel, axis5.acc);
jebradshaw	0:02d2a7571614	354	wait(.009);
jebradshaw	0:02d2a7571614	355	}
jebradshaw	0:02d2a7571614	356	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n\n", t.read(), axis5.set_point, axis5.co, axis5.pos, axis5.vel, axis5.acc);
jebradshaw	0:02d2a7571614	357	break;
jebradshaw	0:02d2a7571614	358
jebradshaw	0:02d2a7571614	359	case '6':
jebradshaw	0:02d2a7571614	360	pc.printf("Enter value for set point axis 6\r\n");
jebradshaw	0:02d2a7571614	361	pc.scanf("%f",&axis6.set_point);
jebradshaw	0:02d2a7571614	362	pc.printf("%f\r\n",axis6.set_point);
jebradshaw	0:02d2a7571614	363	t.reset();
jebradshaw	0:02d2a7571614	364	while((axis6.enc > (axis6.set_point + 100)) \|\| (axis6.enc < (axis6.set_point - 100))){
jebradshaw	0:02d2a7571614	365	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n", t.read(), axis6.set_point, axis6.co, axis6.pos, axis6.vel, axis6.acc);
jebradshaw	0:02d2a7571614	366	wait(.009);
jebradshaw	0:02d2a7571614	367	}
jebradshaw	0:02d2a7571614	368	pc.printf("T=%.2f SP=%.3f co=%.3f pos=%.3f vel=%.3f acc=%.3f \r\n\n", t.read(), axis6.set_point, axis6.co, axis6.pos, axis6.vel, axis6.acc);
jebradshaw	0:02d2a7571614	369	break;
jebradshaw	0:02d2a7571614	370	}
jebradshaw	0:02d2a7571614	371	}
jebradshaw	0:02d2a7571614	372	if(c == 'P' \|\| c == 'p')
jebradshaw	0:02d2a7571614	373	{
jebradshaw	0:02d2a7571614	374	pc.printf("Enter value for Pk\r\n");
jebradshaw	0:02d2a7571614	375	pc.scanf("%f",&axis1.Pk);
jebradshaw	0:02d2a7571614	376	pc.printf("%f\r\n",axis1.Pk);
jebradshaw	0:02d2a7571614	377	}
jebradshaw	0:02d2a7571614	378	if(c == 'I' \|\| c == 'i')
jebradshaw	0:02d2a7571614	379	{
jebradshaw	0:02d2a7571614	380	pc.printf("Enter value for Ik\r\n");
jebradshaw	0:02d2a7571614	381	pc.scanf("%f",&axis1.Ik);
jebradshaw	0:02d2a7571614	382	pc.printf("%f\r\n",axis1.Ik);
jebradshaw	0:02d2a7571614	383	}
jebradshaw	0:02d2a7571614	384	if(c == 'D' \|\| c == 'd')
jebradshaw	0:02d2a7571614	385	{
jebradshaw	0:02d2a7571614	386	pc.printf("Enter value for Dk\r\n");
jebradshaw	0:02d2a7571614	387	pc.scanf("%f",&axis1.Dk);
jebradshaw	0:02d2a7571614	388	pc.printf("%f\r\n",axis1.Dk);
jebradshaw	0:02d2a7571614	389	}
jebradshaw	0:02d2a7571614	390	if(c == 'Z' \|\| c == 'z')
jebradshaw	0:02d2a7571614	391	{
jebradshaw	0:02d2a7571614	392	pc.printf("Enter axis to zero\r\n");
jebradshaw	0:02d2a7571614	393	pc.scanf("%c",&c);
jebradshaw	0:02d2a7571614	394	switch(c){
jebradshaw	0:02d2a7571614	395	case '1':
jebradshaw	0:02d2a7571614	396	axis1.ls7366->LS7366_reset_counter();
jebradshaw	0:02d2a7571614	397	axis1.ls7366->LS7366_quad_mode_x4();
jebradshaw	0:02d2a7571614	398	axis1.ls7366->LS7366_write_DTR(0);
jebradshaw	0:02d2a7571614	399
jebradshaw	0:02d2a7571614	400	axis1.set_point = 0.0;
jebradshaw	0:02d2a7571614	401	axis1.pid->setSetPoint(0);
jebradshaw	0:02d2a7571614	402	break;
jebradshaw	0:02d2a7571614	403
jebradshaw	0:02d2a7571614	404	case '2':
jebradshaw	0:02d2a7571614	405	axis2.ls7366->LS7366_reset_counter();
jebradshaw	0:02d2a7571614	406	axis2.ls7366->LS7366_quad_mode_x4();
jebradshaw	0:02d2a7571614	407	axis2.ls7366->LS7366_write_DTR(0);
jebradshaw	0:02d2a7571614	408
jebradshaw	0:02d2a7571614	409	axis2.set_point = 0.0;
jebradshaw	0:02d2a7571614	410	axis2.pid->setSetPoint(0);
jebradshaw	0:02d2a7571614	411	break;
jebradshaw	0:02d2a7571614	412
jebradshaw	0:02d2a7571614	413	case '3':
jebradshaw	0:02d2a7571614	414	axis3.ls7366->LS7366_reset_counter();
jebradshaw	0:02d2a7571614	415	axis3.ls7366->LS7366_quad_mode_x4();
jebradshaw	0:02d2a7571614	416	axis3.ls7366->LS7366_write_DTR(0);
jebradshaw	0:02d2a7571614	417
jebradshaw	0:02d2a7571614	418	axis3.set_point = 0.0;
jebradshaw	0:02d2a7571614	419	axis3.pid->setSetPoint(0);
jebradshaw	0:02d2a7571614	420	break;
jebradshaw	0:02d2a7571614	421
jebradshaw	0:02d2a7571614	422	case '4':
jebradshaw	0:02d2a7571614	423	axis4.ls7366->LS7366_reset_counter();
jebradshaw	0:02d2a7571614	424	axis4.ls7366->LS7366_quad_mode_x4();
jebradshaw	0:02d2a7571614	425	axis4.ls7366->LS7366_write_DTR(0);
jebradshaw	0:02d2a7571614	426
jebradshaw	0:02d2a7571614	427	axis4.set_point = 0.0;
jebradshaw	0:02d2a7571614	428	axis4.pid->setSetPoint(0);
jebradshaw	0:02d2a7571614	429	break;
jebradshaw	0:02d2a7571614	430
jebradshaw	0:02d2a7571614	431	case '5':
jebradshaw	0:02d2a7571614	432	axis5.ls7366->LS7366_reset_counter();
jebradshaw	0:02d2a7571614	433	axis5.ls7366->LS7366_quad_mode_x4();
jebradshaw	0:02d2a7571614	434	axis5.ls7366->LS7366_write_DTR(0);
jebradshaw	0:02d2a7571614	435
jebradshaw	0:02d2a7571614	436	axis5.set_point = 0.0;
jebradshaw	0:02d2a7571614	437	axis5.pid->setSetPoint(0);
jebradshaw	0:02d2a7571614	438	break;
jebradshaw	0:02d2a7571614	439
jebradshaw	0:02d2a7571614	440	case '6':
jebradshaw	0:02d2a7571614	441	axis6.ls7366->LS7366_reset_counter();
jebradshaw	0:02d2a7571614	442	axis6.ls7366->LS7366_quad_mode_x4();
jebradshaw	0:02d2a7571614	443	axis6.ls7366->LS7366_write_DTR(0);
jebradshaw	0:02d2a7571614	444
jebradshaw	0:02d2a7571614	445	axis6.set_point = 0.0;
jebradshaw	0:02d2a7571614	446	axis6.pid->setSetPoint(0);
jebradshaw	0:02d2a7571614	447	break;
jebradshaw	0:02d2a7571614	448	}
jebradshaw	0:02d2a7571614	449
jebradshaw	0:02d2a7571614	450	}
jebradshaw	0:02d2a7571614	451	if(c == ' ')
jebradshaw	0:02d2a7571614	452	{
jebradshaw	0:02d2a7571614	453	axis1.ls7366->LS7366_reset_counter();
jebradshaw	0:02d2a7571614	454	axis1.ls7366->LS7366_quad_mode_x4();
jebradshaw	0:02d2a7571614	455	axis1.ls7366->LS7366_write_DTR(0);
jebradshaw	0:02d2a7571614	456
jebradshaw	0:02d2a7571614	457	//read encoder values
jebradshaw	0:02d2a7571614	458	axis1.enc = axis1.ls7366->LS7366_read_counter();
jebradshaw	0:02d2a7571614	459	//long enc2 = LS7366_read_counter(2);
jebradshaw	0:02d2a7571614	460
jebradshaw	0:02d2a7571614	461	//resets the controllers internals
jebradshaw	0:02d2a7571614	462	axis1.pid->reset();
jebradshaw	0:02d2a7571614	463	//start at 0
jebradshaw	0:02d2a7571614	464	axis1.set_point = 0.0;
jebradshaw	0:02d2a7571614	465	axis1.pid->setSetPoint(0);
jebradshaw	0:02d2a7571614	466	}
jebradshaw	0:02d2a7571614	467
jebradshaw	0:02d2a7571614	468	//----- axis1.pid->setTunings(axis1.Pk, axis1.Ik, axis1.Dk);
jebradshaw	0:02d2a7571614	469	//T1_P = 0.0;
jebradshaw	0:02d2a7571614	470	//T1_I = 0.0; //reset integral
jebradshaw	0:02d2a7571614	471	//controller.reset();
jebradshaw	0:02d2a7571614	472	}
jebradshaw	0:02d2a7571614	473
jebradshaw	0:02d2a7571614	474	if((axis1.moveState==0) && (axis2.moveState==0) && (axis3.moveState==0) && (axis4.moveState==0) && (axis5.moveState==0) && (axis6.moveState==0)){
jebradshaw	0:02d2a7571614	475	pc.printf("%.2f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f,%.1f\r\n", t.read(), axis1.set_point, axis1.pos, axis2.set_point, axis2.pos,
jebradshaw	0:02d2a7571614	476	axis3.set_point, axis3.pos, axis4.set_point, axis4.pos,axis5.set_point, axis5.pos, axis6.set_point, axis6.pos);
jebradshaw	0:02d2a7571614	477	led2 = 0;
jebradshaw	0:02d2a7571614	478	}
jebradshaw	0:02d2a7571614	479	else
jebradshaw	0:02d2a7571614	480	led2 = 1;
jebradshaw	0:02d2a7571614	481
jebradshaw	0:02d2a7571614	482	wait(.02);
jebradshaw	0:02d2a7571614	483	}//while(1)
jebradshaw	0:02d2a7571614	484	}//main

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	17 Dec 2015
Imports:	19
Forks:	0
Commits:	5
Dependents:	0
Dependencies:	2
Followers:	6

lpc_axis.cpp@0:02d2a7571614, 2015-09-25 (annotated)

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