WebSVN – MLAB – Blame – /Modules/H_Bridge/HBSTEP01B/SW/I2CSPI_HBSTEP

Rev	Author	Line No.	Line
4448	kaklik	1	`#!/usr/bin/python`
		2	`# -------------------------------------------`
		3	`# HBSTEP01B Stepper Motor control test code`
		4	`# -------------------------------------------`
4449	kaklik	5	`#`
		6	`# Program uses MLAB Python modules library from https://github.com/MLAB-project/pymlab`
4448	kaklik	7
4449	kaklik	8
4448	kaklik	9	`#uncomment for debbug purposes`
		10	`#import logging`
		11	`#logging.basicConfig(level=logging.DEBUG)`
		12
		13	`import sys`
		14	`import time`
		15	`from pymlab import config`
		16
		17
		18
		19	`#### Script Arguments ###############################################`
		20
		21	`if len(sys.argv) < 2:`
		22	`sys.stderr.write("Invalid number of arguments.\n")`
		23	`sys.stderr.write("Usage: %s PORT ADDRESS SPEED MOVE_DISTANCE\n" % (sys.argv[0], ))`
		24	`sys.exit(1)`
		25
		26	`elif len(sys.argv) == 2:`
		27	`PORT = eval(sys.argv[1])`
		28	`SPEED = 5`
		29	`DISTANCE = 50`
		30
4450	kaklik	31	`elif len(sys.argv) == 3:`
4448	kaklik	32	`SPEED = eval(sys.argv[2])`
		33	`DISTANCE = 100`
		34
4450	kaklik	35	`elif len(sys.argv) == 4:`
4448	kaklik	36	`SPEED = eval(sys.argv[2])`
		37	`DISTANCE = eval(sys.argv[3])`
		38
		39	`else:`
		40	`PORT = 0`
		41	`SPEED = 10`
4450	kaklik	42	`DISTANCE = 50`
4448	kaklik	43
		44
		45	`class axis:`
		46	`def __init__(self, SPI_CS, Direction, StepsPerUnit):`
		47	`' One axis of robot '`
		48	`self.CS = SPI_CS`
		49	`self.Dir = Direction`
		50	`self.SPU = StepsPerUnit`
		51	`self.Reset()`
		52
		53	`def Reset(self):`
		54	`' Reset Axis and set default parameters for H-bridge '`
		55	`spi.SPI_write_byte(self.CS, 0xC0) # reset`
		56	`# spi.SPI_write_byte(self.CS, 0x14) # Stall Treshold setup`
		57	`# spi.SPI_write_byte(self.CS, 0xFF)`
		58	`# spi.SPI_write_byte(self.CS, 0x13) # Over Current Treshold setup`
		59	`# spi.SPI_write_byte(self.CS, 0xFF)`
		60	`spi.SPI_write_byte(self.CS, 0x15) # Full Step speed`
		61	`spi.SPI_write_byte(self.CS, 0xFF)`
		62	`spi.SPI_write_byte(self.CS, 0xFF)`
		63	`spi.SPI_write_byte(self.CS, 0x05) # ACC`
		64	`spi.SPI_write_byte(self.CS, 0x00)`
		65	`spi.SPI_write_byte(self.CS, 0x10)`
		66	`spi.SPI_write_byte(self.CS, 0x06) # DEC`
		67	`spi.SPI_write_byte(self.CS, 0x00)`
		68	`spi.SPI_write_byte(self.CS, 0x10)`
		69	`spi.SPI_write_byte(self.CS, 0x0A) # KVAL_RUN`
4449	kaklik	70	`spi.SPI_write_byte(self.CS, 0xFF)`
4448	kaklik	71	`spi.SPI_write_byte(self.CS, 0x0B) # KVAL_ACC`
4449	kaklik	72	`spi.SPI_write_byte(self.CS, 0xFF)`
4448	kaklik	73	`spi.SPI_write_byte(self.CS, 0x0C) # KVAL_DEC`
4449	kaklik	74	`spi.SPI_write_byte(self.CS, 0xFF)`
4448	kaklik	75	`spi.SPI_write_byte(self.CS, 0x18) # CONFIG`
		76	`spi.SPI_write_byte(self.CS, 0b00111000)`
		77	`spi.SPI_write_byte(self.CS, 0b00000000)`
		78
		79	`def MaxSpeed(self, speed):`
		80	`' Setup of maximum speed '`
		81	`spi.SPI_write_byte(self.CS, 0x07) # Max Speed setup`
		82	`spi.SPI_write_byte(self.CS, 0x00)`
		83	`spi.SPI_write_byte(self.CS, speed)`
		84
		85	`def ReleaseSW(self):`
		86	`' Go away from Limit Switch '`
		87	`while self.ReadStatusBit(2) == 1: # is Limit Switch ON ?`
		88	`spi.SPI_write_byte(self.CS, 0x92 \| (~self.Dir & 1)) # release SW`
		89	`while self.IsBusy():`
		90	`pass`
		91	`self.MoveWait(10) # move 10 units away`
		92
		93	`def GoZero(self, speed):`
		94	`' Go to Zero position '`
		95	`self.ReleaseSW()`
		96
		97	`spi.SPI_write_byte(self.CS, 0x82 \| (self.Dir & 1)) # Go to Zero`
		98	`spi.SPI_write_byte(self.CS, 0x00)`
		99	`spi.SPI_write_byte(self.CS, speed)`
		100	`while self.IsBusy():`
		101	`pass`
		102	`time.sleep(0.3)`
		103	`self.ReleaseSW()`
		104
		105	`def Move(self, units):`
		106	`' Move some distance units from current position '`
		107	`steps = units * self.SPU # translate units to steps`
		108	`if steps > 0: # look for direction`
		109	`spi.SPI_write_byte(self.CS, 0x40 \| (~self.Dir & 1))`
		110	`else:`
		111	`spi.SPI_write_byte(self.CS, 0x40 \| (self.Dir & 1))`
		112	`steps = int(abs(steps))`
		113	`spi.SPI_write_byte(self.CS, (steps >> 16) & 0xFF)`
		114	`spi.SPI_write_byte(self.CS, (steps >> 8) & 0xFF)`
		115	`spi.SPI_write_byte(self.CS, steps & 0xFF)`
		116
		117	`def MoveWait(self, units):`
		118	`' Move some distance units from current position and wait for execution '`
		119	`self.Move(units)`
		120	`while self.IsBusy():`
		121	`pass`
		122
		123	`def Float(self):`
		124	`' switch H-bridge to High impedance state '`
		125	`spi.SPI_write_byte(self.CS, 0xA0)`
		126
		127	`def ReadStatusBit(self, bit):`
		128	`' Report given status bit '`
		129	`spi.SPI_write_byte(self.CS, 0x39) # Read from address 0x19 (STATUS)`
		130	`spi.SPI_write_byte(self.CS, 0x00)`
		131	`data0 = spi.SPI_read_byte() # 1st byte`
		132	`spi.SPI_write_byte(self.CS, 0x00)`
		133	`data1 = spi.SPI_read_byte() # 2nd byte`
		134	`#print hex(data0), hex(data1)`
		135	`if bit > 7: # extract requested bit`
		136	`OutputBit = (data0 >> (bit - 8)) & 1`
		137	`else:`
		138	`OutputBit = (data1 >> bit) & 1`
		139	`return OutputBit`
		140
		141
		142	`def IsBusy(self):`
		143	`""" Return True if tehre are motion """`
		144	`if self.ReadStatusBit(1) == 1:`
		145	`return False`
		146	`else:`
		147	`return True`
		148
		149	`# End Class axis --------------------------------------------------`
		150
		151
		152
		153	`cfg = config.Config(`
		154	`i2c = {`
		155	`"port": 1,`
		156	`},`
		157
		158	`bus = [`
		159	`{`
		160	`"name":"spi",`
		161	`"type":"i2cspi",`
		162	`"address": 0x2e,`
		163	`},`
		164	`],`
		165	`)`
		166
		167
		168	`cfg.initialize()`
		169
		170	`print "Stepper motor control test started. \r\n"`
4450	kaklik	171	`print "Max motor speed: %d " % SPEED`
		172	`print "Distance to run: %d " % DISTANCE`
4448	kaklik	173
		174	`spi = cfg.get_device("spi")`
		175
		176	`spi.route()`
		177
		178	`try:`
		179	`print "SPI configuration.."`
		180	`spi.SPI_config(spi.I2CSPI_MSB_FIRST\| spi.I2CSPI_MODE_CLK_IDLE_HIGH_DATA_EDGE_TRAILING\| spi.I2CSPI_CLK_461kHz)`
		181	`time.sleep(1)`
		182
		183	`print "Axis inicialization"`
		184	`X = axis(spi.I2CSPI_SS0, 0, 641) # set Number of Steps per axis Unit and set Direction of Rotation`
		185	`X.MaxSpeed(SPEED) # set maximal motor speed`
		186
		187	`print "Axis is running"`
		188
		189	`for i in range(5):`
4450	kaklik	190	`print i`
4448	kaklik	191	`X.MoveWait(DISTANCE) # move forward and wait for motor stop`
4450	kaklik	192	`print "Changing direction of rotation.."`
4448	kaklik	193	`X.MoveWait(-DISTANCE) # move backward and wait for motor stop`
4450	kaklik	194	`print "Changing direction of rotation.."`
4448	kaklik	195
		196	`X.Float() # release power`
		197
		198
		199	`finally:`
		200	`print "stop"`

Subversion Repositories – MLAB

(root)/Modules/H_Bridge/HBSTEP01B/SW/I2CSPI_HBSTEP_test.py @ 4622

Rev