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#!/usr/bin/python |
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#!/usr/bin/python |
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# ------------------------------------------- |
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# ------------------------------------------- |
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# HBSTEP01B Stepper Motor control test code |
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# HBSTEP01B Stepper Motor control test code |
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# ------------------------------------------- |
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# ------------------------------------------- |
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# |
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# |
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# Program uses MLAB Python modules library from https://github.com/MLAB-project/pymlab |
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# Program uses MLAB Python modules library from https://github.com/MLAB-project/pymlab |
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|
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|
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|
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|
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#uncomment for debbug purposes |
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#uncomment for debbug purposes |
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import logging |
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import logging |
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logging.basicConfig(level=logging.DEBUG) |
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logging.basicConfig(level=logging.DEBUG) |
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|
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|
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import sys |
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import sys |
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import time |
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import time |
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import spidev # SPI binding |
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import spidev # SPI binding |
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import pylirc # infrared receiver binding |
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import pylirc # infrared receiver binding |
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|
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|
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#### Script Arguments ############################################### |
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#### Script Arguments ############################################### |
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|
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|
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if len(sys.argv) == 2: |
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if len(sys.argv) == 2: |
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SPEED = eval(sys.argv[1]) |
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SPEED = eval(sys.argv[1]) |
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|
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|
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else: |
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else: |
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sys.stderr.write("Invalid number of arguments.\n") |
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sys.stderr.write("Invalid number of arguments.\n") |
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sys.stderr.write("Usage: %s BASE_SPEED (in steps/s)\n" % (sys.argv[0], )) |
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sys.stderr.write("Usage: %s BASE_SPEED (in steps/s)\n" % (sys.argv[0], )) |
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sys.exit(1) |
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sys.exit(1) |
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|
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|
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|
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|
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class axis: |
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class axis: |
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def __init__(self, SPI_handler, Direction, StepsPerUnit): |
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def __init__(self, SPI_handler, Direction, StepsPerUnit): |
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' One axis of robot ' |
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' One axis of robot ' |
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self.spi = SPI_handler |
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self.spi = SPI_handler |
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self.Dir = Direction |
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self.Dir = Direction |
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self.SPU = StepsPerUnit |
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self.SPU = StepsPerUnit |
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self.Reset() |
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self.Reset() |
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self.Initialize() |
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self.Initialize() |
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|
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|
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def Reset(self): |
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def Reset(self): |
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'Reset the Axis' |
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'Reset the Axis' |
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self.spi.xfer([0xC0]) # reset |
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self.spi.xfer([0xC0]) # reset |
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|
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|
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def Initialize(self): |
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def Initialize(self): |
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'set default parameters for H-bridge ' |
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'set default parameters for H-bridge ' |
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# self.spi.xfer( 0x14) # Stall Treshold setup |
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# self.spi.xfer( 0x14) # Stall Treshold setup |
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# self.spi.xfer( 0xFF) |
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# self.spi.xfer( 0xFF) |
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# self.spi.xfer( 0x13) # Over Current Treshold setup |
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# self.spi.xfer( 0x13) # Over Current Treshold setup |
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# self.spi.xfer( 0xFF) |
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# self.spi.xfer( 0xFF) |
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self.spi.xfer([0x15]) # Full Step speed |
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self.spi.xfer([0x15]) # Full Step speed |
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self.spi.xfer([0xFF]) |
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self.spi.xfer([0xFF]) |
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self.spi.xfer([0xFF]) |
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self.spi.xfer([0xFF]) |
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self.spi.xfer([0x05]) # ACC |
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self.spi.xfer([0x05]) # ACC |
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self.spi.xfer([0x00]) |
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self.spi.xfer([0x00]) |
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self.spi.xfer([0x10]) |
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self.spi.xfer([0x10]) |
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self.spi.xfer([0x06]) # DEC |
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self.spi.xfer([0x06]) # DEC |
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self.spi.xfer([0x00]) |
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self.spi.xfer([0x00]) |
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self.spi.xfer([0x10]) |
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self.spi.xfer([0x10]) |
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self.spi.xfer([0x0A]) # KVAL_RUN |
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self.spi.xfer([0x0A]) # KVAL_RUN |
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self.spi.xfer([0x50]) |
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self.spi.xfer([0x50]) |
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self.spi.xfer([0x0B]) # KVAL_ACC |
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self.spi.xfer([0x0B]) # KVAL_ACC |
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self.spi.xfer([0x50]) |
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self.spi.xfer([0x50]) |
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self.spi.xfer([0x0C]) # KVAL_DEC |
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self.spi.xfer([0x0C]) # KVAL_DEC |
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self.spi.xfer([0x50]) |
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self.spi.xfer([0x50]) |
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self.spi.xfer([0x18]) # CONFIG |
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self.spi.xfer([0x18]) # CONFIG |
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self.spi.xfer([0b00111000]) |
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self.spi.xfer([0b00111000]) |
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self.spi.xfer([0b00000110]) |
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self.spi.xfer([0b00000110]) |
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|
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|
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def MaxSpeed(self, speed): |
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def MaxSpeed(self, speed): |
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'Setup of maximum speed in steps/s' |
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'Setup of maximum speed in steps/s' |
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speed_value = int(speed / 15.25) |
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speed_value = int(speed / 15.25) |
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if (speed_value == 0): |
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if (speed_value == 0): |
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speed_value = 1 |
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speed_value = 1 |
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print hex(speed_value) |
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print hex(speed_value) |
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|
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|
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data = [(speed_value >> i & 0xff) for i in (16,8,0)] |
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data = [(speed_value >> i & 0xff) for i in (16,8,0)] |
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self.spi.xfer([data[0]]) # Max Speed setup |
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self.spi.xfer([data[0]]) # Max Speed setup |
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self.spi.xfer([data[1]]) |
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self.spi.xfer([data[1]]) |
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self.spi.xfer([data[2]]) |
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self.spi.xfer([data[2]]) |
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return (speed_value * 15.25) |
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return (speed_value * 15.25) |
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|
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|
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def ReleaseSW(self): |
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def ReleaseSW(self): |
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' Go away from Limit Switch ' |
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' Go away from Limit Switch ' |
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while self.ReadStatusBit(2) == 1: # is Limit Switch ON ? |
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while self.ReadStatusBit(2) == 1: # is Limit Switch ON ? |
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self.spi.xfer([0x92 | (~self.Dir & 1)]) # release SW |
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self.spi.xfer([0x92 | (~self.Dir & 1)]) # release SW |
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while self.GetStatus()['BUSY']: |
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while self.GetStatus()['BUSY']: |
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pass |
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pass |
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self.MoveWait(10) # move 10 units away |
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self.MoveWait(10) # move 10 units away |
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|
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|
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def GoZero(self, speed): |
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def GoZero(self, speed): |
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' Go to Zero position ' |
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' Go to Zero position ' |
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self.ReleaseSW() |
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self.ReleaseSW() |
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self.spi.xfer([0x82 | (self.Dir & 1)]) # Go to Zero |
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self.spi.xfer([0x82 | (self.Dir & 1)]) # Go to Zero |
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self.spi.xfer([0x00]) |
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self.spi.xfer([0x00]) |
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self.spi.xfer([speed]) |
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self.spi.xfer([speed]) |
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while self.GetStatus()['BUSY']: |
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while self.GetStatus()['BUSY']: |
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pass |
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pass |
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time.sleep(0.3) |
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time.sleep(0.3) |
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self.ReleaseSW() |
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self.ReleaseSW() |
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|
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|
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def GetStatus(self): |
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def GetStatus(self): |
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#self.spi.xfer([0b11010000]) # Get status command from datasheet - does not work for uknown rasons |
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#self.spi.xfer([0b11010000]) # Get status command from datasheet - does not work for uknown rasons |
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self.spi.xfer([0x39]) # Gotparam command on status register |
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self.spi.xfer([0x39]) # Gotparam command on status register |
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data = self.spi.readbytes(1) |
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data = self.spi.readbytes(1) |
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data = data + self.spi.readbytes(1) |
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data = data + self.spi.readbytes(1) |
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|
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|
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status = dict([('SCK_MOD',data[0] & 0x80 == 0x80), #The SCK_MOD bit is an active high flag indicating that the device is working in Step-clock mode. In this case the step-clock signal should be provided through the STCK input pin. The DIR bit indicates the current motor direction |
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status = dict([('SCK_MOD',data[0] & 0x80 == 0x80), #The SCK_MOD bit is an active high flag indicating that the device is working in Step-clock mode. In this case the step-clock signal should be provided through the STCK input pin. The DIR bit indicates the current motor direction |
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('STEP_LOSS_B',data[0] & 0x40 == 0x40), |
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('STEP_LOSS_B',data[0] & 0x40 == 0x40), |
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('STEP_LOSS_A',data[0] & 0x20 == 0x20), |
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('STEP_LOSS_A',data[0] & 0x20 == 0x20), |
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('OCD',data[0] & 0x10 == 0x10), |
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('OCD',data[0] & 0x10 == 0x10), |
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('TH_SD',data[0] & 0x08 == 0x08), |
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('TH_SD',data[0] & 0x08 == 0x08), |
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('TH_WRN',data[0] & 0x04 == 0x04), |
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('TH_WRN',data[0] & 0x04 == 0x04), |
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('UVLO',data[0] & 0x02 == 0x02), |
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('UVLO',data[0] & 0x02 == 0x02), |
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('WRONG_CMD',data[0] & 0x01 == 0x01), #The NOTPERF_CMD and WRONG_CMD flags are active high and indicate, respectively, that the command received by SPI cannot be performed or does not exist at all. |
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('WRONG_CMD',data[0] & 0x01 == 0x01), #The NOTPERF_CMD and WRONG_CMD flags are active high and indicate, respectively, that the command received by SPI cannot be performed or does not exist at all. |
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('NOTPERF_CMD',data[1] & 0x80 == 0x80), |
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('NOTPERF_CMD',data[1] & 0x80 == 0x80), |
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('MOT_STATUS',data[1] & 0x60), |
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('MOT_STATUS',data[1] & 0x60), |
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('DIR',data[1] & 0x10 == 0x10), |
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('DIR',data[1] & 0x10 == 0x10), |
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('SW_EVN',data[1] & 0x08 == 0x08), |
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('SW_EVN',data[1] & 0x08 == 0x08), |
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('SW_F',data[1] & 0x04 == 0x04), #The SW_F flag reports the SW input status (low for open and high for closed). |
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('SW_F',data[1] & 0x04 == 0x04), #The SW_F flag reports the SW input status (low for open and high for closed). |
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('BUSY',data[1] & 0x02 != 0x02), |
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('BUSY',data[1] & 0x02 != 0x02), |
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('HIZ',data[1] & 0x01 == 0x01)]) |
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('HIZ',data[1] & 0x01 == 0x01)]) |
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return status |
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return status |
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|
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|
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def Move(self, units): |
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def Move(self, units): |
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' Move some distance units from current position ' |
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' Move some distance units from current position ' |
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steps = units * self.SPU # translate units to steps |
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steps = units * self.SPU # translate units to steps |
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if steps > 0: # look for direction |
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if steps > 0: # look for direction |
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self.spi.xfer([0x40 | (~self.Dir & 1)]) |
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self.spi.xfer([0x40 | (~self.Dir & 1)]) |
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else: |
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else: |
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self.spi.xfer([0x40 | (self.Dir & 1)]) |
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self.spi.xfer([0x40 | (self.Dir & 1)]) |
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steps = int(abs(steps)) |
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steps = int(abs(steps)) |
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self.spi.xfer([(steps >> 16) & 0xFF]) |
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self.spi.xfer([(steps >> 16) & 0xFF]) |
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self.spi.xfer([(steps >> 8) & 0xFF]) |
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self.spi.xfer([(steps >> 8) & 0xFF]) |
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self.spi.xfer([steps & 0xFF]) |
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self.spi.xfer([steps & 0xFF]) |
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|
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|
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def Run(self, direction, speed): |
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def Run(self, direction, speed): |
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speed_value = int(speed / 0.015) |
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speed_value = int(speed / 0.015) |
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print speed_value |
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print speed_value |
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|
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|
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data = [0b01010000 + direction] |
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data = [0b01010000 + direction] |
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data = data +[(speed_value >> i & 0xff) for i in (16,8,0)] |
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data = data +[(speed_value >> i & 0xff) for i in (16,8,0)] |
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self.spi.xfer([data[0]]) # Max Speed setup |
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self.spi.xfer([data[0]]) # Max Speed setup |
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self.spi.xfer([data[1]]) |
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self.spi.xfer([data[1]]) |
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self.spi.xfer([data[2]]) |
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self.spi.xfer([data[2]]) |
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self.spi.xfer([data[3]]) |
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self.spi.xfer([data[3]]) |
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return (speed_value * 0.015) |
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return (speed_value * 0.015) |
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|
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|
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def MoveWait(self, units): |
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def MoveWait(self, units): |
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' Move some distance units from current position and wait for execution ' |
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' Move some distance units from current position and wait for execution ' |
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self.Move(units) |
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self.Move(units) |
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while self.GetStatus()['BUSY']: |
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while self.GetStatus()['BUSY']: |
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pass |
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pass |
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time.sleep(0.8) |
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time.sleep(0.8) |
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|
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|
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def Float(self, hard = False): |
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def Float(self, hard = False): |
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' switch H-bridge to High impedance state ' |
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' switch H-bridge to High impedance state ' |
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if (hard == False): |
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if (hard == False): |
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self.spi.xfer([0xA0]) |
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self.spi.xfer([0xA0]) |
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else: |
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else: |
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self.spi.xfer([0xA8]) |
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self.spi.xfer([0xA8]) |
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|
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|
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|
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|
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# End Class axis -------------------------------------------------- |
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# End Class axis -------------------------------------------------- |
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|
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|
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print "Clock motor control script started. \r\n" |
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print "Clock motor control script started. \r\n" |
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print "Requested speed is: %f steps/s" % SPEED |
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print "Requested speed is: %f steps/s" % SPEED |
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|
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|
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pylirc.init("pylirc", "/home/odroid/conf") |
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pylirc.init("pylirc", "/home/odroid/conf") |
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|
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|
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try: |
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try: |
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print "Configuring SPI.." |
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print "Configuring SPI.." |
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spi = spidev.SpiDev() # create a spi object |
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spi = spidev.SpiDev() # create a spi object |
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spi.open(0, 0) # open spi port 0, device (CS) 0 |
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spi.open(0, 0) # open spi port 0, device (CS) 0 |
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spi.mode = 0b01 |
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spi.mode = 0b01 |
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spi.lsbfirst = False |
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spi.lsbfirst = False |
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spi.bits_per_word = 8 |
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spi.bits_per_word = 8 |
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spi.cshigh = False |
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spi.cshigh = False |
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spi.max_speed_hz = 100000 |
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spi.max_speed_hz = 100000 |
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#spi.SPI_config(spi.I2CSPI_MSB_FIRST| spi.I2CSPI_MODE_CLK_IDLE_HIGH_DATA_EDGE_TRAILING| spi.I2CSPI_CLK_461kHz) |
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#spi.SPI_config(spi.I2CSPI_MSB_FIRST| spi.I2CSPI_MODE_CLK_IDLE_HIGH_DATA_EDGE_TRAILING| spi.I2CSPI_CLK_461kHz) |
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time.sleep(1) |
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time.sleep(1) |
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|
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|
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print "Configuring stepper motor.." |
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print "Configuring stepper motor.." |
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X = axis(spi, 0, 1) # set Number of Steps per axis Unit and set Direction of Rotation |
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X = axis(spi, 0, 1) # set Number of Steps per axis Unit and set Direction of Rotation |
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maximum_speed = X.MaxSpeed(100.0) |
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maximum_speed = X.MaxSpeed(100.0) |
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X.GetStatus() |
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X.GetStatus() |
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|
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|
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print "Motor speed limit is: %f steps/s" % maximum_speed |
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print "Motor speed limit is: %f steps/s" % maximum_speed |
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running = False |
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running = False |
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|
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|
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print "Waiting for IR command.." |
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print "Waiting for IR command.." |
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while True: # set maximal motor speed |
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while True: # set maximal motor speed |
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key = pylirc.nextcode() ## preccessing the IR remote control commands. |
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key = pylirc.nextcode() ## preccessing the IR remote control commands. |
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|
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|
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if key == ['start']: |
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if key == ['start']: |
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running = True |
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running = True |
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|
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X.Reset() |
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|
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X.Initialize() |
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requested_speed = SPEED |
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requested_speed = SPEED |
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|
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|
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if key == ['faster']: |
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if key == ['faster']: |
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running = True |
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running = True |
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requested_speed = SPEED * 1.2 # runnig the motor at 120% of the base motor speed |
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requested_speed = SPEED * 1.2 # runnig the motor at 120% of the base motor speed |
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|
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|
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if key == ['slower']: |
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if key == ['slower']: |
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running = True |
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running = True |
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requested_speed = SPEED * 0.8 |
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requested_speed = SPEED * 0.8 |
203 |
|
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|
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if key == ['stop']: |
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if key == ['stop']: |
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running = False |
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running = False |
206 |
|
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|
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time.sleep(0.1) |
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time.sleep(0.1) |
208 |
|
210 |
|
209 |
if running == True: |
211 |
if running == True: |
210 |
real_speed = X.Run(1, requested_speed) |
212 |
real_speed = X.Run(1, requested_speed) |
211 |
print "Motor running at: %f steps/s" % real_speed |
213 |
print "Motor running at: %f steps/s" % real_speed |
212 |
else: |
214 |
else: |
213 |
X.Float(hard=False) # release power |
215 |
X.Float(hard=False) # release power |
214 |
print "Stopping the motor." |
216 |
print "Stopping the motor." |
215 |
|
217 |
|
216 |
except KeyboardInterrupt: |
218 |
except KeyboardInterrupt: |
217 |
print "stop" |
219 |
print "stop" |
218 |
X.Float(hard=False) # release power |
220 |
X.Float(hard=False) # release power |
219 |
sys.exit(0) |
221 |
sys.exit(0) |
220 |
|
222 |
|
221 |
except Exception, e: |
223 |
except Exception, e: |
222 |
X.Float(hard=False) # release power |
224 |
X.Float(hard=False) # release power |
223 |
print >> sys.stderr, "Exception: %s" % str(e) |
225 |
print >> sys.stderr, "Exception: %s" % str(e) |
224 |
sys.exit(1) |
226 |
sys.exit(1) |