def __init__(self, name, turnOn=False, portname='COM3', maxpower=0.14, **kwargs): self.ser_args = dict(port=portname, baudrate=500000, timeout=.1, writeTimeout=2) #self.ser_port = serial.Serial(portname, 500000, timeout=.1, writeTimeout=2) self.powerControlable = True #self.isOn=False self.doPoll = True self.maxpower = maxpower # maximum power, for our current only laser of this type it is 140mW self.commandQueue = Queue.Queue() self.replyQueue = Queue.Queue() #self.adhocQueue = Queue.Queue() self.adHocVals = {} self.threadPoll = threading.Thread(target=self._poll) self.threadPoll.start() #self.TurnOff() #self.power = self._getOutputPower() time.sleep(1) self.power = self._getOutputPower() Laser.__init__(self, name, turnOn, **kwargs)
def __init__(self, name,turnOn=False, portname='COM3'): self.ser_args = dict(port=portname, baudrate=500000, timeout=.1, writeTimeout=2) #self.ser_port = serial.Serial(portname, 500000, timeout=.1, writeTimeout=2) self.powerControlable = True #self.isOn=False self.doPoll=True self.commandQueue = Queue.Queue() self.replyQueue = Queue.Queue() #self.adhocQueue = Queue.Queue() self.adHocVals = {} self.threadPoll = threading.Thread(target=self._poll) self.threadPoll.start() #self.TurnOff() #self.power = self._getOutputPower() time.sleep(1) self.power = self._getOutputPower() Laser.__init__(self, name, turnOn)
def __init__(self, name, turnOn=False, portname='COM3'): self.ser_args = dict(port=portname, baudrate=500000, timeout=.1, writeTimeout=2) #self.ser_port = serial.Serial(portname, 500000, timeout=.1, writeTimeout=2) self.powerControlable = True #self.isOn=False self.doPoll = True self.commandQueue = Queue.Queue() self.replyQueue = Queue.Queue() #self.adhocQueue = Queue.Queue() self.adHocVals = {} self.threadPoll = threading.Thread(target=self._poll) self.threadPoll.start() #self.TurnOff() #self.power = self._getOutputPower() time.sleep(1) self.power = self._getOutputPower() Laser.__init__(self, name, turnOn)
def __init__(self, name,turnOn=False, portname='COM1'): self.portname = portname self.ser_port = serial.Serial(None, timeout=.01, writeTimeout=.01, xonxoff=0, rtscts=0) self.ser_port.port = portname self.powerControlable = False self.isOn=False Laser.__init__(self, name, turnOn)
def __init__(self, name,turnOn=False, portname='COM1', maxpower=0.1, **kwargs): self.ser_args = dict(port=portname, baudrate=115200, timeout=2, writeTimeout=2) self.powerControlable = True self.isOn=True self.maxpower = maxpower self.power = 0.01#self._getOutputPower() self._TurnOn() Laser.__init__(self, name, turnOn, **kwargs)
def __init__(self, name, turnOn=False, ios=None, pin=13, **kwargs): if ios is None: self.ios = IOSlave() else: self.ios = ios self._enable_pin = pin self.powerControlable = False self.isOn = True Laser.__init__(self, name, turnOn, **kwargs)
def __init__(self, name,turnOn=False, ios = None, maxpower=1): if ios == None: self.ios = IOSlave() else: self.ios = ios self.powerControlable = True self.isOn=True self.maxpower = maxpower self.SetPower(1) Laser.__init__(self, name, turnOn)
def __init__(self, name, turnOn=False, ios=None, maxpower=1): if ios == None: self.ios = IOSlave() else: self.ios = ios self.powerControlable = True self.isOn = True self.maxpower = maxpower self.SetPower(1) Laser.__init__(self, name, turnOn)
def __init__(self, name,turnOn=False, portname='COM1', maxpower=0.1): self.ser_args = dict(port=portname, baudrate=115200, timeout=2, writeTimeout=2) #ser = serial.Serial(portname, 115200, # timeout=2, writeTimeout=2) self.powerControlable = True self.isOn=True self.maxpower = maxpower self.power = 0.01#self._getOutputPower() self._TurnOn() Laser.__init__(self, name, turnOn)
def __init__(self, name, turnOn=False, portname='COM1', minpower=0, maxpower=0.1, **kwargs): # minpower, maxpower in Watts self.ser_args = dict(port=portname, baudrate=115200, timeout=1, writeTimeout=2) self.powerControlable = True self.isOn = True self.maxpower = maxpower self.minpower = minpower self.power = 0.01 Laser.__init__(self, name, turnOn)
def __init__(self, name, turnOn=False, portname='COM3', maxpower=0.14, **kwargs): self.ser_port = serial.Serial(portname, 500000, timeout=.1, writeTimeout=2) self.powerControlable = True #self.isOn=False self.doPoll = True self.qLock = threading.Lock() self.maxpower = maxpower self.commandQueue = Queue.Queue() self.replyQueue = Queue.Queue() self.ilbit = '0' #self.adhocQueue = Queue.Queue() self.adHocVals = {} self.threadPoll = threading.Thread(target=self._poll) self.threadPoll.start() #self.TurnOff() #self.power = self._getOutputPower() time.sleep(1) try: self.power = self._getOutputPower() except RuntimeError: self.power = 0 Laser.__init__(self, name, turnOn)
def __init__(self, name, turnOn=False, portname='COM1', minpower=0, maxpower=0.1, **kwargs): # minpower, maxpower in Watts self.ser_args = dict(port=portname, baudrate=115200, timeout=1, writeTimeout=2) self.powerControlable = True self.isOn = True self.maxpower = maxpower self.minpower = minpower self.power = 0.01 with serial.Serial(**self.ser_args) as ser: ser.write(b'talk robot\r\necho off\r\n') ser.flush() Laser.__init__(self, name, turnOn, **kwargs)
def __init__(self, name, turnOn=False, portname='COM3', maxpower=0.14, power_fudge=1.0, **kwargs): self.ser_args = dict(port=portname, baudrate=500000, timeout=.1, writeTimeout=2) #self.ser_port = serial.Serial(portname, 500000, timeout=.1, writeTimeout=2) self.powerControlable = True #self.isOn=False self.doPoll = True self.maxpower = maxpower # maximum power, for our current only laser of this type it is 140mW # optionally de-rate the maximum power that we can set. Used as a work-around for calibration issues # in the built-in power meter which causes the erroneous detection of an over-power failure and triggers # and interlock self.power_fudge = power_fudge self.commandQueue = Queue.Queue() self.replyQueue = Queue.Queue() #self.adhocQueue = Queue.Queue() self.adHocVals = {} self.threadPoll = threading.Thread(target=self._poll) self.threadPoll.start() #self.TurnOff() #self.power = self._getOutputPower() time.sleep(1) self.power = self._getOutputPower() Laser.__init__(self, name, turnOn, **kwargs)
def __init__(self, serial_port='COM3', name='MPBCW', turn_on=False, init_power=200, **kwargs): """ Parameters ---------- serial_port: str Name of the serial port to connect to name turn_on init_power: float In units of mW kwargs """ self.serial_port = serial.Serial(serial_port, 9600, timeout=0.5) self.lock = threading.Lock() self.is_on = False time.sleep(1) self.power = 0 Laser.__init__(self, name, turn_on, **kwargs) if self.IsOn(): self.SetPower(init_power) self.MIN_POWER, self.MAX_POWER = [ float(p) for p in self.query(b'getpowersetptlim 0', lines_expected=1) [0].strip(b'\rD >').split() ]
def __init__(self, serial_port='COM8', turn_on=False, name='OBIS', init_power=5, **kwargs): """ Parameters ---------- serial_port: str serial port turn_on: bool Whether or not to turn on the laser on instantiating the class name: str Name of the laser init_power: float In units of mW kwargs """ self.serial_port = serial.Serial(serial_port, timeout=.1) self.lock = threading.Lock() time.sleep(1) self.power = 0 self.SetPower(init_power) self.MIN_POWER = 1e3 * float( self.query(b'SOUR:POW:LIM:LOW?\r\n', lines_expected=1)[0]) self.MAX_POWER = 1e3 * float( self.query(b'SOUR:POW:LIM:HIGH?\r\n', lines_expected=1)[0]) self.is_on = False # self.query(b'SYST:COMM:HAND OFF\r\n', lines_expected=0) Laser.__init__(self, name, turn_on, **kwargs)