コード例 #1
0
    def __init__(self, inst, props, *args, **kwargs):
        super(ZaberTMMMotorController, self).__init__(inst, props, *args,
                                                      **kwargs)

        # initialize hardware communication
        self.con = BinarySerial(self.port, timeout=5)

        print('Zaber TMM Controller Initialization ...'),
        print('SUCCESS on port %s' % self.port)
        # do some initialization
        self._motors = {}
コード例 #2
0
    def __init__(self):
        com_ports = list(serial.tools.list_ports.comports())
        xy_com_port = "NULL"
        z_com_port = "NULL"

        #detect com ports
        for port in com_ports:
            print(port)
            if XYDEVPORT in port[2]:
                xy_com_port = port[0]
            if ZDEVPORT in port[1]:
                z_com_port = port[0]

        if "NULL" == xy_com_port:
            self.x_axis_device = "NULL"
            self.y_axis_device = "NULL"
            print("Could not find xy-axis device")
        #connects to devices if found
        else:
            port = BinarySerial(xy_com_port)
            self.x_axis_device = BinaryDevice(port, 1)
            self.y_axis_device = BinaryDevice(port, 2)
        if "NULL" == z_com_port:
            self.z_axis_device = "NULL"
            print("Could not find z-axis device")
        else:
            self.z_axis_device = serial.Serial(z_com_port, 115200)
コード例 #3
0
def setup_stages():
    global x_linear, y_linear, z_rotary

    serial_conn = BinarySerial(STAGES_PORT, timeout=None)

    x_linear = BinaryDevice(serial_conn, 2)
    y_linear = BinaryDevice(serial_conn, 3)
    z_rotary = BinaryDevice(serial_conn, 1)

    x_linear.set_home_speed(linspeed2lindata(DEFAULT_HOME_SPEED))
    y_linear.set_home_speed(linspeed2lindata(DEFAULT_HOME_SPEED))

    # need to  check that mm2rotdata does the right conversion
    #rotary.set_target_speed(mm2rotdata(DEFAULT_ROT_SPEED))
    x_linear.set_target_speed(linspeed2lindata(DEFAULT_HOME_SPEED))
    y_linear.set_target_speed(linspeed2lindata(DEFAULT_HOME_SPEED))

    x_linear.set_acceleration(LIN_STAGE_ACCELERATION)
    y_linear.set_acceleration(LIN_STAGE_ACCELERATION)
    z_rotary.set_acceleration(ROT_STAGE_ACCELERATION)

    z_rotary.set_min_position(deg2rotdata(ROTARY_MIN_ANGLE))
    z_rotary.set_max_position(deg2rotdata(ROTARY_MAX_ANGLE))

    home_all()
コード例 #4
0
def setup_stages():
    global serial_conn, x_linear, y_linear, z_rotary

    serial_conn = BinarySerial(STAGES_PORT, timeout=None)

    if CONNECT_ROTARY:
        z_rotary = BinaryDevice(serial_conn, 1)
        z_rotary.set_home_speed(degspeed2rotdata(DEFAULT_ROT_SPEED))
        z_rotary.set_target_speed(degspeed2rotdata(DEFAULT_ROT_SPEED))
        z_rotary.set_acceleration(ROT_STAGE_ACCELERATION)

        z_rotary.set_min_position(deg2rotdata(ROTARY_MIN_ANGLE))
        z_rotary.set_max_position(deg2rotdata(ROTARY_MAX_ANGLE))

    x_linear = BinaryDevice(serial_conn, 2)
    y_linear = BinaryDevice(serial_conn, 3)

    x_linear.set_home_speed(linspeed2lindata(DEFAULT_HOME_SPEED))
    y_linear.set_home_speed(linspeed2lindata(DEFAULT_HOME_SPEED))

    x_linear.set_target_speed(linspeed2lindata(DEFAULT_HOME_SPEED))
    y_linear.set_target_speed(linspeed2lindata(DEFAULT_HOME_SPEED))

    x_linear.set_acceleration(LIN_STAGE_ACCELERATION)
    y_linear.set_acceleration(LIN_STAGE_ACCELERATION)

    x_linear.disable_manual_move_tracking()
    y_linear.disable_manual_move_tracking()

    home_all()
コード例 #5
0
def movedist(distance, direction_sign, device):
    # removed speed for now (third variable)
    # where device = device number.
    from src.check_command_succeeded import check_command_succeeded
    from zaber.serial import BinarySerial, BinaryDevice, BinaryCommand  # , BinaryReply #Added
    import time  # Added

    # -------------------------------------------------------------------------
    # TODO: Create device
    # -------------------------------------------------------------------------

    # command = BinaryCommand(device, 21, steps)   # Added. 21 = move rel
    port = BinarySerial(device)  # Added

    # -------------------------------------------------------------------------
    # TODO: Convert distances to steps.  Put in the true conversion.
    # -------------------------------------------------------------------------

    converter = 1  # converts distance to steps.  (steps/distance)
    steps = int(distance) * converter * int(
        direction_sign)  #number of microsteps to move

    # -------------------------------------------------------------------------
    # TODO: Insert motor move command
    # -------------------------------------------------------------------------

    command = BinaryCommand(0, 21, steps)
    port.write(command)  # Added
    # device.move_rel(speed,blocking=True)   # Added Commented Out

    #r eply = device.move_rel(steps)  # move rel 2000 microsteps #A dded Commented out everything below

    # if not check_command_succeeded(reply):
    #print("Device move failed.")
    #exit(1)
    # else:
    # print("Motor moved", distance, "microsteps")
    return
コード例 #6
0
def setup_stages():

    global rotary, xAxis, yAxis

    serial_conn = BinarySerial(STAGES_PORT, timeout=None)

    rotary = BinaryDevice(serial_conn, 1)
    xAxis = BinaryDevice(serial_conn, 2)
    yAxis = BinaryDevice(serial_conn, 3)

    xAxis.set_home_speed(mm2lindata(DEFAULT_HOMING_SPEED))
    xAxis.set_home_speed(mm2lindata(DEFAULT_HOMING_SPEED))

    rotary.set_acceleration(20)
    xAxis.set_acceleration(2000)
    yAxis.set_acceleration(2000)

    # rotary.set_max_position

    home_all()
コード例 #7
0
ファイル: testZaber.py プロジェクト: ashish3003/lianc
'''
author: ashish
license: GPL v3.0
brief: Zaber's binary stepper motor control. The code demonstrates a circular motion
       of the combination of two devices in a plane.
       Ref: http://www.zaber.com/wiki/Manuals/Binary_Protocol_Manual
Pre: Do install Zaber's serial package from http://www.zaber.com/wiki/Software
'''


from zaber.serial import BinarySerial, BinaryDevice, BinaryCommand
import sys,os,thread,time,xlsxwriter,xlrd,re,math,serial


print "Port Opening..."
port = BinarySerial("/dev/ttyUSB0")
port.timeout = 30

resolution_mm = 0.124023438*1e-3
spd_mm_s = 10
spd_steps = int((spd_mm_s * 1.6384)/resolution_mm)
print spd_steps 

# Device number 0, command number 1.
radius = 100000
steps = 10
theta = (2*3.14159)/steps

device = BinaryDevice(port, 2)
device1 = BinaryDevice(port, 3)
コード例 #8
0
class ZaberTMMMotorController(MotorController):
    ctrl_properties = {
        'port': {
            Type: str,
            Description: 'The port of the rs232 device',
            DefaultValue: '/dev/ttyZaber'
        }
    }

    MaxDevice = 2

    def __init__(self, inst, props, *args, **kwargs):
        super(ZaberTMMMotorController, self).__init__(inst, props, *args,
                                                      **kwargs)

        # initialize hardware communication
        self.con = BinarySerial(self.port, timeout=5)

        print('Zaber TMM Controller Initialization ...'),
        print('SUCCESS on port %s' % self.port)
        # do some initialization
        self._motors = {}

    def AddDevice(self, axis):
        self._motors[axis] = True
        # change setting of devices, because they are non-volatile
        # disable auto-reply 1*2^0 = 1
        # enable backlash correction 1*2^1 = 2
        command_number = 40  # set device mode
        command = BinaryCommand(axis, command_number, 3)
        self.con.write(command)

    def DeleteDevice(self, axis):
        del self._motors[axis]

    StateMap = {
        1: State.On,
        2: State.Moving,
        3: State.Fault,
    }

    def StateOne(self, axis):
        limit_switches = MotorController.NoLimitSwitch
        command_number = 54  # return status
        command = BinaryCommand(axis, command_number)
        self.con.write(command)
        reply = self.con.read()

        while (reply.command_number != command_number) & (reply.device_number
                                                          != axis):
            self.con.write(command)
            reply = self.con.read()
            time.sleep(0.2)

        if reply.data == 0:  # idle
            return self.StateMap[1], 'Zaber is idle', limit_switches
        elif (reply.data >= 1) & (reply.data <= 23):
            return self.StateMap[2], 'Zaber is moving', limit_switches
        else:
            return self.StateMap[3], 'Zaber is faulty', limit_switches

    def ReadOne(self, axis):
        command_number = 60  # return current position
        command = BinaryCommand(axis, command_number)

        for i in range(50):
            self.con.write(command)
            reply = self.con.read()
            if (reply.command_number != command_number) & (reply.device_number
                                                           != axis):
                time.sleep(0.05)
            else:
                break

        return int(reply.data)

    def StartOne(self, axis, position):
        command_number = 20  # move absolute
        command = BinaryCommand(axis, command_number, int(position))
        self.con.write(command)

    def StopOne(self, axis):
        command_number = 23  # move absolute
        command = BinaryCommand(axis, command_number)
        self.con.write(command)

    def AbortOne(self, axis):
        command_number = 23  # move absolute
        command = BinaryCommand(axis, command_number)
        self.con.write(command)

    def SendToCtrl(self, cmd):
        """
        Send custom native commands. The cmd is a space separated string
        containing the command information. Parsing this string one gets
        the command name and the following are the arguments for the given
        command i.e.command_name, [arg1, arg2...]

        :param cmd: string
        :return: string (MANDATORY to avoid OMNI ORB exception)
        """
        # Get the process to send
        mode = cmd.split(' ')[0].lower()
        args = cmd.strip().split(' ')[1:]

        if mode == 'homing':
            try:
                if len(args) == 1:
                    axis = args[0]
                    axis = int(axis)
                else:
                    raise ValueError('Invalid number of arguments')
            except Exception as e:
                self._log.error(e)

            self._log.info('Starting homing for Zaber mirror')

            try:
                command_number = 1  # homing
                command = BinaryCommand(axis, command_number)
                self.con.write(command)
            except Exception as e:
                self._log.error(e)
                print(e)
                return 'Error'

            self._log.info('Homing was finished')
            return "[DONE]"
        else:
            self._log.warning('Invalid command')
            return 'ERROR: Invalid command requested.'
コード例 #9
0
    def __init__(self, time_offset, COM_port, dev1_axis, dev2_axis,
                 coordinates_fname):
        self.time_offset = time_offset
        self.COM_port = COM_port

        self.coordinates_fname = coordinates_fname
        with h5py.File('drivers/' + coordinates_fname, 'r') as f:
            self.coordinates_random = f['all_points'][()]
            np.random.shuffle(self.coordinates_random)

        # shape and type of the array of returned data from ReadValue
        self.dtype = ('f4', 'int32', 'int32')
        self.shape = (3, )

        try:
            self.port = BinarySerial(COM_port)
            msg = self.command(0, 50, 0, 2)
            msg = [d.data for d in msg]
            if not all(elem == msg[0] for elem in msg):
                raise ValueError(
                    'ZaberTMM warning in verification : Device IDs not equal')
        except Exception as err:
            logging.warning("ZaberTMM error in initial connection : " +
                            str(err))
            self.verification_string = "False"
            self.__exit__()
            return None

        try:
            self.port.write(BinaryCommand(0, 55, 123))
            msg1 = self.port.read()
            msg2 = self.port.read()
            if msg1.data != 123:
                logging.warning(
                    "ZaberTMM warning in verification : motor {0} connection error"
                    .format(msg1.device_number))
            if msg2.data != 123:
                logging.warning(
                    "ZaberTMM warning in verification : motor {0} connection error"
                    .format(msg2.device_number))
            self.verification_string = "True"
        except Exception as err:
            logging.warning('ZaberTMM warning in verification : ' + str(err))
            self.verification_string = "False"

        self.warnings = []

        self.position = ZaberCoordinates(dev1_axis, dev2_axis)

        if dev1_axis == 'x':
            self.devx = 1
            self.devy = 2
        elif dev1_axis == 'y':
            self.devx = 2
            self.devy = 1

        if not self.ReadDeviceModeX()[7]:
            warning = 'Home Status bit not set in Dev{0}, home device'.format(
                self.devx)
            logging.warning('ZaberTMM warning: ' + warning)
            self.CreateWarning(warning)
        if not self.ReadDeviceModeY()[7]:
            warning = 'Home Status bit not set in Dev{0}, home device'.format(
                self.devx)
            logging.warning('ZaberTMM warning: ' + warning)
            self.CreateWarning(warning)

        self.sweep_thread = None
        self.running_sweep = False
        self.sweep_start_position = 'current'
        self.sweep_square_params = {}
        self.step_rectangle = None

        self.GetPosition()

        # HDF attributes generated when constructor is run
        self.new_attributes = [
            ('dev1_axis', dev1_axis), ('dev2_axis', dev2_axis),
            ('x_speed', str(self.ReadTargetSpeedX())),
            ('y_speed', str(self.ReadTargetSpeedY())),
            ('x_acceleration', str(self.ReadAccelerationX())),
            ('y_acceleration', str(self.ReadAccelerationY()))
        ]
コード例 #10
0
class ZaberTMM:
    def __init__(self, time_offset, COM_port, dev1_axis, dev2_axis,
                 coordinates_fname):
        self.time_offset = time_offset
        self.COM_port = COM_port

        self.coordinates_fname = coordinates_fname
        with h5py.File('drivers/' + coordinates_fname, 'r') as f:
            self.coordinates_random = f['all_points'][()]
            np.random.shuffle(self.coordinates_random)

        # shape and type of the array of returned data from ReadValue
        self.dtype = ('f4', 'int32', 'int32')
        self.shape = (3, )

        try:
            self.port = BinarySerial(COM_port)
            msg = self.command(0, 50, 0, 2)
            msg = [d.data for d in msg]
            if not all(elem == msg[0] for elem in msg):
                raise ValueError(
                    'ZaberTMM warning in verification : Device IDs not equal')
        except Exception as err:
            logging.warning("ZaberTMM error in initial connection : " +
                            str(err))
            self.verification_string = "False"
            self.__exit__()
            return None

        try:
            self.port.write(BinaryCommand(0, 55, 123))
            msg1 = self.port.read()
            msg2 = self.port.read()
            if msg1.data != 123:
                logging.warning(
                    "ZaberTMM warning in verification : motor {0} connection error"
                    .format(msg1.device_number))
            if msg2.data != 123:
                logging.warning(
                    "ZaberTMM warning in verification : motor {0} connection error"
                    .format(msg2.device_number))
            self.verification_string = "True"
        except Exception as err:
            logging.warning('ZaberTMM warning in verification : ' + str(err))
            self.verification_string = "False"

        self.warnings = []

        self.position = ZaberCoordinates(dev1_axis, dev2_axis)

        if dev1_axis == 'x':
            self.devx = 1
            self.devy = 2
        elif dev1_axis == 'y':
            self.devx = 2
            self.devy = 1

        if not self.ReadDeviceModeX()[7]:
            warning = 'Home Status bit not set in Dev{0}, home device'.format(
                self.devx)
            logging.warning('ZaberTMM warning: ' + warning)
            self.CreateWarning(warning)
        if not self.ReadDeviceModeY()[7]:
            warning = 'Home Status bit not set in Dev{0}, home device'.format(
                self.devx)
            logging.warning('ZaberTMM warning: ' + warning)
            self.CreateWarning(warning)

        self.sweep_thread = None
        self.running_sweep = False
        self.sweep_start_position = 'current'
        self.sweep_square_params = {}
        self.step_rectangle = None

        self.GetPosition()

        # HDF attributes generated when constructor is run
        self.new_attributes = [
            ('dev1_axis', dev1_axis), ('dev2_axis', dev2_axis),
            ('x_speed', str(self.ReadTargetSpeedX())),
            ('y_speed', str(self.ReadTargetSpeedY())),
            ('x_acceleration', str(self.ReadAccelerationX())),
            ('y_acceleration', str(self.ReadAccelerationY()))
        ]

    def __enter__(self):
        return self

    def __exit__(self, *exc):
        try:
            if self.running_sweep:
                self.sweep_thread.stop()
            try:
                self.port.close()
            except:
                return
        except:
            return

    #######################################################
    # CeNTREX DAQ Commands
    #######################################################

    def CreateWarning(self, warning):
        warning_dict = {"message": warning}
        self.warnings.append([time.time(), warning_dict])

    def GetWarnings(self):
        warnings = self.warnings.copy()
        self.warnings = []
        return warnings

    def ReadValue(self):
        val = [time.time() - self.time_offset, *self.position.coordinates]
        return val

    def SweepStatus(self):
        if self.running_sweep:
            return 'Sweeping'
        elif not self.running_sweep:
            return 'Inactive'
        else:
            return 'invalid'

    def SweepStartPosition(self, start_position):
        if start_position in ['current', 'random', 'origin']:
            self.sweep_start_position = start_position
        else:
            warning = 'SweepStartPosition: start_position can be set to current, origin or random'
            self.CreateWarning(warning)
            logging.warning('ZaberTMM warning in ' + warning)

    def SweepStartPositionStatus(self):
        return self.sweep_start_position

    @SweepCheckWrapper
    def MoveAbsoluteXGUI(self, position):
        self.MoveAbsoluteX(position)

    @SweepCheckWrapper
    def MoveAbsoluteYGUI(self, position):
        self.MoveAbsoluteY(position)

    @SweepCheckWrapper
    def HomeAllGUI(self):
        self.HomeAll()

    @SweepCheckWrapper
    def RandomPosition(self):
        x, y = self.coordinates_random[0]
        self.MoveAbsoluteX(x)
        self.MoveAbsoluteY(y)
        self.coordinates_random = np.roll(self.coordinates_random,
                                          shift=-1,
                                          axis=0)

    def SetPointAGUI(self, point_a):
        self.sweep_square_params['point_a'] = point_a

    def GetPointAGUI(self):
        return self.sweep_square_params.get('point_a', None)

    def SetPointBGUI(self, point_b):
        self.sweep_square_params['point_b'] = point_b

    def GetPointBGUI(self):
        return self.sweep_square_params.get('point_b', None)

    def SetStepGUI(self, step):
        self.sweep_square_params['step'] = step

    def GetStepGUI(self):
        return self.sweep_square_params.get('step', None)

    def SetWaitGUI(self, wait_time):
        self.sweep_square_params['wait_time'] = float(wait_time)

    def GetWaitGUI(self):
        return self.sweep_square_params.get('wait_time', None)

    #######################################################
    # Write/Query Commands
    #######################################################

    def command(self, device, command, data, returns):
        while True:
            if self.port.can_read():
                self.port.read()
            else:
                break
        self.port.write(BinaryCommand(device, command, data))
        if returns:
            msg = []
            for _ in range(returns):
                msg.append(self.port.read())
            return msg
        else:
            return None

    #######################################################
    # Commands for all devices
    #######################################################

    def HomeAll(self):
        msgs = self.command(0, 1, 0, 2)
        if isinstance(msgs, type(None)):
            logging.warning('ZaberTMM warning in HomeAll : no return msgs')
        for msg in msgs:
            if msg.data != -62000:
                logging.warning(
                    'ZaberTMM warning in HomeAll : motor {0} not @home position'
                    .format(msg.device_number))
        self.position.dev_coordinates = [-62000, -62000]

    def MoveAbsoluteAll(self, position):
        msgs = self.command(0, 20, position, 2)
        if isinstance(msgs, type(None)):
            logging.warning(
                'ZaberTMM warning in MoveAbsoluteAll : no return msgs')
        for msg in msgs:
            if msg.data == position:
                self.position.dev_coordinates = position
            elif msg.data != position:
                logging.warning(
                    'ZaberTMM warning in MoveAbsoluteAll : motor {0} not @{1} position'
                    .format(msg.device_number, position))

    def GetPosition(self):
        while True:
            msgs = self.command(0, 60, 0, 2)
            if isinstance(msgs, type(None)):
                logging.warning(
                    'ZaberTMM warning in GetPositions : no return msgs')
            pos = [None, None]
            for msg in msgs:
                pos[msg.device_number - 1] = msg.data
            if not type(None) in [type(i) for i in pos]:
                break
        self.position.dev_coordinates = pos
        return pos

    def DisablePotentiometer(self):
        current = self.command(0, 53, 40, 2)[0].data
        msgs = self.command(0, 40, current + 8)

    #######################################################
    # Commands for individual devices
    #######################################################

    def MoveAbsoluteX(self, position):
        msgs = self.command(self.devx, 20, position, 1)
        if isinstance(msgs, type(None)):
            logging.warning(
                'ZaberTMM warning in MoveAbsoluteX : no return msgs')
        for msg in msgs:
            if msg.device_number == self.devx:
                if isinstance(msg.data, int):
                    self.position.x = msg.data
            elif msg.device_number == self.devy:
                if isinstance(msg.data, int):
                    self.position.y = msg.data
        if self.position.x != position:
            logging.warning(
                'ZaberTMM warning in MoveAbsoluteX : motor {0} not @{1} position'
                .format(self.devx, position))

    def MoveAbsoluteY(self, position):
        msgs = self.command(self.devy, 20, position, 1)
        if isinstance(msgs, type(None)):
            logging.warning(
                'ZaberTMM warning in MoveAbsoluteY : no return msgs')
        for msg in msgs:
            if msg.device_number == self.devx:
                if isinstance(msg.data, int):
                    self.position.x = msg.data
            elif msg.device_number == self.devy:
                if isinstance(msg.data, int):
                    self.position.y = msg.data
            if self.position.y != position:
                logging.warning(
                    'ZaberTMM warning in MoveAbsoluteY : motor {0} not @{1} position'
                    .format(self.devy, position))

    def HomeX(self):
        msgs = self.command(self.devx, 1, 0, 1)
        if isinstance(msgs, type(None)):
            logging.warning('ZaberTMM warning in HomeX : no return msgs')
        for msg in msgs:
            if msg.data == -62000:
                self.position.x = -62000
            elif msg.data != -62000:
                logging.warning(
                    'ZaberTMM warning in HomeX : motor {0} not @home position'.
                    format(msg.device_number))

    def HomeY(self):
        msgs = self.command(self.devy, 1, 0, 1)
        if isinstance(msgs, type(None)):
            logging.warning('ZaberTMM warning in HomeY : no return msgs')
        for msg in msgs:
            if msg.data == -62000:
                self.position.y = -62000
            elif msg.data != -62000:
                logging.warning(
                    'ZaberTMM warning in HomeY : motor {0} not @home position'.
                    format(msg.device_number))

    def MoveAbsoluteXNoWait(self, position):
        self.command(self.devx, 20, position, 0)

    def MoveAbsoluteYNoWait(self, position):
        self.command(self.devy, 20, position, 0)

    def GetPositionX(self):
        msgs = self.command(self.devx, 60, 0, 1)
        if isinstance(msgs, type(None)):
            logging.warning(
                'ZaberTMM warning in GetPositionX : no return msgs')
            return np.nan
        self.position.x = msgs[0].data
        return msgs[0].data

    def GetPositionXMemory(self):
        return self.position.x

    def GetPositionY(self):
        msgs = self.command(self.devy, 60, 0, 1)
        if isinstance(msgs, type(None)):
            logging.warning(
                'ZaberTMM warning in GetPositionY : no return msgs')
            return np.nan
        self.position.y = msgs[0].data
        return msgs[0].data

    def GetPositionYMemory(self):
        return self.position.y

    def ReadDeviceModeX(self):
        msg = self.command(self.devx, 53, 40, 1)
        bits = [int(d) for d in bin(msg[0].data)[2:]][::-1]
        return bits

    def ReadDeviceModeY(self):
        msg = self.command(self.devx, 53, 40, 1)
        bits = [int(d) for d in bin(msg[0].data)[2:]][::-1]
        return bits

    def DisablePotentiometerX(self):
        current = self.command(self.devx, 53, 40, 1)[0].data
        msgs = self.command(self.devx, 40, current + 8)

    def DisablePotentiometerY(self):
        current = self.command(self.devy, 53, 40, 1)[0].data
        msgs = self.command(self.devy, 40, current + 8)

    def ReadTargetSpeedX(self):
        return self.command(self.devx, 53, 42, 1)[0].data

    def ReadTargetSpeedY(self):
        return self.command(self.devy, 53, 42, 1)[0].data

    def ReadAccelerationX(self):
        return self.command(self.devx, 53, 43, 1)[0].data

    def ReadAccelerationY(self):
        return self.command(self.devy, 53, 43, 1)[0].data

    #######################################################
    # Sweep Mirror
    #######################################################

    def Sweep(self, sweepname):
        with h5py.File('drivers/' + self.coordinates_fname, 'r') as f:
            coordinates = f[sweepname][()]
        if self.running_sweep:
            warning = 'Sweep: Currently sweeping mirror'
            self.CreateWarning(warning)
            logging.warning(
                'ZaberTMM warning in Sweep: Currently sweeping mirror')
        else:
            self.sweep_thread = MirrorSweep(self, coordinates,
                                            self.sweep_start_position)
            self.sweep_thread.start()

    def SweepRectangle(self, sweep_params=None):
        if isinstance(sweep_params, type(None)):
            sweep_params = self.sweep_square_params
        if self.running_sweep:
            warning = "SweepRectangle: Currently sweeping mirror"
            self.CreateWarning(warning)
            logging.warning(
                'ZaberTMM warning in SweepRectangle: Currently sweeping mirror'
            )
        else:
            self.sweep_thread = MirrorSweepRectangle(self, **sweep_params)
            self.sweep_thread.start()

    def StopSweep(self):
        if self.running_sweep:
            self.sweep_thread.stop()
            self.sweep_thread = None
            self.running_sweep = False
        else:
            warning = 'StopSweep: No sweep running'
            self.CreateWarning(warning)
            logging.warning("ZaberTMM warning in StopSweep: No sweep running")

    def setupStepRectangle(self, sweep_params=None):
        if isinstance(sweep_params, type(None)):
            sweep_params = self.sweep_square_params
        self.step_rectangle = StepRectangle(self, **sweep_params)

    def nextStep(self):
        if not self.step_rectangle is None:
            self.step_rectangle.next()
        else:
            logging.warning(
                "ZaberTMM warning in nextStep: No rectangle defined")

    def randomStep(self):
        if not self.step_rectangle is None:
            self.step_rectangle.randomNext()
        else:
            logging.warning(
                "ZaberTMM warning in nextStep: No rectangle defined")
コード例 #11
0
ファイル: star_projector.py プロジェクト: jdeast/tres-guider
 def connect(self):
     self.comport = BinarySerial(self.port)
     self.x_axis = BinaryDevice(self.comport,1)
     self.y_axis = BinaryDevice(self.comport,2)
     self.rot_axis = BinaryDevice(self.comport,3)
コード例 #12
0
## Input Data

horizontalDist = 1      #horizontal distance between nodes
verticalDist = 1        #verticle distance between nodes
nrow = 5                #Number of rows
ncol = 5                #Number of columns (maximum) in a row
matrixOffset = 0        #If rows are offset type 0, if rows are inline type 1.
                        # This program assumes it's halfway between each column
## Import functions
from src.moveRow import moveRow
from src.moveCol import moveCol
from zaber.serial import BinarySerial, BinaryDevice
from src.home import home

##hardware and OS setup
with BinarySerial("/dev/ttyUSB0") as port:  # Linux
# with BinarySerial("COM3") as port:         # Windows

# Get a handle for device #1 on the serial chain. This assumes you have a
# device already in Binary 9,600 baud mode at address 1 on your port.
device1 = BinaryDevice(port, 1) # motor on x axis
device2 = BinaryDevice(port, 2) # motor on y axis
device3 = BinaryDevice(port, 3) # motor on z axis


## Home all devices
# Home the device and check the result.
home(device1)
home(device2)
home(device3)
コード例 #13
0
def test_constructor_fails_when_not_passed_a_string():
    with pytest.raises(TypeError):
        BinarySerial(1)
コード例 #14
0
# Here's an area where you can do code testing with out it impacting the rest of the functions!  Enjoy!

# go here for help: https://www.rose-hulman.edu/class/csse/csse120/201920/
# preparations have videos

# nrow = 5
# ncol = 5

from zaber.serial import BinarySerial, BinaryDevice, BinaryCommand  # , BinaryReply
import time

# Assume that our serial port can be found at COM1

port = BinarySerial(
    "COM13"
)  # be mindful of which COM port to use; check device manager; may need to restart port
# with BinarySerial("COM13") as port:
# Device number 0, command number 1.    1 is Home. 0 is Reset, move absolute is 20, relative is 21, 23 is stop
#max relative move is 20,000, 42 sets speed, can be changed during a move; calculate spd w/ https://www.zaber.com/documents/ZaberSpeedSetting.xls
command = BinaryCommand(0, 1)
#command = BinaryCommand(0, 20, 0)   #Goes at least to 50,000. Assume moving 10,000 = moving 0.01in
#command = BinaryCommand(0, 21, 20000)  #Can use negative distances with relative
#devicenum = 0
#distance = 20000
#command = BinaryCommand(devicenum, 21, distance)
#command = BinaryCommand(0, 21, 20000)

# note: Binary motor commands are blocking. Syntax: BinaryCommand(device#, command#, dataValue)
# List of command #s can be found at: https://www.zaber.com/wiki/Manuals/Binary_Protocol_Manual#Command_Reference
port.write(command)