Esempio n. 1
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def verify_initial_conn_state(inv, state, time_period=0, threshold=50, das=None):
    result = None
    start_time = time.time()

    while result is None:
        elapsed_time = time.time()-start_time
        if elapsed_time <= time_period:
            if not inverter.verify_conn_state(inv, state, threshold, das):
                ts.sleep(0.89) #Attempt to make loop exactly 1 second
            else:
                result = True
        else:
            result = False

    return result
Esempio n. 2
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def verify_initial_conn_state(inv, state, time_period=0, threshold=50, data=None):
    result = None
    start_time = time.time()

    while result is None:
        elapsed_time = time.time()-start_time
        if elapsed_time <= time_period:
            if not inverter.verify_conn_state(inv, state, threshold, data):
                ts.sleep(0.89) #Attempt to make loop exactly 1 second
            else:
                result = True
        else:
            result = False

    return result
Esempio n. 3
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def verify_conn_state_change(inv, state, time_window=0, timeout_period=0, verification_delay=5, threshold=50,
                             data=None):
    result = None
    start_time = time.time()
    elapsed_time = 0

    # Time window takes precedence over timeout period: time_window is passed first when time_window and timeout_period
    # are used at the same time.
    if time_window != 0:
        time_period = time_window + verification_delay
        # Note: the actual amount of time allowed for the change is time_period, not time_window
        ts.log('Randomization window in use. Waiting up to %d seconds for %s state' %
               (time_window, inverter.conn_state_str(state)))
    elif timeout_period != 0:
        time_period = timeout_period + verification_delay
        # Note: the actual amount of time allowed for the change is time_period, not timeout_period
        ts.log('Time period in use. Waiting up to %d seconds for EUT to revert to %s.  '
               'Verification time is %d seconds.' %
               (timeout_period, inverter.conn_state_str(state), verification_delay))
    else:
        time_period = verification_delay
        ts.log('Waiting for verification delay of up to %d seconds' % verification_delay)

    while result is None:
        if elapsed_time <= time_period:
            power = inverter.get_power(inv, data)
            ts.log('Elapsed time is %0.3f seconds, EUT power is %0.3f W' % (elapsed_time, power))
            if not inverter.verify_conn_state(inv, state, threshold, data):
                ts.sleep(0.89)  # Attempt to make loop exactly 1 second
                elapsed_time = time.time()-start_time
            else:
                ts.log('State changed to %s after %0.3f seconds' % (inverter.conn_state_str(state), elapsed_time))
                result = True
        else:
            ts.log('Connection state did not change within required time')
            result = False

    log_conn_state(inv, data)
    return result
Esempio n. 4
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def test_run():

    result = script.RESULT_FAIL
    data = None
    trigger = None
    inv = None
    pv = None
    disable = None

    try:
        # EUT communication parameters
        ifc_type = ts.param_value('comm.ifc_type')
        ifc_name = ts.param_value('comm.ifc_name')
        if ifc_type == client.MAPPED:
            ifc_name = ts.param_value('comm.map_name')
        baudrate = ts.param_value('comm.baudrate')
        parity = ts.param_value('comm.parity')
        ipaddr = ts.param_value('comm.ipaddr')
        ipport = ts.param_value('comm.ipport')
        slave_id = ts.param_value('comm.slave_id')

        # INV1 parameters
        operation = ts.param_value('inv1.operation')
        time_window = ts.param_value('inv1.time_window')
        timeout_period = ts.param_value('inv1.timeout_period')

        # Script timing and pass/fail criteria
        pretest_delay = ts.param_value('invt.pretest_delay')
        verification_delay = ts.param_value('invt.verification_delay')
        posttest_delay = ts.param_value('invt.posttest_delay')
        power_threshold = ts.param_value('invt.power_threshold')
        disable = ts.param_value('invt.disable')

        # initialize data acquisition system
        daq = das.das_init(ts)
        data = daq.data_init()
        trigger = daq.trigger_init()

        # initialize pv simulation
        pv = pvsim.pvsim_init(ts)
        pv.power_on()

        # It is assumed that the PV and Grid Simulators (if used) are connected to the EUT and operating properly
        # prior to running this test script.
        if pretest_delay > 0:
            ts.log('Waiting for pre-test delay of %d seconds' % pretest_delay)
            ts.sleep(pretest_delay)

        # Sandia Test Protocol: Communication is established between the Utility Management System Simulator and EUT
        ts.log('Scanning EUT')
        try:
            inv = client.SunSpecClientDevice(ifc_type, slave_id=slave_id, name=ifc_name, baudrate=baudrate,
                                             parity=parity, ipaddr=ipaddr, ipport=ipport)
        except Exception, e:
            raise script.ScriptFail('Error: %s' % e)

        # Define operation states (connected/disconnected)
        # Default state is required for timeout_periods because the EUT will return to that mode of operation
        default_state = inverter.CONN_CONNECT
        if operation == 'Connect':
            orig_state = inverter.CONN_DISCONNECT
            state = inverter.CONN_CONNECT
        elif operation == 'Disconnect':
            orig_state = inverter.CONN_CONNECT
            state = inverter.CONN_DISCONNECT
        else:
            ts.log('Unknown operation requested: %s' % operation)
            raise script.ScriptFail()

        # Sandia Test Protocol Step 1: Request Status of EUT.
        # Sandia Test Protocol Step 2: UMS receives response to the DS93 command.
        # Verify EUT is in correct state before running the test.
        if inverter.verify_conn_state(inv, orig_state, threshold=power_threshold, das=data) is False:
            # todo: update inverter module with das changed to data
            ts.log('Inverter not in correct state, setting state to: %s' %
                   (inverter.conn_state_str(orig_state)))
            # EUT put into state where INV1 can be verified
            inverter.set_conn_state(inv, orig_state)
            if verify_conn_state_change(inv, orig_state, verification_delay=verification_delay,
                                        threshold=power_threshold, data=data) is False:
                raise script.ScriptFail()

        # Sandia Test Protocol Step 3: Inverter output is measured and logged.
        log_conn_state(inv, data=data)

        # Sandia Test Protocol Step 4: UMS issues the INV1 command.
        ts.log('Executing %s' % operation)
        inverter.set_conn_state(inv, state, time_window=time_window, timeout_period=timeout_period, trigger=trigger)

        # Sandia Test Protocol Step 5: Verify the INV1 command was successfully executed.
        if verify_conn_state_change(inv, state, time_window=time_window, verification_delay=verification_delay,
                                    threshold=power_threshold, data=data) is False:
            raise script.ScriptFail()

        # Verify revert (timeout) to default state if timeout period specified
        if timeout_period > 0:

             if verify_conn_state_change(inv, default_state, timeout_period=timeout_period,
                                         verification_delay=verification_delay,
                                         threshold=power_threshold, data=data) is False:
                raise script.ScriptFail()

        if posttest_delay > 0:
             ts.log('Waiting for post-test delay of %d seconds' % posttest_delay)
             ts.sleep(posttest_delay)

        result = script.RESULT_PASS