def _create_controls(self):
self._conts_box = QCheckBoxPlayback("Continuous")
self._conts_box.setChecked(True)
self._single_button = QtGui.QPushButton('Single')
self._mode_label = QtGui.QLabel('Mode:')
self._mode = QComboBoxPlayback()
self._mode.setToolTip("Change the device input mode")
self._level_trigger = QCheckBoxPlayback("Level Trigger")
self._level_trigger.setToolTip("Enable Frequency Level Triggers")
self._trig_fstart_label = QtGui.QLabel("Start:")
self._trig_fstart = QDoubleSpinBoxPlayback()
# FIXME: use values from device properties
self._trig_fstart.setRange(0, 20000)
self._trig_fstart.setSuffix(" MHz")
self._trig_fstop_label = QtGui.QLabel("Stop:")
self._trig_fstop = QDoubleSpinBoxPlayback()
# FIXME: use values from device properties
self._trig_fstop.setRange(0, 20000)
self._trig_fstop.setSuffix(" MHz")
self._trig_amp_label = QtGui.QLabel("Level:")
self._trig_amp = QDoubleSpinBoxPlayback()
self._trig_amp.setSuffix(" dBm")
self._trig_amp.setRange(-2000, 2000)
def _rbw_controls(self):
rbw_label = QtGui.QLabel('RBW:')
rbw_box = QComboBoxPlayback()
rbw_box.setToolTip("Change the RBW of the FFT plot")
def new_rbw():
self.controller.apply_settings(rbw=self._rbw_values[
rbw_box.currentIndex()])
rbw_box.currentIndexChanged.connect(new_rbw)
self._rbw_box = rbw_box
return rbw_label, rbw_box
def _rbw_controls(self):
rbw_label = QtGui.QLabel('RBW:')
rbw_box = QComboBoxPlayback()
rbw_box.setToolTip("Change the RBW of the FFT plot")
def new_rbw():
self.controller.apply_settings(
rbw=self._rbw_values[rbw_box.currentIndex()])
rbw_box.currentIndexChanged.connect(new_rbw)
self._rbw_box = rbw_box
return rbw_label, rbw_box
def _create_controls(self):
self._conts_box = QCheckBoxPlayback("Continuous")
self._conts_box.setChecked(True)
self._single_button = QtGui.QPushButton('Single')
self._mode_label = QtGui.QLabel('Mode:')
self._mode = QComboBoxPlayback()
self._mode.setToolTip("Change the device input mode")
self._level_trigger = QCheckBoxPlayback("Level Trigger")
self._level_trigger.setToolTip("Enable Frequency Level Triggers")
self._trig_fstart_label = QtGui.QLabel("Start:")
self._trig_fstart = QDoubleSpinBoxPlayback()
# FIXME: use values from device properties
self._trig_fstart.setRange(0, 20000)
self._trig_fstart.setSuffix(" MHz")
self._trig_fstop_label = QtGui.QLabel("Stop:")
self._trig_fstop = QDoubleSpinBoxPlayback()
# FIXME: use values from device properties
self._trig_fstop.setRange(0, 20000)
self._trig_fstop.setSuffix(" MHz")
self._trig_amp_label = QtGui.QLabel("Level:")
self._trig_amp = QDoubleSpinBoxPlayback()
self._trig_amp.setSuffix(" dBm")
self._trig_amp.setRange(-2000, 2000)
def _create_controls(self):
self._dec_label = QtGui.QLabel('DDC:')
self._dec_box = QComboBoxPlayback()
self._dec_box.setToolTip("Choose Decimation Rate")
# FIXME: use values from device properties
dec_values = [
'1', '4', '8', '16', '32', '64', '128', '256', '512', '1024'
]
for d in dec_values:
self._dec_box.addItem(d)
self._dec_values = dec_values
self._fshift_label = QtGui.QLabel("FShift:")
self._fshift_edit = QDoubleSpinBoxPlayback()
self._fshift_edit.setSuffix(' MHz')
self._fshift_edit.setToolTip("Frequency Shift")
self._fshift_edit.setWrapping(True)
self._antenna_label = QtGui.QLabel('Antenna:')
self._antenna_box = QComboBoxPlayback()
self._antenna_box.setToolTip("Choose Antenna")
self._antenna_box.quiet_update(["Antenna 1", "Antenna 2"])
self._iq_output_label = QtGui.QLabel("IQ Path:")
self._iq_output_box = QComboBoxPlayback()
self._iq_output_box.setToolTip("Choose IQ Path")
self._iq_output_box.quiet_update(["Digitizer", "Connector"])
self._gain_label = QtGui.QLabel("RF Gain:")
self._gain_box = QComboBoxPlayback()
self._gain_box.setToolTip("Choose RF Gain setting")
gain_values = ['VLow', 'Low', 'Med', 'High']
self._gain_box.quiet_update(gain_values)
self._gain_values = [g.lower() for g in gain_values]
self._ifgain_label = QtGui.QLabel("IF Gain:")
self._ifgain_box = QtGui.QSpinBox()
self._ifgain_box.setToolTip("Choose IF Gain setting")
# FIXME: use values from device properties
self._ifgain_box.setRange(-10, 25)
self._ifgain_box.setSuffix(" dB")
self._pll_label = QtGui.QLabel("PLL Ref:")
self._pll_box = QComboBoxPlayback()
self._pll_box.setToolTip("Choose PLL Reference")
self._pll_box.quiet_update(["Internal", "External"])
def _create_controls(self):
self._dec_label = QtGui.QLabel('DDC:')
self._dec_box = QComboBoxPlayback()
self._dec_box.setToolTip("Choose Decimation Rate")
# FIXME: use values from device properties
dec_values = ['1', '4', '8', '16', '32', '64', '128', '256', '512', '1024']
for d in dec_values:
self._dec_box.addItem(d)
self._dec_values = dec_values
self._fshift_label = QtGui.QLabel("FShift:")
self._fshift_edit = QDoubleSpinBoxPlayback()
self._fshift_edit.setSuffix(' MHz')
self._fshift_edit.setToolTip("Frequency Shift")
self._fshift_edit.setWrapping(True)
self._antenna_label = QtGui.QLabel('Antenna:')
self._antenna_box = QComboBoxPlayback()
self._antenna_box.setToolTip("Choose Antenna")
self._antenna_box.quiet_update(["Antenna 1", "Antenna 2"])
self._iq_output_label = QtGui.QLabel("IQ Path:")
self._iq_output_box = QComboBoxPlayback()
self._iq_output_box.setToolTip("Choose IQ Path")
self._iq_output_box.quiet_update(["Digitizer", "Connector"])
self._gain_label = QtGui.QLabel("RF Gain:")
self._gain_box = QComboBoxPlayback()
self._gain_box.setToolTip("Choose RF Gain setting")
gain_values = ['VLow', 'Low', 'Med', 'High']
self._gain_box.quiet_update(gain_values)
self._gain_values = [g.lower() for g in gain_values]
self._ifgain_label = QtGui.QLabel("IF Gain:")
self._ifgain_box = QtGui.QSpinBox()
self._ifgain_box.setToolTip("Choose IF Gain setting")
# FIXME: use values from device properties
self._ifgain_box.setRange(-10, 25)
self._ifgain_box.setSuffix(" dB")
self._pll_label = QtGui.QLabel("PLL Ref:")
self._pll_box = QComboBoxPlayback()
self._pll_box.setToolTip("Choose PLL Reference")
self._pll_box.quiet_update(["Internal", "External"])
class DeviceControls(QtGui.QWidget):
"""
A widget based from the Qt QGroupBox widget with a layout containing widgets that
can be used to control the WSA4000/WSA5000
:param name: The name of the groupBox
"""
def __init__(self, controller):
super(DeviceControls, self).__init__()
self.controller = controller
controller.device_change.connect(self.device_changed)
controller.state_change.connect(self.state_changed)
self._create_controls()
self.setLayout(QtGui.QGridLayout())
self._build_layout()
self._connect_device_controls()
def _create_controls(self):
self._dec_label = QtGui.QLabel('DDC:')
self._dec_box = QComboBoxPlayback()
self._dec_box.setToolTip("Choose Decimation Rate")
# FIXME: use values from device properties
dec_values = ['1', '4', '8', '16', '32', '64', '128', '256', '512', '1024']
for d in dec_values:
self._dec_box.addItem(d)
self._dec_values = dec_values
self._fshift_label = QtGui.QLabel("FShift:")
self._fshift_edit = QDoubleSpinBoxPlayback()
self._fshift_edit.setSuffix(' MHz')
self._fshift_edit.setToolTip("Frequency Shift")
self._fshift_edit.setWrapping(True)
self._antenna_label = QtGui.QLabel('Antenna:')
self._antenna_box = QComboBoxPlayback()
self._antenna_box.setToolTip("Choose Antenna")
self._antenna_box.quiet_update(["Antenna 1", "Antenna 2"])
self._iq_output_label = QtGui.QLabel("IQ Path:")
self._iq_output_box = QComboBoxPlayback()
self._iq_output_box.setToolTip("Choose IQ Path")
self._iq_output_box.quiet_update(["Digitizer", "Connector"])
self._gain_label = QtGui.QLabel("RF Gain:")
self._gain_box = QComboBoxPlayback()
self._gain_box.setToolTip("Choose RF Gain setting")
gain_values = ['VLow', 'Low', 'Med', 'High']
self._gain_box.quiet_update(gain_values)
self._gain_values = [g.lower() for g in gain_values]
self._ifgain_label = QtGui.QLabel("IF Gain:")
self._ifgain_box = QtGui.QSpinBox()
self._ifgain_box.setToolTip("Choose IF Gain setting")
# FIXME: use values from device properties
self._ifgain_box.setRange(-10, 25)
self._ifgain_box.setSuffix(" dB")
self._pll_label = QtGui.QLabel("PLL Ref:")
self._pll_box = QComboBoxPlayback()
self._pll_box.setToolTip("Choose PLL Reference")
self._pll_box.quiet_update(["Internal", "External"])
def _build_layout(self, dut_prop=None):
features = dut_prop.SWEEP_SETTINGS if dut_prop else []
grid = self.layout()
clear_layout(grid)
grid.addWidget(self._dec_label, 1, 0, 1, 1)
grid.addWidget(self._dec_box, 1, 1, 1, 1)
grid.addWidget(self._fshift_label, 1, 3, 1, 1)
grid.addWidget(self._fshift_edit, 1, 4, 1, 1)
# 4k features
if 'antenna' in features:
grid.addWidget(self._antenna_label, 2, 3, 1, 1)
grid.addWidget(self._antenna_box, 2, 4, 1, 1)
if 'gain' in features:
grid.addWidget(self._gain_label, 3, 0, 1, 1)
grid.addWidget(self._gain_box, 3, 1, 1, 1)
# FIXME: 'ifgain' appears in 5k list too
grid.addWidget(self._ifgain_label, 3, 3, 1, 1)
grid.addWidget(self._ifgain_box, 3, 4, 1, 1)
# 5k features
if 'attenuator' in features:
if dut_prop.IQ_OUTPUT_CONNECTOR:
grid.addWidget(self._iq_output_label, 3, 3, 1, 1)
grid.addWidget(self._iq_output_box, 3, 4, 1, 1)
grid.addWidget(self._pll_label, 3, 0, 1, 1)
grid.addWidget(self._pll_box, 3, 1, 1, 1)
grid.setColumnStretch(0, 4)
grid.setColumnStretch(1, 8)
grid.setColumnStretch(2, 1)
grid.setColumnStretch(3, 4)
grid.setColumnStretch(4, 8)
grid.setRowStretch(7, 1) # expand empty space at the bottom
self.resize_widget()
def _connect_device_controls(self):
def new_antenna():
self.controller.apply_device_settings(antenna=
int(self._antenna_box.currentText().split()[-1]))
def new_dec():
self.controller.apply_settings(decimation=int(
self._dec_box.currentText()))
def new_freq_shift():
self.controller.apply_settings(
fshift=self._fshift_edit.value() * M)
def new_gain():
self.plot_state.dev_set['gain'] = self._gain_box.currentText().split()[-1].lower().encode('ascii')
self.cap_dut.configure_device(self.plot_state.dev_set)
def new_ifgain():
self.plot_state.dev_set['ifgain'] = self._ifgain_box.value()
self.cap_dut.configure_device(self.plot_state.dev_set)
def new_pll_reference():
if self._pll_box.currentText() == 'Internal':
src = 'INT'
else:
src = 'EXT'
self.controller.apply_device_settings(pll_reference=src)
def new_iq_path():
self.controller.apply_device_settings(
iq_output_path= str(self._iq_output_box.currentText().upper()))
self._antenna_box.currentIndexChanged.connect(new_antenna)
self._gain_box.currentIndexChanged.connect(new_gain)
self._dec_box.currentIndexChanged.connect(new_dec)
self._fshift_edit.valueChanged.connect(new_freq_shift)
self._ifgain_box.valueChanged.connect(new_ifgain)
self._iq_output_box.currentIndexChanged.connect(new_iq_path)
self._pll_box.currentIndexChanged.connect(new_pll_reference)
def device_changed(self, dut):
self.dut_prop = dut.properties
self._build_layout(self.dut_prop)
def state_changed(self, state, changed):
if state.playback:
# for playback simply update everything on every state change
self._dec_box.playback_value(str(state.decimation))
self._fshift_edit.playback_value(state.fshift / M)
self._pll_box.playback_value('External'
if state.device_settings.get('pll_reference') == 'EXT' else
'Internal')
self._iq_output_box.playback_value('Digitizer')
return
if 'playback' in changed:
decimation_available = self.dut_prop.MIN_DECIMATION[
state.rfe_mode()] is not None
self._dec_box.setEnabled(decimation_available)
self._fshift_edit.setEnabled(decimation_available)
self._pll_box.quiet_update(["Internal", "External"])
self._pll_box.setEnabled(True)
self._iq_output_box.quiet_update(["Digitizer", "Connector"])
self._iq_output_box.setEnabled(True)
if 'device_settings.trigger' in changed:
if state.device_settings['trigger']['type'] == 'None':
if self._level_trigger.isChecked():
self._level_trigger.click()
if 'mode' in changed:
if state.sweeping():
self._dec_box.setEnabled(False)
self._fshift_edit.setEnabled(False)
else:
decimation_available = self.dut_prop.MIN_DECIMATION[
state.rfe_mode()] is not None
self._dec_box.setEnabled(decimation_available)
self._fshift_edit.setEnabled(decimation_available)
fshift_max = self.dut_prop.FULL_BW[state.rfe_mode()] / M
self._fshift_edit.setRange(-fshift_max, fshift_max)
if 'device_settings.iq_output_path' in changed:
if 'CONNECTOR' == state.device_settings['iq_output_path']:
# remove all digitizer controls
self._dec_box.setEnabled(False)
self._fshift_edit.setEnabled(False)
self._fshift_label.setEnabled(False)
self._level_trigger.setEnabled(False)
self._trig_fstart.setEnabled(False)
self._trig_fstop.setEnabled(False)
self._trig_amp.setEnabled(False)
elif 'DIGITIZER' == state.device_settings['iq_output_path']:
# enable digitizer controls
if not self.gui_state.device_settings['iq_output_path'] == 'DIGITIZER':
self._dec_box.setEnabled(True)
self._fshift_edit.setEnabled(True)
self._fshift_label.setEnabled(True)
self._trig_fstart.setEnabled(True)
self._trig_fstop.setEnabled(True)
self._trig_amp.setEnabled(True)
self._level_trigger.setEnabled(True)
self.gui_state = state
def resize_widget(self):
self.setSizePolicy(QtGui.QSizePolicy.Preferred, QtGui.QSizePolicy.Maximum)
def showEvent(self, event):
self.activateWindow()
class CaptureControls(QtGui.QWidget):
"""
A widget with a layout containing widgets that
can be used to control the amplitude configurations of the GUI
:param name: A controller that emits/receives Qt signals from multiple widgets
:param name: The name of the groupBox
"""
def __init__(self, controller):
super(CaptureControls, self).__init__()
self.controller = controller
controller.plot_change.connect(self.plot_changed)
controller.device_change.connect(self.device_changed)
controller.state_change.connect(self.state_changed)
grid = QtGui.QGridLayout()
self.setLayout(QtGui.QGridLayout())
self._create_controls()
self._build_layout()
self._connect_capture_controls()
def _create_controls(self):
self._conts_box = QCheckBoxPlayback("Continuous")
self._conts_box.setChecked(True)
self._single_button = QtGui.QPushButton('Single')
self._mode_label = QtGui.QLabel('Mode:')
self._mode = QComboBoxPlayback()
self._mode.setToolTip("Change the device input mode")
self._level_trigger = QCheckBoxPlayback("Level Trigger")
self._level_trigger.setToolTip("Enable Frequency Level Triggers")
self._trig_fstart_label = QtGui.QLabel("Start:")
self._trig_fstart = QDoubleSpinBoxPlayback()
# FIXME: use values from device properties
self._trig_fstart.setRange(0, 20000)
self._trig_fstart.setSuffix(" MHz")
self._trig_fstop_label = QtGui.QLabel("Stop:")
self._trig_fstop = QDoubleSpinBoxPlayback()
# FIXME: use values from device properties
self._trig_fstop.setRange(0, 20000)
self._trig_fstop.setSuffix(" MHz")
self._trig_amp_label = QtGui.QLabel("Level:")
self._trig_amp = QDoubleSpinBoxPlayback()
self._trig_amp.setSuffix(" dBm")
self._trig_amp.setRange(-2000, 2000)
def _build_layout(self, dut_prop=None):
grid = self.layout()
grid.addWidget(self._mode_label, 0, 0, 1, 1)
grid.addWidget(self._mode, 0, 1, 1, 2)
grid.addWidget(self._conts_box, 0, 3, 1, 1)
grid.addWidget(self._single_button, 0, 4, 1, 1)
grid.addWidget(self._level_trigger, 1, 0, 1, 2)
grid.addWidget(self._trig_fstart_label, 2, 0, 1, 1)
grid.addWidget(self._trig_fstart, 2, 1, 1, 1)
grid.addWidget(self._trig_fstop_label, 2, 3, 1, 1)
grid.addWidget(self._trig_fstop, 2, 4, 1, 1)
grid.addWidget(self._trig_amp_label, 1, 3, 1, 1)
grid.addWidget(self._trig_amp, 1, 4, 1, 1)
self._trig_state(False)
self.setLayout(grid)
self.resize_widget()
def _connect_capture_controls(self):
def single_capture():
self.controller.apply_plot_options(cont_cap_mode=False)
self.controller.start_capture(single=True)
def cont_capture():
self.controller.apply_plot_options(
cont_cap_mode=self._conts_box.isChecked())
if self._conts_box.isChecked():
self.controller.start_capture(single=True)
def new_input_mode():
input_mode = TEXT_TO_MODE[self._mode.currentText()]
if not input_mode:
return
self.controller.apply_settings(mode=input_mode)
#FIXME rfe_mode should not be in device settings dictionary
if self.gui_state.device_settings['iq_output_path'] == 'CONNECTOR':
self.controller.apply_device_settings(rfe_mode=input_mode)
def enable_trigger():
trigger_settings = self.gui_state.device_settings['trigger']
if self._level_trigger.isChecked():
self._trig_state(True)
start = self.gui_state.center - (self.gui_state.span / 4)
stop = self.gui_state.center + (self.gui_state.span / 4)
level = trigger_settings['amplitude']
self.controller.apply_device_settings(
trigger={
'type': 'LEVEL',
'fstart': start,
'fstop': stop,
'amplitude': trigger_settings['amplitude']
})
else:
self.controller.apply_device_settings(
trigger={
'type': 'NONE',
'fstart': trigger_settings['fstart'],
'fstop': trigger_settings['fstop'],
'amplitude': trigger_settings['amplitude']
})
self._trig_state(False)
def new_trigger():
self.controller.apply_device_settings(
trigger={
'type': 'LEVEL',
'fstart': self._trig_fstart.value() * M,
'fstop': self._trig_fstop.value() * M,
'amplitude': self._trig_amp.value()
})
self._mode.currentIndexChanged.connect(new_input_mode)
self._single_button.clicked.connect(single_capture)
self._conts_box.clicked.connect(cont_capture)
self._level_trigger.clicked.connect(enable_trigger)
self._trig_fstart.editingFinished.connect(new_trigger)
self._trig_fstop.editingFinished.connect(new_trigger)
self._trig_amp.editingFinished.connect(new_trigger)
def device_changed(self, dut):
self.dut_prop = dut.properties
self._update_modes()
def state_changed(self, state, changed):
self.gui_state = state
if 'playback' in changed:
# restore controls after playback is stopped
self._level_trigger.setEnabled(
state.mode in self.dut_prop.LEVEL_TRIGGER_RFE_MODES)
self._update_modes(current_mode=state.mode)
self._level_trigger.playback_value(False)
if state.playback:
# for playback simply update on every state change
self._mode.playback_value(MODE_TO_TEXT[state.mode])
if 'device_settings.trigger' in changed:
if state.device_settings['trigger']['type'] == 'LEVEL':
trigger = state.device_settings['trigger']
self._trig_fstart.quiet_update(value=trigger['fstart'] / M)
self._trig_fstop.quiet_update(value=trigger['fstop'] / M)
self._trig_amp.quiet_update(value=trigger['amplitude'])
else:
if self._level_trigger.checkState():
self._level_trigger.click()
if 'device_settings.iq_output_path' in changed:
if state.device_settings['iq_output_path'] == 'CONNECTOR':
self._update_modes(include_sweep=False)
self._level_trigger.setEnabled(False)
self._trig_fstart.setEnabled(False)
self._trig_fstop.setEnabled(False)
self._trig_amp.setEnabled(False)
elif state.device_settings['iq_output_path'] == 'DIGITIZER':
self._update_modes()
self._trig_fstart.setEnabled(True)
self._trig_fstop.setEnabled(True)
self._trig_amp.setEnabled(True)
self._level_trigger.setEnabled(True)
if 'mode' in changed:
if state.mode not in self.dut_prop.LEVEL_TRIGGER_RFE_MODES:
# forcibly disable triggers
if self._level_trigger.isChecked():
self._level_trigger.click()
self._trig_state(False)
self._level_trigger.setEnabled(False)
else:
self._level_trigger.setEnabled(True)
def plot_changed(self, state, changed):
if 'cont_cap_mode' in changed:
if not state['cont_cap_mode']:
if self._conts_box.isChecked():
self._conts_box.click()
def _update_modes(self, include_sweep=True, current_mode=None):
modes = []
if current_mode:
current_mode = MODE_TO_TEXT[current_mode]
if include_sweep:
modes.extend(self.dut_prop.SPECA_MODES)
if not self.controller.developer_mode:
modes.remove('Sweep ZIF')
modes.extend(self.dut_prop.RFE_MODES)
self._mode.quiet_update((MODE_TO_TEXT[m] for m in modes), current_mode)
self._mode.setEnabled(True)
def _trig_state(self, state):
self._trig_fstart.setEnabled(state)
self._trig_amp.setEnabled(state)
self._trig_fstop.setEnabled(state)
self._trig = state
def resize_widget(self):
self.setSizePolicy(QtGui.QSizePolicy.Preferred,
QtGui.QSizePolicy.Maximum)
class CaptureControls(QtGui.QWidget):
"""
A widget with a layout containing widgets that
can be used to control the amplitude configurations of the GUI
:param name: A controller that emits/receives Qt signals from multiple widgets
:param name: The name of the groupBox
"""
def __init__(self, controller):
super(CaptureControls, self).__init__()
self.controller = controller
controller.plot_change.connect(self.plot_changed)
controller.device_change.connect(self.device_changed)
controller.state_change.connect(self.state_changed)
grid = QtGui.QGridLayout()
self.setLayout(QtGui.QGridLayout())
self._create_controls()
self._build_layout()
self._connect_capture_controls()
def _create_controls(self):
self._conts_box = QCheckBoxPlayback("Continuous")
self._conts_box.setChecked(True)
self._single_button = QtGui.QPushButton('Single')
self._mode_label = QtGui.QLabel('Mode:')
self._mode = QComboBoxPlayback()
self._mode.setToolTip("Change the device input mode")
self._level_trigger = QCheckBoxPlayback("Level Trigger")
self._level_trigger.setToolTip("Enable Frequency Level Triggers")
self._trig_fstart_label = QtGui.QLabel("Start:")
self._trig_fstart = QDoubleSpinBoxPlayback()
# FIXME: use values from device properties
self._trig_fstart.setRange(0, 20000)
self._trig_fstart.setSuffix(" MHz")
self._trig_fstop_label = QtGui.QLabel("Stop:")
self._trig_fstop = QDoubleSpinBoxPlayback()
# FIXME: use values from device properties
self._trig_fstop.setRange(0, 20000)
self._trig_fstop.setSuffix(" MHz")
self._trig_amp_label = QtGui.QLabel("Level:")
self._trig_amp = QDoubleSpinBoxPlayback()
self._trig_amp.setSuffix(" dBm")
self._trig_amp.setRange(-2000, 2000)
def _build_layout(self, dut_prop=None):
grid = self.layout()
grid.addWidget(self._mode_label, 0, 0, 1, 1)
grid.addWidget(self._mode, 0, 1, 1, 2)
grid.addWidget(self._conts_box, 0, 3, 1, 1)
grid.addWidget(self._single_button, 0, 4, 1, 1)
grid.addWidget(self._level_trigger, 1, 0, 1, 2)
grid.addWidget(self._trig_fstart_label, 2, 0, 1, 1)
grid.addWidget(self._trig_fstart, 2, 1, 1, 1)
grid.addWidget(self._trig_fstop_label, 2, 3, 1, 1)
grid.addWidget(self._trig_fstop, 2, 4, 1, 1)
grid.addWidget(self._trig_amp_label, 1, 3, 1, 1)
grid.addWidget(self._trig_amp, 1, 4, 1, 1)
self._trig_state(False)
self.setLayout(grid)
self.resize_widget()
def _connect_capture_controls(self):
def single_capture():
self.controller.apply_plot_options(cont_cap_mode = False)
self.controller.start_capture(single = True)
def cont_capture():
self.controller.apply_plot_options(cont_cap_mode = self._conts_box.isChecked())
if self._conts_box.isChecked():
self.controller.start_capture(single = True)
def new_input_mode():
input_mode = TEXT_TO_MODE[self._mode.currentText()]
if not input_mode:
return
self.controller.apply_settings(mode=input_mode)
#FIXME rfe_mode should not be in device settings dictionary
if self.gui_state.device_settings['iq_output_path'] == 'CONNECTOR':
self.controller.apply_device_settings(rfe_mode = input_mode)
def enable_trigger():
trigger_settings = self.gui_state.device_settings['trigger']
if self._level_trigger.isChecked():
self._trig_state(True)
start = self.gui_state.center - (self.gui_state.span / 4)
stop = self.gui_state.center + (self.gui_state.span / 4)
level = trigger_settings['amplitude']
self.controller.apply_device_settings(trigger = {'type': 'LEVEL',
'fstart': start,
'fstop': stop,
'amplitude': trigger_settings['amplitude']})
else:
self.controller.apply_device_settings(trigger = {'type': 'NONE',
'fstart': trigger_settings['fstart'],
'fstop': trigger_settings['fstop'],
'amplitude': trigger_settings['amplitude']})
self._trig_state(False)
def new_trigger():
self.controller.apply_device_settings(trigger = {'type': 'LEVEL',
'fstart': self._trig_fstart.value() * M,
'fstop': self._trig_fstop.value() * M,
'amplitude': self._trig_amp.value()})
self._mode.currentIndexChanged.connect(new_input_mode)
self._single_button.clicked.connect(single_capture)
self._conts_box.clicked.connect(cont_capture)
self._level_trigger.clicked.connect(enable_trigger)
self._trig_fstart.editingFinished.connect(new_trigger)
self._trig_fstop.editingFinished.connect(new_trigger)
self._trig_amp.editingFinished.connect(new_trigger)
def device_changed(self, dut):
self.dut_prop = dut.properties
self._update_modes()
def state_changed(self, state, changed):
self.gui_state = state
if 'playback' in changed:
# restore controls after playback is stopped
self._level_trigger.setEnabled(state.mode in self.dut_prop.LEVEL_TRIGGER_RFE_MODES)
self._update_modes(current_mode=state.mode)
self._level_trigger.playback_value(False)
if state.playback:
# for playback simply update on every state change
self._mode.playback_value(MODE_TO_TEXT[state.mode])
if 'device_settings.trigger' in changed:
if state.device_settings['trigger']['type'] == 'LEVEL':
trigger = state.device_settings['trigger']
self._trig_fstart.quiet_update(value=trigger['fstart'] / M)
self._trig_fstop.quiet_update(value=trigger['fstop'] / M)
self._trig_amp.quiet_update(value=trigger['amplitude'])
else:
if self._level_trigger.checkState():
self._level_trigger.click()
if 'device_settings.iq_output_path' in changed:
if state.device_settings['iq_output_path'] == 'CONNECTOR':
self._update_modes(include_sweep=False)
self._level_trigger.setEnabled(False)
self._trig_fstart.setEnabled(False)
self._trig_fstop.setEnabled(False)
self._trig_amp.setEnabled(False)
elif state.device_settings['iq_output_path'] == 'DIGITIZER':
self._update_modes()
self._trig_fstart.setEnabled(True)
self._trig_fstop.setEnabled(True)
self._trig_amp.setEnabled(True)
self._level_trigger.setEnabled(True)
if 'mode' in changed:
if state.mode not in self.dut_prop.LEVEL_TRIGGER_RFE_MODES:
# forcibly disable triggers
if self._level_trigger.isChecked():
self._level_trigger.click()
self._trig_state(False)
self._level_trigger.setEnabled(False)
else:
self._level_trigger.setEnabled(True)
def plot_changed(self, state, changed):
if 'cont_cap_mode' in changed:
if not state['cont_cap_mode']:
if self._conts_box.isChecked():
self._conts_box.click()
def _update_modes(self, include_sweep=True, current_mode=None):
modes = []
if current_mode:
current_mode = MODE_TO_TEXT[current_mode]
if include_sweep:
modes.extend(self.dut_prop.SPECA_MODES)
if not self.controller.developer_mode:
modes.remove('Sweep ZIF')
modes.extend(self.dut_prop.RFE_MODES)
self._mode.quiet_update((MODE_TO_TEXT[m] for m in modes), current_mode)
self._mode.setEnabled(True)
def _trig_state(self, state):
self._trig_fstart.setEnabled(state)
self._trig_amp.setEnabled(state)
self._trig_fstop.setEnabled(state)
self._trig = state
def resize_widget(self):
self.setSizePolicy(QtGui.QSizePolicy.Preferred, QtGui.QSizePolicy.Maximum)
class DeviceControls(QtGui.QWidget):
"""
A widget based from the Qt QGroupBox widget with a layout containing widgets that
can be used to control the WSA4000/WSA5000
:param name: The name of the groupBox
"""
def __init__(self, controller):
super(DeviceControls, self).__init__()
self.controller = controller
controller.device_change.connect(self.device_changed)
controller.state_change.connect(self.state_changed)
self._create_controls()
self.setLayout(QtGui.QGridLayout())
self._build_layout()
self._connect_device_controls()
def _create_controls(self):
self._dec_label = QtGui.QLabel('DDC:')
self._dec_box = QComboBoxPlayback()
self._dec_box.setToolTip("Choose Decimation Rate")
# FIXME: use values from device properties
dec_values = [
'1', '4', '8', '16', '32', '64', '128', '256', '512', '1024'
]
for d in dec_values:
self._dec_box.addItem(d)
self._dec_values = dec_values
self._fshift_label = QtGui.QLabel("FShift:")
self._fshift_edit = QDoubleSpinBoxPlayback()
self._fshift_edit.setSuffix(' MHz')
self._fshift_edit.setToolTip("Frequency Shift")
self._fshift_edit.setWrapping(True)
self._antenna_label = QtGui.QLabel('Antenna:')
self._antenna_box = QComboBoxPlayback()
self._antenna_box.setToolTip("Choose Antenna")
self._antenna_box.quiet_update(["Antenna 1", "Antenna 2"])
self._iq_output_label = QtGui.QLabel("IQ Path:")
self._iq_output_box = QComboBoxPlayback()
self._iq_output_box.setToolTip("Choose IQ Path")
self._iq_output_box.quiet_update(["Digitizer", "Connector"])
self._gain_label = QtGui.QLabel("RF Gain:")
self._gain_box = QComboBoxPlayback()
self._gain_box.setToolTip("Choose RF Gain setting")
gain_values = ['VLow', 'Low', 'Med', 'High']
self._gain_box.quiet_update(gain_values)
self._gain_values = [g.lower() for g in gain_values]
self._ifgain_label = QtGui.QLabel("IF Gain:")
self._ifgain_box = QtGui.QSpinBox()
self._ifgain_box.setToolTip("Choose IF Gain setting")
# FIXME: use values from device properties
self._ifgain_box.setRange(-10, 25)
self._ifgain_box.setSuffix(" dB")
self._pll_label = QtGui.QLabel("PLL Ref:")
self._pll_box = QComboBoxPlayback()
self._pll_box.setToolTip("Choose PLL Reference")
self._pll_box.quiet_update(["Internal", "External"])
def _build_layout(self, dut_prop=None):
features = dut_prop.SWEEP_SETTINGS if dut_prop else []
grid = self.layout()
clear_layout(grid)
grid.addWidget(self._dec_label, 1, 0, 1, 1)
grid.addWidget(self._dec_box, 1, 1, 1, 1)
grid.addWidget(self._fshift_label, 1, 3, 1, 1)
grid.addWidget(self._fshift_edit, 1, 4, 1, 1)
# 4k features
if 'antenna' in features:
grid.addWidget(self._antenna_label, 2, 3, 1, 1)
grid.addWidget(self._antenna_box, 2, 4, 1, 1)
if 'gain' in features:
grid.addWidget(self._gain_label, 3, 0, 1, 1)
grid.addWidget(self._gain_box, 3, 1, 1, 1)
# FIXME: 'ifgain' appears in 5k list too
grid.addWidget(self._ifgain_label, 3, 3, 1, 1)
grid.addWidget(self._ifgain_box, 3, 4, 1, 1)
# 5k features
if 'attenuator' in features:
if dut_prop.IQ_OUTPUT_CONNECTOR:
grid.addWidget(self._iq_output_label, 3, 3, 1, 1)
grid.addWidget(self._iq_output_box, 3, 4, 1, 1)
grid.addWidget(self._pll_label, 3, 0, 1, 1)
grid.addWidget(self._pll_box, 3, 1, 1, 1)
grid.setColumnStretch(0, 4)
grid.setColumnStretch(1, 8)
grid.setColumnStretch(2, 1)
grid.setColumnStretch(3, 4)
grid.setColumnStretch(4, 8)
grid.setRowStretch(7, 1) # expand empty space at the bottom
self.resize_widget()
def _connect_device_controls(self):
def new_antenna():
self.controller.apply_device_settings(
antenna=int(self._antenna_box.currentText().split()[-1]))
def new_dec():
self.controller.apply_settings(
decimation=int(self._dec_box.currentText()))
def new_freq_shift():
self.controller.apply_settings(fshift=self._fshift_edit.value() *
M)
def new_gain():
self.plot_state.dev_set['gain'] = self._gain_box.currentText(
).split()[-1].lower().encode('ascii')
self.cap_dut.configure_device(self.plot_state.dev_set)
def new_ifgain():
self.plot_state.dev_set['ifgain'] = self._ifgain_box.value()
self.cap_dut.configure_device(self.plot_state.dev_set)
def new_pll_reference():
if self._pll_box.currentText() == 'Internal':
src = 'INT'
else:
src = 'EXT'
self.controller.apply_device_settings(pll_reference=src)
def new_iq_path():
self.controller.apply_device_settings(
iq_output_path=str(self._iq_output_box.currentText().upper()))
self._antenna_box.currentIndexChanged.connect(new_antenna)
self._gain_box.currentIndexChanged.connect(new_gain)
self._dec_box.currentIndexChanged.connect(new_dec)
self._fshift_edit.valueChanged.connect(new_freq_shift)
self._ifgain_box.valueChanged.connect(new_ifgain)
self._iq_output_box.currentIndexChanged.connect(new_iq_path)
self._pll_box.currentIndexChanged.connect(new_pll_reference)
def device_changed(self, dut):
self.dut_prop = dut.properties
self._build_layout(self.dut_prop)
def state_changed(self, state, changed):
if state.playback:
# for playback simply update everything on every state change
self._dec_box.playback_value(str(state.decimation))
self._fshift_edit.playback_value(state.fshift / M)
self._pll_box.playback_value(
'External' if state.device_settings.get('pll_reference') ==
'EXT' else 'Internal')
self._iq_output_box.playback_value('Digitizer')
return
if 'playback' in changed:
decimation_available = self.dut_prop.MIN_DECIMATION[
state.rfe_mode()] is not None
self._dec_box.setEnabled(decimation_available)
self._fshift_edit.setEnabled(decimation_available)
self._pll_box.quiet_update(["Internal", "External"])
self._pll_box.setEnabled(True)
self._iq_output_box.quiet_update(["Digitizer", "Connector"])
self._iq_output_box.setEnabled(True)
if 'device_settings.trigger' in changed:
if state.device_settings['trigger']['type'] == 'None':
if self._level_trigger.isChecked():
self._level_trigger.click()
if 'mode' in changed:
if state.sweeping():
self._dec_box.setEnabled(False)
self._fshift_edit.setEnabled(False)
else:
decimation_available = self.dut_prop.MIN_DECIMATION[
state.rfe_mode()] is not None
self._dec_box.setEnabled(decimation_available)
self._fshift_edit.setEnabled(decimation_available)
fshift_max = self.dut_prop.FULL_BW[state.rfe_mode()] / M
self._fshift_edit.setRange(-fshift_max, fshift_max)
if 'device_settings.iq_output_path' in changed:
if 'CONNECTOR' == state.device_settings['iq_output_path']:
# remove all digitizer controls
self._dec_box.setEnabled(False)
self._fshift_edit.setEnabled(False)
self._fshift_label.setEnabled(False)
self._level_trigger.setEnabled(False)
self._trig_fstart.setEnabled(False)
self._trig_fstop.setEnabled(False)
self._trig_amp.setEnabled(False)
elif 'DIGITIZER' == state.device_settings['iq_output_path']:
# enable digitizer controls
if not self.gui_state.device_settings[
'iq_output_path'] == 'DIGITIZER':
self._dec_box.setEnabled(True)
self._fshift_edit.setEnabled(True)
self._fshift_label.setEnabled(True)
self._trig_fstart.setEnabled(True)
self._trig_fstop.setEnabled(True)
self._trig_amp.setEnabled(True)
self._level_trigger.setEnabled(True)
self.gui_state = state
def resize_widget(self):
self.setSizePolicy(QtGui.QSizePolicy.Preferred,
QtGui.QSizePolicy.Maximum)
def showEvent(self, event):
self.activateWindow()
