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https://github.com/nqrduck/nqrduck-spectrometer-limenqr.git
synced 2024-11-09 11:10:03 +00:00
Working RX dwelltime.
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parent
2c63fa4028
commit
1a6342e4cb
2 changed files with 54 additions and 9 deletions
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@ -4,10 +4,12 @@ import logging
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import tempfile
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import tempfile
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from pathlib import Path
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from pathlib import Path
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import numpy as np
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import numpy as np
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from scipy.signal import resample, decimate
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from limedriver.binding import PyLimeConfig
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from limedriver.binding import PyLimeConfig
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from limedriver.hdf_reader import HDF
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from limedriver.hdf_reader import HDF
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from nqrduck.helpers.unitconverter import UnitConverter
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from nqrduck_spectrometer.base_spectrometer_controller import BaseSpectrometerController
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from nqrduck_spectrometer.base_spectrometer_controller import BaseSpectrometerController
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from nqrduck_spectrometer.measurement import Measurement
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from nqrduck_spectrometer.measurement import Measurement
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from nqrduck_spectrometer.pulseparameters import TXPulse, RXReadout
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from nqrduck_spectrometer.pulseparameters import TXPulse, RXReadout
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@ -55,6 +57,29 @@ class LimeNQRController(BaseSpectrometerController):
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measurement_data = self.process_measurement_results(lime)
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measurement_data = self.process_measurement_results(lime)
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# Resample the RX data to the dwell time settings
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dwell_time = self.module.model.get_setting_by_name(
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self.module.model.RX_DWELL_TIME
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).value
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dwell_time = UnitConverter.to_float(dwell_time) * 1e6
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logger.debug("Dwell time: %s", dwell_time)
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logger.debug(f"Last tdx value: {measurement_data.tdx[-1]}")
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if dwell_time:
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n_data_points = int(measurement_data.tdx[-1] / dwell_time)
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logger.debug("Resampling to %s data points", n_data_points)
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tdx = np.linspace(
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0, measurement_data.tdx[-1], n_data_points, endpoint=False
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)
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tdy = resample(measurement_data.tdy, n_data_points)
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measurement_data = Measurement(
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tdx,
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tdy,
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self.module.model.target_frequency,
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IF_frequency=self.module.model.if_frequency,
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)
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if measurement_data:
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if measurement_data:
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self.emit_measurement_data(measurement_data)
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self.emit_measurement_data(measurement_data)
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self.emit_status_message("Finished Measurement")
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self.emit_status_message("Finished Measurement")
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@ -456,6 +481,7 @@ class LimeNQRController(BaseSpectrometerController):
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parameter.get_option_by_name(TXPulse.RELATIVE_AMPLITUDE).value / 100
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parameter.get_option_by_name(TXPulse.RELATIVE_AMPLITUDE).value / 100
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)
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)
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pulse_amplitude = np.clip(pulse_amplitude, -0.99, 0.99)
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pulse_amplitude = np.clip(pulse_amplitude, -0.99, 0.99)
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return pulse_shape, pulse_amplitude
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return pulse_shape, pulse_amplitude
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def modulate_pulse_amplitude(
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def modulate_pulse_amplitude(
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@ -475,6 +501,11 @@ class LimeNQRController(BaseSpectrometerController):
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num_samples = int(float(event.duration) * lime.srate)
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num_samples = int(float(event.duration) * lime.srate)
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tdx = np.linspace(0, float(event.duration), num_samples, endpoint=False)
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tdx = np.linspace(0, float(event.duration), num_samples, endpoint=False)
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shift_signal = np.exp(1j * 2 * np.pi * self.module.model.if_frequency * tdx)
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shift_signal = np.exp(1j * 2 * np.pi * self.module.model.if_frequency * tdx)
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# The pulse amplitude needs to be resampled to the number of samples
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logger.debug("Resampling pulse amplitude to %s samples", num_samples)
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pulse_amplitude = resample(pulse_amplitude, num_samples)
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pulse_complex = pulse_amplitude * shift_signal
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pulse_complex = pulse_amplitude * shift_signal
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modulated_amplitude = np.abs(pulse_complex)
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modulated_amplitude = np.abs(pulse_complex)
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modulated_phase = self.unwrap_phase(np.angle(pulse_complex))
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modulated_phase = self.unwrap_phase(np.angle(pulse_complex))
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@ -8,6 +8,7 @@ from nqrduck_spectrometer.settings import (
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IntSetting,
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IntSetting,
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BooleanSetting,
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BooleanSetting,
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SelectionSetting,
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SelectionSetting,
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StringSetting,
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)
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)
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logger = logging.getLogger(__name__)
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logger = logging.getLogger(__name__)
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@ -19,17 +20,18 @@ class LimeNQRModel(BaseSpectrometerModel):
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CHANNEL = "TX/RX Channel"
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CHANNEL = "TX/RX Channel"
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TX_MATCHING = "TX Matching"
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TX_MATCHING = "TX Matching"
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RX_MATCHING = "RX Matching"
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RX_MATCHING = "RX Matching"
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SAMPLING_FREQUENCY = "Sampling Frequency"
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SAMPLING_FREQUENCY = "Sampling Frequency (Hz)"
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IF_FREQUENCY = "IF Frequency"
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RX_DWELL_TIME = "RX Dwell Time (s)"
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ACQUISITION_TIME = "Acquisition time"
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IF_FREQUENCY = "IF Frequency (Hz)"
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ACQUISITION_TIME = "Acquisition time (s)"
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GATE_ENABLE = "Enable"
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GATE_ENABLE = "Enable"
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GATE_PADDING_LEFT = "Gate padding left"
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GATE_PADDING_LEFT = "Gate padding left"
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GATE_PADDING_RIGHT = "Gate padding right"
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GATE_PADDING_RIGHT = "Gate padding right"
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GATE_SHIFT = "Gate shift"
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GATE_SHIFT = "Gate shift"
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RX_GAIN = "RX Gain"
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RX_GAIN = "RX Gain"
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TX_GAIN = "TX Gain"
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TX_GAIN = "TX Gain"
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RX_LPF_BW = "RX LPF BW"
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RX_LPF_BW = "RX LPF BW (Hz)"
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TX_LPF_BW = "TX LPF BW"
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TX_LPF_BW = "TX LPF BW (Hz)"
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TX_I_DC_CORRECTION = "TX I DC correction"
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TX_I_DC_CORRECTION = "TX I DC correction"
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TX_Q_DC_CORRECTION = "TX Q DC correction"
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TX_Q_DC_CORRECTION = "TX Q DC correction"
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TX_I_GAIN_CORRECTION = "TX I Gain correction"
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TX_I_GAIN_CORRECTION = "TX I Gain correction"
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@ -79,15 +81,27 @@ class LimeNQRModel(BaseSpectrometerModel):
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)
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)
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self.add_setting(rx_matching_setting, self.ACQUISITION)
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self.add_setting(rx_matching_setting, self.ACQUISITION)
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sampling_frequency_setting = FloatSetting(
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sampling_frequency_options = [
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"30.72e6",
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"15.36e6",
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"7.68e6",
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]
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sampling_frequency_setting = SelectionSetting(
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self.SAMPLING_FREQUENCY,
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self.SAMPLING_FREQUENCY,
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30.72e6,
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sampling_frequency_options,
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"30.72e6",
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"The rate at which the spectrometer samples the input signal.",
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"The rate at which the spectrometer samples the input signal.",
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min_value=0,
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max_value=30.72e6,
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)
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)
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self.add_setting(sampling_frequency_setting, self.ACQUISITION)
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self.add_setting(sampling_frequency_setting, self.ACQUISITION)
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rx_dwell_time_setting = StringSetting(
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self.RX_DWELL_TIME,
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"22n",
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"The time between samples in the receive path.",
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)
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self.add_setting(rx_dwell_time_setting, self.ACQUISITION)
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if_frequency_setting = FloatSetting(
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if_frequency_setting = FloatSetting(
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self.IF_FREQUENCY,
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self.IF_FREQUENCY,
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5e6,
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5e6,
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