noptica2-sdr/dmi.py

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import SoapySDR
import numpy as np
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import gc
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from noptica import *
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from gui import GUI
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def main():
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# For this PoC code, a small memory leak is less harmful than random overflows.
gc.disable()
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freq_sample = 1e6
freq_base = 1088230e3
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block_size = 4096
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gui = GUI(freq_sample, freq_base, block_size)
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try:
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induction = InductionHeater("/dev/ttyUSB0", 350e3, 445e3)
induction.start()
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try:
def stabilizer_cb(spectrum, peak_freq, locked, tuning):
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gui.update_ref(spectrum, peak_freq, locked)
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induction.set(tuning)
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stabilizer = Stabilizer(freq_sample, block_size, 1088.1e6 - freq_base, stabilizer_cb)
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position_tracker = PositionTracker()
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sdr = SoapySDR.Device()
for channel in range(2):
sdr.setSampleRate(SoapySDR.SOAPY_SDR_RX, channel, freq_sample)
sdr.setFrequency(SoapySDR.SOAPY_SDR_RX, channel, freq_base)
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sdr.setGain(SoapySDR.SOAPY_SDR_RX, channel, 57.0)
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buf_sdr = BufferedSDR(sdr, [0, 1], block_size, 32)
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buf_sdr.start()
try:
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throttle = 0
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throttle_factor = 8
position_acc = 0.0
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while True:
buffers = buf_sdr.get()
try:
samples_ref, samples_meas = buffers
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# Throttle certain things to avoid overflows due to the limited speed of
# the MHS5200A serial interface and GUI plotting.
throttle += 1
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if throttle == throttle_factor:
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throttle = 0
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if throttle == 0:
stabilizer.input(samples_ref)
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gui.update_meas(samples_meas)
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if stabilizer.locked():
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position = position_tracker.input(samples_ref, samples_meas)
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position_acc += np.sum(position)/len(position)
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if throttle == 0:
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gui.update_position(position_acc/throttle_factor)
position_acc = 0.0
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else:
position_tracker.reset()
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position_acc = 0.0
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finally:
buf_sdr.dispose(buffers)
finally:
buf_sdr.stop()
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finally:
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induction.stop()
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finally:
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gui.close()
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if __name__ == "__main__":
main()