use subplots & progressive frequency step increase for faster measurement

master
Ondřej Hruška 7 years ago
parent 1df96bcb93
commit fb7da03429
Signed by: MightyPork
GPG Key ID: 2C5FD5035250423D
  1. 45
      main.py

@ -40,7 +40,8 @@ class ADG:
if freq is not None:
self.set_frequency(freq)
with gex.Client(gex.TrxRawUSB()) as client:
#with gex.Client(gex.TrxRawUSB()) as client:
with gex.Client(gex.TrxSerialThread('/dev/ttyACM0')) as client:
# ===============================================
# Delay between adjusting input and starting the measurement.
@ -64,13 +65,15 @@ with gex.Client(gex.TrxRawUSB()) as client:
# lowpass filter example (corner 340 Hz)
settling_time_s = (4700*100e-9)*10
max_allowed_shift_db = 1
allowed_shift_compensation = 1.2
allowed_shift_compensation = 2
# Frequency sweep parameters
f_0 = 5
f_1 = 5000
f_step = 15
f_1 = 6000
f_step = 5
f_step_begin = 5
f_step_end = 200
# Retry on failure
retry_count = 5
@ -81,7 +84,7 @@ with gex.Client(gex.TrxRawUSB()) as client:
capture_periods = 10
# Parameters for automatic params adjustment
max_allowed_sample_rate = 36000
max_allowed_sample_rate = 40000
max_allowed_nr_periods = 80
min_samples_per_period = 4
@ -98,7 +101,14 @@ with gex.Client(gex.TrxRawUSB()) as client:
table = []
last_db = None
for f in range(f_0, f_1, f_step):
f = f_0
first = True
while f <= f_1:
if not first:
f_step = round(f_step_begin + ((f - f_0) / (f_1 - f_0)) * (f_step_end - f_step_begin))
f += f_step
first = False
#dac.set_frequency(1, f)
gen.set_frequency(f)
@ -187,17 +197,18 @@ with gex.Client(gex.TrxRawUSB()) as client:
gains = t[:, 1]
phases = t[:, 2]
plt.figure()
plt.ylabel('Gain (dB)')
plt.xlabel('Frequency (Hz)')
plt.semilogx(freqs, gains) # Bode magnitude plot
plt.grid()
plt.figure()
plt.ylabel('Phase (deg)')
plt.xlabel('Frequency (Hz)')
plt.semilogx(freqs, phases) # Bode phase plot
plt.grid()
fig = plt.figure()
ax1 = fig.add_subplot(211)
ax1.set_ylabel('Gain (dB)')
ax1.semilogx(freqs, gains) # Bode magnitude plot
ax1.grid()
ax2 = fig.add_subplot(212)
ax2.set_ylabel('Phase (deg)')
ax2.set_xlabel('Frequency (Hz)')
ax2.semilogx(freqs, phases) # Bode phase plot
ax2.grid()
plt.show()

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