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  1. 24
      UNITS.INI
  2. 27
      main.py

@ -2,6 +2,9 @@
## GEX v1.0.0 on STM32F072-HUB ## GEX v1.0.0 on STM32F072-HUB
## built Jun 15 2018 at 13:45:28 ## built Jun 15 2018 at 13:45:28
# Overwrite this file to change settings.
# Press the LOCK button to save them to Flash.
[UNITS] [UNITS]
# Create units by adding their names next to a type (e.g. DO=A,B), # Create units by adding their names next to a type (e.g. DO=A,B),
# remove the same way. Reload to update the unit sections below. # remove the same way. Reload to update the unit sections below.
@ -31,7 +34,7 @@ TOUCH=
# Simple PWM output # Simple PWM output
PWMDIM= PWMDIM=
# Two-channel analog output with waveforms # Two-channel analog output with waveforms
DAC= DAC=dac
[SPI:spi@2] [SPI:spi@2]
# Peripheral number (SPIx) # Peripheral number (SPIx)
@ -55,7 +58,7 @@ first-bit=MSB
# SS port name # SS port name
port=A port=A
# SS pins (comma separated, supports ranges) # SS pins (comma separated, supports ranges)
pins=4 pins=3
[ADC:adc@4] [ADC:adc@4]
# Enabled channels, comma separated # Enabled channels, comma separated
@ -73,7 +76,7 @@ frequency=1000
# - defines the maximum pre-trigger size (divide by # of channels) # - defines the maximum pre-trigger size (divide by # of channels)
# - captured data is sent in half-buffer chunks # - captured data is sent in half-buffer chunks
# - buffer overrun aborts the data capture # - buffer overrun aborts the data capture
buffer_size=512 buffer_size=800
# Enable continuous sampling with averaging # Enable continuous sampling with averaging
# Caution: This can cause DAC output glitches # Caution: This can cause DAC output glitches
@ -81,4 +84,17 @@ averaging=N
# Exponential averaging coefficient (permil, range 0-1000 ~ 0.000-1.000) # Exponential averaging coefficient (permil, range 0-1000 ~ 0.000-1.000)
# - used formula: y[t]=(1-k)*y[t-1]+k*u[t] # - used formula: y[t]=(1-k)*y[t-1]+k*u[t]
# - not available when a capture is running # - not available when a capture is running
avg_factor=800 avg_factor=80
[DAC:dac@1]
# Enabled channels (1:A4, 2:A5)
ch1_enable=Y
ch2_enable=N
# Enable output buffer
ch1_buff=Y
ch2_buff=Y
# Superimposed noise type (NONE,WHITE,TRIANGLE) and nbr. of bits (1-12)
ch1_noise=NONE
ch1_noise-level=3
ch2_noise=NONE
ch2_noise-level=3

@ -7,6 +7,8 @@ from matplotlib import pyplot as plt
import gex import gex
import time import time
use_native_dac = True
class ADG: class ADG:
def __init__(self, client:gex.Client): def __init__(self, client:gex.Client):
self.client = client self.client = client
@ -68,9 +70,12 @@ with gex.Client(gex.TrxRawUSB()) as client:
# Frequency sweep parameters # Frequency sweep parameters
f_0 = 5 #f_0 = 5
#f_1 = 5000
#f_step = 15
f_0 = 10
f_1 = 5000 f_1 = 5000
f_step = 15 f_step = 50
# Retry on failure # Retry on failure
retry_count = 5 retry_count = 5
@ -91,6 +96,15 @@ with gex.Client(gex.TrxRawUSB()) as client:
adc = gex.ADC(client, 'adc') adc = gex.ADC(client, 'adc')
dac = None
gen = None
if use_native_dac:
print('Using native GEX DAC')
dac = gex.DAC(client, 'dac')
dac.waveform(1, 'SINE')
else:
print('Using AD9833 via SPI')
gen = ADG(client) gen = ADG(client)
gen.initialize() gen.initialize()
@ -99,7 +113,10 @@ with gex.Client(gex.TrxRawUSB()) as client:
last_db = None last_db = None
for f in range(f_0, f_1, f_step): for f in range(f_0, f_1, f_step):
#dac.set_frequency(1, f)
if use_native_dac:
dac.set_frequency(1, f)
else:
gen.set_frequency(f) gen.set_frequency(f)
max_allowed_shift_db += allowed_shift_compensation max_allowed_shift_db += allowed_shift_compensation
@ -148,6 +165,7 @@ with gex.Client(gex.TrxRawUSB()) as client:
y1 = np.max(t[:,0]) - np.min(t[:,0]) y1 = np.max(t[:,0]) - np.min(t[:,0])
y2 = np.max(t[:,1]) - np.min(t[:,1]) y2 = np.max(t[:,1]) - np.min(t[:,1])
print("\x1b[90mU %f, Y %f\x1b[0m" % (y1, y2))
gain_raw = y2/y1 gain_raw = y2/y1
gain_db = 20*math.log10(gain_raw) gain_db = 20*math.log10(gain_raw)
@ -179,6 +197,9 @@ with gex.Client(gex.TrxRawUSB()) as client:
if not suc: if not suc:
last_db = last_db_in_fail last_db = last_db_in_fail
if use_native_dac:
dac.dc(1, 2000)
else:
gen.wfm_dc() gen.wfm_dc()
t = np.reshape(np.array(table), [int(len(table) / 3), 3]) t = np.reshape(np.array(table), [int(len(table) / 3), 3])

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