support for firmware v 0.2, add ADC cal data

master
Ondřej Hruška 7 years ago
parent b697246e55
commit 3d46cdf090
Signed by: MightyPork
GPG Key ID: 2C5FD5035250423D
  1. 26
      gex/units/ADC.py
  2. 86
      nrf_config.ini
  3. 7
      test_adc.py

@ -10,6 +10,7 @@ import numpy as np
CMD_READ_RAW = 0
CMD_READ_SMOOTHED = 1
CMD_READ_CAL_CONSTANTS = 2
CMD_GET_ENABLED_CHANNELS = 10
CMD_GET_SAMPLE_RATE = 11
@ -40,6 +41,24 @@ class TriggerReport:
def __str__(self):
return "EventReport(edge %d, pretrig len %d, ts %d, data %s)" % (self.edge, self.pretrig, self.timestamp, self.data)
class ADC_CalData:
def __init__(self, pp:gex.PayloadParser):
self.VREFINT_CAL = pp.u16() # ADC raw value for VREFINT, 30C ambient
self.VREFINT_CAL_VADCREF = pp.u16() # Analog reference voltage during VREFINT calibration (mV) +-10mV
self.TSENSE_CAL1 = pp.u16() # ADC raw value in point 1
self.TSENSE_CAL2 = pp.u16() # ADC raw value in point 2
self.TSENSE_CAL1_TEMP = pp.u8() # Temperature for point 1 (Celsius) +-5C
self.TSENSE_CAL2_TEMP = pp.u8() # Temperature for point 2 (Celsius) +-5C
self.TSENSE_CAL_VADCREF = pp.u16() # Analog reference voltage during TSENSE calibration (mV) +-10mV
def __str__(self):
return "ADC_CalData(VREFINT=%d at Vref=%d mV, TSENSE_%dC=%d, TSENSE_%dC=%d at Vref=%d mV)" % \
(self.VREFINT_CAL, self.VREFINT_CAL_VADCREF,
self.TSENSE_CAL1_TEMP, self.TSENSE_CAL1, self.TSENSE_CAL2_TEMP, self.TSENSE_CAL2, self.TSENSE_CAL_VADCREF)
# TODO utility for converting raw values to real voltage / temperature
class ADC(gex.Unit):
"""
ADC device
@ -161,6 +180,13 @@ class ADC(gex.Unit):
msg = self._query(CMD_GET_ENABLED_CHANNELS)
return list(msg.data)
def get_calibration_data(self):
"""
Read ADC calibration data
"""
msg = self._query(CMD_READ_CAL_CONSTANTS)
return ADC_CalData(gex.PayloadParser(msg.data))
def set_sample_rate(self, freq:int):
""" Set sample rate in Hz. Returns the real achieved frequency as float. """
pb = gex.PayloadBuilder()

@ -0,0 +1,86 @@
## UNITS.INI
## GEX v0.1.0 on STM32F072-HUB
## built Mar 28 2018 at 00:42:03
[UNITS]
# 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.
# Digital output
DO=ce
# Digital input with triggers
DI=irq
# Neopixel RGB LED strip
NPX=
# I2C master
I2C=
# SPI master
SPI=spi
# Serial port
USART=
# 1-Wire master
1WIRE=
# Analog/digital converter
ADC=
# Shift register driver (595, 4094)
SIPO=
# Frequency and pulse measurement
FCAP=
# Capacitive touch sensing
TOUCH=
# Simple PWM output
PWMDIM=
# Two-channel analog output with waveforms
DAC=
[DO:ce@2]
# Port name
port=B
# Pins (comma separated, supports ranges)
pins=6, 2
# Initially high pins
initial=
# Open-drain pins
open-drain=
[DI:irq@3]
# Port name
port=B
# Pins (comma separated, supports ranges)
pins=8-7
# Pins with pull-up
pull-up=
# Pins with pull-down
pull-down=
# Trigger pins activated by rising/falling edge
trig-rise=
trig-fall=
# Trigger pins auto-armed by default
auto-trigger=
# Triggers hold-off time (ms)
hold-off=100
[SPI:spi@1]
# Peripheral number (SPIx)
device=1
# Pin mappings (SCK,MISO,MOSI)
# SPI1: (0) A5,A6,A7 (1) B3,B4,B5
# SPI2: (0) B13,B14,B15
remap=1
# Prescaller: 2,4,8,...,256
prescaller=64
# Clock polarity: 0,1 (clock idle level)
cpol=0
# Clock phase: 0,1 (active edge, 0-first, 1-second)
cpha=1
# Transmit only, disable MISO
tx-only=N
# Bit order (LSB or MSB first)
first-bit=MSB
# SS port name
port=B
# SS pins (comma separated, supports ranges)
pins=1-0

@ -8,9 +8,12 @@ from matplotlib import pyplot as plt
from scipy.io import wavfile
with gex.Client(gex.TrxRawUSB()) as client:
adc = gex.ADC(client, 'a')
adc = gex.ADC(client, 'adc')
adc.set_active_channels([3])
print(adc.get_calibration_data())
print(adc.get_channels())
adc.set_active_channels([1])
rate=500
fs = adc.set_sample_rate(rate)

Loading…
Cancel
Save