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mirror of https://github.com/cmur2/python-bme680.git synced 2024-11-14 08:56:20 +01:00

Tweaked examples

This commit is contained in:
Phil Howard 2017-10-17 16:45:50 +01:00
parent 9b18ecf446
commit 99222746a6
3 changed files with 63 additions and 139 deletions

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@ -1,51 +0,0 @@
import bme680
import time
sensor = bme680.BME680()
print("Calibration data:")
for name in dir(sensor.calibration_data):
if not name.startswith('_'):
value = getattr(sensor.calibration_data, name)
if isinstance(value, int):
print("{}: {}".format(name, value))
sensor.set_humidity_oversample(bme680.OS_2X)
sensor.set_pressure_oversample(bme680.OS_4X)
sensor.set_temperature_oversample(bme680.OS_8X)
sensor.set_filter(bme680.FILTER_SIZE_3)
sensor.set_gas_status(bme680.ENABLE_GAS_MEAS)
print("\n\nInitial reading:")
for name in dir(sensor.data):
value = getattr(sensor.data, name)
if not name.startswith('_'):
print("{}: {}".format(name, value))
sensor.set_gas_heater_temperature(320)
sensor.set_gas_heater_duration(150)
sensor.select_gas_heater_profile(0)
# Up to 10 heater profiles can be configured, each
# with their own temperature and duration.
# sensor.set_gas_heater_profile(200, 150, nb_profile=1)
# sensor.select_gas_heater_profile(1)
print("\n\nPolling:")
try:
while True:
if sensor.get_sensor_data():
output = "{0:.2f} degC {1:.2f} hPa {2:.3f} %rH".format(sensor.data.temperature, sensor.data.pressure, sensor.data.humidity)
if sensor.data.heat_stable:
print("{0} {1} ohms".format(output, sensor.data.gas_resistance))
else:
print(output)
time.sleep(1)
except KeyboardInterrupt:
pass

120
examples/test.py Normal file → Executable file
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""" #!/usr/bin/env python
Pressure Temperature Humidity
128,0, 79,186,128, 122,185,0, 76,55, 128,0,0, 29,39,
128,0, 79,186,144, 122,185,64, 76,59, 128,0,0, 220,120,
2017-10-13 22:51:50 T: 26.67 degC, P: 1011.79 hPa, H: 49.64 %rH , G: 24487 ohms
128,0, 79,186,160, 122,186,32, 76,61, 128,0,0, 70,56,
2017-10-13 22:51:53 T: 26.68 degC, P: 1011.79 hPa, H: 49.65 %rH , G: 37891 ohms
128,0, 79,186,224, 122,187,0, 76,61, 128,0,0, 205,55,
2017-10-13 22:51:56 T: 26.68 degC, P: 1011.79 hPa, H: 49.65 %rH , G: 51080 ohms
128,0, 79,186,224, 122,187,224, 76,62, 128,0,0, 127,247,
2017-10-13 22:51:59 T: 26.68 degC, P: 1011.79 hPa, H: 49.66 %rH , G: 63052 ohms
128,0, 79,187,32, 122,188,64, 76,58, 128,0,0, 78,119,
2017-10-13 22:52:02 T: 26.69 degC, P: 1011.79 hPa, H: 49.63 %rH , G: 74195 ohms
128,0, 79,187,112, 122,189,64, 76,48, 128,0,0, 46,183,
2017-10-13 22:52:05 T: 26.69 degC, P: 1011.77 hPa, H: 49.57 %rH , G: 83681 ohms
128,0, 79,187,128, 122,189,160, 76,45, 128,0,0, 25,55,
2017-10-13 22:52:08 T: 26.69 degC, P: 1011.77 hPa, H: 49.55 %rH , G: 91612 ohms
128,0, 79,187,144, 122,189,240, 76,48, 128,0,0, 223,182,
2017-10-13 22:52:11 T: 26.69 degC, P: 1011.77 hPa, H: 49.57 %rH , G: 97109 ohms
128,0, 79,187,160, 122,190,80, 76,49, 128,0,0, 198,118,
2017-10-13 22:52:14 T: 26.70 degC, P: 1011.77 hPa, H: 49.58 %rH , G: 103197 ohms
"""
import bme680 import bme680
import time
example_calibration = [
# T2L T2H T3 TP P1L P1H P2L
192, 108, 103, 3, 47, 80, 144, 236,
# P2H P3 - P4L P4H P5L P5H P7
214, 88, 255, 42, 30, 169, 255, 54,
# P6 - - P8L P8H P9L P9H P10
30, 0, 0, 199, 239, 69, 248, 30,
# H2H H2L H1L H1H H3 H4 H5 H6
1, 64, 206, 39, 0, 45, 20, 120,
# H7 T1L T1H GH2L GH2H GH1 GH3
156, 24, 102, 142, 171, 226, 18, 16,
0
]
example_heat_range = 22
example_heat_value = 44
example_sw_error = 227
sensor = bme680.BME680() sensor = bme680.BME680()
sensor.calibration_data.set_from_array(example_calibration) print("Calibration data:")
sensor.calibration_data.set_other(
example_heat_range,
example_heat_value,
example_sw_error)
for name in dir(sensor.calibration_data): for name in dir(sensor.calibration_data):
if not name.startswith('_'): if not name.startswith('_'):
value = getattr(sensor.calibration_data, name) value = getattr(sensor.calibration_data, name)
if isinstance(value, int): if isinstance(value, int):
print("{}: {}".format(name, value)) print("{}: {}".format(name, value))
sensor.ambient_temperature = 25
""" sensor.set_humidity_oversample(bme680.OS_2X)
result = [] sensor.set_pressure_oversample(bme680.OS_4X)
for x in range(63, 4033): sensor.set_temperature_oversample(bme680.OS_8X)
result.append((x, sensor._calc_heater_duration(x))) sensor.set_filter(bme680.FILTER_SIZE_3)
sensor.set_gas_status(bme680.ENABLE_GAS_MEAS)
print(result) print("\n\nInitial reading:")
for name in dir(sensor.data):
value = getattr(sensor.data, name)
if not name.startswith('_'):
print("{}: {}".format(name, value))
result = [] sensor.set_gas_heater_temperature(320)
for x in range(200, 401): sensor.set_gas_heater_duration(150)
result.append(sensor._calc_heater_resistance(x)) sensor.select_gas_heater_profile(0)
print(result) # Up to 10 heater profiles can be configured, each
""" # with their own temperature and duration.
# sensor.set_gas_heater_profile(200, 150, nb_profile=1)
# sensor.select_gas_heater_profile(1)
""" print("\n\nPolling:")
Pressure Temperature Humidity Gas try:
128,0, 79,187,160, 122,190,80, 76,49, 128,0,0, 198,118, while True:
2017-10-13 22:52:14 T: 26.70 degC, P: 1011.77 hPa, H: 49.58 %rH , G: 103197 ohms if sensor.get_sensor_data():
"""
regs = [128,0, 79,186,144, 122,185,64, 76,59, 128,0,0, 220,120] output = "{0:.2f} degC {1:.2f} hPa {2:.3f} %rH".format(sensor.data.temperature, sensor.data.pressure, sensor.data.humidity)
vals = [26.67, 1011.79, 49.64, 24487]
adc_pres = (regs[2] << 12) | (regs[3] << 4) | (regs[4] >> 4) if sensor.data.heat_stable:
adc_temp = (regs[5] << 12) | (regs[6] << 4) | (regs[7] >> 4) print("{0} {1} ohms".format(output, sensor.data.gas_resistance))
adc_hum = (regs[8] << 8) | regs[9] else:
adc_gas_res = (regs[13] << 2) | (regs[14] >> 6) print(output)
gas_range = regs[14] & bme680.constants.GAS_RANGE_MSK
result = sensor._calc_temperature(adc_temp) / 100 time.sleep(1)
print("Temperature: Raw: {}: {} {}".format(adc_temp, vals[0], result))
result = sensor._calc_pressure(adc_pres) except KeyboardInterrupt:
print("Pressure: Raw: {}: {} {}".format(adc_pres, vals[1], result)) pass
result = sensor._calc_humidity(adc_hum) / 1000
print("Humidity: Raw: {}: {}% {}%".format(adc_hum, vals[2], result))
result = sensor._calc_gas_resistance(adc_gas_res, gas_range)
print("Resistance: Raw: {}: {} {}".format(adc_gas_res, vals[3], result))

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examples/tph.py Executable file
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#!/usr/bin/env python
import bme680
import time
print("""Display Temperature, Pressure and Humidity
If you don't need gas readings, then you can read temperature,
pressure and humidity quickly.
Press Ctrl+C to exit
""")
sensor = bme680.BME680()
sensor.set_humidity_oversample(bme680.OS_2X)
sensor.set_pressure_oversample(bme680.OS_4X)
sensor.set_temperature_oversample(bme680.OS_8X)
sensor.set_filter(bme680.FILTER_SIZE_3)
print("Polling:")
try:
while True:
if sensor.get_sensor_data():
output = "{0:.2f} degC {1:.2f} hPa {2:.3f} %rH".format(sensor.data.temperature, sensor.data.pressure, sensor.data.humidity)
print(output)
except KeyboardInterrupt:
pass