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BME280.py
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###########################################################################
# Sint Wind PI
# Copyright 2012 by Tonino Tarsi <[email protected]>
#
# Please refer to the LICENSE file for conditions
# Visit http://www.vololiberomontecucco.it
#
##########################################################################
# Version 2
import logging
import smbus
import time
class BME280():
def __init__(self):
bus_number = 1
# self.i2c_address = 0x77
self.bus = smbus.SMBus(bus_number)
self.digT = []
self.digP = []
self.digH = []
self.t_fine = 0.0
osrs_t = 1 #Temperature oversampling x 1
osrs_p = 1 #Pressure oversampling x 1
osrs_h = 1 #Humidity oversampling x 1
mode = 3 #Normal mode
t_sb = 5 #Tstandby 1000ms
filter = 0 #Filter off
spi3w_en = 0 #3-wire SPI Disable
ctrl_meas_reg = (osrs_t << 5) | (osrs_p << 2) | mode
config_reg = (t_sb << 5) | (filter << 2) | spi3w_en
ctrl_hum_reg = osrs_h
try:
self.bus.read_byte_data(0x77,0xF7)
self.i2c_address = 0x77
except:
self.i2c_address = 0x76
self.bus.write_byte_data(self.i2c_address,0xF2,ctrl_hum_reg)
self.bus.write_byte_data(self.i2c_address,0xF4,ctrl_meas_reg)
self.bus.write_byte_data(self.i2c_address,0xF5,config_reg)
calib = []
for i in range (0x88,0x88+24):
calib.append(self.bus.read_byte_data(self.i2c_address,i))
calib.append(self.bus.read_byte_data(self.i2c_address,0xA1))
for i in range (0xE1,0xE1+7):
calib.append(self.bus.read_byte_data(self.i2c_address,i))
self.digT.append((calib[1] << 8) | calib[0])
self.digT.append((calib[3] << 8) | calib[2])
self.digT.append((calib[5] << 8) | calib[4])
self.digP.append((calib[7] << 8) | calib[6])
self.digP.append((calib[9] << 8) | calib[8])
self.digP.append((calib[11]<< 8) | calib[10])
self.digP.append((calib[13]<< 8) | calib[12])
self.digP.append((calib[15]<< 8) | calib[14])
self.digP.append((calib[17]<< 8) | calib[16])
self.digP.append((calib[19]<< 8) | calib[18])
self.digP.append((calib[21]<< 8) | calib[20])
self.digP.append((calib[23]<< 8) | calib[22])
self.digH.append( calib[24] )
self.digH.append((calib[26]<< 8) | calib[25])
self.digH.append( calib[27] )
self.digH.append((calib[28]<< 4) | (0x0F & calib[29]))
self.digH.append((calib[30]<< 4) | ((calib[29] >> 4) & 0x0F))
self.digH.append( calib[31] )
for i in range(1,2):
if self.digT[i] & 0x8000:
self.digT[i] = (-self.digT[i] ^ 0xFFFF) + 1
for i in range(1,8):
if self.digP[i] & 0x8000:
self.digP[i] = (-self.digP[i] ^ 0xFFFF) + 1
for i in range(0,6):
if self.digH[i] & 0x8000:
self.digH[i] = (-self.digH[i] ^ 0xFFFF) + 1
def read_temperature(self):
global t_fine
data = []
for i in range (0xF7, 0xF7+8):
data.append(self.bus.read_byte_data(self.i2c_address,i))
temp_raw = (data[3] << 12) | (data[4] << 4) | (data[5] >> 4)
v1 = (temp_raw / 16384.0 - self.digT[0] / 1024.0) * self.digT[1]
v2 = (temp_raw / 131072.0 - self.digT[0] / 8192.0) * (temp_raw / 131072.0 - self.digT[0] / 8192.0) * self.digT[2]
t_fine = v1 + v2
temperature = t_fine / 5120.0
return temperature
def read_humidity(self):
global t_fine
data = []
for i in range (0xF7, 0xF7+8):
data.append(self.bus.read_byte_data(self.i2c_address,i))
hum_raw = (data[6] << 8) | data[7]
var_h = t_fine - 76800.0
if var_h != 0:
var_h = (hum_raw - (self.digH[3] * 64.0 + self.digH[4]/16384.0 * var_h)) * (self.digH[1] / 65536.0 * (1.0 + self.digH[5] / 67108864.0 * var_h * (1.0 + self.digH[2] / 67108864.0 * var_h)))
else:
return 0
var_h = var_h * (1.0 - self.digH[0] * var_h / 524288.0)
if var_h > 100.0:
var_h = 100.0
elif var_h < 0.0:
var_h = 0.0
return var_h
def read_pressure(self):
global t_fine
data = []
for i in range (0xF7, 0xF7+8):
data.append(self.bus.read_byte_data(self.i2c_address,i))
pres_raw = (data[0] << 12) | (data[1] << 4) | (data[2] >> 4)
pressure = 0.0
v1 = (t_fine / 2.0) - 64000.0
v2 = (((v1 / 4.0) * (v1 / 4.0)) / 2048) * self.digP[5]
v2 = v2 + ((v1 * self.digP[4]) * 2.0)
v2 = (v2 / 4.0) + (self.digP[3] * 65536.0)
v1 = (((self.digP[2] * (((v1 / 4.0) * (v1 / 4.0)) / 8192)) / 8) + ((self.digP[1] * v1) / 2.0)) / 262144
v1 = ((32768 + v1) * self.digP[0]) / 32768
if v1 == 0:
return 0
pressure = ((1048576 - pres_raw) - (v2 / 4096)) * 3125
if pressure < 0x80000000:
pressure = (pressure * 2.0) / v1
else:
pressure = (pressure / v1) * 2
v1 = (self.digP[8] * (((pressure / 8.0) * (pressure / 8.0)) / 8192.0)) / 4096
v2 = ((pressure / 4.0) * self.digP[7]) / 8192.0
pressure = pressure + ((v1 + v2 + self.digP[6]) / 16.0)
return pressure