树莓派系列教程:I2C总线控制BMP180
来自丢石头百科
通过上一章,相信各位对树莓派I2C编程有一定的了解了,今天我们继续使用I2C来控制BMP180压强传感器。BMP180压强传感器操作原理比较简单,开机先通过I2C读取出AC1,AC2,AC3,AC4,AC5,AC6,B1,B2,MB,MC,MD等寄存器的值,这些寄存器的值作为校准时使用。如何读取温度寄存器,压强寄存器的值,根据下图公式算出测得的当前温度和压强。
=== 本章主要讲解python程序,使大家熟悉python编程。关于bcm2835,wiringpi程序具体可参看Pioneer600示例程序。 ====== 驱动文件bmp180.py ===
import time
import smbus
# BMP085 default address.
BMP180_I2CADDR = 0x77
# Operating Modes
BMP180_ULTRALOWPOWER = 0
BMP180_STANDARD = 1
BMP180_HIGHRES = 2
BMP180_ULTRAHIGHRES = 3
# BMP085 Registers
BMP180_CAL_AC1 = 0xAA # R Calibration data (16 bits)
BMP180_CAL_AC2 = 0xAC # R Calibration data (16 bits)
BMP180_CAL_AC3 = 0xAE # R Calibration data (16 bits)
BMP180_CAL_AC4 = 0xB0 # R Calibration data (16 bits)
BMP180_CAL_AC5 = 0xB2 # R Calibration data (16 bits)
BMP180_CAL_AC6 = 0xB4 # R Calibration data (16 bits)
BMP180_CAL_B1 = 0xB6 # R Calibration data (16 bits)
BMP180_CAL_B2 = 0xB8 # R Calibration data (16 bits)
BMP180_CAL_MB = 0xBA # R Calibration data (16 bits)
BMP180_CAL_MC = 0xBC # R Calibration data (16 bits)
BMP180_CAL_MD = 0xBE # R Calibration data (16 bits)
BMP180_CONTROL = 0xF4
BMP180_TEMPDATA = 0xF6
BMP180_PRESSUREDATA = 0xF6
# Commands
BMP180_READTEMPCMD = 0x2E
BMP180_READPRESSURECMD = 0x34
class BMP180(object):
def __init__(self, address=BMP180_I2CADDR, mode=BMP180_STANDARD):
self._mode = mode
self._address = address
self._bus = smbus.SMBus(1)
# Load calibration values.
self._load_calibration()
def _read_byte(self,cmd):
return self._bus.read_byte_data(self._address,cmd)
def _read_u16(self,cmd):
MSB = self._bus.read_byte_data(self._address,cmd)
LSB = self._bus.read_byte_data(self._address,cmd+1)
return (MSB << 8) + LSB
def _read_s16(self,cmd):
result = self._read_u16(cmd)
if result > 32767:result -= 65536
return result
def _write_byte(self,cmd,val):
self._bus.write_byte_data(self._address,cmd,val)
def _load_calibration(self):
"load calibration"
self.cal_AC1 = self._read_s16(BMP180_CAL_AC1) # INT16
self.cal_AC2 = self._read_s16(BMP180_CAL_AC2) # INT16
self.cal_AC3 = self._read_s16(BMP180_CAL_AC3) # INT16
self.cal_AC4 = self._read_u16(BMP180_CAL_AC4) # UINT16
self.cal_AC5 = self._read_u16(BMP180_CAL_AC5) # UINT16
self.cal_AC6 = self._read_u16(BMP180_CAL_AC6) # UINT16
self.cal_B1 = self._read_s16(BMP180_CAL_B1) # INT16
self.cal_B2 = self._read_s16(BMP180_CAL_B2) # INT16
self.cal_MB = self._read_s16(BMP180_CAL_MB) # INT16
self.cal_MC = self._read_s16(BMP180_CAL_MC) # INT16
self.cal_MD = self._read_s16(BMP180_CAL_MD) # INT16
def read_raw_temp(self):
"""Reads the raw (uncompensated) temperature from the sensor."""
self._write_byte(BMP180_CONTROL, BMP180_READTEMPCMD)
time.sleep(0.005) # Wait 5ms
MSB = self._read_byte(BMP180_TEMPDATA)
LSB = self._read_byte(BMP180_TEMPDATA+1)
raw = (MSB << 8) + LSB
return raw
def read_raw_pressure(self):
"""Reads the raw (uncompensated) pressure level from the sensor."""
self._write_byte(BMP180_CONTROL, BMP180_READPRESSURECMD + (self._mode << 6))
if self._mode == BMP180_ULTRALOWPOWER:
time.sleep(0.005)
elif self._mode == BMP180_HIGHRES:
time.sleep(0.014)
elif self._mode == BMP180_ULTRAHIGHRES:
time.sleep(0.026)
else:
time.sleep(0.008)
MSB = self._read_byte(BMP180_PRESSUREDATA)
LSB = self._read_byte(BMP180_PRESSUREDATA+1)
XLSB = self._read_byte(BMP180_PRESSUREDATA+2)
raw = ((MSB << 16) + (LSB << 8) + XLSB) >> (8 - self._mode)
return raw
def read_temperature(self):
"""Gets the compensated temperature in degrees celsius."""
UT = self.read_raw_temp()
X1 = ((UT - self.cal_AC6) * self.cal_AC5) >> 15
X2 = (self.cal_MC << 11) / (X1 + self.cal_MD)
B5 = X1 + X2
temp = ((B5 + 8) >> 4) / 10.0
return temp
def read_pressure(self):
"""Gets the compensated pressure in Pascals."""
UT = self.read_raw_temp()
UP = self.read_raw_pressure()
X1 = ((UT - self.cal_AC6) * self.cal_AC5) >> 15
X2 = (self.cal_MC << 11) / (X1 + self.cal_MD)
B5 = X1 + X2
# Pressure Calculations
B6 = B5 - 4000
X1 = (self.cal_B2 * (B6 * B6) >> 12) >> 11
X2 = (self.cal_AC2 * B6) >> 11
X3 = X1 + X2
B3 = (((self.cal_AC1 * 4 + X3) << self._mode) + 2) / 4
X1 = (self.cal_AC3 * B6) >> 13
X2 = (self.cal_B1 * ((B6 * B6) >> 12)) >> 16
X3 = ((X1 + X2) + 2) >> 2
B4 = (self.cal_AC4 * (X3 + 32768)) >> 15
B7 = (UP - B3) * (50000 >> self._mode)
if B7 < 0x80000000:
p = (B7 * 2) / B4
else:
p = (B7 / B4) * 2
X1 = (p >> 8) * (p >> 8)
X1 = (X1 * 3038) >> 16
X2 = (-7357 * p) >> 16
p = p + ((X1 + X2 + 3791) >> 4)
return p
def read_altitude(self, sealevel_pa=101325.0):
"""Calculates the altitude in meters."""
# Calculation taken straight from section 3.6 of the datasheet.
pressure = float(self.read_pressure())
altitude = 44330.0 * (1.0 - pow(pressure / sealevel_pa, (1.0/5.255)))
return altitude
def read_sealevel_pressure(self, altitude_m=0.0):
"""Calculates the pressure at sealevel when given a known altitude in
meters. Returns a value in Pascals."""
pressure = float(self.read_pressure())
p0 = pressure / pow(1.0 - altitude_m/44330.0, 5.255)
return p0
主文件bmp180_example.py
#!/usr/bin/python
import time
from BMP180 import BMP180
# Initialise the BMP085 and use STANDARD mode (default value)
# bmp = BMP085(0x77, debug=True)
bmp = BMP180()
# To specify a different operating mode, uncomment one of the following:
# bmp = BMP085(0x77, 0) # ULTRALOWPOWER Mode
# bmp = BMP085(0x77, 1) # STANDARD Mode
# bmp = BMP085(0x77, 2) # HIRES Mode
# bmp = BMP085(0x77, 3) # ULTRAHIRES Mode
while True:
temp = bmp.read_temperature()
# Read the current barometric pressure level
pressure = bmp.read_pressure()
# To calculate altitude based on an estimated mean sea level pressure
# (1013.25 hPa) call the function as follows, but this won't be very accurate
altitude = bmp.read_altitude()
# To specify a more accurate altitude, enter the correct mean sea level
# pressure level. For example, if the current pressure level is 1023.50 hPa
# enter 102350 since we include two decimal places in the integer value
# altitude = bmp.readAltitude(102350)
print "Temperature: %.2f C" % temp
print "Pressure: %.2f hPa" % (pressure / 100.0)
print "Altitude: %.2f\n" % altitude
time.sleep(1)
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