BMP085.py

###########################################################################
#     Sint Wind PI
#       Copyright 2012 by Tonino Tarsi <tony.tarsi@gmail.com>
#   
#     Please refer to the LICENSE file for conditions 
#     Visit http://www.vololiberomontecucco.it
# 
##########################################################################
"""BMP085 Class."""

import time
from I2C import I2C
import TTLib


class BMP085 :
  i2c = None

  # Operating Modes
  __BMP085_ULTRALOWPOWER     = 0
  __BMP085_STANDARD          = 1
  __BMP085_HIGHRES           = 2
  __BMP085_ULTRAHIGHRES      = 3

  # BMP085 Registers
  __BMP085_CAL_AC1           = 0xAA  # R   Calibration data (16 bits)
  __BMP085_CAL_AC2           = 0xAC  # R   Calibration data (16 bits)
  __BMP085_CAL_AC3           = 0xAE  # R   Calibration data (16 bits)
  __BMP085_CAL_AC4           = 0xB0  # R   Calibration data (16 bits)
  __BMP085_CAL_AC5           = 0xB2  # R   Calibration data (16 bits)
  __BMP085_CAL_AC6           = 0xB4  # R   Calibration data (16 bits)
  __BMP085_CAL_B1            = 0xB6  # R   Calibration data (16 bits)
  __BMP085_CAL_B2            = 0xB8  # R   Calibration data (16 bits)
  __BMP085_CAL_MB            = 0xBA  # R   Calibration data (16 bits)
  __BMP085_CAL_MC            = 0xBC  # R   Calibration data (16 bits)
  __BMP085_CAL_MD            = 0xBE  # R   Calibration data (16 bits)
  __BMP085_CONTROL           = 0xF4
  __BMP085_TEMPDATA          = 0xF6
  __BMP085_PRESSUREDATA      = 0xF6
  __BMP085_READTEMPCMD       = 0x2E
  __BMP085_READPRESSURECMD   = 0x34

  # Private Fields
  _cal_AC1 = 0
  _cal_AC2 = 0
  _cal_AC3 = 0
  _cal_AC4 = 0
  _cal_AC5 = 0
  _cal_AC6 = 0
  _cal_B1 = 0
  _cal_B2 = 0
  _cal_MB = 0
  _cal_MC = 0
  _cal_MD = 0

  # Constructor
  def __init__(self, address=0x77, mode=1, debug=False):
    
    myrevision = TTLib.getrevision()
    if myrevision == "0002" or myrevision == "0003" :
        self.i2c = I2C(address,0)
    else:
        self.i2c = I2C(address,1)
        
    self.address = address
    self.debug = debug
    # Make sure the specified mode is in the appropriate range
    if ((mode < 0) | (mode > 3)):
      if (self.debug):
        print "Invalid Mode: Using STANDARD by default"
      self.mode = self.__BMP085_STANDARD
    else:
      self.mode = mode
    # Read the calibration data
    self.readCalibrationData()

  def readCalibrationData(self):
    "Reads the calibration data from the IC"
    self._cal_AC1 = self.i2c.readS16(self.__BMP085_CAL_AC1)   # INT16
    self._cal_AC2 = self.i2c.readS16(self.__BMP085_CAL_AC2)   # INT16
    self._cal_AC3 = self.i2c.readS16(self.__BMP085_CAL_AC3)   # INT16
    self._cal_AC4 = self.i2c.readU16(self.__BMP085_CAL_AC4)   # UINT16
    self._cal_AC5 = self.i2c.readU16(self.__BMP085_CAL_AC5)   # UINT16
    self._cal_AC6 = self.i2c.readU16(self.__BMP085_CAL_AC6)   # UINT16
    self._cal_B1 = self.i2c.readS16(self.__BMP085_CAL_B1)     # INT16
    self._cal_B2 = self.i2c.readS16(self.__BMP085_CAL_B2)     # INT16
    self._cal_MB = self.i2c.readS16(self.__BMP085_CAL_MB)     # INT16
    self._cal_MC = self.i2c.readS16(self.__BMP085_CAL_MC)     # INT16
    self._cal_MD = self.i2c.readS16(self.__BMP085_CAL_MD)     # INT16
    if (self.debug):
      self.showCalibrationData()

  def showCalibrationData(self):
      "Displays the calibration values for debugging purposes"
      print "DBG: AC1 = %6d" % (self._cal_AC1)
      print "DBG: AC2 = %6d" % (self._cal_AC2)
      print "DBG: AC3 = %6d" % (self._cal_AC3)
      print "DBG: AC4 = %6d" % (self._cal_AC4)
      print "DBG: AC5 = %6d" % (self._cal_AC5)
      print "DBG: AC6 = %6d" % (self._cal_AC6)
      print "DBG: B1  = %6d" % (self._cal_B1)
      print "DBG: B2  = %6d" % (self._cal_B2)
      print "DBG: MB  = %6d" % (self._cal_MB)
      print "DBG: MC  = %6d" % (self._cal_MC)
      print "DBG: MD  = %6d" % (self._cal_MD)

  def readRawTemp(self):
    try:
        "Reads the raw (uncompensated) temperature from the sensor"
        ret = self.i2c.write8(self.__BMP085_CONTROL, self.__BMP085_READTEMPCMD)
        if ( ret != 0) :
            return -1
        time.sleep(0.005)  # Wait 5ms
        raw = self.i2c.readU16(self.__BMP085_TEMPDATA)
        if (self.debug):
          print "DBG: Raw Temp: 0x%04X (%d)" % (raw & 0xFFFF, raw)
        return raw
    except IOError, err:
      print "Error readRawTemp" 
      return -1

  def readRawPressure(self):
    try:
        "Reads the raw (uncompensated) pressure level from the sensor"
        self.i2c.write8(self.__BMP085_CONTROL, self.__BMP085_READPRESSURECMD + (self.mode << 6))
        if (self.mode == self.__BMP085_ULTRALOWPOWER):
          time.sleep(0.005)
        elif (self.mode == self.__BMP085_HIGHRES):
          time.sleep(0.014)
        elif (self.mode == self.__BMP085_ULTRAHIGHRES):
          time.sleep(0.026)
        else:
          time.sleep(0.008)
        msb = self.i2c.readU8(self.__BMP085_PRESSUREDATA)
        lsb = self.i2c.readU8(self.__BMP085_PRESSUREDATA+1)
        xlsb = self.i2c.readU8(self.__BMP085_PRESSUREDATA+2)
        raw = ((msb << 16) + (lsb << 8) + xlsb) >> (8 - self.mode)
        if (self.debug):
          print "DBG: Raw Pressure: 0x%04X (%d)" % (raw & 0xFFFF, raw)
        return raw
    except IOError, err:
      print "Error readRawPressure" 
      return -1
  
  def readTemperature(self):
    "Gets the compensated temperature in degrees celcius"
    UT = 0
    X1 = 0
    X2 = 0
    B5 = 0
    temp = 0.0

    # Read raw temp before aligning it with the calibration values
    UT = self.readRawTemp()
    if ( UT == -1):
        return -9999
    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
    if (self.debug):
      print "DBG: Calibrated temperature = %f C" % temp
    return temp

  def readPressure(self):
    "Gets the compensated pressure in pascal"
    UT = 0
    UP = 0
    B3 = 0
    B5 = 0
    B6 = 0
    X1 = 0
    X2 = 0
    X3 = 0
    p = 0
    B4 = 0
    B7 = 0

    UT = self.readRawTemp()
    UP = self.readRawPressure()

    # You can use the datasheet values to test the conversion results
    # dsValues = True
    dsValues = False

    if (dsValues):
      UT = 27898
      UP = 23843
      self._cal_AC6 = 23153
      self._cal_AC5 = 32757
      self._cal_MC = -8711
      self._cal_MD = 2868
      self._cal_B1 = 6190
      self._cal_B2 = 4
      self._cal_AC3 = -14383
      self._cal_AC2 = -72
      self._cal_AC1 = 408
      self._cal_AC4 = 32741
      self.mode = self.__BMP085_ULTRALOWPOWER
      if (self.debug):
        self.showCalibrationData()

    # True Temperature Calculations
    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
    if (self.debug):
      print "DBG: X1 = %d" % (X1)
      print "DBG: X2 = %d" % (X2)
      print "DBG: B5 = %d" % (B5)
      print "DBG: True Temperature = %.2f C" % (((B5 + 8) >> 4) / 10.0)

    # 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
    if (self.debug):
      print "DBG: B6 = %d" % (B6)
      print "DBG: X1 = %d" % (X1)
      print "DBG: X2 = %d" % (X2)
      print "DBG: B3 = %d" % (B3)

    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 (self.debug):
      print "DBG: X1 = %d" % (X1)
      print "DBG: X2 = %d" % (X2)
      print "DBG: B4 = %d" % (B4)
      print "DBG: B7 = %d" % (B7)

    if (B7 < 0x80000000):
      p = (B7 * 2) / B4
    else:
      p = (B7 / B4) * 2

    X1 = (p >> 8) * (p >> 8)
    X1 = (X1 * 3038) >> 16
    X2 = (-7375 * p) >> 16
    if (self.debug):
      print "DBG: p  = %d" % (p)
      print "DBG: X1 = %d" % (X1)
      print "DBG: X2 = %d" % (X2)

    p = p + ((X1 + X2 + 3791) >> 4)
    if (self.debug):
      print "DBG: Pressure = %d Pa" % (p)

    return p

  def readPressureTemperature(self):
    "Gets the compensated pressure in pascal and temperature in C"
    UT = 0
    UP = 0
    B3 = 0
    B5 = 0
    B6 = 0
    X1 = 0
    X2 = 0
    X3 = 0
    p = 0
    B4 = 0
    B7 = 0
    temp = 0.0
    p = 0.0

    UT = self.readRawTemp()
    if (UT == -1 ):
        return None,None
    UP = self.readRawPressure()
    if (UP == -1):
        return None,None
    

    # You can use the datasheet values to test the conversion results
    # dsValues = True
    dsValues = False

    if (dsValues):
      UT = 27898
      UP = 23843
      self._cal_AC6 = 23153
      self._cal_AC5 = 32757
      self._cal_MC = -8711
      self._cal_MD = 2868
      self._cal_B1 = 6190
      self._cal_B2 = 4
      self._cal_AC3 = -14383
      self._cal_AC2 = -72
      self._cal_AC1 = 408
      self._cal_AC4 = 32741
      self.mode = self.__BMP085_ULTRALOWPOWER
      if (self.debug):
        self.showCalibrationData()

    # True Temperature Calculations
    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
    if (self.debug):
      print "DBG: X1 = %d" % (X1)
      print "DBG: X2 = %d" % (X2)
      print "DBG: B5 = %d" % (B5)
      print "DBG: True Temperature = %.2f C" % (((B5 + 8) >> 4) / 10.0)

    # 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
    if (self.debug):
      print "DBG: B6 = %d" % (B6)
      print "DBG: X1 = %d" % (X1)
      print "DBG: X2 = %d" % (X2)
      print "DBG: B3 = %d" % (B3)

    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 (self.debug):
      print "DBG: X1 = %d" % (X1)
      print "DBG: X2 = %d" % (X2)
      print "DBG: B4 = %d" % (B4)
      print "DBG: B7 = %d" % (B7)

    if (B7 < 0x80000000):
      p = (B7 * 2) / B4
    else:
      p = (B7 / B4) * 2

    X1 = (p >> 8) * (p >> 8)
    X1 = (X1 * 3038) >> 16
    X2 = (-7375 * p) >> 16
    if (self.debug):
      print "DBG: p  = %d" % (p)
      print "DBG: X1 = %d" % (X1)
      print "DBG: X2 = %d" % (X2)

    p = p + ((X1 + X2 + 3791) >> 4)
    if (self.debug):
      print "DBG: Pressure = %d Pa" % (p)

    return p,temp



  def readAltitude(self, seaLevelPressure=101325):
    "Calculates the altitude in meters"
    altitude = 0.0
    pressure = float(self.readPressure())
    altitude = 44330.0 * (1.0 - pow(pressure / seaLevelPressure, 0.1903))
    if (self.debug):
      print "DBG: Altitude = %d" % (altitude)
    return altitude

    return 0


if __name__ == '__main__':
    bmp = BMP085(0x77,3)
    
    # 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 1:
#        temp = bmp.readTemperature()
#        pressure = bmp.readPressure()
        
        pressure,temp = bmp.readPressureTemperature()
        
        print "Temperature: %.2f C" % temp + "Pressure:    %.2f hPa" % (pressure / 100.0) 
        time.sleep(1)