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#!/usr/bin/python
#
# Module: tmp102.py
#
# Description: This module acts as an interface between the TMP102 sensor
# and downstream applications that use the data. Class methods get
# temperature data from the TMP102 sensor. It acts as a library module that
# can be imported into and called from other Python programs.
#
# Copyright 2021 Jeff Owrey
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see http://www.gnu.org/license.
#
# Revision History
# * v10 released 01 June 2021 by J L Owrey; first release
#
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# Import the I2C interface library
import smbus
import time
# Define constants
DEGSYM = u'\xb0'
# Define TMP102 Device Registers
CONFIG_REG = 0x1
TEMP_REG = 0x0
class tmp102:
# Initialize the TMP102 sensor at the supplied address (default
# address is 0x48), and supplied bus (default is 1). Creates
# a new SMBus object for each instance of this class. Writes
# configuration data (two bytes) to the TMP102 configuration
# register.
def __init__(self, sAddr=0x48, sbus=1):
# Instantiate a smbus object
self.sensorAddr = sAddr
self.bus = smbus.SMBus(sbus)
# Initialize TMP102 sensor. See the data sheet for meaning of
# each bit. The following bytes are written to the configuration
# register
# byte 1: 01100000
# byte 2: 10100000
initData = [0x60, 0xA0]
self.bus.write_i2c_block_data(self.sensorAddr, CONFIG_REG, initData)
## end def
# Reads the configuration register (two bytes).
def status(self):
# Read configuration data
config = self.bus.read_i2c_block_data(self.sensorAddr, CONFIG_REG, 2)
configB1 = format(config[0], "08b")
configB2 = format(config[1], "08b")
return (configB1, configB2)
## end def
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def getTempReg(self):
# Read temperature register and return raw binary data for test
# and debug.
data = self.bus.read_i2c_block_data(self.sensorAddr, TEMP_REG, 2)
dataB1 = format(data[0], "08b")
dataB2 = format(data[1], "08b")
return (dataB1, dataB2)
## end def
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# Gets the temperature in binary format and converts to degrees
# Celsius.
def getTempC(self):
# Get temperature data from the sensor.
# TMP102 returns the data in two bytes formatted as follows
# -------------------------------------------------
# bit | b7 | b6 | b5 | b4 | b3 | b2 | b1 | b0 |
# -------------------------------------------------
# byte 1 | d11 | d10 | d9 | d8 | d7 | d6 | d5 | d4 |
# -------------------------------------------------
# byte 2 | d3 | d2 | d1 | d0 | 0 | 0 | 0 | 0 |
# -------------------------------------------------
# The temperature is returned in d11-d0, a two's complement,
# 12 bit number. This means that d11 is the sign bit.
data=self.bus.read_i2c_block_data(self.sensorAddr, TEMP_REG, 2)
# Format into a 12 bit word.
bData = ( data[0] << 8 | data[1] ) >> 4
# Convert from two's complement to integer.
# If d11 is 1, the the number is a negative two's complement
# number. The absolute value is 2^12 - 1 minus the value
# of d10-d0 taken as a positive number.
if bData > 0x7FF: # all greater values are negative numbers
bData = -(0xFFF - bData) # 0xFFF is 2^12 - 1
# convert integer data to Celsius
tempC = bData * 0.0625 # LSB is 0.0625 deg Celsius
return tempC
## end def
def getTempF(self):
# Convert Celsius to Fahrenheit using standard formula.
tempF = (9./5.) * self.getTempC() + 32.
return tempF
## end def
## end class
def testclass():
# Initialize the smbus and TMP102 sensor.
ts1 = tmp102(0x48, 1)
# Read the TMP102 configuration register.
data = ts1.status()
print "configuration register: %s %s\n" % data
# Print out sensor values.
bAl = False
while True:
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regdata = ts1.getTempReg()
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tempC = ts1.getTempC()
tempF = ts1.getTempF()
if bAl:
bAl = False
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print "\033[42;30mTemperature Reg: %s %s\033[m" % regdata
print "\033[42;30m%6.2f%sC %6.2f%s \033[m" % \
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(tempC, DEGSYM, tempF, DEGSYM)
else:
bAl = True
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print "Temperature Reg: %s %s" % regdata
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print "%6.2f%sC %6.2f%sF" % \
(tempC, DEGSYM, tempF, DEGSYM)
time.sleep(2)
## end while
## end def
if __name__ == '__main__':
testclass()
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