bmp180 czujnik temperatury i ciśnienia

Arduino

ŁĄCZENIE

BMP180ESP8266ESP32
Vin3.3V3.3V
GNDGNDGND
SCLD1 ( SCL)GPIO 22 (SCL) 
SDAD2 ( SDA)GPIO 21 (SDA)

BIBLIOTEKA

Biblioteka Arduino: https://github.com/adafruit/Adafruit-BMP085-Library

KOD

#include <Wire.h>
#include <Adafruit_BMP085.h>
 
Adafruit_BMP085 bmp;
 
void setup() 
{
  Serial.begin(9600);
  //Wire.begin (4, 5);
  if (!bmp.begin()) 
  {
    Serial.println("Could not find BMP180 or BMP085 sensor at 0x77");
    while (1) {}
  }
}
 
void loop() 
{
  Serial.print("Temperature = ");
  Serial.print(bmp.readTemperature());
  Serial.println(" Celsius");
 
  Serial.print("Pressure = ");
  Serial.print(bmp.readPressure());
  Serial.println(" Pascal");
 
 
  Serial.println();
  delay(5000);
}

LINKI


MicroPython

Biblioteka bmp180.py

'''
bmp180 is a micropython module for the Bosch BMP180 sensor. It measures
temperature as well as pressure, with a high enough resolution to calculate
altitude.
Breakoutboard: http://www.adafruit.com/products/1603  
data-sheet: http://ae-bst.resource.bosch.com/media/products/dokumente/
bmp180/BST-BMP180-DS000-09.pdf

The MIT License (MIT)
Copyright (c) 2014 Sebastian Plamauer, oeplse@gmail.com
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
'''

from ustruct import unpack as unp
from machine import I2C, Pin
import math
import time

# BMP180 class
class BMP180():
    '''
    Module for the BMP180 pressure sensor.
    '''

    _bmp_addr = 119             # adress of BMP180 is hardcoded on the sensor

    # init
    def __init__(self, i2c_bus):

        # create i2c obect
        _bmp_addr = self._bmp_addr
        self._bmp_i2c = i2c_bus
        self._bmp_i2c.start()
        self.chip_id = self._bmp_i2c.readfrom_mem(_bmp_addr, 0xD0, 2)
        # read calibration data from EEPROM
        self._AC1 = unp('>h', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xAA, 2))[0]
        self._AC2 = unp('>h', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xAC, 2))[0]
        self._AC3 = unp('>h', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xAE, 2))[0]
        self._AC4 = unp('>H', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xB0, 2))[0]
        self._AC5 = unp('>H', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xB2, 2))[0]
        self._AC6 = unp('>H', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xB4, 2))[0]
        self._B1 = unp('>h', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xB6, 2))[0]
        self._B2 = unp('>h', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xB8, 2))[0]
        self._MB = unp('>h', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xBA, 2))[0]
        self._MC = unp('>h', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xBC, 2))[0]
        self._MD = unp('>h', self._bmp_i2c.readfrom_mem(_bmp_addr, 0xBE, 2))[0]

        # settings to be adjusted by user
        self.oversample_setting = 3
        self.baseline = 101325.0

        # output raw
        self.UT_raw = None
        self.B5_raw = None
        self.MSB_raw = None
        self.LSB_raw = None
        self.XLSB_raw = None
        self.gauge = self.makegauge() # Generator instance
        for _ in range(128):
            next(self.gauge)
            time.sleep_ms(1)

    def compvaldump(self):
        '''
        Returns a list of all compensation values
        '''
        return [self._AC1, self._AC2, self._AC3, self._AC4, self._AC5, self._AC6, 
                self._B1, self._B2, self._MB, self._MC, self._MD, self.oversample_setting]

    # gauge raw
    def makegauge(self):
        '''
        Generator refreshing the raw measurments.
        '''
        delays = (5, 8, 14, 25)
        while True:
            self._bmp_i2c.writeto_mem(self._bmp_addr, 0xF4, bytearray([0x2E]))
            t_start = time.ticks_ms()
            while (time.ticks_ms() - t_start) <= 5: # 5mS delay
                yield None
            try:
                self.UT_raw = self._bmp_i2c.readfrom_mem(self._bmp_addr, 0xF6, 2)
            except:
                yield None
            self._bmp_i2c.writeto_mem(self._bmp_addr, 0xF4, bytearray([0x34+(self.oversample_setting << 6)]))
            t_pressure_ready = delays[self.oversample_setting]
            t_start = time.ticks_ms()
            while (time.ticks_ms() - t_start) <= t_pressure_ready:
                yield None
            try:
                self.MSB_raw = self._bmp_i2c.readfrom_mem(self._bmp_addr, 0xF6, 1)
                self.LSB_raw = self._bmp_i2c.readfrom_mem(self._bmp_addr, 0xF7, 1)
                self.XLSB_raw = self._bmp_i2c.readfrom_mem(self._bmp_addr, 0xF8, 1)
            except:
                yield None
            yield True

    def blocking_read(self):
        if next(self.gauge) is not None: # Discard old data
            pass
        while next(self.gauge) is None:
            pass

    @property
    def oversample_sett(self):
        return self.oversample_setting

    @oversample_sett.setter
    def oversample_sett(self, value):
        if value in range(4):
            self.oversample_setting = value
        else:
            print('oversample_sett can only be 0, 1, 2 or 3, using 3 instead')
            self.oversample_setting = 3

    @property
    def temperature(self):
        '''
        Temperature in degree C.
        '''
        next(self.gauge)
        try:
            UT = unp('>H', self.UT_raw)[0]
        except:
            return 0.0
        X1 = (UT-self._AC6)*self._AC5/2**15
        X2 = self._MC*2**11/(X1+self._MD)
        self.B5_raw = X1+X2
        return (((X1+X2)+8)/2**4)/10

    @property
    def pressure(self):
        '''
        Pressure in mbar.
        '''
        next(self.gauge)
        self.temperature  # Populate self.B5_raw
        try:
            MSB = unp('B', self.MSB_raw)[0]
            LSB = unp('B', self.LSB_raw)[0]
            XLSB = unp('B', self.XLSB_raw)[0]
        except:
            return 0.0
        UP = ((MSB << 16)+(LSB << 8)+XLSB) >> (8-self.oversample_setting)
        B6 = self.B5_raw-4000
        X1 = (self._B2*(B6**2/2**12))/2**11
        X2 = self._AC2*B6/2**11
        X3 = X1+X2
        B3 = ((int((self._AC1*4+X3)) << self.oversample_setting)+2)/4
        X1 = self._AC3*B6/2**13
        X2 = (self._B1*(B6**2/2**12))/2**16
        X3 = ((X1+X2)+2)/2**2
        B4 = abs(self._AC4)*(X3+32768)/2**15
        B7 = (abs(UP)-B3) * (50000 >> self.oversample_setting)
        if B7 < 0x80000000:
            pressure = (B7*2)/B4
        else:
            pressure = (B7/B4)*2
        X1 = (pressure/2**8)**2
        X1 = (X1*3038)/2**16
        X2 = (-7357*pressure)/2**16
        return pressure+(X1+X2+3791)/2**4

    @property
    def altitude(self):
        '''
        Altitude in m.
        '''
        try:
            p = -7990.0*math.log(self.pressure/self.baseline)
        except:
            p = 0.0
        return p

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