Keyestudio EASY plug BMP180 Barometrik Basınç Sensörü
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Contents
Keyestudio EASY plug BMP180 Barometrik Basınç Sensörü
Tanıtım
BMP180, yüksek hassasiyet, kompakt tasarım ve düşük güç tüketimine sahip bir basınç sensörüdür. Mobil cihazlarda kullanılabilir. Minimum mutlak doğruluk, yalnızca 3uA güç tüketimi ile 0,03hpa'ya ulaşır.
Not: bu modülün EASY fiş kontrol kartı ile birlikte kullanılması gerekir.
Özellikler
- Interface: Easy plug Basınç aralığı: 300 ~ 1100hPa (Yükseklik 9000M ~ -500M)
Besleme gerilimi: 1.8V ~ 3.6V (VDDA), 1.62V ~ 3.6V (VDDD)
Düşük güç tüketimi: 0.5uA, standart mod
I2C arayüzü
Sıcaklık çıkışı ile
Leadless, RoHS ile uyumlu
MSL 1 tepki süresi: 7.5 ms
Bekleme akımı: 0.1uA
Harici saat devresine gerek yok
Boyut: 35 * 20mm
Ağırlık: 8g
Connection Diagram
Sample Code
#include// place file "Wire.h” under the directory "library” of Arduino #define BMP085_ADDRESS 0x77 // I2C address of BMP085 const unsigned char OSS = 0; // Oversampling Setting // Calibration values int ac1; int ac2; int ac3; unsigned int ac4; unsigned int ac5; unsigned int ac6; int b1; int b2; int mb; int mc; int md; // b5 is calculated in bmp085GetTemperature(...), this variable is also used in bmp085GetPressure(...) // so ...Temperature(...) must be called before ...Pressure(...). long b5; void setup(){ Serial.begin(9600); Wire.begin(); bmp085Calibration(); } void loop() { float temperature = bmp085GetTemperature(bmp085ReadUT()); //MUST be called first float pressure = bmp085GetPressure(bmp085ReadUP()); float atm = pressure / 101325; // "standard atmosphere" float altitude = calcAltitude(pressure); //Uncompensated caculation - in Meters Serial.print("Temperature: "); Serial.print(temperature, 2); //display 2 decimal places Serial.println("deg C"); Serial.print("Pressure: "); Serial.print(pressure, 0); //whole number only. Serial.println(" Pa"); Serial.print("Standard Atmosphere: "); Serial.println(atm, 4); //display 4 decimal places Serial.print("Altitude: "); Serial.print(altitude, 2); //display 2 decimal places Serial.println(" M"); Serial.println();//line break delay(1000); //wait a second and get values again. } // Stores all of the bmp085's calibration values into global variables // Calibration values are required to calculate temp and pressure // This function should be called at the beginning of the program void bmp085Calibration() { ac1 = bmp085ReadInt(0xAA); ac2 = bmp085ReadInt(0xAC); ac3 = bmp085ReadInt(0xAE); ac4 = bmp085ReadInt(0xB0); ac5 = bmp085ReadInt(0xB2); ac6 = bmp085ReadInt(0xB4); b1 = bmp085ReadInt(0xB6); b2 = bmp085ReadInt(0xB8); mb = bmp085ReadInt(0xBA); mc = bmp085ReadInt(0xBC); md = bmp085ReadInt(0xBE); } // Calculate temperature in deg C float bmp085GetTemperature(unsigned int ut){ long x1, x2; x1 = (((long)ut - (long)ac6)*(long)ac5) >> 15; x2 = ((long)mc << 11)/(x1 + md); b5 = x1 + x2; float temp = ((b5 + 8)>>4); temp = temp /10; return temp; } // Calculate pressure given up // calibration values must be known // b5 is also required so bmp085GetTemperature(...) must be called first. // Value returned will be pressure in units of Pa. long bmp085GetPressure(unsigned long up){ long x1, x2, x3, b3, b6, p; unsigned long b4, b7; b6 = b5 - 4000; // Calculate B3 x1 = (b2 * (b6 * b6)>>12)>>11; x2 = (ac2 * b6)>>11; x3 = x1 + x2; b3 = (((((long)ac1)*4 + x3)< >2; // Calculate B4 x1 = (ac3 * b6)>>13; x2 = (b1 * ((b6 * b6)>>12))>>16; x3 = ((x1 + x2) + 2)>>2; b4 = (ac4 * (unsigned long)(x3 + 32768))>>15; b7 = ((unsigned long)(up - b3) * (50000>>OSS)); if (b7 < 0x80000000) p = (b7<<1)/b4; else p = (b7/b4)<<1; x1 = (p>>8) * (p>>8); x1 = (x1 * 3038)>>16; x2 = (-7357 * p)>>16; p += (x1 + x2 + 3791)>>4; long temp = p; return temp; } // Read 1 byte from the BMP085 at 'address' char bmp085Read(unsigned char address) { unsigned char data; Wire.beginTransmission(BMP085_ADDRESS); Wire.write(address); Wire.endTransmission(); Wire.requestFrom(BMP085_ADDRESS, 1); while(!Wire.available()) ; return Wire.read(); } // Read 2 bytes from the BMP085 // First byte will be from 'address' // Second byte will be from 'address'+1 int bmp085ReadInt(unsigned char address) { unsigned char msb, lsb; Wire.beginTransmission(BMP085_ADDRESS); Wire.write(address); Wire.endTransmission(); Wire.requestFrom(BMP085_ADDRESS, 2); while(Wire.available()<2) ; msb = Wire.read(); lsb = Wire.read(); return (int) msb<<8 | lsb; } // Read the uncompensated temperature value unsigned int bmp085ReadUT(){ unsigned int ut; // Write 0x2E into Register 0xF4 // This requests a temperature reading Wire.beginTransmission(BMP085_ADDRESS); Wire.write(0xF4); Wire.write(0x2E); Wire.endTransmission(); // Wait at least 4.5ms delay(5); // Read two bytes from registers 0xF6 and 0xF7 ut = bmp085ReadInt(0xF6); return ut; } // Read the uncompensated pressure value unsigned long bmp085ReadUP(){ unsigned char msb, lsb, xlsb; unsigned long up = 0; // Write 0x34+(OSS<<6) into register 0xF4 // Request a pressure reading w/ oversampling setting Wire.beginTransmission(BMP085_ADDRESS); Wire.write(0xF4); Wire.write(0x34 + (OSS<<6)); Wire.endTransmission(); // Wait for conversion, delay time dependent on OSS delay(2 + (3< > (8-OSS); return up; } void writeRegister(int deviceAddress, byte address, byte val) { Wire.beginTransmission(deviceAddress); // start transmission to device Wire.write(address); // send register address Wire.write(val); // send value to write Wire.endTransmission(); // end transmission } int readRegister(int deviceAddress, byte address){ int v; Wire.beginTransmission(deviceAddress); Wire.write(address); // register to read Wire.endTransmission(); Wire.requestFrom(deviceAddress, 1); // read a byte while(!Wire.available()) { // waiting } v = Wire.read(); return v; } float calcAltitude(float pressure){ float A = pressure/101325; float B = 1/5.25588; float C = pow(A,B); C = 1 - C; C = C /0.0000225577; return C; }
Resources
https://drive.google.com/open?id=1_t1tgiFNZmY6j66ch8Uen9XFvys3JxAi
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