/* mbed MPL115A1 (Barometric Pressure Sensor) Library** This code is based on application notes and* Sparkfun example code, written by Jim Lindblom <jim at sparkfun.com>** Copyright (c) 2012 Mitja Kleider** Licensed under the Apache License, Version 2.0 (the "License");* you may not use this file except in compliance with the License.* You may obtain a copy of the License at** http://www.apache.org/licenses/LICENSE-2.0** Unless required by applicable law or agreed to in writing, software* distributed under the License is distributed on an "AS IS" BASIS,* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.* See the License for the specific language governing permissions and* limitations under the License.*/// TODO: support shutdown pin#include "MPL115A1.h"MPL115A1::MPL115A1(SPI& spi, PinName ncs) : _spi(spi), _cs(ncs){_cs = 1;// sdn = 1; // sensor on// SCL idle low, sample data on rising edge_spi.format(8, 0); // 8bit, POL 0, PHA 0_spi.frequency(1000000); // 1MHz}void MPL115A1::write_register(uint8_t address, char data){//write any data byte to any single address//adds a 0 to the MSB of the address byte (WRITE mode)address &= 0x7F;_cs = 0;wait_ms(1);_spi.write(address);wait_ms(1);_spi.write(data);wait_ms(1);_cs = 1;}char MPL115A1::read_register(uint8_t address){// returns the contents of any 1 byte register from any address// sets the MSB for every address byte (READ mode)char byte;address |= 0x80;_cs = 0;_spi.write(address);byte = _spi.write(0x00);_cs = 1;return byte;}float MPL115A1::readPressure(){// read pressure, temperature and coefficients, calculate and return absolute pressure [kPa]write_register(MPL115A1_STARTBOTH, 0x00); // start temperature and pressure conversionswait_ms(10); // AN: data is typically ready after 3ms, DS for both: max. 1ms// read raw pressureuiPH = read_register(MPL115A1_PRESH);uiPL = read_register(MPL115A1_PRESL);uiTH = read_register(MPL115A1_TEMPH);uiTL = read_register(MPL115A1_TEMPL);uiPadc = (unsigned int) uiPH << 8;uiPadc += (unsigned int) uiPL & 0x00FF;uiTadc = (unsigned int) uiTH << 8;uiTadc += (unsigned int) uiTL & 0x00FF;// read coefficients, put into 16-bit Variables// a0, pressure offset coefficientsia0MSB = read_register(MPL115A1_A0MSB);sia0LSB = read_register(MPL115A1_A0LSB);sia0 = (signed int) sia0MSB << 8;sia0 += (signed int) sia0LSB & 0x00FF;// b1, pressure sensitivity coefficientsib1MSB = read_register(MPL115A1_B1MSB);sib1LSB = read_register(MPL115A1_B1LSB);sib1 = (signed int) sib1MSB << 8;sib1 += (signed int) sib1LSB & 0x00FF;// b2, 1st order temperature offset coefficient (TCO)sib2MSB = read_register(MPL115A1_B2MSB);sib2LSB = read_register(MPL115A1_B2LSB);sib2 = (signed int) sib2MSB << 8;sib2 += (signed int) sib2LSB & 0x00FF;// c12, temperature sensitivity coefficient (TCS)sic12MSB = read_register(MPL115A1_C12MSB);sic12LSB = read_register(MPL115A1_C12LSB);sic12 = (signed int) sic12MSB << 8;sic12 += (signed int) sic12LSB & 0x00FF;// c11, pressure linearity (2nd order) coefficientsic11MSB = read_register(MPL115A1_C11MSB);sic11LSB = read_register(MPL115A1_C11LSB);sic11 = (signed int) sic11MSB << 8;sic11 += (signed int) sic11LSB & 0x00FF;// c22, 2nd order temperature offset coefficientsic22MSB = read_register(MPL115A1_C22MSB);sic22LSB = read_register(MPL115A1_C22LSB);sic22 = (signed int) sic22MSB << 8;sic22 += (signed int) sic22LSB & 0x00FF;// Coefficient 9 equation compensation// 10bit stored in 16bit, shift rightuiPadc = uiPadc >> 6;uiTadc = uiTadc >> 6;// Step 1: c11x1 = c11 * Padclt1 = (signed long) sic11;lt2 = (signed long) uiPadc;lt3 = lt1*lt2;si_c11x1 = (signed long) lt3;// Step 2: a11 = b1 + c11x1lt1 = ((signed long)sib1)<<14;lt2 = (signed long) si_c11x1;lt3 = lt1 + lt2;si_a11 = (signed long)(lt3>>14);// Step 3: c12x2 = c12 * Tadclt1 = (signed long) sic12;lt2 = (signed long) uiTadc;lt3 = lt1*lt2;si_c12x2 = (signed long)lt3;// Step 4: a1 = a11 + c12x2lt1 = ((signed long)si_a11<<11);lt2 = (signed long)si_c12x2;lt3 = lt1 + lt2;si_a1 = (signed long) lt3>>11;// Step 5: c22x2 = c22*Tadclt1 = (signed long)sic22;lt2 = (signed long)uiTadc;lt3 = lt1 * lt2;si_c22x2 = (signed long)(lt3);// Step 6: a2 = b2 + c22x2lt1 = ((signed long)sib2<<15);lt2 = ((signed long)si_c22x2>1);lt3 = lt1+lt2;si_a2 = ((signed long)lt3>>16);// Step 7: a1x1 = a1 * Padclt1 = (signed long)si_a1;lt2 = (signed long)uiPadc;lt3 = lt1*lt2;si_a1x1 = (signed long)(lt3);// Step 8: y1 = a0 + a1x1lt1 = ((signed long)sia0<<10);lt2 = (signed long)si_a1x1;lt3 = lt1+lt2;si_y1 = ((signed long)lt3>>10);// Step 9: a2x2 = a2 * Tadclt1 = (signed long)si_a2;lt2 = (signed long)uiTadc;lt3 = lt1*lt2;si_a2x2 = (signed long)(lt3);// Step 10: pComp = y1 + a2x2lt1 = ((signed long)si_y1<<10);lt2 = (signed long)si_a2x2;lt3 = lt1+lt2;// Fixed point result with rounding//siPcomp = ((signed int)lt3>>13);siPcomp = lt3/8192;// decPcomp is defined as a floating point number// Conversion to decimal value from 1023 ADC count value// ADC counts are 0 to 1023, pressure is 50 to 115kPa respectivelydecPcomp = ((65.0/1023.0)*siPcomp)+50;return decPcomp;}float MPL115A1::readTemperature(){// read, calculate and return temperaturewrite_register(MPL115A1_STARTTEMP, 0x00); // start temperature conversionwait_ms(10); // AN: data is typically ready after 3ms, DS for temp: max. 0.7ms// read raw temperatureuiTH = read_register(MPL115A1_TEMPH);uiTL = read_register(MPL115A1_TEMPL);uiTadc = (unsigned int) uiTH << 8;uiTadc += (unsigned int) uiTL & 0x00FF;// 10bit stored in 16bit, shift rightuiTadc = uiTadc >> 6;// Tadc is 472 counts at 25degC, -5.35 counts/degC// return ((float)uiTadc - 472.0)/(-5.35) + 25return (605.75-uiTadc)*0.186916;}