Added development sketches for Mics-6815 sensor
This commit is contained in:
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111d1c1d6e
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3 changed files with 295 additions and 2 deletions
249
ATmega-MiCS6814-I2C/ATmega-MiCS6814-I2C.ino
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249
ATmega-MiCS6814-I2C/ATmega-MiCS6814-I2C.ino
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/*
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* ATmega controller for MiCS-6814 gas sensor - I2C Adapter
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*
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* Adapted from Firmware for Groove Multichannel Gas Sensor
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* Using ATmega core from:
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* https://raw.githubusercontent.com/carlosefr/atmega/master/package_carlosefr_atmega_index.json
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*
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* Pin mapping:
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* Heater Enable (out): PB0 / Digital 8 (Inverted logic)
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* NH3 resistance (in): PC0 / Analog 0
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* CO resistance (in): PC1 / Analog 1
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* NO2 resistance (in): PC2 / Analog 2
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* SDA: PC4
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* SCL: PC5
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*/
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#include <Wire.h>
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#include <EEPROM.h>
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// Pin Constants
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#define HEATER_EN 8
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#define NH3_IN A0
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#define CO_IN A1
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#define NO2_IN A2
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// I2C Communication (Taken from Groove sensor, hoping to use the same library on client side)
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#define DEFAULT_I2C_ADDR 0x04
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#define CMD_ADC_NH3 1 // NH3 channel
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#define CMD_ADC_CO 2 // CO channel
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#define CMD_ADC_NO2 3 // NO2 channel
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#define CMD_ADC_ALL 4 // All channels
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#define CMD_CHANGE_I2C 5 // I2C address change
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#define CMD_READ_EEPROM 6 // Read stored data from EEPROM as unsigned int
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#define CMD_SET_R0_ADC 7 // Set R0 ADC value
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#define CMD_GET_R0_ADC 8 // Get R0 ADC value
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#define CMD_GET_R0_ADC_DEFAULT 9 // Get factory R0 ADC value
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#define CMD_CONTROL_LED 10 // Control LED (no LED on my board, but Groove supports is, so ... meh!)
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#define CMD_CONTROL_PWR 11 // Heater control
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// EEPROM Addresses (Match Groove addresses)
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#define EEPROM_INIT_DONE 0
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#define EEPROM_DEFAULT_ADC_NH3 2
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#define EEPROM_DEFAULT_ADC_CO 4
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#define EEPROM_DEFAULT_ADC_NO2 6
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#define EEPROM_ADC_NH3 8
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#define EEPROM_ADC_CO 10
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#define EEPROM_ADC_NO2 12
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#define EEPROM_I2C_ADDR 20
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// Runtime storage for data
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uint32_t timer; // Timer value of last update
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uint8_t adcData[6]; // Storage for the current resistance values
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uint8_t i2CCmd; // Current command passed from onReceive to onRequest
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uint8_t i2CData; // Command parameters
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uint8_t i2CResp[6]; // Buffer for I2C response
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/**
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* EEPROM helper function to write a single uint16_t value
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* to two adjacient eeprom cells.
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* The upper half (MSB) will be written to the given address,
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* the lower half (LSB) will be written to the next address.
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*
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* @param addr
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* The eeprom addr to store the MSB in.
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* The next eeprom address will be used for the LSB.
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* @param value
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* The uint16_t value to store.
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*/
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void eeprom_write16(uint16_t addr, uint16_t value) {
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// Store MSB in address, shift value and mask
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EEPROM.write(addr, (value >> 8) & 0xFF);
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// Store LSB in next address
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EEPROM.write(addr + 1, value & 0xFF);
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}
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/**
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* EEPROM helper function to read a single uint16_t value
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* from two adjacient eeprom cells.
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*
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* @param addr
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* The eeprom addr to read the MSB from.
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* The the LSB will be read from the next eeprom address.
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* @return The stored uint16_t value.
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*/
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uint16_t eeprom_read16(uint16_t addr) {
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// Read two bytes separately
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uint8_t msb = EEPROM.read(addr);
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uint8_t lsb = EEPROM.read(addr + 1);
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// Combine through shifting and bitwise-or
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return (msb << 8) | lsb;
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}
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/**
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* Initialize EEPROM values if not already written
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*/
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void eeprom_init() {
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// Check if data has already been stored in EEPROM
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if (eeprom_read16(EEPROM_INIT_DONE)) {
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eeprom_write16(EEPROM_INIT_DONE, 1126);
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eeprom_write16(EEPROM_I2C_ADDR, DEFAULT_I2C_ADDR);
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eeprom_write16(EEPROM_DEFAULT_ADC_NH3, 123);
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eeprom_write16(EEPROM_DEFAULT_ADC_CO, 123);
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eeprom_write16(EEPROM_DEFAULT_ADC_NO2, 123);
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eeprom_write16(EEPROM_ADC_NH3, 123);
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eeprom_write16(EEPROM_ADC_CO, 123);
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eeprom_write16(EEPROM_ADC_NO2, 123);
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}
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}
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/**
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* Read the analog pin repeatedly and return the average value.
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*
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* @param pin
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* The (analog) pin to read from.
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* @return The average value read.
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*/
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uint16_t analogReadAvg(uint8_t pin) {
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// Analog read returns value between 0 and 1024, so at most 10 bits are needed.
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// If we read 64 times we can just store that in 16 bits of a uint16_t.
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uint16_t sum = 0;
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for (int c = 0; c < 16; ++c) {
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sum += analogRead(pin);
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}
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// Shift 6 bits right to calculate average (div by 64)
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return (sum >> 4);
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}
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/**
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* Reads the current values from the sensor
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* and stores the values in the global data.
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*/
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void updateValues() {
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uint16_t adcNH3 = analogReadAvg(NH3_IN);
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uint16_t adcCO = analogReadAvg(CO_IN);
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uint16_t adcNO2 = analogReadAvg(NO2_IN);
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adcData[0] = adcNH3 >> 8; // MSB of NH3 value
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adcData[1] = adcNH3 & 0xFF; // LSB of NH3 value
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adcData[2] = adcCO >> 8; // MSB of CO value
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adcData[3] = adcCO & 0xFF; // LSB of CO value
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adcData[4] = adcNO2 >> 8; // MSB of NO2 value
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adcData[5] = adcNO2 & 0xFF; // LSB of NO2 value
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}
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/**
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* Handler for data received from the master.
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*/
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void receiveCallback(uint16_t availData) {
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// Check possible package sizes
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if (availData == 1) {
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// Store command for the requestCallback
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i2CCmd = Wire.read();
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} else if (availData == 2) {
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// Command and one byte of data
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i2CCmd = Wire.read();
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i2CData = Wire.read();
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// Process direct commands
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if (i2CCmd == CMD_CHANGE_I2C) {
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// Store new address in eeprom and restart Wire library with new address
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eeprom_write16(EEPROM_I2C_ADDR, i2CData);
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Wire.begin(i2CData);
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} else if (i2CCmd == CMD_CONTROL_PWR) {
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if (i2CData) {
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// Turn heater on
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digitalWrite(HEATER_EN, LOW);
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} else {
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// Turn heater off
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digitalWrite(HEATER_EN, HIGH);
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}
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}
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} else if (availData == 7) {
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// Lots of data, only happens for new calilbration data
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i2CCmd = Wire.read();
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uint16_t newADCData[3];
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// Read all three channels
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for (int i = 0; i < 3; ++i) {
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uint8_t msb = Wire.read();
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uint8_t lsb = Wire.read();
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newADCData[i] = (msb << 8) | lsb;
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}
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// Check if command valid
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if (i2CCmd == CMD_SET_R0_ADC) {
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eeprom_write16(EEPROM_ADC_NH3, newADCData[0]);
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eeprom_write16(EEPROM_ADC_CO, newADCData[1]);
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eeprom_write16(EEPROM_ADC_NO2, newADCData[2]);
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}
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}
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}
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/**
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* Handler for sending data to the master.
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* Requires command to be set by receiveCallback.
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*/
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void requestCallback() {
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switch (i2CCmd) {
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// Resistor data
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case CMD_ADC_NH3:
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Wire.write(&adcData[0], 2);
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break;
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case CMD_ADC_CO:
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Wire.write(&adcData[2], 2);
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break;
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case CMD_ADC_NO2:
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Wire.write(&adcData[4], 2);
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break;
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case CMD_ADC_ALL:
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Wire.write(adcData, 6);
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break;
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case CMD_READ_EEPROM:
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i2CResp[0] = EEPROM.read(i2CData);
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i2CResp[1] = EEPROM.read(i2CData + 1);
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Wire.write(i2CResp, 2);
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break;
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case CMD_GET_R0_ADC:
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i2CResp[0] = EEPROM.read(EEPROM_ADC_NH3);
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i2CResp[1] = EEPROM.read(EEPROM_ADC_NH3 + 1);
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i2CResp[2] = EEPROM.read(EEPROM_ADC_CO);
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i2CResp[3] = EEPROM.read(EEPROM_ADC_CO + 1);
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i2CResp[4] = EEPROM.read(EEPROM_ADC_NO2);
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i2CResp[5] = EEPROM.read(EEPROM_ADC_NO2 + 1);
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Wire.write(i2CResp, 6);
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break;
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case CMD_GET_R0_ADC_DEFAULT:
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i2CResp[0] = EEPROM.read(EEPROM_DEFAULT_ADC_NH3);
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i2CResp[1] = EEPROM.read(EEPROM_DEFAULT_ADC_NH3 + 1);
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i2CResp[2] = EEPROM.read(EEPROM_DEFAULT_ADC_CO);
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i2CResp[3] = EEPROM.read(EEPROM_DEFAULT_ADC_CO + 1);
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i2CResp[4] = EEPROM.read(EEPROM_DEFAULT_ADC_NO2);
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i2CResp[5] = EEPROM.read(EEPROM_DEFAULT_ADC_NO2 + 1);
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Wire.write(i2CResp, 6);
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break;
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default:
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break;
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}
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}
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@ -29,7 +29,7 @@
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void setup() {
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void setup() {
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Serial.begin(115200);
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Serial.begin(115200);
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// Connect to sensor through wire lib directly
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// Connect to sensor through wire lib directly
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Wire.begin(D3, D4);
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Wire.begin();
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// Check version
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// Check version
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Wire.beginTransmission(I2C_ADDR);
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Wire.beginTransmission(I2C_ADDR);
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@ -58,6 +58,7 @@ void loop() {
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Wire.beginTransmission(I2C_ADDR);
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Wire.beginTransmission(I2C_ADDR);
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Wire.write(CMD_ADC_ALL);
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Wire.write(CMD_ADC_ALL);
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Wire.endTransmission();
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Wire.endTransmission();
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delayMicroseconds(50);
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uint8_t ret = Wire.requestFrom(I2C_ADDR, 6);
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uint8_t ret = Wire.requestFrom(I2C_ADDR, 6);
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if (ret == 6 && Wire.available() == 6) {
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if (ret == 6 && Wire.available() == 6) {
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uint16_t data[3];
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uint16_t data[3];
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@ -72,7 +73,8 @@ void loop() {
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Serial.print("\t");
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Serial.print("\t");
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Serial.println(data[2]);
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Serial.println(data[2]);
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} else {
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} else {
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Serial.println("Request error!");
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Serial.print("Request error! - Returned bytes: ");
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Serial.println(ret);
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}
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}
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delay(50);
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delay(50);
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42
MiCS6814-I2C-Tests/MiCS6814-I2C-Tests.ino
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MiCS6814-I2C-Tests/MiCS6814-I2C-Tests.ino
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#include <MiCS6814-I2C.h>
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MiCS6814 sensor;
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void setup() {
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Serial.begin(115200);
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if (sensor.begin()) {
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sensor.powerOn();
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Serial.println("Current base resistances:");
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Serial.print("NH3: ");
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Serial.print(sensor.getBaseResistance(CH_NH3));
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Serial.print("\tRED: ");
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Serial.print(sensor.getBaseResistance(CH_RED));
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Serial.print("\tOX: ");
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Serial.println(sensor.getBaseResistance(CH_OX));
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Serial.println("---");
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Serial.println("Starting calibration");
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sensor.calibrate();
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Serial.println("Calibration done");
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Serial.println("New base resistances:");
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Serial.print("NH3: ");
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Serial.print(sensor.getBaseResistance(CH_NH3));
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Serial.print("\tRED: ");
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Serial.print(sensor.getBaseResistance(CH_RED));
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Serial.print("\tOX: ");
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Serial.println(sensor.getBaseResistance(CH_OX));
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}
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}
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void loop() {
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// put your main code here, to run repeatedly:
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}
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