#pragma once // FILE: INA219.h // AUTHOR: Rob Tillaart // VERSION: 0.1.3 // DATE: 2021-05-18 // PURPOSE: Arduino library for INA219 voltage, current and power sensor // URL: https://github.com/RobTillaart/INA219 // // Read the datasheet for the details how to connect! // #include "Arduino.h" #include "Wire.h" #define INA219_LIB_VERSION (F("0.1.3")) class INA219 { public: // address between 0x40 and 0x4F explicit INA219(const uint8_t address, TwoWire *wire = &Wire); #if defined (ESP8266) || defined(ESP32) bool begin(const uint8_t sda, const uint8_t scl); #endif bool begin(); bool isConnected(); // CORE FUNCTIONS // Register float getShuntVoltage(); // 01 float getBusVoltage(); // 02 float getPower(); // 03 float getCurrent(); // 04 bool getMathOverflowFlag(); // 02 bool getConversionFlag(); // 02 // SCALE HELPERS float getBusVoltage_mV() { return getBusVoltage() * 1e3; }; float getShuntVoltage_mV() { return getShuntVoltage() * 1e3; }; float getCurrent_mA() { return getCurrent() * 1e3; }; float getPower_mW() { return getPower() * 1e3; }; float getShuntVoltage_uV() { return getShuntVoltage() * 1e6; }; float getCurrent_uA() { return getCurrent() * 1e6; }; float getPower_uW() { return getPower() * 1e6; }; // CONFIGURATION // need improvement API wise. void reset(); // voltage = 16, 32 (values below 32 are rounded to 16 or 32) bool setBusVoltageRange(uint8_t voltage = 16); uint8_t getBusVoltageRange(); // returns 16 or 32. // factor = 1, 2, 4, 8 bool setGain(uint8_t factor = 1); uint8_t getGain(); // mask bool setBusADC(uint8_t mask = 0x03); uint8_t getBusADC(); bool setShuntADC(uint8_t mask = 0x03); uint8_t getShuntADC(); // Operating mode = 0..7 bool setMode(uint8_t mode = 7); uint8_t getMode(); bool shutDown() { return setMode(0); }; bool setModeShuntTrigger() { return setMode(1); }; bool setModeBusTrigger() { return setMode(2); }; bool setModeShuntBusTrigger() { return setMode(3); }; bool setModeADCOff() { return setMode(4); }; bool setModeShuntContinuous() { return setMode(5); }; bool setModeBusContinuous() { return setMode(6); }; bool setModeShuntBusContinuous() { return setMode(7); }; // default. // CALIBRATION // mandatory to set these! read datasheet. // maxCurrent >= 0.001 // shunt >= 0.001 bool setMaxCurrentShunt(float maxCurrent = 3.4, float shunt = 0.002); bool isCalibrated() { return _current_LSB != 0.0; }; // these return zero if not calibrated! float getCurrentLSB() { return _current_LSB; }; float getCurrentLSB_mA() { return _current_LSB * 1e3; }; float getCurrentLSB_uA() { return _current_LSB * 1e6; }; float getShunt() { return _shunt; }; float getMaxCurrent() { return _maxCurrent; }; // DEBUG uint16_t getRegister(uint8_t reg) { return _readRegister(reg); }; private: uint16_t _readRegister(uint8_t reg); uint16_t _writeRegister(uint8_t reg, uint16_t value); float _current_LSB; float _shunt; float _maxCurrent; uint8_t _address; TwoWire * _wire; }; // -- END OF FILE --