GY-63_MS5611/libraries/INA226/INA226.cpp

//    FILE: INA226.cpp
//  AUTHOR: Rob Tillaart
// VERSION: 0.4.4
//    DATE: 2021-05-18
// PURPOSE: Arduino library for INA226 power sensor
//     URL: https://github.com/RobTillaart/INA226


#include "INA226.h"

//  REGISTERS
#define INA226_CONFIGURATION        0x00
#define INA226_SHUNT_VOLTAGE        0x01
#define INA226_BUS_VOLTAGE          0x02
#define INA226_POWER                0x03
#define INA226_CURRENT              0x04
#define INA226_CALIBRATION          0x05
#define INA226_MASK_ENABLE          0x06
#define INA226_ALERT_LIMIT          0x07
#define INA226_MANUFACTURER         0xFE
#define INA226_DIE_ID               0xFF


//  CONFIGURATION MASKS
#define INA226_CONF_RESET_MASK      0x8000
#define INA226_CONF_AVERAGE_MASK    0x0E00
#define INA226_CONF_BUSVC_MASK      0x01C0
#define INA226_CONF_SHUNTVC_MASK    0x0038
#define INA226_CONF_MODE_MASK       0x0007


////////////////////////////////////////////////////////
//
//  Constructor
//
INA226::INA226(const uint8_t address, TwoWire *wire)
{
  _address     = address;
  _wire        = wire;
  //  not calibrated values by default.
  _current_LSB = 0;
  _maxCurrent  = 0;
  _shunt       = 0;
}


#if defined (ESP8266) || defined(ESP32)
bool INA226::begin(const uint8_t sda, const uint8_t scl)
{
  _wire->begin(sda, scl);
  if (! isConnected()) return false;
  return true;
}
#endif


bool INA226::begin()
{
  _wire->begin();
  if (! isConnected()) return false;
  return true;
}


bool INA226::isConnected()
{
  _wire->beginTransmission(_address);
  return ( _wire->endTransmission() == 0);
}


uint8_t INA226::getAddress()
{
  return _address;
};


////////////////////////////////////////////////////////
//
//  Core functions
//
float INA226::getShuntVoltage()
{
  int16_t val = _readRegister(INA226_SHUNT_VOLTAGE);
  return val * 2.5e-6;   //  fixed 2.50 uV
}


float INA226::getBusVoltage()
{
  uint16_t val = _readRegister(INA226_BUS_VOLTAGE);
  return val * 1.25e-3;  //  fixed 1.25 mV
}


float INA226::getPower()
{
  uint16_t val = _readRegister(INA226_POWER);
  return val * 25 * _current_LSB;  //  fixed 25 Watt
}


float INA226::getCurrent()
{
  int16_t val = _readRegister(INA226_CURRENT);
  return val * _current_LSB;
}


////////////////////////////////////////////////////////
//
//  Configuration
//
void INA226::reset()
{
  uint16_t mask = _readRegister(INA226_CONFIGURATION);
  mask |= INA226_CONF_RESET_MASK;
  _writeRegister(INA226_CONFIGURATION, mask);
  //  reset calibration
  _current_LSB = 0;
  _maxCurrent  = 0;
  _shunt       = 0;
}


bool INA226::setAverage(uint8_t avg)
{
  if (avg > 7) return false;
  uint16_t mask = _readRegister(INA226_CONFIGURATION);
  mask &= ~INA226_CONF_AVERAGE_MASK;
  mask |= (avg << 9);
  _writeRegister(INA226_CONFIGURATION, mask);
  return true;
}


uint8_t INA226::getAverage()
{
  uint16_t mask = _readRegister(INA226_CONFIGURATION);
  mask &= INA226_CONF_AVERAGE_MASK;
  mask >>= 9;
  return mask;
}


bool INA226::setBusVoltageConversionTime(uint8_t bvct)
{
  if (bvct > 7) return false;
  uint16_t mask = _readRegister(INA226_CONFIGURATION);
  mask &= ~INA226_CONF_BUSVC_MASK;
  mask |= (bvct << 6);
  _writeRegister(INA226_CONFIGURATION, mask);
  return true;
}


uint8_t INA226::getBusVoltageConversionTime()
{
  uint16_t mask = _readRegister(INA226_CONFIGURATION);
  mask &= INA226_CONF_BUSVC_MASK;
  mask >>= 6;
  return mask;
}


bool INA226::setShuntVoltageConversionTime(uint8_t svct)
{
  if (svct > 7) return false;
  uint16_t mask = _readRegister(INA226_CONFIGURATION);
  mask &= ~INA226_CONF_SHUNTVC_MASK;
  mask |= (svct << 3);
  _writeRegister(INA226_CONFIGURATION, mask);
  return true;
}


uint8_t INA226::getShuntVoltageConversionTime()
{
  uint16_t mask = _readRegister(INA226_CONFIGURATION);
  mask &= INA226_CONF_SHUNTVC_MASK;
  mask >>= 3;
  return mask;
}


////////////////////////////////////////////////////////
//
//  Calibration
//
int INA226::setMaxCurrentShunt(float maxCurrent, float shunt, bool normalize)
{
  //  #define printdebug true

  //  fix #16 - datasheet 6.5 Electrical Characteristics
  //            rounded value to 80 mV
  float shuntVoltage = abs(maxCurrent * shunt);
  if (shuntVoltage > 0.080)         return INA226_ERR_SHUNTVOLTAGE_HIGH;
  if (maxCurrent < 0.001)           return INA226_ERR_MAXCURRENT_LOW;
  if (shunt < INA226_MINIMAL_SHUNT) return INA226_ERR_SHUNT_LOW;

  _current_LSB = maxCurrent * 3.0517578125e-5;      //  maxCurrent / 32768;

  #ifdef printdebug
    Serial.println();
    Serial.print("normalize:\t");
    Serial.println(normalize ? " true":" false");
    Serial.print("initial current_LSB:\t");
    Serial.print(_current_LSB, 8);
    Serial.println(" uA / bit");
  #endif

  uint32_t calib  = 0;
  uint32_t factor = 1;

  //  normalize the LSB to a round number
  //  LSB will increase
  if (normalize)
  {
    calib = round(0.00512 / (_current_LSB * shunt));
    _current_LSB = 0.00512 / (calib * shunt);

    #ifdef printdebug
      Serial.print("Prescale current_LSB:\t");
      Serial.print(_current_LSB, 8);
      Serial.println(" uA / bit");
    #endif

    //  auto scale current_LSB
    factor = 1;
    while (_current_LSB < 1)
    {
      _current_LSB *= 10;
      factor *= 10;
    }
    _current_LSB = 1.0 / factor;
  }

  //  auto scale calibration
  calib = round(0.00512 / (_current_LSB * shunt));
  while (calib > 65535)
  {
    _current_LSB *= 10;
    calib /= 10;
  }
  _writeRegister(INA226_CALIBRATION, calib);

  _maxCurrent = _current_LSB * 32768;
  _shunt = shunt;

  #ifdef printdebug
    Serial.print("factor:\t");
    Serial.println(factor);
    Serial.print("Final current_LSB:\t");
    Serial.print(_current_LSB, 8);
    Serial.println(" uA / bit");
    Serial.print("Calibration:\t");
    Serial.println(calib);
    Serial.print("Max current:\t");
    Serial.print(_maxCurrent);
    Serial.println(" A");
    Serial.print("Shunt:\t");
    Serial.print(_shunt, 8);
    Serial.println(" ohm");
    Serial.print("ShuntV:\t");
    Serial.print(shuntVoltage, 4);
    Serial.println(" Volt");
  #endif

  return INA226_ERR_NONE;
}


////////////////////////////////////////////////////////
//
//  operating mode
//
bool INA226::setMode(uint8_t mode)
{
  if (mode > 7) return false;
  uint16_t config = _readRegister(INA226_CONFIGURATION);
  config &= ~INA226_CONF_MODE_MASK;
  config |= mode;
  _writeRegister(INA226_CONFIGURATION, config);
  return true;
}


uint8_t INA226::getMode()
{
  uint16_t mode = _readRegister(INA226_CONFIGURATION);
  mode &= INA226_CONF_MODE_MASK;
  return mode;
}


////////////////////////////////////////////////////////
//
//  alert
//
void INA226::setAlertRegister(uint16_t mask)
{
  _writeRegister(INA226_MASK_ENABLE, (mask & 0xFC00));
}


uint16_t INA226::getAlertFlag()
{
  return _readRegister(INA226_MASK_ENABLE) & 0x001F;
}


void INA226::setAlertLimit(uint16_t limit)
{
  _writeRegister(INA226_ALERT_LIMIT, limit);
}


uint16_t INA226::getAlertLimit()
{
  return _readRegister(INA226_ALERT_LIMIT);
}


////////////////////////////////////////////////////////
//
//  meta information
//
uint16_t INA226::getManufacturerID()
{
  return _readRegister(INA226_MANUFACTURER);
}


uint16_t INA226::getDieID()
{
  return _readRegister(INA226_DIE_ID);
}


////////////////////////////////////////////////////////
//
//  PRIVATE
//
uint16_t INA226::_readRegister(uint8_t reg)
{
  _wire->beginTransmission(_address);
  _wire->write(reg);
  _wire->endTransmission();

  _wire->requestFrom(_address, (uint8_t)2);
  uint16_t value = _wire->read();
  value <<= 8;
  value |= _wire->read();
  return value;
}


uint16_t INA226::_writeRegister(uint8_t reg, uint16_t value)
{
  _wire->beginTransmission(_address);
  _wire->write(reg);
  _wire->write(value >> 8);
  _wire->write(value & 0xFF);
  return _wire->endTransmission();
}


//  -- END OF FILE --
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`// FILE: INA226.cpp`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`// AUTHOR: Rob Tillaart`
0.4.4 INA226 2023-09-24 05:45:01 -04:00			`// VERSION: 0.4.4`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`// DATE: 2021-05-18`
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`// PURPOSE: Arduino library for INA226 power sensor`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`// URL: https://github.com/RobTillaart/INA226`
0.1.5 INA226 2021-11-05 14:39:16 -04:00
0.1.0 INA226 2021-05-30 08:22:31 -04:00
			`#include "INA226.h"`

0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// REGISTERS`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`#define INA226_CONFIGURATION 0x00`
			`#define INA226_SHUNT_VOLTAGE 0x01`
			`#define INA226_BUS_VOLTAGE 0x02`
			`#define INA226_POWER 0x03`
			`#define INA226_CURRENT 0x04`
			`#define INA226_CALIBRATION 0x05`
			`#define INA226_MASK_ENABLE 0x06`
			`#define INA226_ALERT_LIMIT 0x07`
			`#define INA226_MANUFACTURER 0xFE`
			`#define INA226_DIE_ID 0xFF`


0.2.1 INA226 2022-07-02 04:42:38 -04:00			`// CONFIGURATION MASKS`
			`#define INA226_CONF_RESET_MASK 0x8000`
			`#define INA226_CONF_AVERAGE_MASK 0x0E00`
			`#define INA226_CONF_BUSVC_MASK 0x01C0`
			`#define INA226_CONF_SHUNTVC_MASK 0x0038`
			`#define INA226_CONF_MODE_MASK 0x0007`


0.1.0 INA226 2021-05-30 08:22:31 -04:00			`////////////////////////////////////////////////////////`
			`//`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// Constructor`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`//`
0.1.5 INA226 2021-11-05 14:39:16 -04:00			`INA226::INA226(const uint8_t address, TwoWire *wire)`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`{`
			`_address = address;`
			`_wire = wire;`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// not calibrated values by default.`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`_current_LSB = 0;`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`_maxCurrent = 0;`
			`_shunt = 0;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`#if defined (ESP8266) \|\| defined(ESP32)`
			`bool INA226::begin(const uint8_t sda, const uint8_t scl)`
			`{`
			`_wire->begin(sda, scl);`
			`if (! isConnected()) return false;`
			`return true;`
			`}`
			`#endif`


			`bool INA226::begin()`
			`{`
			`_wire->begin();`
			`if (! isConnected()) return false;`
			`return true;`
			`}`


			`bool INA226::isConnected()`
			`{`
			`_wire->beginTransmission(_address);`
			`return ( _wire->endTransmission() == 0);`
			`}`


0.2.1 INA226 2022-07-02 04:42:38 -04:00			`uint8_t INA226::getAddress()`
			`{`
			`return _address;`
			`};`


0.1.0 INA226 2021-05-30 08:22:31 -04:00			`////////////////////////////////////////////////////////`
			`//`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// Core functions`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`//`
			`float INA226::getShuntVoltage()`
			`{`
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`int16_t val = _readRegister(INA226_SHUNT_VOLTAGE);`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`return val * 2.5e-6; // fixed 2.50 uV`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`float INA226::getBusVoltage()`
			`{`
			`uint16_t val = _readRegister(INA226_BUS_VOLTAGE);`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`return val * 1.25e-3; // fixed 1.25 mV`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`float INA226::getPower()`
			`{`
			`uint16_t val = _readRegister(INA226_POWER);`
0.4.2 INA226 2023-04-04 06:40:56 -04:00			`return val * 25 * _current_LSB; // fixed 25 Watt`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`float INA226::getCurrent()`
			`{`
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`int16_t val = _readRegister(INA226_CURRENT);`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`return val * _current_LSB;`
			`}`


			`////////////////////////////////////////////////////////`
			`//`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// Configuration`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`//`
			`void INA226::reset()`
			`{`
			`uint16_t mask = _readRegister(INA226_CONFIGURATION);`
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`mask \|= INA226_CONF_RESET_MASK;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`_writeRegister(INA226_CONFIGURATION, mask);`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// reset calibration`
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`_current_LSB = 0;`
			`_maxCurrent = 0;`
			`_shunt = 0;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


0.1.2 INA226 2021-06-22 09:22:35 -04:00			`bool INA226::setAverage(uint8_t avg)`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`{`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`if (avg > 7) return false;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`uint16_t mask = _readRegister(INA226_CONFIGURATION);`
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`mask &= ~INA226_CONF_AVERAGE_MASK;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`mask \|= (avg << 9);`
			`_writeRegister(INA226_CONFIGURATION, mask);`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`return true;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`uint8_t INA226::getAverage()`
			`{`
			`uint16_t mask = _readRegister(INA226_CONFIGURATION);`
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`mask &= INA226_CONF_AVERAGE_MASK;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`mask >>= 9;`
			`return mask;`
			`}`


0.1.2 INA226 2021-06-22 09:22:35 -04:00			`bool INA226::setBusVoltageConversionTime(uint8_t bvct)`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`{`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`if (bvct > 7) return false;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`uint16_t mask = _readRegister(INA226_CONFIGURATION);`
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`mask &= ~INA226_CONF_BUSVC_MASK;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`mask \|= (bvct << 6);`
			`_writeRegister(INA226_CONFIGURATION, mask);`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`return true;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`uint8_t INA226::getBusVoltageConversionTime()`
			`{`
			`uint16_t mask = _readRegister(INA226_CONFIGURATION);`
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`mask &= INA226_CONF_BUSVC_MASK;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`mask >>= 6;`
			`return mask;`
			`}`


0.1.2 INA226 2021-06-22 09:22:35 -04:00			`bool INA226::setShuntVoltageConversionTime(uint8_t svct)`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`{`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`if (svct > 7) return false;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`uint16_t mask = _readRegister(INA226_CONFIGURATION);`
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`mask &= ~INA226_CONF_SHUNTVC_MASK;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`mask \|= (svct << 3);`
			`_writeRegister(INA226_CONFIGURATION, mask);`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`return true;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`uint8_t INA226::getShuntVoltageConversionTime()`
			`{`
			`uint16_t mask = _readRegister(INA226_CONFIGURATION);`
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`mask &= INA226_CONF_SHUNTVC_MASK;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`mask >>= 3;`
			`return mask;`
			`}`


			`////////////////////////////////////////////////////////`
			`//`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// Calibration`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`//`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`int INA226::setMaxCurrentShunt(float maxCurrent, float shunt, bool normalize)`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`{`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// #define printdebug true`
0.2.0 INA226 2022-02-08 11:18:33 -05:00
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// fix #16 - datasheet 6.5 Electrical Characteristics`
			`// rounded value to 80 mV`
0.4.2 INA226 2023-04-04 06:40:56 -04:00			`float shuntVoltage = abs(maxCurrent * shunt);`
0.4.3 INA226 2023-05-24 06:54:25 -04:00			`if (shuntVoltage > 0.080) return INA226_ERR_SHUNTVOLTAGE_HIGH;`
			`if (maxCurrent < 0.001) return INA226_ERR_MAXCURRENT_LOW;`
			`if (shunt < INA226_MINIMAL_SHUNT) return INA226_ERR_SHUNT_LOW;`
0.1.2 INA226 2021-06-22 09:22:35 -04:00
0.4.4 INA226 2023-09-24 05:45:01 -04:00			`_current_LSB = maxCurrent * 3.0517578125e-5; // maxCurrent / 32768;`
0.1.2 INA226 2021-06-22 09:22:35 -04:00
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`#ifdef printdebug`
			`Serial.println();`
			`Serial.print("normalize:\t");`
			`Serial.println(normalize ? " true":" false");`
			`Serial.print("initial current_LSB:\t");`
			`Serial.print(_current_LSB, 8);`
			`Serial.println(" uA / bit");`
			`#endif`

0.4.0 INA226 2022-08-28 01:32:00 -04:00			`uint32_t calib = 0;`
			`uint32_t factor = 1;`

			`// normalize the LSB to a round number`
			`// LSB will increase`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`if (normalize)`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`{`
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`calib = round(0.00512 / (_current_LSB * shunt));`
			`_current_LSB = 0.00512 / (calib * shunt);`

			`#ifdef printdebug`
			`Serial.print("Prescale current_LSB:\t");`
			`Serial.print(_current_LSB, 8);`
			`Serial.println(" uA / bit");`
			`#endif`

0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// auto scale current_LSB`
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`factor = 1;`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`while (_current_LSB < 1)`
			`{`
0.1.3 INA226 2021-06-22 14:38:00 -04:00			`_current_LSB *= 10;`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`factor *= 10;`
			`}`
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`_current_LSB = 1.0 / factor;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`
0.1.2 INA226 2021-06-22 09:22:35 -04:00
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// auto scale calibration`
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`calib = round(0.00512 / (_current_LSB * shunt));`
0.1.3 INA226 2021-06-22 14:38:00 -04:00			`while (calib > 65535)`
			`{`
			`_current_LSB *= 10;`
			`calib /= 10;`
			`}`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`_writeRegister(INA226_CALIBRATION, calib);`
0.1.2 INA226 2021-06-22 09:22:35 -04:00
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`_maxCurrent = _current_LSB * 32768;`
0.1.3 INA226 2021-06-22 14:38:00 -04:00			`_shunt = shunt;`
0.2.0 INA226 2022-02-08 11:18:33 -05:00
			`#ifdef printdebug`
			`Serial.print("factor:\t");`
			`Serial.println(factor);`
			`Serial.print("Final current_LSB:\t");`
			`Serial.print(_current_LSB, 8);`
			`Serial.println(" uA / bit");`
			`Serial.print("Calibration:\t");`
			`Serial.println(calib);`
			`Serial.print("Max current:\t");`
			`Serial.print(_maxCurrent);`
			`Serial.println(" A");`
			`Serial.print("Shunt:\t");`
			`Serial.print(_shunt, 8);`
			`Serial.println(" ohm");`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`Serial.print("ShuntV:\t");`
			`Serial.print(shuntVoltage, 4);`
			`Serial.println(" Volt");`
0.2.0 INA226 2022-02-08 11:18:33 -05:00			`#endif`

0.4.0 INA226 2022-08-28 01:32:00 -04:00			`return INA226_ERR_NONE;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`////////////////////////////////////////////////////////`
			`//`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// operating mode`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`//`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`bool INA226::setMode(uint8_t mode)`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`{`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`if (mode > 7) return false;`
			`uint16_t config = _readRegister(INA226_CONFIGURATION);`
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`config &= ~INA226_CONF_MODE_MASK;`
0.1.2 INA226 2021-06-22 09:22:35 -04:00			`config \|= mode;`
			`_writeRegister(INA226_CONFIGURATION, config);`
			`return true;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`uint8_t INA226::getMode()`
			`{`
0.2.1 INA226 2022-07-02 04:42:38 -04:00			`uint16_t mode = _readRegister(INA226_CONFIGURATION);`
			`mode &= INA226_CONF_MODE_MASK;`
			`return mode;`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`}`


			`////////////////////////////////////////////////////////`
			`//`
0.4.2 INA226 2023-04-04 06:40:56 -04:00			`// alert`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`//`
			`void INA226::setAlertRegister(uint16_t mask)`
			`{`
			`_writeRegister(INA226_MASK_ENABLE, (mask & 0xFC00));`
			`}`


			`uint16_t INA226::getAlertFlag()`
			`{`
			`return _readRegister(INA226_MASK_ENABLE) & 0x001F;`
			`}`


			`void INA226::setAlertLimit(uint16_t limit)`
			`{`
			`_writeRegister(INA226_ALERT_LIMIT, limit);`
			`}`


			`uint16_t INA226::getAlertLimit()`
			`{`
			`return _readRegister(INA226_ALERT_LIMIT);`
			`}`


			`////////////////////////////////////////////////////////`
			`//`
0.4.2 INA226 2023-04-04 06:40:56 -04:00			`// meta information`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`//`
			`uint16_t INA226::getManufacturerID()`
			`{`
			`return _readRegister(INA226_MANUFACTURER);`
			`}`

0.4.4 INA226 2023-09-24 05:45:01 -04:00
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`uint16_t INA226::getDieID()`
			`{`
			`return _readRegister(INA226_DIE_ID);`
			`}`


			`////////////////////////////////////////////////////////`
			`//`
0.4.0 INA226 2022-08-28 01:32:00 -04:00			`// PRIVATE`
0.1.0 INA226 2021-05-30 08:22:31 -04:00			`//`
			`uint16_t INA226::_readRegister(uint8_t reg)`
			`{`
			`_wire->beginTransmission(_address);`
			`_wire->write(reg);`
			`_wire->endTransmission();`

			`_wire->requestFrom(_address, (uint8_t)2);`
			`uint16_t value = _wire->read();`
			`value <<= 8;`
			`value \|= _wire->read();`
			`return value;`
			`}`


			`uint16_t INA226::_writeRegister(uint8_t reg, uint16_t value)`
			`{`
			`_wire->beginTransmission(_address);`
			`_wire->write(reg);`
			`_wire->write(value >> 8);`
			`_wire->write(value & 0xFF);`
			`return _wire->endTransmission();`
			`}`


0.4.2 INA226 2023-04-04 06:40:56 -04:00			`// -- END OF FILE --`
0.1.0 INA226 2021-05-30 08:22:31 -04:00