GY-63_MS5611/libraries/MCP4725/MCP4725.cpp
2023-12-08 16:32:16 +01:00

277 lines
5.6 KiB
C++

//
// FILE: MCP4725.cpp
// AUTHOR: Rob Tillaart
// PURPOSE: Arduino library for 12 bit I2C DAC - MCP4725
// VERSION: 0.4.0
// URL: https://github.com/RobTillaart/MCP4725
#include "MCP4725.h"
// registerMode
#define MCP4725_DAC 0x40
#define MCP4725_DACEEPROM 0x60
// page 22
#define MCP4725_GC_RESET 0x06
#define MCP4725_GC_WAKEUP 0x09
MCP4725::MCP4725(const uint8_t deviceAddress, TwoWire *wire)
{
_deviceAddress = deviceAddress;
_wire = wire;
_lastValue = 0;
_powerDownMode = 0;
_lastWriteEEPROM = 0;
_maxVoltage = 5.0;
}
bool MCP4725::begin()
{
if ((_deviceAddress < 0x60) || (_deviceAddress > 0x67)) return false;
if (! isConnected()) return false;
_lastValue = readDAC();
_powerDownMode = readPowerDownModeDAC();
return true;
}
bool MCP4725::isConnected()
{
_wire->beginTransmission(_deviceAddress);
return (_wire->endTransmission() == 0);
}
uint8_t MCP4725::getAddress()
{
return _deviceAddress;
}
int MCP4725::setValue(const uint16_t value)
{
if (value == _lastValue) return MCP4725_OK;
if (value > MCP4725_MAXVALUE) return MCP4725_VALUE_ERROR;
int rv = _writeFastMode(value);
if (rv == 0) _lastValue = value;
return rv;
}
uint16_t MCP4725::getValue()
{
return _lastValue;
}
int MCP4725::setPercentage(float percentage)
{
if ((percentage > 100) || (percentage < 0)) return MCP4725_VALUE_ERROR;
return setValue(round(percentage * (0.01 * MCP4725_MAXVALUE)));
}
float MCP4725::getPercentage()
{
return getValue() * (100.0 / MCP4725_MAXVALUE);
}
void MCP4725::setMaxVoltage(float v)
{
_maxVoltage = v;
}
float MCP4725::getMaxVoltage()
{
return _maxVoltage;
}
int MCP4725::setVoltage(float v)
{
return setValue(round((v * MCP4725_MAXVALUE) / _maxVoltage));
}
float MCP4725::getVoltage()
{
return getValue() * (_maxVoltage / MCP4725_MAXVALUE);
}
// unfortunately it is not possible to write a different value
// to the DAC and EEPROM simultaneously or write EEPROM only.
int MCP4725::writeDAC(const uint16_t value, const bool EEPROM)
{
if (value > MCP4725_MAXVALUE) return MCP4725_VALUE_ERROR;
while(!ready());
int rv = _writeRegisterMode(value, EEPROM ? MCP4725_DACEEPROM : MCP4725_DAC);
if (rv == 0) _lastValue = value;
return rv;
}
// ready checks if the last write to EEPROM has been written.
// until ready all writes to the MCP4725 are ignored!
bool MCP4725::ready()
{
yield();
uint8_t buffer[1];
_readRegister(buffer, 1);
return ((buffer[0] & 0x80) > 0);
}
uint16_t MCP4725::readDAC()
{
while(!ready());
uint8_t buffer[3];
_readRegister(buffer, 3);
uint16_t value = buffer[1];
value = value << 4;
value = value + (buffer[2] >> 4);
return value;
}
uint16_t MCP4725::readEEPROM()
{
while(!ready());
uint8_t buffer[5];
_readRegister(buffer, 5);
uint16_t value = buffer[3] & 0x0F;
value = value << 8;
value = value + buffer[4];
return value;
}
uint32_t MCP4725::getLastWriteEEPROM()
{
return _lastWriteEEPROM;
};
// depending on bool EEPROM the value of PDM is written to
// (false) DAC or
// (true) DAC & EEPROM,
int MCP4725::writePowerDownMode(const uint8_t PDM, const bool EEPROM)
{
_powerDownMode = (PDM & 0x03); // mask PDM bits only (written later low level)
return writeDAC(_lastValue, EEPROM);
}
uint8_t MCP4725::readPowerDownModeEEPROM()
{
while(!ready());
uint8_t buffer[4];
_readRegister(buffer, 4);
uint8_t value = (buffer[3] >> 5) & 0x03;
return value;
}
uint8_t MCP4725::readPowerDownModeDAC()
{
while(!ready()); // TODO needed?
uint8_t buffer[1];
_readRegister(buffer, 1);
uint8_t value = (buffer[0] >> 1) & 0x03;
return value;
}
// PAGE 22 - experimental
// DAC value is reset to EEPROM value
// need to reflect this in cached value
int MCP4725::powerOnReset()
{
int rv = _generalCall(MCP4725_GC_RESET);
_lastValue = readDAC(); // update cache to actual value;
return rv;
}
// PAGE 22 - experimental
// _powerDownMode DAC resets to 0 -- PDM EEPROM stays same !!!
// need to reflect this in cached value
int MCP4725::powerOnWakeUp()
{
int rv = _generalCall(MCP4725_GC_WAKEUP);
_powerDownMode = readPowerDownModeDAC(); // update to actual value;
return rv;
}
// PAGE 18 DATASHEET
int MCP4725::_writeFastMode(const uint16_t value)
{
uint8_t l = value & 0xFF;
uint8_t h = ((value / 256) & 0x0F); // set C0 = C1 = 0, no PDmode
h = h | (_powerDownMode << 4);
_wire->beginTransmission(_deviceAddress);
_wire->write(h);
_wire->write(l);
return _wire->endTransmission();
}
// PAGE 19 DATASHEET
// reg = MCP4725_DAC | MCP4725_EEPROM
int MCP4725::_writeRegisterMode(const uint16_t value, uint8_t reg)
{
if (reg & MCP4725_DACEEPROM)
{
_lastWriteEEPROM = millis();
}
uint8_t h = (value / 16);
uint8_t l = (value & 0x0F) << 4;
_wire->beginTransmission(_deviceAddress);
reg = reg | (_powerDownMode << 1);
_wire->write(reg);
_wire->write(h);
_wire->write(l);
return _wire->endTransmission();
}
// PAGE 20 DATASHEET
// typical 3 or 5 bytes
uint8_t MCP4725::_readRegister(uint8_t* buffer, const uint8_t length)
{
_wire->beginTransmission(_deviceAddress);
int rv = _wire->endTransmission();
if (rv != 0) return 0; // error
// readBytes will always be equal or smaller to length
uint8_t readBytes = _wire->requestFrom(_deviceAddress, length);
uint8_t cnt = 0;
while (cnt < readBytes)
{
buffer[cnt++] = _wire->read();
}
return readBytes;
}
// name comes from datasheet
int MCP4725::_generalCall(const uint8_t gc)
{
_wire->beginTransmission(0); // _deviceAddress
_wire->write(gc);
return _wire->endTransmission();
}
// -- END OF FILE --