GY-63_MS5611/libraries/BH1750FVI_RT/BH1750FVI.cpp

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//
// FILE: BH1750FVI.cpp
// AUTHOR: Rob Tillaart
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// VERSION: 0.2.10
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// PURPOSE: library for BH1750FVI lux sensor Arduino
// URL: https://github.com/RobTillaart/BH1750FVI
//
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// HISTORY: see changelog.md
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#include "BH1750FVI.h"
#if defined(ESP8266) || defined(ESP32)
BH1750FVI::BH1750FVI(const uint8_t address, const uint8_t dataPin, const uint8_t clockPin)
{
_address = address;
_wire = &Wire;
if ((dataPin < 255) && (clockPin < 255))
{
_wire->begin(dataPin, clockPin);
} else {
_wire->begin();
}
begin();
}
#endif
BH1750FVI::BH1750FVI(const uint8_t address, TwoWire *wire)
{
_address = address;
_wire = wire;
_wire->begin();
begin();
}
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bool BH1750FVI::begin()
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{
_data = 0;
_error = BH1750FVI_OK;
_sensitivityFactor = BH1750FVI_REFERENCE_TIME;
_mode = BH1750FVI_MODE_HIGH;
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return isConnected();
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}
bool BH1750FVI::isConnected()
{
_wire->beginTransmission(_address);
_error = _wire->endTransmission();
return (_error == 0);
}
bool BH1750FVI::isReady()
{
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// max times from datasheet P2 + P11;
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uint8_t timeout[3] = { 16, 120, 120 };
if (_mode < 3)
{
float f = timeout[_mode] * _sensitivityFactor / BH1750FVI_REFERENCE_TIME;
return (millis() - _requestTime) > f;
}
return false;
}
float BH1750FVI::getRaw(void)
{
return readData() * 0.833333333333f; // == 1 / 1.2;
}
float BH1750FVI::getLux(void)
{
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// lux without mode correction
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float lux = getRaw();
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// sensitivity factor
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if (_sensitivityFactor != BH1750FVI_REFERENCE_TIME)
{
lux *= (1.0 * BH1750FVI_REFERENCE_TIME) / _sensitivityFactor;
}
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// angle compensation
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if (_angle != 0)
{
lux *= _angleFactor;
}
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// temperature compensation.
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if (_temp != 20)
{
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lux *= _tempFactor;
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}
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// wavelength compensation.
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if (_waveLength != 580)
{
lux *= _waveLengthFactor;
}
if (_mode == BH1750FVI_MODE_HIGH2)
{
lux *= 0.5f; // P11
}
return lux;
}
int BH1750FVI::getError()
{
int e = _error;
_error = BH1750FVI_OK;
return e;
}
////////////////////////////////////////////
//
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// operational mode
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//
void BH1750FVI::setContHighRes()
{
_mode = BH1750FVI_MODE_HIGH;
command(BH1750FVI_CONT_HIGH);
_requestTime = millis();
};
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void BH1750FVI::setContHigh2Res()
{
_mode = BH1750FVI_MODE_HIGH2;
command(BH1750FVI_CONT_HIGH2);
_requestTime = millis();
};
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void BH1750FVI::setContLowRes()
{
_mode = BH1750FVI_MODE_LOW;
command(BH1750FVI_CONT_LOW);
_requestTime = millis();
};
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void BH1750FVI::setOnceHighRes()
{
_mode = BH1750FVI_MODE_HIGH;
command(BH1750FVI_ONCE_HIGH);
_requestTime = millis();
};
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void BH1750FVI::setOnceHigh2Res()
{
_mode = BH1750FVI_MODE_HIGH2;
command(BH1750FVI_ONCE_HIGH2);
_requestTime = millis();
};
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void BH1750FVI::setOnceLowRes()
{
_mode = BH1750FVI_MODE_LOW;
command(BH1750FVI_ONCE_LOW);
_requestTime = millis();
};
////////////////////////////////////////////
//
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// measurement timing
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//
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// P11 datasheet
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void BH1750FVI::changeTiming(uint8_t time)
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{
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time = constrain(time, 31, 254);
_sensitivityFactor = time;
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// P5 instruction set table
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uint8_t Hbits = 0x40 | (time >> 5);
uint8_t Lbits = 0x60 | (time & 0x1F);
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command(Hbits);
command(Lbits);
}
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uint8_t BH1750FVI::setCorrectionFactor(float factor)
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{
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// 31 .. 254 are range P11 - constrained in changeTIming call
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uint8_t timingValue = round(BH1750FVI_REFERENCE_TIME * factor);
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changeTiming(timingValue);
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return _sensitivityFactor;
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}
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float BH1750FVI::getCorrectionFactor()
{
float f = 1.0f / BH1750FVI_REFERENCE_TIME;
return _sensitivityFactor * f;
}
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float BH1750FVI::setTemperature(int temp)
{
_temp = temp;
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// _tempFactor = 1.0f - (_temp - 20.0f) / 2000.0f;
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_tempFactor = 1.0f - (_temp - 20.0f) * 0.0005f;
return _tempFactor;
}
float BH1750FVI::setAngle(int degrees)
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{
_angle = constrain(degrees, -89, 89);
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// Lamberts Law.
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_angleFactor = 1.0f / cos(_angle * (PI / 180.0f));
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return _angleFactor;
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}
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// interpolation tables uses more RAM (versus progmem)
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float BH1750FVI::setWaveLength(int waveLength)
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{
_waveLength = constrain(waveLength, 400, 715);
float tmp = 1.0f;
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if (_waveLength < 400) tmp = 0.01f;
else if (_waveLength < 440) tmp = 0.01f + (_waveLength - 400) * 0.09f / 40.0f;
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else if (_waveLength < 510) tmp = 0.10f + (_waveLength - 440) * 0.80f / 70.0f;
else if (_waveLength < 545) tmp = 0.90f - (_waveLength - 510) * 0.10f / 35.0f;
else if (_waveLength < 580) tmp = 0.80f + (_waveLength - 545) * 0.20f / 35.0f;
else if (_waveLength < 700) tmp = 1.00f - (_waveLength - 580) * 0.93f / 120.0f;
else if (_waveLength < 715) tmp = 0.07f - (_waveLength - 700) * 0.07f / 15.0f;
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else if (_waveLength >= 715) tmp = 0.01f;
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_waveLengthFactor = 1.0f / tmp;
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return _waveLengthFactor;
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}
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///////////////////////////////////////////////////////////
//
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// PRIVATE
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//
uint16_t BH1750FVI::readData()
{
if (_wire->requestFrom(_address, (uint8_t) 2) != 2)
{
_error = BH1750FVI_ERROR_WIRE_REQUEST;
return _data; // last value
}
_data = _wire->read();
_data <<= 8;
_data += _wire->read();
return _data;
}
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void BH1750FVI::command(uint8_t value)
{
_wire->beginTransmission(_address);
_wire->write(value);
_error = _wire->endTransmission();
}
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// --- END OF FILE ---
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