#pragma once // // FILE: ML8511.h // AUTHOR: Rob Tillaart // VERSION: 0.1.9 // PURPOSE: ML8511 - UV sensor - library for Arduino // URL: https://github.com/RobTillaart/ML8511 // // NOTES // ML8511 is a 3.3 Volt device, // so do not connect to a 5V device (e.g. UNO) // this includes the ENABLE PIN !! // // +-------+--+ // VIN |o +-+| mounting hole // 3V3 |o +-+| // GND |o | // OUT |o | // EN |o S | Sensor // +----------+ #include #define ML8511_LIB_VERSION (F("0.1.9")) class ML8511 { public: // if enablePin is omitted, one must connect EN to 3V3. ML8511(uint8_t analogPin, uint8_t enablePin = 0xFF); void reset(); // reset internal variables to initial value. // energyMode = HIGH or LOW; // returns mW per cm2 float getUV(uint8_t energyMode = HIGH); // for external ADC float voltage2mW(float voltage); // voltage must be > 0 otherwise it is not set void setVoltsPerStep(float voltage, uint32_t steps); float getVoltsPerStep(); // manually enable / disable void enable(); void disable(); bool isEnabled(); // experimental estimate DUV index // WARNING: USE WITH CARE // // input in mW per cm2 == typical the output of getUV() float estimateDUVindex(float mWcm2); // https://github.com/RobTillaart/ML8511/issues/4 // discusses the calibration // see readme.md how to reverse engineer the factor for // the estimateDUVindex() conversion function. // a value of 1.61 was found to be far more accurate // // returns false if f < 0.01 (to force positive factor only) bool setDUVfactor(float factor); float getDUVfactor(); private: uint8_t _analogPin; uint8_t _enablePin; float _voltsPerStep; bool _enabled; float _DUVfactor; }; // -- END OF FILE --