#ifndef MQUnifiedsensor_H #define MQUnifiedsensor_H #include #include /***********************Software Related Macros************************************/ #define ADC_RESOLUTION 10 // for 10bit analog to digital converter. #define retries 2 #define retry_interval 20 class MQUnifiedsensor { public: MQUnifiedsensor(String Placa = "Arduino", float Voltage_Resolution = 5, int ADC_Bit_Resolution = 10, int pin = 1, String type = "CUSTOM MQ"); MQUnifiedsensor(String Placa = "Arduino", String type = "CUSTOM MQ"); //Functions to set values void init(); void update(); void externalADCUpdate(float volt); void setR0(float R0 = 10); void setRL(float RL = 10); void setA(float a); void setB(float b); void setRegressionMethod(int regressionMethod); void setVoltResolution(float voltage_resolution = 5); void serialDebug(bool onSetup = false); //Show on serial port information about sensor void setADC(int value); //For external ADC Usage //user functions float calibrate(float ratioInCleanAir); float readSensor(bool isMQ303A = false, float correctionFactor = 0.0, bool injected=false); float readSensorR0Rs(); float validateEcuation(float ratioInput = 0); //get function for info float getA(); float getB(); float getR0(); float getRL(); float getVoltResolution(); String getRegressionMethod(); float getVoltage(bool read = true, bool injected = false, int value = 0); float stringTofloat(String & str); // functions for testing float getRS(); float setRsR0RatioGetPPM(float value); private: /************************Private vars************************************/ byte _pin; byte _firstFlag = false; float _VOLT_RESOLUTION = 5.0; // if 3.3v use 3.3 float _RL = 10; //Value in KiloOhms byte _ADC_Bit_Resolution = 10; byte _regressionMethod = 1; // 1 -> Exponential || 2 -> Linear float _adc, _a, _b, _sensor_volt; float _R0, RS_air, _ratio, _PPM, _RS_Calc; char _type[7]; char _placa[20]; }; #endif //MQUnifiedsensor_H