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/******************************************************************************
 *
 * This is a library for the ADS1115 A/D Converter
 *
 * You'll find several example sketches which should enable you to use the library.
 *
 * You are free to use it, change it or build on it. In case you like it, it would
 * be cool if you give it a star.
 *
 * If you find bugs, please inform me!
 *
 * Written by Wolfgang (Wolle) Ewald
 * https://wolles-elektronikkiste.de
 *
 *
 ******************************************************************************/

#ifndef ADS1115_WE_H_
#define ADS1115_WE_H_

#if (ARDUINO >= 100)
 #include "Arduino.h"
#else
 #include "WProgram.h"
#endif

#include <Wire.h>

/* registers */
#define ADS1115_CONV_REG		0x00 //Conversion Register
#define ADS1115_CONFIG_REG		0x01 //Configuration Register
#define ADS1115_LO_THRESH_REG	0x02 //Low Threshold Register
#define ADS1115_HI_THRESH_REG	0x03 //High Threshold Register

/* other */
#define ADS1115_REG_FACTOR 32768
#define ADS1115_REG_RESET_VAL 0x8583

typedef enum ADS1115_COMP_QUE {
	ADS1115_ASSERT_AFTER_1 = 0x0000,
	ADS1115_ASSERT_AFTER_2 = 0x0001,
	ADS1115_ASSERT_AFTER_4 = 0x0002,
	ADS1115_DISABLE_ALERT  = 0x0003
} compQue;

typedef enum ADS1115_LATCH {
	ADS1115_LATCH_DISABLED = 0x0000,
	ADS1115_LATCH_ENABLED  = 0x0004,
} latch;

typedef enum ADS1115_ALERT_POL {
	ADS1115_ACT_LOW  = 0x0000,
	ADS1115_ACT_HIGH = 0x0008
} alertPol;

typedef enum ADS1115_COMP_MODE{
	ADS1115_MAX_LIMIT = 0x0000,
	ADS1115_WINDOW    = 0x0010
} compMode;

typedef enum ADS1115_CONV_RATE{
	ADS1115_8_SPS	= 0x0000,
	ADS1115_16_SPS	= 0x0020,
	ADS1115_32_SPS	= 0x0040,
	ADS1115_64_SPS	= 0x0050,
	ADS1115_128_SPS	= 0x0080,
	ADS1115_250_SPS	= 0x00A0,
	ADS1115_475_SPS	= 0x00C0,
	ADS1115_860_SPS	= 0x00E0
} convRate;

typedef enum ADS1115_MEASURE_MODE{
	ADS1115_CONTINOUS  = 0x0000, // keeping misspelled enum for backwards compatibility.
	ADS1115_CONTINUOUS = 0x0000, 
	ADS1115_SINGLE     = 0x0100
} measureMode;

typedef enum ADS1115_RANGE{
	ADS1115_RANGE_6144  = 0x0000,
	ADS1115_RANGE_4096  = 0x0200,
	ADS1115_RANGE_2048  = 0x0400,
	ADS1115_RANGE_1024  = 0x0600,
	ADS1115_RANGE_0512  = 0x0800,
	ADS1115_RANGE_0256  = 0x0A00,
} range;

typedef enum ADS1115_MUX{
	ADS1115_COMP_0_1   = 0x0000,
	ADS1115_COMP_0_3   = 0x1000,
	ADS1115_COMP_1_3   = 0x2000,
	ADS1115_COMP_2_3   = 0x3000,
	ADS1115_COMP_0_GND = 0x4000,
	ADS1115_COMP_1_GND = 0x5000,
	ADS1115_COMP_2_GND = 0x6000,
	ADS1115_COMP_3_GND = 0x7000
} mux;

typedef enum ADS1115_STATUS_OR_START{
	ADS1115_BUSY          = 0x0000,
	ADS1115_START_ISREADY = 0x8000
} statusOrStart;


class ADS1115_WE
{
public:
	ADS1115_WE(int addr);
	ADS1115_WE(); // uses default I2C Address 0x48

	void reset();
	bool init();

	/* Set number of conversions after which the alert pin will be active
	 * - or you can disable the alert
	 *
	 *  ADS1115_ASSERT_AFTER_1  -> after 1 conversion
	 *  ADS1115_ASSERT_AFTER_2  -> after 2 conversions
	 *  ADS1115_ASSERT_AFTER_4  -> after 4 conversions
	 *  ADS1115_DISABLE_ALERT   -> disable comparator // alert pin (default)
	 */
	void setAlertPinMode(ADS1115_COMP_QUE mode);

	/* Enable or disable latch. If latch is enabled the alarm pin will be active until the
	 * conversion register is read (getResult functions). If disabled the alarm pin will be
	 * deactivated with next value within limits.
	 *
	 * ADS1115_LATCH_DISABLED (default)
	 * ADS1115_LATCH_ENABLED
	 */
	void setAlertLatch(ADS1115_LATCH latch);

	/* Sets the alert pin polarity if active:
	 *
	 * Enable or disable latch. If latch is enabled the alarm pin will be active until the
	 * conversion register is read (getResult functions). If disabled the alarm pin will be
	 * deactivated with next value within limits.
	 *
	 * ADS1115_ACT_LOW  ->  active low (default)
	 * ADS1115_ACT_HIGH ->  active high
	 */
	void setAlertPol(ADS1115_ALERT_POL polarity);

	/* Choose maximum limit or maximum and minimum alert limit (window)in Volt - alert pin will
	 * be active when measured values are beyond the maximum limit or outside the window
	 * Upper limit first: setAlertLimit_V(MODE, maximum, minimum)
	 * In max limit mode the minimum value is the limit where the alert pin will be deactivated (if
	 * not latched)
	 *
	 * ADS1115_MAX_LIMIT
	 * ADS1115_WINDOW
	 */
	void setAlertModeAndLimit_V(ADS1115_COMP_MODE mode, float hithres, float lothres);

	/* Set the conversion rate in SPS (samples per second)
	 * Options should be self-explaining:
	 *
	 * ADS1115_8_SPS
	 * ADS1115_16_SPS
	 * ADS1115_32_SPS
	 * ADS1115_64_SPS
	 * ADS1115_128_SPS (default)
	 * ADS1115_250_SPS
	 * ADS1115_475_SPS
	 * ADS1115_860_SPS
	 */
	void setConvRate(ADS1115_CONV_RATE rate);

	/* Set continuous or single shot mode:
	 *
	 * ADS1115_CONTINUOUS  ->  continuous mode
	 * ADS1115_SINGLE     ->  single shot mode (default)
	 */
	void setMeasureMode(ADS1115_MEASURE_MODE mode);

	/* Set the voltage range of the ADC to adjust the gain:
	 * Please note that you must not apply more than VDD + 0.3V to the input pins!
	 *
	 * ADS1115_RANGE_6144  ->  +/- 6144 mV
	 * ADS1115_RANGE_4096  ->  +/- 4096 mV
	 * ADS1115_RANGE_2048  ->  +/- 2048 mV (default)
	 * ADS1115_RANGE_1024  ->  +/- 1024 mV
	 * ADS1115_RANGE_0512  ->  +/- 512 mV
	 * ADS1115_RANGE_0256  ->  +/- 256 mV
	 */
	void setVoltageRange_mV(ADS1115_RANGE range);

	/* Set the inputs to be compared
	 *
	 * ADS1115_COMP_0_1    ->  compares 0 with 1 (default)
	 * ADS1115_COMP_0_3    ->  compares 0 with 3
	 * ADS1115_COMP_1_3    ->  compares 1 with 3
	 * ADS1115_COMP_2_3    ->  compares 2 with 3
	 * ADS1115_COMP_0_GND  ->  compares 0 with GND
	 * ADS1115_COMP_1_GND  ->  compares 1 with GND
	 * ADS1115_COMP_2_GND  ->  compares 2 with GND
	 * ADS1115_COMP_3_GND  ->  compares 3 with GND
	*/
	void setCompareChannels(ADS1115_MUX mux);

	bool isBusy();
	void startSingleMeasurement();
	float getResult_V();
	float getResult_mV();
	
	/* Get the raw result from the conversion register: 
	 * The conversion register contains the conversion result of the amplified (!)
	 * voltage. This means the value depends on the voltage as well as on the 
	 * voltage range. E.g. if the voltage range is 6.144 mV (ADS1115_RANGE_6144), 
	 * +32767 is 6.144 mV; if the range is 4.096 mV, +32767 is 4.096 mV, and so on.  
	 */
	int16_t getRawResult();
	
	/* Skaling of the result to a different range: 
	 * The results in the conversion register are in a range of -32767 to +32767
	 * You might want to receive the result in a different scale, e.g. -1023 to 1023.
	 * For -1023 to 1023, and if you have chosen e.g. ADS1115_RANGE_4096, 0 Volt would 
	 * give 0 as result and 4.096 mV would give 1023. -4.096 mV would give -1023.
	 */
	int16_t getResultWithRange(int16_t min, int16_t max);
	
	/* Scaling of the result to a different range plus scaling to a voltage range: 
	 * You can use this variant if you also want to scale to a voltage range. E.g. in
	 * in order to get results equivalent to an Arduino UNO (10 bit, 5000 mV range), you 
	 * would choose getResultWithRange(-1023, 1023, 5000). A difference to the Arduino 
	 * UNO is that you can measure negative voltages. 
	 * You have to ensure that the voltage range you scale to is smaller than the 
	 * measuring voltage range. For this example only ADS1115_RANGE_6144 would cover the 
	 * scale up to 5000 mV. 
	 */
	int16_t getResultWithRange(int16_t min, int16_t max, int16_t maxVoltage);
	
	/* This function returns the voltage range ADS1115_RANGE_XXXX in Millivolt */
	uint16_t getVoltageRange_mV();
	
	/* With this function the alert pin will be active, when a conversion is ready.
	 * In order to deactivate, use the setAlertLimit_V function
	 */
	void setAlertPinToConversionReady();
	void clearAlert();


private:
	uint16_t voltageRange;
	ADS1115_MEASURE_MODE deviceMeasureMode;
	int i2cAddress;
	int16_t calcLimit(float rawLimit);
	uint8_t writeRegister(uint8_t reg, uint16_t val);
	uint16_t readRegister(uint8_t reg);

};

#endif