#pragma once
#include "Arduino.h"
#define ADS115_ADDR 0x49
#define EEPROM_ADDR 0x53
#define ADS1115_RA_CONVERSION 0x00
#define ADS1115_RA_CONFIG 0x01
#define ADS1115_PGA_6144 0x00
#define ADS1115_PGA_4096 0x01
#define ADS1115_PGA_2048 0x02 // default
#define ADS1115_PGA_1024 0x03
#define ADS1115_PGA_512 0x04
#define ADS1115_PGA_256 0x05
#define ADS1115_MV_6144 0.187500F
#define ADS1115_MV_4096 0.125000F
#define ADS1115_MV_2048 0.062500F // default
#define ADS1115_MV_1024 0.031250F
#define ADS1115_MV_512 0.015625F
#define ADS1115_MV_256 0.007813F
#define ADS1115_RATE_8 0x00
#define ADS1115_RATE_16 0x01
#define ADS1115_RATE_32 0x02
#define ADS1115_RATE_64 0x03
#define ADS1115_RATE_128 0x04 // default
#define ADS1115_RATE_250 0x05
#define ADS1115_RATE_475 0x06
#define ADS1115_RATE_860 0x07
#define VOLTMETER_MEASURING_DIR -1
#define ADS1115_MUX_P0N1 0x00 // voltmeter only support
#define ADS1115_COMP_MODE_HYSTERESIS 0x00 // default
#define ADS1115_COMP_MODE_WINDOW 0x01
#define ADS1115_MODE_CONTINUOUS 0x00
#define ADS1115_MODE_SINGLESHOT 0x01 // default
#define VOLTMETER_PRESSURE_COEFFICIENT 0.015918958F
#define VOLTMETER_PAG_6144_CAL_ADDR 208
#define VOLTMETER_PAG_4096_CAL_ADDR 216
#define VOLTMETER_PAG_2048_CAL_ADDR 224
#define VOLTMETER_PAG_1024_CAL_ADDR 232
#define VOLTMETER_PAG_512_CAL_ADDR 240
#define VOLTMETER_PAG_256_CAL_ADDR 248
#define VOLTMETER_FILTER_NUMBER 10
typedef enum {
PAG_6144 = ADS1115_PGA_6144,
PAG_4096 = ADS1115_PGA_4096,
PAG_2048 = ADS1115_PGA_2048, // default
PAG_1024 = ADS1115_PGA_1024,
PAG_512 = ADS1115_PGA_512,
PAG_256 = ADS1115_PGA_256,
} voltmeterGain_t;
typedef enum {
RATE_8 = ADS1115_RATE_8,
RATE_16 = ADS1115_RATE_16,
RATE_32 = ADS1115_RATE_32,
RATE_64 = ADS1115_RATE_64,
RATE_128 = ADS1115_RATE_128, // default
RATE_250 = ADS1115_RATE_250,
RATE_475 = ADS1115_RATE_475,
RATE_860 = ADS1115_RATE_860,
} voltmeterRate_t;
typedef enum {
SINGLESHOT = ADS1115_MODE_SINGLESHOT,
CONTINUOUS = ADS1115_MODE_CONTINUOUS,
} voltmeterMode_t;
class Voltmeter {
private:
void i2cBegin();
bool i2cReadBytes(uint8_t addr, uint8_t reg_addr, uint8_t* buff, uint16_t len);
bool i2cWriteBytes(uint8_t addr, uint8_t reg_addr, uint8_t* buff, uint16_t len);
bool i2cReadU16(uint8_t addr, uint8_t reg_addr, uint16_t* value);
bool i2cWriteU16(uint8_t addr, uint8_t reg_addr, uint16_t value);
float getResolution(voltmeterGain_t gain);
uint16_t getCoverTime(voltmeterRate_t rate);
uint8_t getPGAEEEPROMAddr(voltmeterGain_t gain);
uint8_t _ads1115_addr;
uint8_t _eeprom_addr;
public:
voltmeterGain_t _gain;
voltmeterRate_t _rate;
voltmeterMode_t _mode;
float resolution;
uint16_t cover_time;
int16_t adc_raw;
float calibration_factor;
public:
Voltmeter(uint8_t ads1115_addr=ADS115_ADDR, uint8_t eeprom_addr=EEPROM_ADDR);
void setGain(voltmeterGain_t gain);
void setRate(voltmeterRate_t rate);
void setMode(voltmeterMode_t mode);
float getVoltage(bool calibration = true);
int16_t getConversion(uint16_t timeout = 125);
int16_t getAdcRaw();
bool isInConversion();
void startSingleConversion();
bool EEPORMWrite(uint8_t address, uint8_t* buff, uint8_t len);
bool EEPORMRead(uint8_t address, uint8_t* buff, uint8_t len);
void setCalibration(int8_t voltage, uint16_t actual);
bool saveCalibration2EEPROM(voltmeterGain_t gain, int16_t hope, int16_t actual);
bool readCalibrationFromEEPROM(voltmeterGain_t gain, int16_t* hope, int16_t* actual);
};