GY-63_MS5611/libraries/ACS712/ACS712.h

133 lines
3.8 KiB
C
Raw Normal View History

2020-03-19 10:16:52 -04:00
#pragma once
//
// FILE: ACS712.h
2021-12-01 08:20:22 -05:00
// AUTHOR: Rob Tillaart, Pete Thompson
2023-01-18 07:43:31 -05:00
// VERSION: 0.3.5
2020-11-27 05:10:47 -05:00
// DATE: 2020-08-02
2020-03-19 10:16:52 -04:00
// PURPOSE: ACS712 library - current measurement
2023-01-03 14:19:20 -05:00
// URL: https://github.com/RobTillaart/ACS712
2020-03-19 10:16:52 -04:00
//
// Tested with a RobotDyn ACS712 20A breakout + UNO.
//
2021-10-16 05:40:09 -04:00
2020-03-19 10:16:52 -04:00
#include "Arduino.h"
2023-01-18 07:43:31 -05:00
#define ACS712_LIB_VERSION (F("0.3.5"))
2021-10-16 05:40:09 -04:00
2021-06-24 08:41:36 -04:00
// ACS712_FF_SINUS == 1.0/sqrt(2) == 0.5 * sqrt(2)
// should be smaller in practice 0.5 ?
#define ACS712_FF_SINUS (1.0/sqrt(2))
#define ACS712_FF_SQUARE (1.0)
#define ACS712_FF_TRIANGLE (1.0/sqrt(3))
2022-08-12 04:47:41 -04:00
#define ACS712_FF_SAWTOOTH (1.0/sqrt(3))
2020-03-19 10:16:52 -04:00
2022-08-28 03:44:41 -04:00
#define ACS712_DEFAULT_FREQ 50
#define ACS712_DEFAULT_NOISE 21
2020-03-19 10:16:52 -04:00
class ACS712
{
public:
// NOTE:
// One can quite precisely tune the value of the sensor
// (1) the milliVolt per Ampere and
// (2) the volts parameter.
//
2022-08-12 04:47:41 -04:00
// TYPE mV per Ampere
// 5A 185.0
// 20A 100.0
// 30A 66.0
ACS712(uint8_t analogPin, float volts = 5.0, uint16_t maxADC = 1023, float mVperAmpere = 100);
2020-03-19 10:16:52 -04:00
2022-09-01 05:19:21 -04:00
// returns mA peak2peak current.
float mA_peak2peak(float frequency = ACS712_DEFAULT_FREQ, uint16_t cycles = 1);
2021-06-24 08:41:36 -04:00
2022-08-12 04:47:41 -04:00
// returns mA
// blocks 20-21 ms to sample a whole 50 or 60 Hz period.
2022-09-01 05:19:21 -04:00
// works with peak2peak level and (crest) Form Factor.
2022-08-12 04:47:41 -04:00
// lower frequencies block longer.
2022-09-01 05:19:21 -04:00
float mA_AC(float frequency = ACS712_DEFAULT_FREQ, uint16_t cycles = 1);
2020-03-19 10:16:52 -04:00
2022-08-28 03:44:41 -04:00
// returns mA
// blocks 20-21 ms to sample a whole 50 or 60 Hz period.
// works with sampling.
// lower frequencies block longer.
float mA_AC_sampling(float frequency = ACS712_DEFAULT_FREQ, uint16_t cycles = 1);
2021-06-24 08:41:36 -04:00
2022-08-12 04:47:41 -04:00
// returns mA
// blocks < 1 ms
2022-09-01 05:19:21 -04:00
float mA_DC(uint16_t samples = 1);
2020-03-19 10:16:52 -04:00
2021-06-24 08:41:36 -04:00
2022-08-28 03:44:41 -04:00
// midPoint functions
2022-09-01 05:19:21 -04:00
// set reference point (raw ADC) for both DC and AC
uint16_t setMidPoint(uint16_t midPoint);
2022-08-28 03:44:41 -04:00
uint16_t getMidPoint();
2022-09-01 05:19:21 -04:00
uint16_t incMidPoint();
uint16_t decMidPoint();
2022-08-12 04:47:41 -04:00
// Auto midPoint, assuming zero DC current or any AC current
2022-09-01 05:19:21 -04:00
uint16_t autoMidPoint(float frequency = ACS712_DEFAULT_FREQ, uint16_t cycles = 1);
2022-10-10 06:21:13 -04:00
// resets to half maxADC
uint16_t resetMidPoint();
2020-03-19 10:16:52 -04:00
2021-06-24 08:41:36 -04:00
2022-08-12 04:47:41 -04:00
// Form Factor is also known as crest factor;
// affects mA_AC() only, default sinus.
2022-08-28 03:44:41 -04:00
void setFormFactor(float formFactor = ACS712_FF_SINUS);
float getFormFactor();
2020-03-19 10:16:52 -04:00
2021-06-24 08:41:36 -04:00
2022-08-28 03:44:41 -04:00
// noise defaults 21 datasheet
void setNoisemV(uint8_t noisemV = ACS712_DEFAULT_NOISE);
uint8_t getNoisemV();
2022-10-10 06:21:13 -04:00
// enable/disable noiseSuppression for this measurement as needed.
float mVNoiseLevel(float frequency = ACS712_DEFAULT_FREQ, uint16_t cycles = 1); // uses mA_peak2peak()
void suppressNoise(bool flag);
2020-11-27 05:10:47 -05:00
2021-06-24 08:41:36 -04:00
2022-08-28 03:44:41 -04:00
// Adjusting resolution AC and DC
void setmVperAmp(float mVperAmpere);
float getmVperAmp();
2022-09-01 05:19:21 -04:00
float getmAPerStep();
2022-08-28 03:44:41 -04:00
float getAmperePerStep();
2020-03-19 10:16:52 -04:00
2021-06-24 08:41:36 -04:00
2022-08-12 04:47:41 -04:00
// Frequency detection.
// the minimal frequency determines the time to sample.
float detectFrequency(float minimalFrequency = 40);
2022-08-28 03:44:41 -04:00
void setMicrosAdjust(float factor = 1.0);
float getMicrosAdjust();
2021-12-01 08:20:22 -05:00
2022-09-01 05:19:21 -04:00
// DEBUG
uint16_t getMinimum(uint16_t milliSeconds = 20);
uint16_t getMaximum(uint16_t milliSeconds = 20);
2021-12-01 08:20:22 -05:00
2023-01-15 14:39:54 -05:00
// EXPERIMENTAL 0.3.4
void setADC(uint16_t (*)(uint8_t), float volts, uint16_t maxADC);
2020-03-19 10:16:52 -04:00
private:
uint8_t _pin;
2022-10-10 06:21:13 -04:00
uint16_t _maxADC;
2022-08-12 04:47:41 -04:00
float _mVperStep;
2022-08-28 03:44:41 -04:00
float _formFactor; // peak2peak -> RMS
2022-08-12 04:47:41 -04:00
float _mVperAmpere;
2022-09-01 05:19:21 -04:00
float _mAPerStep;
2022-11-21 14:44:08 -05:00
int _midPoint;
2020-11-27 05:10:47 -05:00
uint8_t _noisemV;
2022-10-10 06:21:13 -04:00
float _microsAdjust = 1.0; // 0.9986
bool _suppresNoise = false;
2023-01-15 14:39:54 -05:00
// EXPERIMENTAL 0.3.4
// supports up to 16 bits ADC.
uint16_t (* _readADC)(uint8_t);
2023-01-18 07:43:31 -05:00
uint16_t _analogRead(uint8_t pin);
2020-03-19 10:16:52 -04:00
};
2022-08-12 04:47:41 -04:00
2021-06-24 08:41:36 -04:00
// -- END OF FILE --
2022-08-12 04:47:41 -04:00