GY-63_MS5611/libraries/PCA9685_RT/PCA9685.cpp
2022-06-10 12:52:02 +02:00

373 lines
8.2 KiB
C++

//
// FILE: PCA9685.cpp
// AUTHOR: Rob Tillaart
// DATE: 24-apr-2016
// VERSION: 0.4.0
// PURPOSE: Arduino library for I2C PCA9685 16 channel PWM
// URL: https://github.com/RobTillaart/PCA9685_RT
//
// HISTORY:
// 0.1.0 2016-04-24 initial BETA version
// 0.1.1 2019-01-30 testing && fixing
// 0.2.0 2020-05-25 refactor; ESP32 begin(sda,scl)
// 0.2.1 2020-06-19 fix library.json
// 0.2.2 2020-09-21 fix #1 + add getFrequency()
// 0.2.3 2020-11-21 fix digitalWrite (internal version only)
// 0.3.0 2020-11-22 fix setting frequency
// 0.3.1 2021-01-05 Arduino-CI + unit test
// 0.3.2 2021-01-14 WireN support
// 0.3.3 2021-12-23 update library.json, license, readme, minor edits
// 0.3.4 2022-01-03 add channelCount()
// 0.4.0 2022-06-09 breaking changes (sync with pca9634)
// rename reset() to configure()
// add mode1 and mode2 parameter to configure.
// add SUB CALL and ALL CALL functions.
// update documentation.
// renamed PCA9685_MODE2_STOP to PCA9685_MODE2_ACK
// add mode parameters to begin()
#include "PCA9685.h"
//////////////////////////////////////////////////////////////
//
// Constructor
//
PCA9685::PCA9685(const uint8_t deviceAddress, TwoWire *wire)
{
_address = deviceAddress;
_wire = wire;
_channelCount = 16;
_error = PCA9685_OK;
}
#if defined (ESP8266) || defined(ESP32)
bool PCA9685::begin(uint8_t sda, uint8_t scl, uint8_t mode1_mask, uint8_t mode2_mask)
{
_wire = &Wire;
if ((sda < 255) && (scl < 255))
{
_wire->begin(sda, scl);
} else {
_wire->begin();
}
if (! isConnected()) return false;
configure(mode1_mask, mode2_mask);
return true;
}
#endif
bool PCA9685::begin(uint8_t mode1_mask, uint8_t mode2_mask)
{
_wire->begin();
if (! isConnected()) return false;
configure(mode1_mask, mode2_mask);
return true;
}
bool PCA9685::isConnected()
{
_wire->beginTransmission(_address);
_error = _wire->endTransmission();
return (_error == 0);
}
void PCA9685::configure(uint8_t mode1_mask, uint8_t mode2_mask)
{
_error = PCA9685_OK;
setMode1(mode1_mask);
setMode2(mode2_mask);
}
uint8_t PCA9685::writeMode(uint8_t reg, uint8_t value)
{
if ((reg == PCA9685_MODE1) || (reg == PCA9685_MODE2))
{
writeReg(reg, value);
return PCA9685_OK;
}
_error = PCA9685_ERR_MODE;
return PCA9685_ERROR;
}
uint8_t PCA9685::readMode(uint8_t reg)
{
if ((reg == PCA9685_MODE1) || (reg == PCA9685_MODE2))
{
_error = PCA9685_OK;
uint8_t value = readReg(reg);
return value;
}
_error = PCA9685_ERR_MODE;
return PCA9685_ERROR;
}
// write value to single PWM channel
void PCA9685::setPWM(uint8_t channel, uint16_t onTime, uint16_t offTime)
{
_error = PCA9685_OK;
if (channel >= _channelCount)
{
_error = PCA9685_ERR_CHANNEL;
return;
}
offTime &= 0x0FFFF; // non-doc feature - to easy set figure 8 P.17
uint8_t reg = PCA9685_CHANNEL(channel);
writeReg2(reg, onTime, offTime);
}
// write value to single PWM channel
void PCA9685::setPWM(uint8_t channel, uint16_t offTime)
{
setPWM(channel, 0, offTime);
}
// read value from single PWM channel
void PCA9685::getPWM(uint8_t channel, uint16_t* onTime, uint16_t* offTime)
{
_error = PCA9685_OK;
if (channel >= _channelCount)
{
_error = PCA9685_ERR_CHANNEL;
return;
}
uint8_t reg = PCA9685_CHANNEL(channel);
_wire->beginTransmission(_address);
_wire->write(reg);
_error = _wire->endTransmission();
if (_wire->requestFrom(_address, (uint8_t)4) != 4)
{
_error = PCA9685_ERR_I2C;
return;
}
uint16_t _data = _wire->read();
*onTime = (_wire->read() * 256) + _data;
_data = _wire->read();
*offTime = (_wire->read() * 256) + _data;
}
// set update frequency for all channels
void PCA9685::setFrequency(uint16_t freq, int offset)
{
_error = PCA9685_OK;
_freq = freq;
// limits frequency see page 25 datasheet
if (_freq < PCA9685_MIN_FREQ) _freq = PCA9685_MIN_FREQ;
if (_freq > PCA9685_MAX_FREQ) _freq = PCA9685_MAX_FREQ;
// removed float operation for speed
// faster and equal accurate
// uint8_t scaler = round(25e6 / (_freq * 4096)) - 1;
uint8_t scaler = 48828 / (_freq * 8) - 1;
uint8_t mode1 = readMode(PCA9685_MODE1);
writeMode(PCA9685_MODE1, mode1 | PCA9685_MODE1_SLEEP);
scaler += offset;
writeReg(PCA9685_PRE_SCALER, scaler);
writeMode(PCA9685_MODE1, mode1);
}
// returns the actual used frequency.
// therefore it does not use offset
int PCA9685::getFrequency(bool cache)
{
_error = PCA9685_OK;
if (cache) return _freq;
uint8_t scaler = readReg(PCA9685_PRE_SCALER);
scaler++;
_freq = 48828 / scaler;
_freq /= 8;
return _freq;
}
// datasheet P.18 - fig. 9:
// Note: bit[11-0] ON should NOT equal timer OFF in ON mode
// in OFF mode it doesn't matter.
void PCA9685::digitalWrite(uint8_t channel, uint8_t mode)
{
_error = PCA9685_OK;
if (channel >= _channelCount)
{
_error = PCA9685_ERR_CHANNEL;
return;
}
uint8_t reg = PCA9685_CHANNEL(channel);
if (mode != LOW) writeReg2(reg, 0x1000, 0x0000);
else writeReg2(reg, 0x0000, 0x0000);
}
void PCA9685::allOFF()
{
_error = PCA9685_OK;
writeReg(PCA9685_ALL_OFF_H, 0x10);
}
int PCA9685::lastError()
{
int e = _error;
_error = PCA9685_OK;
return e;
}
/////////////////////////////////////////////////////
//
// SUB CALL - ALL CALL
//
bool PCA9685::enableSubCall(uint8_t nr)
{
if ((nr == 0) || (nr > 3)) return false;
uint8_t prev = getMode1();
uint8_t reg = prev;
if (nr == 1) reg |= PCA9685_MODE1_SUB1;
else if (nr == 2) reg |= PCA9685_MODE1_SUB2;
else reg |= PCA9685_MODE1_SUB3;
// only update if changed.
if (reg != prev) setMode1(reg);
return true;
}
bool PCA9685::disableSubCall(uint8_t nr)
{
if ((nr == 0) || (nr > 3)) return false;
uint8_t prev = getMode1();
uint8_t reg = prev;
if (nr == 1) reg &= ~PCA9685_MODE1_SUB1;
else if (nr == 2) reg &= ~PCA9685_MODE1_SUB2;
else reg &= ~PCA9685_MODE1_SUB3;
// only update if changed.
if (reg != prev) setMode1(reg);
return true;
}
bool PCA9685::isEnabledSubCall(uint8_t nr)
{
if ((nr == 0) || (nr > 3)) return false;
uint8_t reg = getMode1();
if (nr == 1) return (reg & PCA9685_MODE1_SUB1) > 0;
if (nr == 2) return (reg & PCA9685_MODE1_SUB2) > 0;
return (reg & PCA9685_MODE1_SUB3) > 0;
}
bool PCA9685::setSubCallAddress(uint8_t nr, uint8_t address)
{
if ((nr == 0) || (nr > 3)) return false;
writeReg(PCA9685_SUBADR(nr), address);
return true;
}
uint8_t PCA9685::getSubCallAddress(uint8_t nr)
{
if ((nr == 0) || (nr > 3)) return 0;
uint8_t address = readReg(PCA9685_SUBADR(nr));
return address;
}
bool PCA9685::enableAllCall()
{
uint8_t prev = getMode1();
uint8_t reg = prev | PCA9685_MODE1_ALLCALL;
// only update if changed.
if (reg != prev) setMode1(reg);
return true;
}
bool PCA9685::disableAllCall()
{
uint8_t prev = getMode1();
uint8_t reg = prev & ~PCA9685_MODE1_ALLCALL;
// only update if changed.
if (reg != prev) setMode1(reg);
return true;
}
bool PCA9685::isEnabledAllCall()
{
uint8_t reg = getMode1();
return reg & PCA9685_MODE1_ALLCALL;
}
bool PCA9685::setAllCallAddress(uint8_t address)
{
writeReg(PCA9685_ALLCALLADR, address);
return true;
}
uint8_t PCA9685::getAllCallAddress()
{
uint8_t address = readReg(PCA9685_ALLCALLADR);
return address;
}
//////////////////////////////////////////////////////////////
//
// PRIVATE
//
void PCA9685::writeReg(uint8_t reg, uint8_t value)
{
_wire->beginTransmission(_address);
_wire->write(reg);
_wire->write(value);
_error = _wire->endTransmission();
}
void PCA9685::writeReg2(uint8_t reg, uint16_t a, uint16_t b)
{
_wire->beginTransmission(_address);
_wire->write(reg);
_wire->write(a & 0xFF);
_wire->write((a >> 8) & 0x1F);
_wire->write(b & 0xFF);
_wire->write((b >> 8) & 0x1F);
_error = _wire->endTransmission();
}
uint8_t PCA9685::readReg(uint8_t reg)
{
_wire->beginTransmission(_address);
_wire->write(reg);
_error = _wire->endTransmission();
if (_wire->requestFrom(_address, (uint8_t)1) != 1)
{
_error = PCA9685_ERR_I2C;
return 0;
}
uint8_t _data = _wire->read();
return _data;
}
// -- END OF FILE --