// // FILE: PCF8591.cpp // AUTHOR: Rob Tillaart // DATE: 2020-03-12 // VERSION: 0.1.1 // PURPOSE: I2C PCF8591 library for Arduino // URL: https://github.com/RobTillaart/PCF8591 // // HISTORY: // 0.0.1 2020-03-12 initial version // 0.0.2 2020-07-22 testing, refactor, documentation and examples // 0.1.0 2021-01-04 arduino-CI // 0.1.1 2021-01-14 added WireN + improve error handling. #include "PCF8591.h" PCF8591::PCF8591(const uint8_t address, TwoWire *wire) { if ((address < 0x48) || (address > 0x4F)) { _error = PCF8591_ADDRESS_ERROR; return; } _address = address; _wire = wire; _control = 0; _dac = 0; for (uint8_t i = 0; i < 4; i++) { _adc[i] = 0; } _error = PCF8591_OK; } #if defined (ESP8266) || defined(ESP32) bool PCF8591::begin(uint8_t sda, uint8_t scl, uint8_t val) { _wire = &Wire; if ((sda < 255) && (scl < 255)) { _wire->begin(sda, scl); } else { _wire->begin(); } if (!isConnected()) return false; analogWrite(val); return true; } #endif bool PCF8591::begin(uint8_t val) { _wire->begin(); if (!isConnected()) return false; analogWrite(val); return true; } bool PCF8591::isConnected() { _wire->beginTransmission(_address); _error = _wire->endTransmission(); // default == 0 == PCF8591_OK return( _error == PCF8591_OK); } // ADC PART uint8_t PCF8591::analogRead(uint8_t channel, uint8_t mode) { if (mode > 3) { _error = PCF8591_MODE_ERROR; return 0; } _control &= 0b01000100; // clear all except flags _control |= (mode << 4); _error = PCF8591_CHANNEL_ERROR; switch(mode) { case 0: if (channel > 3) return 0; _control |= channel; break; case 1: if (channel > 2) return 0; _control |= (channel << 4); break; case 2: if (channel > 2) return 0; _control |= (channel << 4); break; case 3: if (channel > 1) return 0; _control |= (channel << 4); break; default: return 0; } _error = PCF8591_OK; // NOTE: one must read two values to get an up to date value. // Page 8 datasheet. _wire->beginTransmission(_address); _wire->write(_control); _error = _wire->endTransmission(); // default == 0 == PCF8591_OK if (_error != 0) return PCF8591_I2C_ERROR; if (_wire->requestFrom(_address, (uint8_t)2) != 2) { _error = PCF8591_I2C_ERROR; return _adc[channel]; // known last value } _wire->read(); _adc[channel] = _wire->read(); return _adc[channel]; } uint8_t PCF8591::analogRead4() { _control &= 0b01000100; // clear all except flags uint8_t channel = 0; _control |= channel; enableINCR(); _wire->beginTransmission(_address); _wire->write(_control); _error = _wire->endTransmission(); // default == 0 == PCF8591_OK if (_error != 0) { _error = PCF8591_I2C_ERROR; disableINCR(); return _error; } if (_wire->requestFrom(_address, (uint8_t)5) != 5) { _error = PCF8591_I2C_ERROR; disableINCR(); return _error; } _wire->read(); for (uint8_t i = 0; i < 4; i++) { _adc[i] = _wire->read(); } _error = PCF8591_OK; disableINCR(); return _error; } // DAC PART bool PCF8591::analogWrite(uint8_t value) { _wire->beginTransmission(_address); _wire->write(_control); _wire->write(value); _error = _wire->endTransmission(); if (_error != 0) { _error = PCF8591_I2C_ERROR; return false; } _dac = value; return true; } int PCF8591::lastError() { int e = _error; _error = PCF8591_OK; return e; } // -- END OF FILE --