// // FILE: AD5144A.cpp // AUTHOR: Rob Tillaart // VERSION: 0.3.1 // PURPOSE: I2C digital potentiometer AD5144A // DATE: 2021-04-30 // URL: https://github.com/RobTillaart/AD5144A // // Datasheet: REV-C 7/2019 #include "AD5144A.h" // Commands page 29 datasheet // // not implemented (yet) // 0 NOP // 4 5 linear RDAC in/decrement // 6 7 6dB RDAC in/decrement // 12 13 top scale bottom scale ??? AD51XX::AD51XX(const uint8_t address, TwoWire *wire) { _address = address; _wire = wire; } bool AD51XX::begin(bool doReset) { if (! isConnected()) return false; if (doReset) reset(); // See page 28 datasheet return true; } uint8_t AD51XX::getAddress() { return _address; } bool AD51XX::isConnected() { _wire->beginTransmission(_address); return ( _wire->endTransmission() == 0); } uint8_t AD51XX::reset() { // COMMAND 14 - page 29 return send(0xB0, 0x00); // to be tested // read the cache from EEPROM. for (uint8_t rdac = 0; rdac < _potCount; rdac++) { _lastValue[rdac] = readBackEEPROM(rdac);; } } ///////////////////////////////////////////////////////////////////////////// // // READ / WRITE // uint8_t AD51XX::read(const uint8_t rdac) { return _lastValue[rdac]; }; uint8_t AD51XX::write(const uint8_t rdac, const uint8_t value) { // COMMAND 1 - page 29 if (rdac >= _potCount) return AD51XXA_INVALID_POT; if (value > _maxValue) return AD51XXA_INVALID_VALUE; _lastValue[rdac] = value; uint8_t cmd = 0x10 | rdac; return send(cmd, _lastValue[rdac]); } uint8_t AD51XX::writeAll(const uint8_t value) { if (value > _maxValue) return AD51XXA_INVALID_VALUE; // COMMAND 1 - page 29 for (uint8_t pm = 0; pm < _potCount; pm++) { _lastValue[pm] = value; } uint8_t cmd = 0x18; return send(cmd, value); } uint8_t AD51XX::zeroAll() { return writeAll(0); }; uint8_t AD51XX::midScaleAll() { return writeAll((_maxValue + 1)/2); }; uint8_t AD51XX::maxAll() { return writeAll(_maxValue); }; uint8_t AD51XX::zero(const uint8_t rdac) { return write(rdac, 0); }; uint8_t AD51XX::midScale(const uint8_t rdac) { return write(rdac, (_maxValue + 1)/2); }; uint8_t AD51XX::maxValue(const uint8_t rdac) { return write(rdac, _maxValue); }; ///////////////////////////////////////////////////////////////////////////// // // EEPROM // uint8_t AD51XX::storeEEPROM(const uint8_t rdac) { // COMMAND 9 - page 29 if (rdac >= _potCount) return AD51XXA_INVALID_POT; uint8_t cmd = 0x70 | rdac; return send(cmd, 0x01); } uint8_t AD51XX::recallEEPROM(const uint8_t rdac) { // COMMAND 10 - page 29 if (rdac >= _potCount) return AD51XXA_INVALID_POT; _lastValue[rdac] = readBackEEPROM(rdac); uint8_t cmd = 0x70 | rdac; return send(cmd, 0x00); } uint8_t AD51XX::storeEEPROM(const uint8_t rdac, const uint8_t value) { // COMMAND 11 - page 29 if (rdac >= _potCount) return AD51XXA_INVALID_POT; if (value > _maxValue) return AD51XXA_INVALID_VALUE; uint8_t cmd = 0x80 | rdac; return send(cmd, value); } ///////////////////////////////////////////////////////////////////////////// // // SCALE // uint8_t AD51XX::setTopScale(const uint8_t rdac) { // COMMAND 12 if (rdac >= _potCount) return AD51XXA_INVALID_POT; uint8_t cmd = 0x90 | rdac; return send(cmd, 0x81); } uint8_t AD51XX::clrTopScale(const uint8_t rdac) { // COMMAND 12 if (rdac >= _potCount) return AD51XXA_INVALID_POT; uint8_t cmd = 0x90 | rdac; return send(cmd, 0x80); } uint8_t AD51XX::setTopScaleAll() { // COMMAND 12 uint8_t cmd = 0x98; return send(cmd, 0x81); } uint8_t AD51XX::clrTopScaleAll() { // COMMAND 12 uint8_t cmd = 0x98; return send(cmd, 0x80); } uint8_t AD51XX::setBottomScale(const uint8_t rdac) { // COMMAND 13 if (rdac >= _potCount) return AD51XXA_INVALID_POT; uint8_t cmd = 0x90 | rdac; return send(cmd, 0x01); } uint8_t AD51XX::clrBottomScale(const uint8_t rdac) { // COMMAND 13 if (rdac >= _potCount) return AD51XXA_INVALID_POT; uint8_t cmd = 0x90 | rdac; return send(cmd, 0x00); } uint8_t AD51XX::setBottomScaleAll() { // COMMAND 13 uint8_t cmd = 0x98; return send(cmd, 0x01); } uint8_t AD51XX::clrBottomScaleAll() { // COMMAND 13 uint8_t cmd = 0x98; return send(cmd, 0x00); } ///////////////////////////////////////////////////////////////////////////// // // MODE // uint8_t AD51XX::setLinearMode(const uint8_t rdac) { // COMMAND 3 uint8_t mask = readBack(rdac, 0x02); // COMMAND 16 - page 29 uint8_t cmd = 0xD0; return send(cmd, mask | 0x04); } uint8_t AD51XX::setPotentiometerMode(const uint8_t rdac) { // COMMAND 3 uint8_t mask = readBack(rdac, 0x02); // COMMAND 16 - page 29 uint8_t cmd = 0xD0; return send(cmd, mask & (~0x04)); } uint8_t AD51XX::getOperationalMode(const uint8_t rdac) { uint8_t mask = readBack(rdac, 0x02); return ((mask & 0x04) > 0); } ///////////////////////////////////////////////////////////////////////////// // // INCREMENT / DECREMENT // uint8_t AD51XX::incrementLinear(const uint8_t rdac) { // COMMAND 4 if (rdac >= _potCount) return AD51XXA_INVALID_POT; uint8_t cmd = 0x40 | rdac; return send(cmd, 0x01); } uint8_t AD51XX::incrementLinearAll() { // COMMAND 4 uint8_t cmd = 0x48; return send(cmd, 0x01); } uint8_t AD51XX::decrementLineair(const uint8_t rdac) { // COMMAND 4 if (rdac >= _potCount) return AD51XXA_INVALID_POT; uint8_t cmd = 0x40 | rdac; return send(cmd, 0x00); } uint8_t AD51XX::decrementLineairAll() { // COMMAND 4 uint8_t cmd = 0x48; return send(cmd, 0x00); } uint8_t AD51XX::increment6dB(const uint8_t rdac) { // COMMAND 5 if (rdac >= _potCount) return AD51XXA_INVALID_POT; uint8_t cmd = 0x50 | rdac; return send(cmd, 0x01); } uint8_t AD51XX::increment6dBAll() { // COMMAND 5 uint8_t cmd = 0x58; return send(cmd, 0x01); } uint8_t AD51XX::decrement6dB(const uint8_t rdac) { // COMMAND 5 if (rdac >= _potCount) return AD51XXA_INVALID_POT; uint8_t cmd = 0x50 | rdac; return send(cmd, 0x00); } uint8_t AD51XX::decrement6dBAll() { // COMMAND 5 uint8_t cmd = 0x58; return send(cmd, 0x00); } ///////////////////////////////////////////////////////////////////////////// // // PRELOAD / SYNC // uint8_t AD51XX::preload(const uint8_t rdac, const uint8_t value) { // COMMAND 2 - page 29 if (rdac >= _potCount) return AD51XXA_INVALID_POT; if (value > _maxValue) return AD51XXA_INVALID_VALUE; uint8_t cmd = 0x20 | rdac; return send(cmd, _lastValue[rdac]); } uint8_t AD51XX::preloadAll(const uint8_t value) { if (value > _maxValue) return AD51XXA_INVALID_VALUE; // COMMAND 2 - page 29 uint8_t cmd = 0x28; return send(cmd, value); } uint8_t AD51XX::sync(const uint8_t mask) { // COMMAND 8 - page 29 uint8_t cmd = 0x60 | mask; return send(cmd, 0x00); // keep cache correct. uint8_t m = 0x01; for (uint8_t rdac = 0; rdac < _potCount; rdac++) { if (mask & m) { _lastValue[rdac] = readBackRDAC(rdac); m <<= 1; } } } ///////////////////////////////////////////////////////////////////////////// // // MISC // uint8_t AD51XX::pmCount() { return _potCount; } uint8_t AD51XX::maxValue() { return _maxValue; } uint8_t AD51XX::shutDown() { // COMMAND 15 - table 29 // shutdown all channels return send(0xC8, 0x01); // to be tested } uint8_t AD51XX::readBackINPUT(const uint8_t rdac) { return readBack(rdac, 0x00); } uint8_t AD51XX::readBackEEPROM(const uint8_t rdac) { return readBack(rdac, 0x01); } uint8_t AD51XX::readBackCONTROL(const uint8_t rdac) { return readBack(rdac, 0x02); } uint8_t AD51XX::readBackRDAC(const uint8_t rdac) { return readBack(rdac, 0x03); } uint8_t AD51XX::writeControlRegister(uint8_t mask) { // COMMAND 16 - page 29 uint8_t cmd = 0xD0; return send(cmd, mask); } ///////////////////////////////////////////////////////////////////////////// // // PROTECTED // // _wire->endTransmission // returns description // 0: success // 1: data too long to fit in transmit buffer // 2: received NACK on transmit of address // 3: received NACK on transmit of data // 4: other error // uint8_t AD51XX::send(const uint8_t cmd, const uint8_t value) { // COMMAND 1 - page 20 _wire->beginTransmission(_address); // returns nothing. _wire->write(cmd); // returns bytes written _wire->write(value); // returns bytes written return _wire->endTransmission(); // returns status of actual write } uint8_t AD51XX::readBack(const uint8_t rdac, const uint8_t mask) { // COMMAND 3 - page 20 _wire->beginTransmission(_address); _wire->write(0x30 | rdac); _wire->write(mask); _wire->endTransmission(); _wire->requestFrom(_address, (uint8_t)1); return _wire->read(); // int a = _wire->write(0x30 | rdac); // Serial.print("READBACK cmd: "); // Serial.print(a); // a = _wire->write(mask); // Serial.print(" val: "); // Serial.print(a); // a = _wire->endTransmission(); // Serial.print(" TX: "); // Serial.println(a); // a = _wire->requestFrom(_address, (uint8_t)1); // Serial.print(" RF: "); // Serial.println(a); // return _wire->read(); } ///////////////////////////////////////////////////////////////////////////// // // DERIVED CLASSES // AD5123::AD5123(const uint8_t address, TwoWire *wire) : AD51XX(address, wire) { _potCount = 4; _maxValue = 127; } AD5124::AD5124(const uint8_t address, TwoWire *wire) : AD51XX(address, wire) { _potCount = 4; _maxValue = 127; } AD5143::AD5143(const uint8_t address, TwoWire *wire) : AD51XX(address, wire) { _potCount = 4; _maxValue = 255; } AD5144::AD5144(const uint8_t address, TwoWire *wire) : AD51XX(address, wire) { _potCount = 4; _maxValue = 255; } AD5144A::AD5144A(const uint8_t address, TwoWire *wire) : AD51XX(address, wire) { _potCount = 4; _maxValue = 255; } AD5122A::AD5122A(const uint8_t address, TwoWire *wire) : AD51XX(address, wire) { _potCount = 2; _maxValue = 127; } AD5142A::AD5142A(const uint8_t address, TwoWire *wire) : AD51XX(address, wire) { _potCount = 2; _maxValue = 255; } AD5121::AD5121(const uint8_t address, TwoWire *wire) : AD51XX(address, wire) { _potCount = 1; _maxValue = 127; } AD5141::AD5141(const uint8_t address, TwoWire *wire) : AD51XX(address, wire) { _potCount = 1; _maxValue = 255; } // -- END OF FILE --