#pragma once // // FILE: AD56X8.h // AUTHOR: Rob Tillaart // VERSION: 0.1.2 // DATE: 2022-07-28 // PURPOSE: Arduino library for AD56X8, SPI 8 channel Digital Analog Convertor. #include "Arduino.h" #include "SPI.h" #define AD56X8_LIB_VERSION (F("0.1.2")) #define AD56X8_PWR_NORMAL 0x00 #define AD56X8_PWR_1K 0x01 #define AD56X8_PWR_100K 0x02 #define AD56X8_PWR_TRI_STATE 0x03 // ZERO, HALF, FULL ? #define AD56X8_CC_0000 0x00 #define AD56X8_CC_8000 0x01 #define AD56X8_CC_FFFF 0x02 #define AD56X8_CC_NOP 0x03 // do not use (read datasheet) class AD56X8 { public: AD56X8(uint8_t slaveSelect); AD56X8(uint8_t spiData, uint8_t spiClock, uint8_t slaveSelect); void begin(); uint8_t getType(); // SET DAC // returns false if channel out of range // sets output immediately = prepare + update. bool setValue(uint8_t channel, uint16_t value); uint16_t getValue(uint8_t channel); bool setPercentage(uint8_t channel, float percentage); float getPercentage(uint8_t channel); // prep & update separately bool prepareChannel(uint8_t channel, uint16_t value); bool updateChannel(uint8_t channel); void updateAllChannels(); // LDAC void setLDACmask(uint8_t mask = 0x00); uint8_t getLDACmask(); bool inLDACmask(uint8_t channel); // POWER // mode = 0..3 // returns false if mode out of range bool setPowerMode(uint8_t powerDownMode, uint8_t mask = 0x00); // MISC // software reset void reset(); // returns false if mode out of range // CCmode = 0..2 bool setClearCode(uint8_t CCmode); // check datasheet. // SPI // speed in Hz void setSPIspeed(uint32_t speed); uint32_t getSPIspeed() { return _SPIspeed; }; bool usesHWSPI() { return _hwSPI; }; // ESP32 specific #if defined(ESP32) void selectHSPI() { _useHSPI = true; }; void selectVSPI() { _useHSPI = false; }; bool usesHSPI() { return _useHSPI; }; bool usesVSPI() { return !_useHSPI; }; // to overrule ESP32 default hardware pins void setGPIOpins(uint8_t clk, uint8_t miso, uint8_t mosi, uint8_t select); #endif protected: uint8_t _type = 0; // # bits uint8_t _dataOut = 255; uint8_t _clock = 255; uint8_t _select = 255; uint16_t _value[8]; uint8_t _ldacMask = 0; bool _hwSPI = false; uint32_t _SPIspeed = 16000000; void updateDevice(uint8_t cmd, uint8_t channel, uint16_t value); void updateDevice(uint8_t a, uint8_t b, uint8_t c, uint8_t d); void swSPI_transfer(uint8_t value); SPIClass * mySPI; SPISettings _spi_settings; #if defined(ESP32) bool _useHSPI = true; #endif }; ///////////////////////////////////////////////////////////////////////////// // // DERIVED // class AD5668_3 : public AD56X8 { public: AD5668_3(uint8_t slaveSelect); AD5668_3(uint8_t spiData, uint8_t spiClock, uint8_t slaveSelect); void reset(); }; class AD5668 : public AD56X8 { public: AD5668(uint8_t slaveSelect); AD5668(uint8_t spiData, uint8_t spiClock, uint8_t slaveSelect); }; class AD5648 : public AD56X8 { public: AD5648(uint8_t slaveSelect); AD5648(uint8_t spiData, uint8_t spiClock, uint8_t slaveSelect); }; class AD5628 : public AD56X8 { public: AD5628(uint8_t slaveSelect); AD5628(uint8_t spiData, uint8_t spiClock, uint8_t slaveSelect); }; // -- END OF FILE --