// // FILE: mcp4725_test.ino // AUTHOR: Rob Tillaart // VERSION: 0.1.5 // PURPOSE: test mcp4725 lib // DATE: 2013-11-24 // URL: https://github.com/RobTillaart/MCP4725 // #include "Wire.h" #include "MCP4725.h" MCP4725 DAC(0x62); // 0x62 or 0x63 volatile int x; uint32_t start, stop; void setup() { Serial.begin(115200); Serial.print("MCP4725 test program: "); Serial.println(MCP4725_VERSION); DAC.begin(); test1(); test2(); test3(); test4(); test5(); test6(); } void test1() { Serial.print("\nValue:\t"); Serial.println(DAC.getValue()); Serial.println(); for (int i = 100; i < 500; i += 100) { Serial.print("setValue("); Serial.print(i); Serial.print(")\n"); DAC.setValue(i); Serial.print("Value:\t"); Serial.println(DAC.getValue()); } Serial.println(); } void test2() { Serial.println("\n\nMCP4725_II\n\n"); for (int i = 100; i < 500; i += 100) { Serial.print("writeDAC("); Serial.print(i); Serial.print(")\n"); DAC.writeDAC(i); Serial.print("DACValue:\t"); Serial.println(DAC.readDAC()); Serial.print("EEValue:\t"); Serial.println(DAC.readEEPROM()); } Serial.println(); for (int i = 100; i < 500; i += 100) { Serial.print("writeDAC("); Serial.print(i); Serial.print(", true)\n"); DAC.writeDAC(i, true); Serial.print("DACValue:\t"); Serial.println(DAC.readDAC()); Serial.print("EEValue:\t"); Serial.println(DAC.readEEPROM()); } Serial.println(); Serial.println("writeDAC(200)"); DAC.writeDAC(200); Serial.print("DACValue:\t"); Serial.println(DAC.readDAC()); Serial.print("EEValue:\t"); Serial.println(DAC.readEEPROM()); Serial.println(); } void test3() { Serial.println("\n\nMCP4725_POWERDOWNMODE\n\n"); for (int i = 0; i < 4; i++) { Serial.print("DAC.writePowerDownMode("); Serial.print(i); Serial.println(")"); DAC.writePowerDownMode(i); Serial.print("EPR PDM Value:\t"); Serial.println(DAC.readPowerDownModeEEPROM()); Serial.println(); } Serial.println("\n\nEXPERIMENTAL"); Serial.println("DAC.writePowerDownMode(3)"); DAC.writePowerDownMode(3); DAC.writeDAC(305); Serial.print("Value:\t"); Serial.println(DAC.getValue()); Serial.println("DAC.powerOnReset()"); Serial.println("Before"); Serial.print("DAC PDM Value:\t"); Serial.println(DAC.readPowerDownModeDAC()); Serial.print("EPR PDM Value:\t"); Serial.println(DAC.readPowerDownModeEEPROM()); Serial.print("DACValue:\t"); Serial.println(DAC.readDAC()); Serial.print("EEValue:\t"); Serial.println(DAC.readEEPROM()); DAC.powerOnReset(); Serial.println("After"); Serial.print("DAC PDM Value:\t"); Serial.println(DAC.readPowerDownModeDAC()); Serial.print("EPR PDM Value:\t"); Serial.println(DAC.readPowerDownModeEEPROM()); Serial.print("DACValue:\t"); Serial.println(DAC.readDAC()); Serial.print("EEValue:\t"); Serial.println(DAC.readEEPROM()); Serial.print("Value:\t"); Serial.println(DAC.getValue()); Serial.println(); } void test4() { Serial.println("\n\nEXPERIMENTAL"); Serial.println("DAC.writePowerDownMode(2)"); DAC.writePowerDownMode(2); DAC.writeDAC(405); Serial.print("Value:\t"); Serial.println(DAC.getValue()); Serial.println("DAC.powerOnWakeUp()"); Serial.println("Before"); Serial.print("DAC PDM Value:\t"); Serial.println(DAC.readPowerDownModeDAC()); Serial.print("EPR PDM Value:\t"); Serial.println(DAC.readPowerDownModeEEPROM()); Serial.print("DACValue:\t"); Serial.println(DAC.readDAC()); Serial.print("EEValue:\t"); Serial.println(DAC.readEEPROM()); DAC.powerOnWakeUp(); Serial.println("after"); Serial.print("DAC PDM Value:\t"); Serial.println(DAC.readPowerDownModeDAC()); Serial.print("EPR PDM Value:\t"); Serial.println(DAC.readPowerDownModeEEPROM()); Serial.print("DACValue:\t"); Serial.println(DAC.readDAC()); Serial.print("EEValue:\t"); Serial.println(DAC.readEEPROM()); Serial.print("Value:\t"); Serial.println(DAC.getValue()); Serial.println(); } void test5() { Serial.println("\n\nPERFORMANCE"); Serial.println(); start = micros(); for (int i = 0; i < 1000; i++) { x = DAC.getValue(); } stop = micros(); Serial.print("1000x DAC.getValue():\t\t"); Serial.println(stop - start); start = micros(); for (int i = 0; i < 1000; i++) { DAC.setValue(i); } stop = micros(); Serial.print("1000x DAC.setValue(i):\t\t"); Serial.println(stop - start); start = micros(); for (int i = 0; i < 1000; i++) { DAC.setValue(1000); } stop = micros(); Serial.print("1000x DAC.setValue(1000):\t"); Serial.println(stop - start); start = micros(); for (int i = 0; i < 1000; i++) { x = DAC.readDAC(); } stop = micros(); Serial.print("1000x DAC.readDAC():\t\t"); Serial.println(stop - start); start = micros(); for (int i = 0; i < 1000; i++) { x = DAC.writeDAC(i); } stop = micros(); Serial.print("1000x DAC.writeDAC(i):\t\t"); Serial.println(stop - start); start = micros(); for (int i = 0; i < 10; i++) { x = DAC.writeDAC(i, true); } stop = micros(); Serial.print("10x DAC.writeDAC(i, true):\t"); Serial.println(stop - start); start = micros(); for (int i = 0; i < 1000; i++) { x = DAC.ready(); } stop = micros(); Serial.print("1000x DAC.ready():\t\t"); Serial.println(stop - start); while (!DAC.ready()); DAC.writeDAC(0, true); start = micros(); while (!DAC.ready()); stop = micros(); Serial.print("EEPROM write latency:\t\t"); Serial.println(stop - start); } void test6() { Serial.println("\n\nEXPERIMENTAL II"); start = micros(); for (int i = 0; i < 10; i++) { x = DAC.readPowerDownModeDAC(); } stop = micros(); Serial.print("10x DAC.readPowerDownModeDAC():\t\t"); Serial.println(stop - start); start = micros(); for (int i = 0; i < 10; i++) { x = DAC.readPowerDownModeEEPROM(); } stop = micros(); Serial.print("10x DAC.readPowerDownModeEEPROM():\t"); Serial.println(stop - start); start = micros(); for (int i = 0; i < 10; i++) { x = DAC.writePowerDownMode(i & 0x03); } stop = micros(); Serial.print("10x DAC.writePowerDownMode(i):\t\t"); Serial.println(stop - start); Serial.print("\nDone... (start triangle mode)"); } void loop() { for (uint16_t i = 0; i < 4096; i++) { DAC.setValue(i); delay(10); } for (uint16_t i = 0; i < 4096; i++) { DAC.setValue(4096 - i); delay(10); } } // -- END OF FILE --