#include const int pinData = 6; const int pinStatus = 7; void setup(void) { pinMode(pinData, OUTPUT); //Timer1.initialize(60); //Timer1.attachInterrupt(clockCycle); Timer1.initialize(1100/2); Timer1.attachInterrupt(clockCycle); Timer1.stop(); pinMode(pinStatus, INPUT_PULLUP); attachInterrupt(digitalPinToInterrupt(pinStatus), statusCycle, CHANGE); Serial.begin(9600); } volatile long lastChange = 0; volatile long lastStart = 0; volatile int x = 0; volatile int dataWord = 0; volatile int dataState = 0; volatile int dataDelay = 0; volatile int clkState = LOW; void statusCycle() { long timeNow = millis(); long changeDiff = timeNow - lastChange; lastChange = timeNow; if (changeDiff >= 10) { lastStart = timeNow; dataWord = ('1' + x); dataState = 10; dataDelay = 1; x = (x + 1) % 3; clkState = HIGH; Timer1.start(); } if (timeNow - lastStart >= 7 && changeDiff >= 2) { //dataWord = 0b1000000011 | (('A' + x) << 2); } } void clockCycle(void) { int dataBit = HIGH; if (clkState == LOW) { clkState = HIGH; } else { clkState = LOW; } if (dataDelay > 0) { dataDelay--; } else if (dataState > 0) { int bitToSend = (dataWord >> (dataState - 1)) & 1; //int bitToSend = dataWord & 1; //dataWord = dataWord >> 1; dataBit = !bitToSend ? LOW : HIGH; dataState--; } else { //digitalWrite(pinData, HIGH); Timer1.stop(); } digitalWrite(pinData, dataBit); } void loop(void) { delay(500); /*noInterrupts(); dataWord = 0b1000000011 | (('A' + x) << 2); dataState = 16; x = (x + 1) % 30; interrupts();*/ }