/* Simon Experiments #2 Buzzer Pete Lewis Sparkfun Electronics 10/13/2010 This example code is in the public domain. */ int ledPin = 3; // LEDs are on pins 3,5,10 and 13. int buttonPin = 2; // BUTTONS are on pins 2,6,9 and 12. int button_state; // This variable will be used to "store" the state of the button. /// These next two definitions are setting up the buzzer pins. /// By sending these HIGH/LOW we can create a sound from the buzzer. int buzzer_1 = 4; int buzzer_2 = 7; void setup() { pinMode(ledPin, OUTPUT); digitalWrite(buttonPin, HIGH); pinMode(buttonPin, INPUT); pinMode(buzzer_1, OUTPUT); pinMode(buzzer_2, OUTPUT); digitalWrite(buzzer_1, LOW); // buzzer_1 will toggle HIGH/LOW to create the sound - see buzz() function below. digitalWrite(buzzer_2, LOW); // buzzer_2 will toggle as well (to create more volume). } void loop() { int button_state = digitalRead(buttonPin); if(button_state == 1){ digitalWrite(ledPin, HIGH); // set the LED on delay(1000); // wait for a second digitalWrite(ledPin, LOW); // set the LED off // Call the "buzz()" funtion. See below to know what this does. buzz(); } } ////////////////////////////////////////////////////////////////////////////////////// void buzz(){ /// this function makes the buzzer pin move and crease a sound. /// By writing the pin HIGH/LOW in a pattern we can create a frequency. /// this FOR LOOP is used to repeat the pattern and let us hear the note for second. for(int i = 0; i < 100; i++){ digitalWrite(buzzer_1, HIGH); digitalWrite(buzzer_2, LOW); delay(1); digitalWrite(buzzer_1, LOW); digitalWrite(buzzer_2, HIGH); delay(1); } }