#include <Servo.h> Servo myservo; // create servo object to control a servo int pos = 90; // variable to store servo position int buttonState1 = 0; // to set variables for when button is pressed or not int buttonState2 = 0; //same as above void setup() { myservo.attach(8); // attaches the servo on pin 8 to the servo object myservo.write(pos); // restores servo's neutral position pinMode(2, INPUT); // sets pin 2 as where data will be inputed pinMode(4, INPUT); // sets pin 4 as where data will be inputed } void loop() { buttonState1 = digitalRead(2); // the data is read digitally by the state of the button and serves as the "input" buttonState2 = digitalRead (4); if (buttonState1 == HIGH){ //basically when the button is pressed. //when the button is pressed, connects the circuit, so the signal, which is voltage, goes back to the arduino. /**if( pos > 30)--pos; //this is a commented out section. Not very good for the flip-flop purpose myservo.write(pos);**/ myservo.write(15); //this means to turn the servo CCW to a certain position. // The CCW range is from 0 to 90 delay(10); // you should also play around with delay times (the number is milliseconds) to increase speed } if (buttonState2 == HIGH){ /** if( pos < 150) ++pos; myservo.write(pos);**/ myservo.write(165); // Clockwise ranges from 90 to 180 delay(10); } else{ myservo.write(pos); //if neither of the buttons are pressed, then } // the servo should return to the 90 neutral position }