void setup() { Serial.begin(115200); Serial.print("DHT11 LIBRARY VERSION: "); Serial.println(Dht11::VERSION); lcd.begin(LCD_COLS, LCD_ROWS); }
void setup() { lcd.begin(16, 2); pinMode(motor_FW, OUTPUT); pinMode(motor_BW, OUTPUT); pinMode(buzzer, OUTPUT); }
//============================================================================================== //=============================================SETUP LOOP======================================= //============================================================================================== void setup() { pinMode(RLED, OUTPUT); pinMode(GLED, OUTPUT); pinMode(BLED, OUTPUT); pinMode(wire1, INPUT); pinMode(wire2, INPUT); pinMode(wire3, INPUT); pinMode(wire4, INPUT); pinMode(largeKey, INPUT); pinMode(smallKey, INPUT); TCCR1A |= (1 << COM1A0); TCCR1B |= (1 << WGM12) | (1 << CS12); TIMSK1 |= (1 << TOIE1); sei(); lcd.begin(16, 2); lcd.clear(); lcd.print("Bomb prop V1.1"); lcd.setCursor(0,1); lcd.print("J McKenna [MMS]"); for (int i = 0 ; i <= 3 ; i++) { delay(500); setLED(0); delay(500); setLED(1); } lcd.clear(); }
void setup () { Serial.begin (9600); initComponents(); lcd.begin(16, 2); lcd.print("Hello, World!"); }
// the setup routine runs once when you press reset: void setup() { // initialize the digital pin as an output. lcd.begin(16, 2); lcd.setCursor(0,0); lcd.clear(); }
void setup() { RFID.begin(9600); // start serial to RFID reader Serial.begin(9600); // start serial to PC lcd.begin(16, 2); //lcd output lcd.clear(); lcd.print("There are "); //start printing the result lcd.print(space_left); //then how many spaces lcd.print(" spaces left."); //words lcd.println(" "); //spaces for (int i = 0; i < 5; i++) { id_marker[i] = 0; } Serial.println("Ready!"); //sets everything in the array equal to blank for(int i=0; i<5; i++) { id_array[i] = String(""); } }
void setup() { lcd.begin(16, 2); pinMode(_input_pin, INPUT); lcd.setCursor(0, 0); lcd.print("T"); }
void setup() { Serial.begin(9600); lcd.begin(16, 2); Wire.begin(8); Wire.onReceive(receiveEvent); lcd.setCursor(0, 0); }
void setup() { lcd.begin(16, 2); pinMode(switchPin, INPUT); lcd.print("Ask the"); lcd.setCursor(0, 1); lcd.print("Crystal ball"); }
void setup() { // set the LCD's number of cols and lines lcd.begin(16, 2); // print a message lcd.print('RHTLCD Starting'); delay(1000); }
void setup() { lcd.begin(16, 2); Serial.begin(9600); pinMode(10,OUTPUT); digitalWrite(10, HIGH); randomSeed(analogRead(RNG_SEED_PIN)); // Seed the PRNG with analog noise from A2 }
void LCD_setup() { // set up the LCD's number of columns and rows: lcd.begin(16, 2); lcd.noCursor(); lcd_enabled = 0; lcd.noDisplay(); }
void setup() { // set up the LCD's number of columns and rows: lcd.begin(16, 2); // Print a message to the LCD. lcd.print("Lu: To: Te:"); // initialize the serial communication: Serial.begin(9600); }
void setup(void){ lcd.begin(16,2); lcd.print("Hola, Mundo"); Serial.begin(9600); pinMode(11,OUTPUT); pinMode(12,INPUT_PULLUP); pinMode(13, INPUT_PULLUP); }
void setup(){ lcd.begin(16, 2); // start the library lcd.setCursor(0,0); // set the LCD cursor position lcd.print("BustaDuino"); // print a simple message on the LCD CreateRandomSeed(); randomSeed(seed); Serial.begin(9600); }
void setup() { Log(L"LCD Sample\n"); lcd.begin(16, 2); // need to specify how many columns and rows are in the LCD unit (it calls clear at the end of begin) lcd.setCursor(0, 0); lcd.print("Hello Habrahabr!"); }
void setup(){ Serial.begin(9600); Serial.println("Serial Ready"); RFID.begin(9600); Serial.println("RFID Ready"); pinMode(rxPin, INPUT); pinMode(txPin, OUTPUT); lcd.begin(16, 2); }
void setup() { lcd.begin(16,2); pinMode(6, INPUT); pinMode(13, OUTPUT); lcd.print("Chiedi alla"); lcd.setCursor(0,1); lcd.print("Palla di Cristallo"); digitalWrite(13,HIGH); }
void setup() { lcd.begin(16, 2); pinMode(Luz_Fundo,OUTPUT); digitalWrite(Luz_Fundo,HIGH); lcd.setCursor(0,0); lcd.print(" Hello World "); lcd.createChar(1, heart); // envia nosso character p/ o display }
int main(void) { clock_setup(); spi2.begin(); configure_as_output({PB, 0}); set_pin({PB, 0}, true); etk::sleep_ms(300); //configure chip select pin auto cs = gpio_pin(PA, 8); configure_as_output(cs); set_pin(cs, true); //start LCD screen lcd.begin(); etk::sleep_ms(500); while(true) { lcd.set_cursor(0, 0); lcd.print("Temp: "); set_pin(cs, false); union spidata { char bytes[4]; int32 data; }; spidata data; data.bytes[3] = spi2.read(); data.bytes[2] = spi2.read(); data.bytes[1] = spi2.read(); data.bytes[0] = spi2.read(); set_pin(cs, true); lcd.set_cursor(2, 6); int32 v = data.data; if (v & 0x80000000) v = 0xFFFFC000 | ((v >> 18) & 0x00003FFFF); else v >>= 18; real_t deg_c = v; deg_c *= 0.25; lcd.print(deg_c, " C"); etk::sleep_ms(500); }
void setup() { Serial.begin(9600); lcd.begin(16, 2); led.on(); machine.add_transition(0, 1, &button_pressed); machine.add_transition(1, 2, &one2two); machine.add_transition(2, 0, &button_pressed); machine.add_state_function(0, &hello); machine.add_state_function(1, &off); machine.add_state_function(2, &counting); }
void setup() { Serial.begin(19200); g_lcd.begin(16, 2); pinMode(g_ledpin, OUTPUT); setup433(); noInterrupts(); // disable all interrupts TIMSK0 |= (1 << OCIE0A); // enable timer compare interrupt interrupts(); // enable all interrupts }
void setup() { lcd.begin(16, 2); // initialise the LCD. pinMode(ledPin, OUTPUT); // sets the digital pin as output pinMode(buttonPin, INPUT); // not really necessary, pins default to INPUT anyway digitalWrite(buttonPin, HIGH); // turn on pullup resistors. Wire button so that press shorts pin to ground. digitalWrite(stopButtonPin, HIGH); // turn on pullup resistors. Wire button so that press shorts pin to ground. lcd.setCursor(0,0); lcd.print("System Ready..."); lcd.setCursor(0,1); }
void setup(){ lcd.begin(16,2); // sets the rows and columns of the LCD Serial.begin(9600); for(int pinNumber = 2; pinNumber < 5; pinNumber++) { pinMode(pinNumber, OUTPUT); digitalWrite(pinNumber, LOW); } }
void setup() { // set up the LCD's number of rows and columns: Serial.begin(57100); lcd.begin(16, 2); pinMode(onOffPin, OUTPUT); // Print a message to the LCD. //lcd.autoscroll(); lcd.print("Don't Steal!"); digitalWrite(onOffPin, HIGH); isOn = 1; memset(currMsg,0,16); }
void setup() { delay(1000); Serial.begin( 9600 ); // Debugging only vw_set_rx_pin( RECEIVE_PIN ); vw_set_ptt_inverted( true ); // Required for DR3100 vw_setup( 2000 ); // Bits per sec vw_rx_start(); // Start the receiver PLL running lcd.begin( 16, 2 ); delay( 2000 ); }
void setup() { Serial.begin(9600); lcd.begin(16, 2); detect_serial(); movement_init(); sensors_init(); if (COUNTDOWN_ENABLED) { calibrate_countdown(); } path(); }
void setup() { // Set baud rate of 115200 Serial.begin(115200); // Set 'red' LED as output pinMode(red, OUTPUT); // Set debug LED as output pinMode(13, OUTPUT); digitalWrite(red, LOW); // Write 'block:' to first line lcd.begin(16, 2); lcd.print("Block: "); }
void timer() { lcd.begin(16, 2); lcd.print(" Shower Timer "); delay(150); for(int i=seconds; i>=0; i--){ lcd.setCursor(4, 2); lcd.print("00:00:0"); lcd.print(i); delay(1000); } trigger(); }
void setup() { SIM900.begin(9600); Serial.begin(9600); lcd.begin(16, 2); pinMode(8, INPUT); pinMode(9, INPUT); pinMode(10, OUTPUT); lcd.setCursor(3,0); lcd.print("CAR THEFT"); lcd.setCursor(1,1); lcd.print("DETECTION SYS"); delay(2000); lcd.clear(); }