// The loop function is called in an endless loop void loop() { delay(SENSOR_CHANGE_TRIGGER_TIME); unsigned long unchangedTime = millis() - lastMotionDetected; if (unchangedTime < MAX_ON_TIME) { lcd.display(); lcd.backlight(); switch (sensor) { case TEMPERATURE_SENSOR_NUM: setTemperature(); break; case HUMIDITY_SENSOR_NUM: setHumidity(); break; case SOIL_SENSOR_NUM: setSoilHumidity(); break; case PRESSURE_SENSOR_NUM: setPressure(); break; } } else { lcd.noDisplay(); lcd.noBacklight(); } delay(500); }
void WeatherStation::disableBeforeSleep() { volatile uint8_t *out, *ddr; uint8_t i; setCurrentDate(); lcd.noBacklight(); sensorMgt.stop(); overTime = 0; delay(100); /**close ports**/ for( i = 0; i < PALETTE_PORT_NUM; i++ ) { ddr = portModeRegister(ioPort[i]); out = portOutputRegister(ioPort[i]); ioPreDDRValue[i] = *ddr; ioPrePORTValue[i] = *out; (*ddr) &= ioDisableMask[i]; (*out) &= ioDisableMask[i]; } }
void setup()/*----( SETUP: RUNS ONCE )----*/ { lcd.begin(20, 4); // initialize the lcd for 20 chars 4 lines and turn on backlight // Open serial communications and wait for port to open: Serial.begin(9600); // --- button setup pinMode(RunBtn, INPUT); pinMode(ChangeScanBtn, INPUT); digitalWrite(RunBtn, HIGH); digitalWrite(ChangeScanBtn, HIGH); pinMode(clampPin, OUTPUT); // sets the digital pin as OUTPUT to drive FET clamp) pinMode(5, OUTPUT); // sets the digital pin as output pinMode(6, OUTPUT); // sets the digital pin as output pinMode(7, OUTPUT); // sets the digital pin as output pinMode(11, OUTPUT); // pin11= PWM output / frequency output //Will Turner - This could go to pin 5 from 11. CHANGED TO 9 AS IT WOULDNT REACH OTHERS // ------- Quick 3 blinks of backlight ------------- for (int i = 0; i < 3; i++) { lcd.backlight(); delay(20); lcd.noBacklight(); delay(20); } lcd.backlight(); // finish with backlight on //-------- Initialise display ---------------- // NOTE: Cursor Position: CHAR, LINE) start at 0 lcd.setCursor(0, 0); //Start at character 0 on line 0 lcd.print("Tension Tester v1.5 "); // sets up the screen for the wire number and layer number being recorded lcd.setCursor(0, 2); lcd.print(" Press Run "); Setup_timer2(); // disable interrupts to avoid timing distortion cbi (TIMSK0, TOIE0); // disable Timer0 !!! delay() is now not available sbi (TIMSK2, TOIE2); // enable Timer2 Interrupt dfreq = 1000.0; // initial output frequency = 1000.o Hz tword_m = pow(2, 32) * dfreq / refclk; // calulate DDS new tuning word // setup start and end frequencies of sweep // setup initial values for loop adcflag = false; analogval = 0; digitalWrite(clampPin, HIGH); // sets the pin high to short out large signals before amp (using a FET as clamp) avgcnt = 0.0; }
void setPower(int state){ power = state; lcd.setCursor(0,1); if(state==1){ lcd.print(" Power ON "); lcd.backlight(); }else{ lcd.print(" Power OFF "); lcd.noBacklight(); } }
void flashx3() { // ------- Quick 3 blinks of backlight ------------- for (int i = 0; i < 3; i++) { lcd.backlight(); delay(2000); lcd.noBacklight(); delay(2000); } lcd.backlight(); // finish with backlight on //-------- Initialise display ---------------- }
void setup() { Serial.begin(115200); //Setup Channel A pinMode(X_DIR_PIN, OUTPUT); //Initiates Motor Channel A pin pinMode(Y_DIR_PIN, OUTPUT); //Initiates Motor Channel A pin pinMode(9, OUTPUT); //Initiates Brake Channel A pin pinMode(A0,INPUT); pinMode(X_MIN_PIN,INPUT_PULLUP); pinMode(X_MAX_PIN,INPUT_PULLUP); pinMode(X_JOY_LEFT,INPUT_PULLUP); pinMode(X_JOY_RIGHT,INPUT_PULLUP); pinMode(Y_JOY_DOWN,INPUT_PULLUP); pinMode(Y_JOY_UP,INPUT_PULLUP); // Quadrature encoders // X encoder pinMode(c_XEncoderPinA, INPUT); // sets pin A as input digitalWrite(c_XEncoderPinA, LOW); // turn on pullup resistors pinMode(c_XEncoderPinB, INPUT); // sets pin B as input digitalWrite(c_XEncoderPinB, LOW); // turn on pullup resistors attachInterrupt(c_XEncoderInterrupt, HandleLeftMotorInterruptA, RISING); // Y encoder pinMode(c_YEncoderPinA, INPUT); // sets pin A as input digitalWrite(c_YEncoderPinA, LOW); // turn on pullup resistors pinMode(c_YEncoderPinB, INPUT); // sets pin B as input digitalWrite(c_YEncoderPinB, LOW); // turn on pullup resistors attachInterrupt(c_YEncoderInterrupt, HandleRightMotorInterruptA, RISING); lcd.begin(20,4); // initialize the lcd for 20 chars 4 lines, turn on backlight // ------- Quick 3 blinks of backlight ------------- for(int i = 0; i< 3; i++) { lcd.backlight(); delay(150); lcd.noBacklight(); delay(150); } lcd.backlight(); // finish with backlight on //-------- Write characters on the display ------------------ // NOTE: Cursor Position: Lines and Characters start at 0 lcd.setCursor(3,0); //Start at character 4 on line 0 lcd.print("Hello, world!"); }/*--(end setup )---*/
/********************* * Setup function * *******************/ void setup() { time_t start, fadeIn, stop, fadeOut; Wire.begin(); setSyncProvider(RTC.get); lcd.init(); lcd.noBacklight(); led.loadEepromDatas(); pinMode(ledPin, OUTPUT); kpd.init(); initMenuItems(); }
void init() { spiffs_mount(); Serial.begin(230400); // 115200 by default Serial.systemDebugOutput(false); // Enable debug output to serial Wire.begin(); lcd.begin(16,2); // initialize the lcd for(int i = 0; i< 3; i++) { lcd.backlight(); delay(150); lcd.noBacklight(); delay(250); } lcd.backlight(); lcd.setCursor(0,0); lcd.clear(); lcd.print(" Music Box "); lcd.setCursor(0,1); lcd.print(" Geek Labs "); SystemClock.setTimeZone(3); printTimer.initializeMs(1000*60, onPrintSystemTime).start(); Serial.begin(SERIAL_BAUD_RATE); // 115200 by default Serial.systemDebugOutput(true); // Enable debug output to serial WifiStation.enable(true); WifiStation.config(WIFI_SSID, WIFI_PWD); WifiAccessPoint.enable(false); Wire.beginTransmission(PT2258_ADDRESS); Wire.write(0xC0); Wire.endTransmission(); // Run our method when station was connected to AP WifiStation.waitConnection(connectOk, 30, connectFail); }
void LcdnoBacklight() { lcd27.noBacklight(); lcd3E.noBacklight(); }
void DisplayClass::noBacklight() const { lcd.noBacklight(); }