void Initialize() { var onboardLed = new RgbPwmLed( device: Device, redPwmPin: Device.Pins.OnboardLedRed, greenPwmPin: Device.Pins.OnboardLedGreen, bluePwmPin: Device.Pins.OnboardLedBlue); onboardLed.SetColor(Color.Red); IDigitalOutputPort[] ports = { Device.CreateDigitalOutputPort(Device.Pins.D05), Device.CreateDigitalOutputPort(Device.Pins.D06), Device.CreateDigitalOutputPort(Device.Pins.D07), Device.CreateDigitalOutputPort(Device.Pins.D08), Device.CreateDigitalOutputPort(Device.Pins.D09), Device.CreateDigitalOutputPort(Device.Pins.D10), Device.CreateDigitalOutputPort(Device.Pins.D11), Device.CreateDigitalOutputPort(Device.Pins.D12), Device.CreateDigitalOutputPort(Device.Pins.D13), Device.CreateDigitalOutputPort(Device.Pins.D14) }; ledBarGraph = new LedBarGraph(ports); capacitive = new Capacitive ( Device.CreateAnalogInputPort(Device.Pins.A00), MINIMUM_VOLTAGE_CALIBRATION, MAXIMUM_VOLTAGE_CALIBRATION ); onboardLed.SetColor(Color.Green); }
public MeadowApp() { var led = new RgbLed(Device, Device.Pins.OnboardLedRed, Device.Pins.OnboardLedGreen, Device.Pins.OnboardLedBlue); led.SetColor(RgbLed.Colors.Red); IDigitalOutputPort[] ports = { Device.CreateDigitalOutputPort(Device.Pins.D05), Device.CreateDigitalOutputPort(Device.Pins.D06), Device.CreateDigitalOutputPort(Device.Pins.D07), Device.CreateDigitalOutputPort(Device.Pins.D08), Device.CreateDigitalOutputPort(Device.Pins.D09), Device.CreateDigitalOutputPort(Device.Pins.D10), Device.CreateDigitalOutputPort(Device.Pins.D11), Device.CreateDigitalOutputPort(Device.Pins.D12), Device.CreateDigitalOutputPort(Device.Pins.D13), Device.CreateDigitalOutputPort(Device.Pins.D14) }; ledBarGraph = new LedBarGraph(ports); capacitive = new Capacitive ( Device.CreateAnalogInputPort(Device.Pins.A00), MINIMUM_VOLTAGE_CALIBRATION, MAXIMUM_VOLTAGE_CALIBRATION ); led.SetColor(RgbLed.Colors.Green); StartReading(); }
public void Show_Capacitive() { //Arrange FakeOutputShow fakeOutput = new FakeOutputShow(); var expected = $"If you read this text then Show method of IScreen interface works for Capacitive Screen\n"; //Act var screen = new Capacitive(pixelHeight: 320, pixelWidth: 480, 2.3, 1, fakeOutput); screen.Show(); //Assert Assert.AreEqual(expected, fakeOutput.GetOutputAsText()); }
public void Touch_Capacitive() { //Arrange FakeOutputTouch fakeOutput = new FakeOutputTouch(); var expected = $"This touch was made on Capacitive screen\nIsn't it fantastic?\n\n"; //Act var screen = new Capacitive(pixelHeight: 320, pixelWidth: 480, 2.3, 1, fakeOutput); screen.Touch(); //Assert Assert.AreEqual(expected, fakeOutput.GetOutputAsText()); }
public MeadowApp() { Console.WriteLine("Initializing..."); capacitive = new Capacitive( analogPort: Device.CreateAnalogInputPort(Device.Pins.A01), minimumVoltageCalibration: 2.84f, maximumVoltageCalibration: 1.63f ); TestCapacitiveUpdating(); //TestCapacitiveRead(); }
void Initialize() { Console.WriteLine("Initialize hardware..."); onboardLed = new RgbPwmLed(device: Device, redPwmPin: Device.Pins.OnboardLedRed, greenPwmPin: Device.Pins.OnboardLedGreen, bluePwmPin: Device.Pins.OnboardLedBlue, 3.3f, 3.3f, 3.3f, Meadow.Peripherals.Leds.IRgbLed.CommonType.CommonAnode); onboardLed.SetColor(Color.Red); button = new PushButton(Device, Device.Pins.D04, ResistorMode.InternalPullUp); button.Clicked += ButtonClicked; var config = new SpiClockConfiguration ( speedKHz: 6000, mode: SpiClockConfiguration.Mode.Mode3 ); var display = new St7789 ( device: Device, spiBus: Device.CreateSpiBus(Device.Pins.SCK, Device.Pins.MOSI, Device.Pins.MISO, config), chipSelectPin: Device.Pins.D02, dcPin: Device.Pins.D01, resetPin: Device.Pins.D00, width: 240, height: 240 ); displayController = new DisplayController(display); capacitive = new Capacitive( device: Device, analogPin: Device.Pins.A01, minimumVoltageCalibration: MINIMUM_VOLTAGE_CALIBRATION, maximumVoltageCalibration: MAXIMUM_VOLTAGE_CALIBRATION); capacitive.Subscribe(new FilterableChangeObserver <FloatChangeResult, float>( handler => { onboardLed.SetColor(Color.Purple); displayController.UpdateMoistureImage(handler); displayController.UpdateMoisturePercentage(handler.New, handler.Old); onboardLed.SetColor(Color.Green); }, filter => { return(Math.Abs(filter.Delta) > 0.05); } )); capacitive.StartUpdating( sampleCount: 10, sampleIntervalDuration: 40, standbyDuration: (int)TimeSpan.FromHours(1).TotalMilliseconds); analogTemperature = new AnalogTemperature(Device, Device.Pins.A00, AnalogTemperature.KnownSensorType.LM35); analogTemperature.Subscribe(new FilterableChangeObserver <AtmosphericConditionChangeResult, AtmosphericConditions>( handler => { onboardLed.SetColor(Color.Purple); displayController.UpdateTemperatureValue(handler.New.Temperature.Value, handler.Old.Temperature.Value); onboardLed.SetColor(Color.Green); }, filter => { return(Math.Abs(filter.Delta.Temperature.Value) > 1f); } )); analogTemperature.StartUpdating( sampleCount: 10, sampleIntervalDuration: 40, standbyDuration: (int)TimeSpan.FromHours(1).TotalMilliseconds); onboardLed.SetColor(Color.Green); }
public CapacitiveApp() { capacitive = new Capacitive(Device.CreateAnalogInputPort(Device.Pins.A01)); TestCapacitiveSensorAsync(); }
public CapacitiveApp() { capacitive = new Capacitive(Device.CreateAnalogInputPort(Device.Pins.A00)); TestCapacitive(); }
void Initialize() { onboardLed = new RgbPwmLed( device: Device, redPwmPin: Device.Pins.OnboardLedRed, greenPwmPin: Device.Pins.OnboardLedGreen, bluePwmPin: Device.Pins.OnboardLedBlue); onboardLed.SetColor(Color.Red); button = new PushButton(Device, Device.Pins.D04, ResistorMode.InternalPullUp); button.Clicked += ButtonClicked; var config = new SpiClockConfiguration( speed: new Frequency(48000, Frequency.UnitType.Kilohertz), mode: SpiClockConfiguration.Mode.Mode3); var spiBus = Device.CreateSpiBus( clock: Device.Pins.SCK, copi: Device.Pins.MOSI, cipo: Device.Pins.MISO, config: config); var display = new St7789 ( device: Device, spiBus: spiBus, chipSelectPin: Device.Pins.D02, dcPin: Device.Pins.D01, resetPin: Device.Pins.D00, width: 240, height: 240 ); displayController = new DisplayController(display); capacitive = new Capacitive( device: Device, analogPin: Device.Pins.A01, minimumVoltageCalibration: MINIMUM_VOLTAGE_CALIBRATION, maximumVoltageCalibration: MAXIMUM_VOLTAGE_CALIBRATION); var capacitiveObserver = Capacitive.CreateObserver( handler: result => { onboardLed.SetColor(Color.Purple); displayController.UpdateMoistureImage(result.New); displayController.UpdateMoisturePercentage(result.New, result.Old.Value); onboardLed.SetColor(Color.Green); }, filter: null ); capacitive.Subscribe(capacitiveObserver); capacitive.StartUpdating(TimeSpan.FromHours(1)); analogTemperature = new AnalogTemperature(Device, Device.Pins.A00, AnalogTemperature.KnownSensorType.LM35); var analogTemperatureObserver = AnalogTemperature.CreateObserver( handler => { onboardLed.SetColor(Color.Purple); displayController.UpdateTemperatureValue(handler.New, handler.Old.Value); onboardLed.SetColor(Color.Green); }, filter: null ); analogTemperature.Subscribe(analogTemperatureObserver); analogTemperature.StartUpdating(TimeSpan.FromHours(1)); onboardLed.SetColor(Color.Green); }