public static void Run(string[] args) { Console.WriteLine("Nusbio initialization"); var serialNumber = Nusbio.Detect(); if (serialNumber == null) // Detect the first Nusbio available { Console.WriteLine("Nusbio not detected"); return; } var lightSensorAnalogPort = 2; var motionSensorAnalogPort = 0; var buttonSensorAnalogPort = 1; var ledGpio = NusbioGpio.Gpio5; using (var nusbio = new Nusbio(serialNumber)) { Cls(nusbio); var halfSeconds = new TimeOut(333); // Mcp300X Analog To Digital - SPI Config ad = new MCP3008(nusbio, selectGpio: NusbioGpio.Gpio3, mosiGpio: NusbioGpio.Gpio1, misoGpio: NusbioGpio.Gpio2, clockGpio: NusbioGpio.Gpio0); ad.Begin(); var analogMotionSensor = new AnalogMotionSensor(nusbio, 4); analogMotionSensor.Begin(); var button = new AnalogButton(nusbio); var lightSensor = CalibrateLightSensor(new AnalogLightSensor(nusbio), AnalogLightSensor.LightSensorType.CdsPhotoCell_3mm_45k_140k); lightSensor.Begin(); // Analog Port 5, 6, 7 are only available in // Analog Extension PCBv2 const int multiButtonPort = 5; AnalogSensor multiButton = null; //multiButton = new AnalogSensor(nusbio, multiButtonPort); //multiButton.Begin(); // TC77 Temperature Sensor SPI var tc77 = new TC77(nusbio, clockGpio: NusbioGpio.Gpio0, mosiGpio: NusbioGpio.Gpio1, misoGpio: NusbioGpio.Gpio2, selectGpio: NusbioGpio.Gpio4 ); tc77.Begin(); if (nusbio.Type == NusbioType.NusbioType1_Light) { tc77._spi.SoftwareBitBangingMode = true; ad._spiEngine.SoftwareBitBangingMode = true; } while (nusbio.Loop()) { if (halfSeconds.IsTimeOut()) { nusbio[ledGpio].AsLed.ReverseSet(); ConsoleEx.WriteLine(0, 2, string.Format("{0,-15}", DateTime.Now), ConsoleColor.Cyan); lightSensor.SetAnalogValue(ad.Read(lightSensorAnalogPort)); ConsoleEx.WriteLine(0, 4, string.Format("Light Sensor : {0,-18} (ADValue:{1:000.000}, Volt:{2:0.00}) ", lightSensor.CalibratedValue.PadRight(18), lightSensor.AnalogValue, lightSensor.Voltage), ConsoleColor.Cyan); analogMotionSensor.SetAnalogValue(ad.Read(motionSensorAnalogPort)); var motionType = analogMotionSensor.MotionDetected(); if (motionType == DigitalMotionSensorPIR.MotionDetectedType.MotionDetected || motionType == DigitalMotionSensorPIR.MotionDetectedType.None) { ConsoleEx.Write(0, 6, string.Format("Motion Sensor : {0,-18} (ADValue:{1:000.000}, Volt:{2:0.00}) ", motionType, analogMotionSensor.AnalogValue, analogMotionSensor.Voltage), ConsoleColor.Cyan); } ConsoleEx.WriteLine(0, 8, string.Format("Temperature Sensor : {0:0.00}C {1:0.00}F ", tc77.GetTemperature(), tc77.GetTemperature(AnalogTemperatureSensor.TemperatureType.Fahrenheit)), ConsoleColor.Cyan); button.SetAnalogValue(ad.Read(buttonSensorAnalogPort)); ConsoleEx.WriteLine(0, 10, string.Format("Button : {0,-18} [{1:0000}, {2:0.00}V] ", button.Down ? "Down" : "Up", button.AnalogValue, button.Voltage), ConsoleColor.Cyan); if (multiButton != null) { multiButton.SetAnalogValue(ad.Read(multiButtonPort)); ConsoleEx.Write(0, 12, string.Format("Multi Button : {0,-18} (ADValue:{1:000.000}, Volt:{2:000.000})", multiButton.AnalogValue > 2 ? "Down" : "Up ", multiButton.AnalogValue, multiButton.Voltage), ConsoleColor.Cyan); } } if (Console.KeyAvailable) { var k = Console.ReadKey(true).Key; if (k == ConsoleKey.C) { Cls(nusbio); } if (k == ConsoleKey.Q) { break; } Cls(nusbio); } } } Console.Clear(); }
public static void Run(string[] args) { Console.WriteLine("Nusbio initialization"); var serialNumber = Nusbio.Detect(); if (serialNumber == null) // Detect the first Nusbio available { Console.WriteLine("Nusbio not detected"); return; } using (var nusbio = new Nusbio(serialNumber)) { Cls(nusbio); var halfSeconds = new TimeOut(500); /* Mcp300X - SPI Config gpio 0 - CLOCK gpio 1 - MOSI gpio 2 - MISO gpio 3 - SELECT */ ad = new Mcp3008(nusbio, selectGpio: NusbioGpio.Gpio3, mosiGpio: NusbioGpio.Gpio1, misoGpio: NusbioGpio.Gpio2, clockGpio: NusbioGpio.Gpio0); ad.Begin(); var analogTempSensor = new Tmp36AnalogTemperatureSensor(nusbio); analogTempSensor.Begin(); var analogMotionSensor = new AnalogMotionSensor(nusbio, 4); analogMotionSensor.Begin(); var lightSensor = new AnalogLightSensor(nusbio); lightSensor.AddCalibarationValue("Dark", 0, 100); lightSensor.AddCalibarationValue("Office Night", 101, 299); lightSensor.AddCalibarationValue("Office Day", 300, 400); lightSensor.AddCalibarationValue("Outdoor Sun Light", 401, 1000); lightSensor.Begin(); while(nusbio.Loop()) { if (halfSeconds.IsTimeOut()) { const int lightSensorAnalogPort = 7; const int motionSensorAnalogPort = 6; const int temperatureSensorAnalogPort = 5; ConsoleEx.WriteLine(0, 2, string.Format("{0,-20}", DateTime.Now, lightSensor.AnalogValue), ConsoleColor.Cyan); lightSensor.SetAnalogValue(ad.Read(lightSensorAnalogPort)); ConsoleEx.WriteLine(0, 4, string.Format("Light Sensor : {0} (ADValue:{1:000.000})", lightSensor.CalibratedValue.PadRight(18), lightSensor.AnalogValue), ConsoleColor.Cyan); analogTempSensor.SetAnalogValue(ad.Read(temperatureSensorAnalogPort)); ConsoleEx.WriteLine(0, 6, string.Format("Temperature Sensor: {0:00.00}C, {1:00.00}F (ADValue:{2:0000}) ", analogTempSensor.GetTemperature(AnalogTemperatureSensor.TemperatureType.Celsius), analogTempSensor.GetTemperature(AnalogTemperatureSensor.TemperatureType.Fahrenheit), analogTempSensor.AnalogValue), ConsoleColor.Cyan); analogMotionSensor.SetAnalogValue(ad.Read(motionSensorAnalogPort)); var motionType = analogMotionSensor.MotionDetected(); if (motionType == MotionSensorPIR.MotionDetectedType.MotionDetected || motionType == MotionSensorPIR.MotionDetectedType.None) { ConsoleEx.Write(0, 8, string.Format("Motion Sensor : {0,-20} (ADValue:{1:000})", motionType, analogMotionSensor.AnalogValue), ConsoleColor.Cyan); } } if (Console.KeyAvailable) { var k = Console.ReadKey(true).Key; if (k == ConsoleKey.C) { Cls(nusbio); } if (k == ConsoleKey.Q) { break; } Cls(nusbio); } } } Console.Clear(); }
public static void Run(string[] args) { Console.WriteLine("Nusbio initialization"); var serialNumber = Nusbio.Detect(); if (serialNumber == null) // Detect the first Nusbio available { Console.WriteLine("Nusbio not detected"); return; } using (var nusbio = new Nusbio(serialNumber)) { Cls(nusbio); const int motionSensorAnalogPort = 0; const int temperatureSensorAnalogPort = 1; const int multiButtonPort = 3; const int lightSensorAnalogPort = 6; // Has a pull down resistor var halfSeconds = new TimeOut(200); /* * Mcp300X - SPI Config * gpio 0 - CLOCK * gpio 1 - MOSI * gpio 2 - MISO * gpio 3 - SELECT */ ad = new MCP3008(nusbio, selectGpio: NusbioGpio.Gpio3, mosiGpio: NusbioGpio.Gpio1, misoGpio: NusbioGpio.Gpio2, clockGpio: NusbioGpio.Gpio0); ad.Begin(); var analogTempSensor = new Tmp36AnalogTemperatureSensor(nusbio, 5); analogTempSensor.Begin(); var analogMotionSensor = new AnalogMotionSensor(nusbio, 4); analogMotionSensor.Begin(); var lightSensor = CalibrateLightSensor(new AnalogLightSensor(nusbio), AnalogLightSensor.LightSensorType.CdsPhotoCell_3mm_45k_140k); lightSensor.Begin(); AnalogSensor multiButton = null; //multiButton = new AnalogSensor(nusbio, multiButtonPort); //multiButton.Begin(); ulong loopCounter = 0; while (nusbio.Loop()) { if (halfSeconds.IsTimeOut()) { ConsoleEx.WriteLine(0, 2, string.Format("{0,-20}, {1}", DateTime.Now, loopCounter++), ConsoleColor.Cyan); lightSensor.SetAnalogValue(ad.Read(lightSensorAnalogPort)); ConsoleEx.WriteLine(0, 4, string.Format("Light Sensor : {0} (ADValue:{1:000.000}, Volt:{2:000.000}) ", lightSensor.CalibratedValue.PadRight(18), lightSensor.AnalogValue, lightSensor.Voltage), ConsoleColor.Cyan); // There is an issue with the TMP36 and the ADC MCP3008 // The correction is to add a 2k resistors between the out of the temperature sensor // and the AD port and increase the value by 14% const int TMP36_AccuracyCorrection = 14; analogTempSensor.SetAnalogValue(ad.Read(temperatureSensorAnalogPort, TMP36_AccuracyCorrection)); ConsoleEx.WriteLine(0, 6, string.Format("Temperature Sensor : {0:00.00}C, {1:00.00}F (ADValue:{2:0000}, Volt:{3:000.000}) ", analogTempSensor.GetTemperature(AnalogTemperatureSensor.TemperatureType.Celsius), analogTempSensor.GetTemperature(AnalogTemperatureSensor.TemperatureType.Fahrenheit), analogTempSensor.AnalogValue, analogTempSensor.Voltage), ConsoleColor.Cyan); analogMotionSensor.SetAnalogValue(ad.Read(motionSensorAnalogPort)); var motionType = analogMotionSensor.MotionDetected(); if (motionType == DigitalMotionSensorPIR.MotionDetectedType.MotionDetected || motionType == DigitalMotionSensorPIR.MotionDetectedType.None || motionType == DigitalMotionSensorPIR.MotionDetectedType.SameMotionDetected) { ConsoleEx.Write(0, 8, string.Format("Motion Sensor : {0,-18} (ADValue:{1:000.000}, Volt:{2:000.000})", motionType, analogMotionSensor.AnalogValue, analogMotionSensor.Voltage), ConsoleColor.Cyan); } if (multiButton != null) { multiButton.SetAnalogValue(ad.Read(multiButtonPort)); ConsoleEx.Write(0, 10, string.Format("Multi Button : {0,-18} (ADValue:{1:000.000}, Volt:{2:000.000})", multiButton.AnalogValue > 2 ? "Down" : "Up ", multiButton.AnalogValue, multiButton.Voltage), ConsoleColor.Cyan); } } if (Console.KeyAvailable) { var k = Console.ReadKey(true).Key; if (k == ConsoleKey.C) { Cls(nusbio); } if (k == ConsoleKey.Q) { break; } Cls(nusbio); } } } Console.Clear(); }
public static void Run(string[] args) { Console.WriteLine("Nusbio initialization"); var serialNumber = Nusbio.Detect(); if (serialNumber == null) // Detect the first Nusbio available { Console.WriteLine("Nusbio not detected"); return; } using (var nusbio = new Nusbio(serialNumber)) { Cls(nusbio); var halfSeconds = new TimeOut(1000); /* * Mcp300X - SPI Config * gpio 0 - CLOCK * gpio 1 - MOSI * gpio 2 - MISO * gpio 3 - SELECT */ ad = new MCP3008(nusbio, selectGpio: NusbioGpio.Gpio3, mosiGpio: NusbioGpio.Gpio1, misoGpio: NusbioGpio.Gpio2, clockGpio: NusbioGpio.Gpio0); ad.Begin(); var analogTempSensor = new Tmp36AnalogTemperatureSensor(nusbio); analogTempSensor.Begin(); analogTempSensor.ReferenceVoltage = 5.05; // If you can measure your voltage out of the Nusbio VCC var analogMotionSensor = new AnalogMotionSensor(nusbio, 4); analogMotionSensor.Begin(); var lightSensor = CalibrateLightSensor(new AnalogLightSensor(nusbio), AnalogLightSensor.LightSensorType.CdsPhotoCell_5mm_5k_200k); lightSensor.Begin(); while (nusbio.Loop()) { if (halfSeconds.IsTimeOut()) { const int lightSensorAnalogPort = 6; const int motionSensorAnalogPort = 2; const int temperatureSensorAnalogPort = 0; ConsoleEx.WriteLine(0, 2, string.Format("{0,-20}", DateTime.Now, lightSensor.AnalogValue), ConsoleColor.Cyan); lightSensor.SetAnalogValue(ad.Read(lightSensorAnalogPort)); ConsoleEx.WriteLine(0, 4, string.Format("Light Sensor : {0} (ADValue:{1:000.000}, Volt:{2:000.000}) ", lightSensor.CalibratedValue.PadRight(18), lightSensor.AnalogValue, lightSensor.Voltage), ConsoleColor.Cyan); analogTempSensor.SetAnalogValue(ad.Read(temperatureSensorAnalogPort)); ConsoleEx.WriteLine(0, 6, string.Format("Temperature Sensor : {0:00.00}C, {1:00.00}F (ADValue:{2:0000}, Volt:{3:000.000}) ", analogTempSensor.GetTemperature(AnalogTemperatureSensor.TemperatureType.Celsius), analogTempSensor.GetTemperature(AnalogTemperatureSensor.TemperatureType.Fahrenheit), analogTempSensor.AnalogValue, analogTempSensor.Voltage), ConsoleColor.Cyan); //analogMotionSensor.SetAnalogValue(ad.Read(motionSensorAnalogPort)); //var motionType = analogMotionSensor.MotionDetected(); //if (motionType == DigitalMotionSensorPIR.MotionDetectedType.MotionDetected || motionType == DigitalMotionSensorPIR.MotionDetectedType.None) //{ // ConsoleEx.Write(0, 8, string.Format("Motion Sensor : {0,-20} (ADValue:{1:000.000}, Volt:{2:000.000})", motionType, analogMotionSensor.AnalogValue, analogMotionSensor.Voltage), ConsoleColor.Cyan); //} } if (Console.KeyAvailable) { var k = Console.ReadKey(true).Key; if (k == ConsoleKey.C) { Cls(nusbio); } if (k == ConsoleKey.Q) { break; } Cls(nusbio); } } } Console.Clear(); }