Ejemplo n.º 1
0
        public static void Main()
        {
            Rfm9XDevice rfm9XDevice  = new Rfm9XDevice(SPI_Devices.SPI1, Pins.GPIO_PIN_D10, Pins.GPIO_PIN_D9, Pins.GPIO_PIN_D2);
            byte        MessageCount = Byte.MinValue;

            rfm9XDevice.Initialise(frequency: 915000000, paBoost: true, rxPayloadCrcOn: true);
#if ADDRESSED_MESSAGES_PAYLOAD
            rfm9XDevice.Receive(Encoding.UTF8.GetBytes("Netduino"));
#else
            rfm9XDevice.Receive();
#endif
            rfm9XDevice.OnDataReceived += rfm9XDevice_OnDataReceived;
            rfm9XDevice.OnTransmit     += rfm9XDevice_OnTransmit;

            while (true)
            {
                string messageText = "Hello NetMF LoRa! " + MessageCount.ToString();
                MessageCount += 1;
                byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText);
                Debug.Print("Sending " + messageBytes.Length + " bytes message " + messageText);

#if ADDRESSED_MESSAGES_PAYLOAD
                rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes("LoRaIoT1"), messageBytes);
#else
                rfm9XDevice.Send(messageBytes);
#endif
                Thread.Sleep(10000);
            }
        }
Ejemplo n.º 2
0
        static void Main()
        {
#if TINYCLR_V2_SC20100DEV_MIKROBUS_1 || TINYCLR_V2_SC20100DEV_MIKROBUS_2
            const string DeviceName = "SC20100DEVLoRa";
#endif
#if TINYCLR_V2_FEZDUINO
            const string DeviceName = "FezduinoLoRa";
#endif
#if TINYCLR_V2_FEZPORTAL
            const string DeviceName = "FezportalLoRa";
#endif
#if ADDRESSED_MESSAGES_PAYLOAD
            const string HostName = "LoRaIoT1";
#endif
            const double Frequency    = 915000000.0;
            byte         MessageCount = System.Byte.MaxValue;
#if TINYCLR_V2_SC20100DEV_MIKROBUS_1
            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SC20100.SpiBus.Spi3, SC20100.GpioPin.PD3, SC20100.GpioPin.PD4, SC20100.GpioPin.PC5);
#endif
#if TINYCLR_V2_SC20100DEV_MIKROBUS_2
            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SC20100.SpiBus.Spi3, SC20100.GpioPin.PD14, SC20100.GpioPin.PD15, SC20100.GpioPin.PA8);
#endif
#if TINYCLR_V2_FEZDUINO
            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SC20100.SpiBus.Spi6, SC20100.GpioPin.PB1, SC20100.GpioPin.PA15, SC20100.GpioPin.PA1);
#endif
#if TINYCLR_V2_FEZPORTAL
            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SC20100.SpiBus.Spi3, SC20100.GpioPin.PC13, SC20100.GpioPin.PD4, SC20100.GpioPin.PC2);
#endif

            rfm9XDevice.Initialise(Frequency, paBoost: true, rxPayloadCrcOn: true);
#if DEBUG
            rfm9XDevice.RegisterDump();
#endif

            rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive;
#if ADDRESSED_MESSAGES_PAYLOAD
            rfm9XDevice.Receive(UTF8Encoding.UTF8.GetBytes(DeviceName));
#else
            rfm9XDevice.Receive();
#endif
            rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit;

            Thread.Sleep(10000);

            while (true)
            {
                string messageText = string.Format("Hello from {0} ! {1}", DeviceName, MessageCount);
                MessageCount -= 1;

                byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText);
                Debug.WriteLine($"{DateTime.Now:HH:mm:ss}-TX {messageBytes.Length} byte message {messageText}");
#if ADDRESSED_MESSAGES_PAYLOAD
                rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes(HostName), messageBytes);
#else
                rfm9XDevice.Send(messageBytes);
#endif
                Thread.Sleep(10000);
            }
        }
Ejemplo n.º 3
0
        static void Main()
        {
            byte MessageCount        = System.Byte.MaxValue;
            int  chipSelectPinNumber = Gpio.IO16;
            int  interruptPinNumber  = Gpio.IO26;

            Configuration.SetPinFunction(Gpio.IO12, DeviceFunction.SPI1_MISO);
            Configuration.SetPinFunction(Gpio.IO13, DeviceFunction.SPI1_MOSI);
            Configuration.SetPinFunction(Gpio.IO14, DeviceFunction.SPI1_CLOCK);

            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, interruptPinNumber);

            Debug.WriteLine("devMobile.IoT.Rfm9x.LoRaDeviceClient starting");

            rfm9XDevice.Initialise(Frequency, paBoost: true);

            rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive;
            rfm9XDevice.Receive();
            rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit;

            Thread.Sleep(10000);

            while (true)
            {
                string messageText = $"Hello from {DeviceName} ! {MessageCount}";
                MessageCount -= 1;

                byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText);
                Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss}-TX {messageBytes.Length} byte message {messageText}");
                rfm9XDevice.Send(messageBytes);
                Thread.Sleep(10000);
            }
        }
Ejemplo n.º 4
0
        static void Main()
        {
            //const string DeviceName = "FEZLoRa";
            //const string HostName = "LoRaIoT1";
            const string DeviceName = "LoRaIoT1";

#if ADDRESSED_MESSAGES_PAYLOAD
            const string HostName = "LoRaIoT2";
#endif
            const double Frequency    = 915000000.0;
            byte         MessageCount = System.Byte.MaxValue;
            Rfm9XDevice  rfm9XDevice  = new Rfm9XDevice(FEZ.GpioPin.D10, FEZ.GpioPin.D9, FEZ.GpioPin.D2);

            rfm9XDevice.Initialise(Frequency, paBoost: true, rxPayloadCrcOn: true);
#if DEBUG
            rfm9XDevice.RegisterDump();
#endif

            rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive;
#if ADDRESSED_MESSAGES_PAYLOAD
            rfm9XDevice.Receive(UTF8Encoding.UTF8.GetBytes(DeviceName));
#else
            rfm9XDevice.Receive();
#endif
            rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit;

            Thread.Sleep(10000);

            while (true)
            {
                string messageText = string.Format("Hello from {0} ! {1}", DeviceName, MessageCount);
                MessageCount -= 1;

                byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText);
                Debug.WriteLine($"{DateTime.Now:HH:mm:ss}-TX {messageBytes.Length} byte message {messageText}");
#if ADDRESSED_MESSAGES_PAYLOAD
                rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes(HostName), messageBytes);
#else
                rfm9XDevice.Send(messageBytes);
#endif
                Thread.Sleep(10000);
            }
        }
        private void HumidityAndTemperatureTimerProc(object state)
        {
            _led.Set(0, 128, 0);

            double humidity    = sensor.Humidity();
            double temperature = sensor.Temperature();

            Debug.Print(DateTime.UtcNow.ToString("hh:mm:ss") + " H:" + humidity.ToString("F1") + " T:" + temperature.ToString("F1"));

            rfm9XDevice.Send(fieldGatewayAddress, Encoding.UTF8.GetBytes("t " + temperature.ToString("F1") + ",H " + humidity.ToString("F0")));
        }
        private void HumidityAndTemperatureTimerProc(object state)
        {
            double humidity    = sensor.Humidity();
            double temperature = sensor.Temperature();

            Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} TX-H:{humidity:F0}% T:{temperature:F1}°");

            rfm9XDevice.Send(fieldGatewayAddress, Encoding.UTF8.GetBytes($"T {temperature:F1},H {humidity:F0}"));

            led.Write(GpioPinValue.High);
        }
Ejemplo n.º 7
0
        static void initRadio(SSD1306Driver oledScreen)
        {
            //Set LoRa Pins
            byte MessageCount        = System.Byte.MaxValue;
            int  chipSelectPinNumber = Gpio.IO18;
            int  interruptPinNumber  = Gpio.IO26;
            int  resetPinNumber      = Gpio.IO14;

            Configuration.SetPinFunction(Gpio.IO19, DeviceFunction.SPI1_MISO);
            Configuration.SetPinFunction(Gpio.IO27, DeviceFunction.SPI1_MOSI);
            Configuration.SetPinFunction(Gpio.IO05, DeviceFunction.SPI1_CLOCK);

            //Initialize Modem - BEEEEEEEEEEEEEEEEEEEEEEP.......BUUUUUUUUUUUUUUUUUUUUUR....................WEEEEDOOOOWEEEEEDOOO.................SKRRRRRRRRRRRRRRRRRR
            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, resetPinNumber, interruptPinNumber);

            oledScreen.DrawString(0, 20, "Success.......");
            oledScreen.RefreshDisplay();
            rfm9XDevice.Initialise(Frequency, paBoost: true);
            oledScreen.DrawString(0, 30, "Powering Radio On.......");
            oledScreen.RefreshDisplay();
            rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive;
            rfm9XDevice.Receive();
            rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit;

            //LED INIT - Not required, just gave me something to see in my peripheral so I did not have to read the OLED all the time
            GpioController gpioc = new GpioController();
            GpioPin        led   = gpioc.OpenPin(OnBoardDevicePortNumber.Led, PinMode.Output);

            led.Write(PinValue.High);

            Thread.Sleep(5000); //Too fast and we reset

            int count = 0;

            while (true) //Send a message and update the OLED
            {
                string messageText = $"Hello from {DeviceName} ! {MessageCount}";
                MessageCount -= 1;
                count++;
                oledScreen.Clear();
                oledScreen.DrawString(0, 0, "Transmitting....");
                oledScreen.DrawString(0, 10, "Messages Sent: " + count.ToString());
                oledScreen.RefreshDisplay();
                byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText);
                Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss}-TX {messageBytes.Length} byte message {messageText}");
                rfm9XDevice.Send(messageBytes);
                Thread.Sleep(1000);
                led.Toggle();
            }
        }
Ejemplo n.º 8
0
        public MeadowClient()
        {
            Led = new Led(Device, Device.Pins.OnboardLedGreen);

            try
            {
                sensor = new Sht31D(Device.CreateI2cBus());

                ISpiBus spiBus = Device.CreateSpiBus(500);

                rfm9XDevice = new Rfm9XDevice(Device, spiBus, Device.Pins.D09, Device.Pins.D10, Device.Pins.D12);

                rfm9XDevice.Initialise(Frequency, paBoost: true, rxPayloadCrcOn: true);
#if DEBUG
                rfm9XDevice.RegisterDump();
#endif
                rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive;
                rfm9XDevice.Receive(deviceAddress);
                rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit;
            }
            catch (Exception ex)
            {
                Console.WriteLine(ex.Message);
            }

            while (true)
            {
                sensor.Update();

                Console.WriteLine($"{DateTime.UtcNow:HH:mm:ss}-TX T:{sensor.Temperature:0.0}C H:{sensor.Humidity:0}%");

                string payload = $"t {sensor.Temperature:0.0},h {sensor.Humidity:0}";

                Led.IsOn = true;

                rfm9XDevice.Send(fieldGatewayAddress, Encoding.UTF8.GetBytes(payload));

                Thread.Sleep(periodTime);
            }
        }
Ejemplo n.º 9
0
        static void Main()
        {
            byte MessageCount = System.Byte.MaxValue;

#if ST_STM32F429I_DISCOVERY
            int chipSelectPinNumber = PinNumber('C', 2);
            int resetPinNumber      = PinNumber('C', 3);
            int interruptPinNumber  = PinNumber('A', 4);
#endif
#if ESP32_WROOM_32_LORA_1_CHANNEL
            int chipSelectPinNumber = Gpio.IO16;
            int interruptPinNumber  = Gpio.IO26;

            Configuration.SetPinFunction(Gpio.IO12, DeviceFunction.SPI1_MISO);
            Configuration.SetPinFunction(Gpio.IO13, DeviceFunction.SPI1_MOSI);
            Configuration.SetPinFunction(Gpio.IO14, DeviceFunction.SPI1_CLOCK);

            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, interruptPinNumber);
#endif
#if NETDUINO3_WIFI
            // Arduino D10->PB10
            int chipSelectPinNumber = PinNumber('B', 10);
            // Arduino D9->PE5
            int resetPinNumber = PinNumber('E', 5);
            // Arduino D2->PA3
            int interruptPinNumber = PinNumber('A', 3);
#endif
            Debug.WriteLine("devMobile.IoT.Rfm9x.LoRaDeviceClient starting");

#if ST_STM32F429I_DISCOVERY || NETDUINO3_WIFI
            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, resetPinNumber, interruptPinNumber);
#endif
            rfm9XDevice.Initialise(Frequency, paBoost: true);

#if DEBUG
            rfm9XDevice.RegisterDump();
#endif

            rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive;
#if ADDRESSED_MESSAGES_PAYLOAD
            rfm9XDevice.Receive(UTF8Encoding.UTF8.GetBytes(DeviceName));
#else
            rfm9XDevice.Receive();
#endif
            rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit;

            Thread.Sleep(10000);

            while (true)
            {
                string messageText = $"Hello from {DeviceName} ! {MessageCount}";
                MessageCount -= 1;

                byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText);
                Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss}-TX {messageBytes.Length} byte message {messageText}");
#if ADDRESSED_MESSAGES_PAYLOAD
                rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes(HostName), messageBytes);
#else
                rfm9XDevice.Send(messageBytes);
#endif
                Thread.Sleep(10000);
            }
        }
Ejemplo n.º 10
0
        static void Main()
        {
            byte MessageCount = System.Byte.MaxValue;

#if ST_STM32F429I_DISCOVERY
            int ledPinNumber        = PinNumber('G', 14);
            int chipSelectPinNumber = PinNumber('C', 2);
            int resetPinNumber      = PinNumber('C', 3);
            int interruptPinNumber  = PinNumber('A', 4);
#endif
#if ESP32_WROOM_32_LORA_1_CHANNEL
            int ledPinNumber        = Gpio.IO17;
            int chipSelectPinNumber = Gpio.IO16;
            int interruptPinNumber  = Gpio.IO26;

            Configuration.SetPinFunction(Gpio.IO12, DeviceFunction.SPI1_MISO);
            Configuration.SetPinFunction(Gpio.IO13, DeviceFunction.SPI1_MOSI);
            Configuration.SetPinFunction(Gpio.IO14, DeviceFunction.SPI1_CLOCK);

            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, interruptPinNumber);
#endif
#if NETDUINO3_WIFI
            int ledPinNumber = PinNumber('A', 10);
            // Arduino D10->PB10
            int chipSelectPinNumber = PinNumber('B', 10);
            // Arduino D9->PE5
            int resetPinNumber = PinNumber('E', 5);
            // Arduino D2->PA3
            int interruptPinNumber = PinNumber('A', 3);
#endif
            Debug.WriteLine("devMobile.IoT.Rfm9x.LoRaDeviceClient starting");

            GpioController gpioController = GpioController.GetDefault();

            led = gpioController.OpenPin(ledPinNumber);
            led.SetDriveMode(GpioPinDriveMode.Output);
            led.Write(GpioPinValue.Low);

#if ST_STM32F429I_DISCOVERY || NETDUINO3_WIFI
            Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, resetPinNumber, interruptPinNumber);
#endif
            rfm9XDevice.Initialise(Frequency
                                   , rxPayloadCrcOn: true
                                   );

#if DEBUG
            rfm9XDevice.RegisterDump();
#endif

            rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive;
#if ADDRESSED_MESSAGES_PAYLOAD
            rfm9XDevice.Receive(UTF8Encoding.UTF8.GetBytes(DeviceName));
#else
            rfm9XDevice.Receive();
#endif
            rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit;

            Thread.Sleep(10000);

            while (true)
            {
                string messageText = string.Format("Hello from {0} ! {1}", DeviceName, MessageCount);
                MessageCount -= 1;

                byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText);
                Debug.WriteLine(string.Format("{0}-TX {1} byte message {2}", DateTime.UtcNow.ToString("HH:mm:ss"), messageBytes.Length, messageText));
#if ADDRESSED_MESSAGES_PAYLOAD
                rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes(HostName), messageBytes);
#else
                rfm9XDevice.Send(messageBytes);
#endif
                Thread.Sleep(10000);
            }
        }