private static void InitializeRadio() { _radio = new NRF24L01Plus(); _radio.Initialize(Spi, ChipSelectPin, ChipEnablePin, InterruptPin); _radio.Configure(Encoding.UTF8.GetBytes(Address), Channel); _radio.Enable(); }
public void Start() { /* This code assumes a pin configuration as follows: * * nRF24 -> Netduino 2 Purpose * -------- ---------- -------------- * 1 (GND) -> GND Ground * 2 (VCC) -> 3V3 3v Power * 3 (CE) -> D9 Chip Enable * 4 (CSN) -> D10 Chip Select * 5 (SCK) -> D13 SPI Serial Clock (SCLK) * 6 (MOSI)-> D11 SPI Transmit (MOSI) * 7 (MISO)-> D12 SPI Recieve (MISO) * 8 (IRQ) -> D8 Interupt * */ // Initialize the radio on our pins _radio.Initialize(SPI_Devices.SPI1, Pins.GPIO_PIN_D10, Pins.GPIO_PIN_D9, Pins.GPIO_PIN_D8); _radio.Configure(new byte[] { 0xF5, 0xF0, 0xF0, 0xF0, 0xF2 }, 76, NRFDataRate.DR1Mbps); _radio.OnDataReceived += _radio_OnDataReceived; _radio.Enable(); Debug.Print("Listening on: " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Zero, 5)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.One, 5)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Two, 5)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Three, 5)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Four, 5)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Five, 5))); _timer = new Timer(TimerFire, null, new TimeSpan(0, 0, 0, 10), new TimeSpan(0, 0, 0, 3)); }
private static void InitializeRadio() { Debug.Print("Initializing radio..."); _radio = new NRF24L01Plus(); _radio.Initialize(Spi, ChipSelectPin, ChipEnablePin, InterruptPin); _radio.Configure(Encoding.UTF8.GetBytes(Address), Channel); _radio.OnDataReceived += data => _bootloader.Process(data); _radio.Enable(); }
public static void Main() { count = 0; oled.Inital(); Thread.Sleep(100); oled.DisplayString("***"); globalSPIDevice.Config = nrf24L01PConfig; _radio.Initialize(); //TX // _radio.Configure(new byte[] { 138, 138, 138 }, 76, NRFDataRate.DR1Mbps); // _radio.SetAddress(AddressSlot.One, new byte[] { 0, 0, 1 }); //RX _radio.Configure(new byte[] { 0xF0, 0xF0, 0xE1 }, 76, NRFDataRate.DR1Mbps); _radio.SetAddress(AddressSlot.One, new byte[] { 0, 0, 2 }); _radio.OnDataReceived += _radio_OnDataReceived; _radio.Enable(); string outputinfo = "Listening on: " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Zero, 3)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.One, 3)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Two, 3)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Three, 3)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Four, 3)) + " | " + ByteArrayToHexString(_radio.GetAddress(AddressSlot.Five, 3)); Debug.Print(outputinfo); //TX // _timer = new Timer(TimerFire, null, new TimeSpan(0, 0, 0, 2), new TimeSpan(0, 0, 0,5)); globalSPIDevice.Config = oledSpiConfig; oled.DisplayString(outputinfo); Thread.Sleep(50); globalSPIDevice.Config = nrf24L01PConfig; Thread.Sleep(Timeout.Infinite); /* * * globalSPIDevice.Config = oledSpiConfig; * oled.DisplayString("Receiving ---"); * Thread.Sleep(100); * globalSPIDevice.Config = nrf24L01PConfig; */ }
public void Run() { // Configure the nRF24 hardware radio.OnDataReceived += OnReceive; radio.OnTransmitFailed += OnSendFailure; radio.OnTransmitSuccess += OnSendSuccess; radio.Initialize(SPI.SPI_module.SPI1, Pins.GPIO_PIN_D7, Pins.GPIO_PIN_D3, Pins.GPIO_PIN_D2); radio.Configure(nRF24ClientAddress, nRF24Channel, nRF24DataRate); radio.Enable(); // Setup the device unique identifer, in this case the hardware MacAddress deviceIdentifier = NetworkInterface.GetAllNetworkInterfaces()[0].PhysicalAddress; Debug.Print(" Device Identifier : " + BytesToHexString(deviceIdentifier)); Timer humidityAndtemperatureUpdates = new Timer(HumidityAndTemperatureTimerProc, null, 15000, 15000); Thread.Sleep(Timeout.Infinite); }