static void Main() { #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); // Doesn't work #endif #if TINYCLR_V2_FEZPORTAL Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SC20100.SpiBus.Spi3, SC20100.GpioPin.PC13, SC20100.GpioPin.PD4, SC20100.GpioPin.PC2); #endif int SendCount = 0; // Put device into LoRa + Sleep mode rfm9XDevice.RegisterWriteByte(0x01, 0b10000000); // RegOpMode // Set the frequency to 915MHz byte[] frequencyWriteBytes = { 0xE4, 0xC0, 0x00 }; // RegFrMsb, RegFrMid, RegFrLsb rfm9XDevice.RegisterWrite(0x06, frequencyWriteBytes); // More power PA Boost rfm9XDevice.RegisterWriteByte(0x09, 0b10000000); // RegPaConfig // Interrupt on TxDone rfm9XDevice.RegisterWriteByte(0x40, 0b01000000); // RegDioMapping1 0b00000000 DI0 TxDone while (true) { // Set the Register Fifo address pointer rfm9XDevice.RegisterWriteByte(0x0E, 0x00); // RegFifoTxBaseAddress // Set the Register Fifo address pointer rfm9XDevice.RegisterWriteByte(0x0D, 0x0); // RegFifoAddrPtr string messageText = $"Hello LoRa {SendCount += 1}!"; // load the message into the fifo byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); rfm9XDevice.RegisterWrite(0x0, messageBytes); // RegFifo // Set the length of the message in the fifo rfm9XDevice.RegisterWriteByte(0x22, (byte)messageBytes.Length); // RegPayloadLength Debug.WriteLine($"{DateTime.UtcNow:HH:mm:ss.fff} Sending {messageBytes.Length} bytes message {messageText}"); rfm9XDevice.RegisterWriteByte(0x01, 0b10000011); // RegOpMode Thread.Sleep(10000); } }
static void Main() { Rfm9XDevice rfm9XDevice = new Rfm9XDevice(FEZ.GpioPin.D10, FEZ.GpioPin.D9, FEZ.GpioPin.D2); int SendCount = 0; // Put device into LoRa + Sleep mode rfm9XDevice.RegisterWriteByte(0x01, 0b10000000); // RegOpMode // Set the frequency to 915MHz byte[] frequencyWriteBytes = { 0xE4, 0xC0, 0x00 }; // RegFrMsb, RegFrMid, RegFrLsb rfm9XDevice.RegisterWrite(0x06, frequencyWriteBytes); // More power PA Boost rfm9XDevice.RegisterWriteByte(0x09, 0b10000000); // RegPaConfig // Interrupt on TxDone rfm9XDevice.RegisterWriteByte(0x40, 0b01000000); // RegDioMapping1 0b00000000 DI0 TxDone while (true) { // Set the Register Fifo address pointer rfm9XDevice.RegisterWriteByte(0x0E, 0x00); // RegFifoTxBaseAddress // Set the Register Fifo address pointer rfm9XDevice.RegisterWriteByte(0x0D, 0x0); // RegFifoAddrPtr string messageText = $"Hello LoRa {SendCount += 1}!"; // load the message into the fifo byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); rfm9XDevice.RegisterWrite(0x0, messageBytes); // RegFifo // Set the length of the message in the fifo rfm9XDevice.RegisterWriteByte(0x22, (byte)messageBytes.Length); // RegPayloadLength Debug.WriteLine($"Sending {messageBytes.Length} bytes message {messageText}"); rfm9XDevice.RegisterWriteByte(0x01, 0b10000011); // RegOpMode Thread.Sleep(10000); } }
public void Run(IBackgroundTaskInstance taskInstance) { // Put device into LoRa + Sleep mode rfm9XDevice.RegisterWriteByte(0x01, 0b10000000); // RegOpMode // Set the frequency to 915MHz byte[] frequencyWriteBytes = { 0xE4, 0xC0, 0x00 }; // RegFrMsb, RegFrMid, RegFrLsb rfm9XDevice.RegisterWrite(0x06, frequencyWriteBytes); // More power PA Boost rfm9XDevice.RegisterWriteByte(0x09, 0b10000000); // RegPaConfig // Interrupt on TxDone rfm9XDevice.RegisterWriteByte(0x40, 0b01000000); // RegDioMapping1 0b00000000 DI0 TxDone while (true) { // Set the Register Fifo address pointer rfm9XDevice.RegisterWriteByte(0x0E, 0x00); // RegFifoTxBaseAddress // Set the Register Fifo address pointer rfm9XDevice.RegisterWriteByte(0x0D, 0x0); // RegFifoAddrPtr string messageText = "Hello LoRa!"; // load the message into the fifo byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); foreach (byte b in messageBytes) { rfm9XDevice.RegisterWriteByte(0x0, b); // RegFifo } // Set the length of the message in the fifo rfm9XDevice.RegisterWriteByte(0x22, (byte)messageBytes.Length); // RegPayloadLength Debug.WriteLine("Sending {0} bytes message {1}", messageBytes.Length, messageText); rfm9XDevice.RegisterWriteByte(0x01, 0b10000011); // RegOpMode Task.Delay(10000).Wait(); } }
static void Main() { int SendCount = 0; #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; #endif #if NETDUINO3_WIFI int chipSelectPinNumber = PinNumber('B', 10); int resetPinNumber = PinNumber('E', 5); int interruptPinNumber = PinNumber('A', 4); #endif try { #if ESP32_WROOM_32_LORA_1_CHANNEL 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 ST_STM32F429I_DISCOVERY || NETDUINO3_WIFI Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, resetPinNumber, interruptPinNumber); #endif Thread.Sleep(500); // Put device into LoRa + Standby mode rfm9XDevice.RegisterWriteByte(0x01, 0b10000000); // RegOpMode // Set the frequency to 915MHz byte[] frequencyWriteBytes = { 0xE4, 0xC0, 0x00 }; // RegFrMsb, RegFrMid, RegFrLsb rfm9XDevice.RegisterWrite(0x06, frequencyWriteBytes); // More power PA Boost rfm9XDevice.RegisterWriteByte(0x09, 0b10000000); // RegPaConfig // Interrupt on TxDone rfm9XDevice.RegisterWriteByte(0x40, 0b01000000); // RegDioMapping1 0b00000000 DI0 TxDone while (true) { // Set the Register Fifo address pointer rfm9XDevice.RegisterWriteByte(0x0E, 0x00); // RegFifoTxBaseAddress // Set the Register Fifo address pointer rfm9XDevice.RegisterWriteByte(0x0D, 0x0); // RegFifoAddrPtr string messageText = $"Hello LoRa {SendCount += 1}!"; // load the message into the fifo byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); rfm9XDevice.RegisterWrite(0x0, messageBytes); // RegFifo // Set the length of the message in the fifo rfm9XDevice.RegisterWriteByte(0x22, (byte)messageBytes.Length); // RegPayloadLength Debug.WriteLine($"Sending {messageBytes.Length} bytes message {messageText}"); rfm9XDevice.RegisterWriteByte(0x01, 0b10000011); // RegOpMode Thread.Sleep(10000); } } catch (Exception ex) { Debug.WriteLine(ex.Message); } }