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Hasan Albinsaid
2024-10-03 14:30:13 +03:00
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examples/SX128x_examples/Reliable/205_Reliable_Transmitter_Controller_ArrayRW/205_Reliable_Transmitter_Controller_ArrayRW.ino Normal file
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/*******************************************************************************************************
Programs for Arduino - Copyright of the author Stuart Robinson - 21/07/21
This program is supplied as is, it is up to the user of the program to decide if the program is
suitable for the intended purpose and free from errors.
*******************************************************************************************************/
/*******************************************************************************************************
Program Operation - This is a basic demonstration of the transmission of a 'Reliable' packet used to
control outputs on a remote receiver.
A reliable packet has 4 bytes automatically appended to the end of the buffer\array that is the data
payload. The first two bytes appended are a 16bit 'NetworkID'. This receiver needs to have the same
NetworkID as configured for the transmitter. The receiver program uses the NetworkID to check that
the received packet is from a known source. The third and fourth bytes appended is a 16 bit CRC of
the payload. The receiver will carry out its own CRC check on the received payload and can then verify
this against the CRC appended to the packet. The receiver is thus able to check if the payload is valid.
For a packet to be accepted by the receiver, the networkID and payload CRC appended to the packet by the
transmitter need to match those from the receiver which gives a high level of assurance that the packet
is valid.
This example program and the matching receiver, 206_Reliable_Receiver_Controller_ArrayRW, transmits a
array that contains variables which when read by the remote receiver flash an LED attached to
the receiver on and off. The variables are writen direct to the array using a library file arrayRW.h.
Serial monitor baud rate should be set at 115200.
*******************************************************************************************************/
#include <SPI.h> //the LoRa device is SPI based so load the SPI library
#include <SX128XLT.h> //include the appropriate library
#include <arrayRW.h> //routines for reading and writing varaibles to array
SX128XLT LT; //create a library class instance called LT
#define NSS 10 //select pin on LoRa device
#define NRESET 9 //reset pin on LoRa device
#define RFBUSY 7 //busy pin on LoRa device
#define DIO1 3 //DIO1 pin on LoRa device, used for sensing RX and TX done
#define LED1 8 //LED used to indicate transmission
#define LORA_DEVICE DEVICE_SX1280 //we need to define the device we are using
#define TXpower 2 //LoRa transmit power in dBm
#define TXtimeout 1000 //transmit timeout in mS.
uint8_t controlarray[4]; //the array payload to send
uint8_t controlarraysize;
uint16_t PayloadCRC;
uint8_t TXPacketL;
const uint16_t NetworkID = 0x3210; //NetworkID identifies this connection, needs to match value in receiver
uint16_t destinationNode = 2; //node number we are controlling, 0 to 65535
uint8_t outputNumber = 1; //output number on node we are controlling
uint8_t onoroff = 0; //set to 0 to set remote output off, 1 to set it on
void loop()
{
beginarrayRW(controlarray, 0); //start writing to controlarray array at location 0
arrayWriteUint16(destinationNode);
arrayWriteUint8(outputNumber);
arrayWriteUint8(onoroff); //0 for off, 1 for on
controlarraysize = endarrayRW() + 1; //this function returns the length of the array to send, i.e. the packet payload
Serial.print(F("Transmit Array > "));
LT.printHEXPacket(controlarray, controlarraysize); //print the sent array as HEX
Serial.println();
Serial.flush();
//now transmit the packet
digitalWrite(LED1, HIGH); //LED on to indicate transmit
TXPacketL = LT.transmitReliable(controlarray, controlarraysize, NetworkID, TXtimeout, TXpower, WAIT_TX);
if (TXPacketL)
{
//if transmitReliable() returns > 0 then transmit was OK
PayloadCRC = LT.getTXPayloadCRC(TXPacketL); //read the actual transmitted CRC from the LoRa device
packet_is_OK();
Serial.println();
}
else
{
//if transmitReliable() returns 0 there was an error
packet_is_Error();
Serial.println();
}
digitalWrite(LED1, LOW);
Serial.println();
delay(5000); //have a delay between packets
if (onoroff == 0) //toggle the on/off status
{
onoroff = 1;
}
else
{
onoroff = 0;
}
}
void packet_is_OK()
{
Serial.print(F("LocalNetworkID,0x"));
Serial.print(NetworkID, HEX);
Serial.print(F(",TransmittedPayloadCRC,0x")); //print CRC of transmitted packet
Serial.print(PayloadCRC, HEX);
}
void packet_is_Error()
{
Serial.print(F("SendError"));
LT.printIrqStatus(); //prints the text of which IRQs set
LT.printReliableStatus(); //print the reliable status
}
void setup()
{
Serial.begin(115200);
Serial.println();
Serial.println(F("205_Reliable_Transmitter_Controller_ArrayRW Starting"));
pinMode(LED1, OUTPUT);
SPI.begin();
if (LT.begin(NSS, NRESET, RFBUSY, DIO1, LORA_DEVICE))
{
Serial.println(F("LoRa Device found"));
delay(1000);
}
else
{
Serial.println(F("No LoRa device responding"));
while (1);
}
LT.setupLoRa(2445000000, 0, LORA_SF7, LORA_BW_0400, LORA_CR_4_5);
Serial.println(F("Transmitter ready"));
Serial.println();
}