/* * Getting Started example sketch for nRF24L01+ radios * This is an example of how to send data from one node to another using data structures * Updated: Dec 2014 by TMRh20 */ #include #include "RF24.h" byte addresses[][6] = {"1Node","2Node"}; /****************** User Config ***************************/ /*** Set this radio as radio number 0 or 1 ***/ bool radioNumber = 1; /* Hardware configuration: Set up nRF24L01 radio on SPI bus plus pins 7 & 8 */ RF24 radio(7,8); /**********************************************************/ // Used to control whether this node is sending or receiving bool role = 0; /** * Create a data structure for transmitting and receiving data * This allows many variables to be easily sent and received in a single transmission * See http://www.cplusplus.com/doc/tutorial/structures/ */ struct dataStruct{ unsigned long _micros; float value; }myData; void setup() { Serial.begin(115200); Serial.println(F("RF24/examples/GettingStarted_HandlingData")); Serial.println(F("*** PRESS 'T' to begin transmitting to the other node")); radio.begin(); // Set the PA Level low to prevent power supply related issues since this is a // getting_started sketch, and the likelihood of close proximity of the devices. RF24_PA_MAX is default. radio.setPALevel(RF24_PA_LOW); // Open a writing and reading pipe on each radio, with opposite addresses if(radioNumber){ radio.openWritingPipe(addresses[1]); radio.openReadingPipe(1,addresses[0]); }else{ radio.openWritingPipe(addresses[0]); radio.openReadingPipe(1,addresses[1]); } myData.value = 1.22; // Start the radio listening for data radio.startListening(); } void loop() { /****************** Ping Out Role ***************************/ if (role == 1) { radio.stopListening(); // First, stop listening so we can talk. Serial.println(F("Now sending")); myData._micros = micros(); if (!radio.write( &myData, sizeof(myData) )){ Serial.println(F("failed")); } radio.startListening(); // Now, continue listening unsigned long started_waiting_at = micros(); // Set up a timeout period, get the current microseconds boolean timeout = false; // Set up a variable to indicate if a response was received or not while ( ! radio.available() ){ // While nothing is received if (micros() - started_waiting_at > 200000 ){ // If waited longer than 200ms, indicate timeout and exit while loop timeout = true; break; } } if ( timeout ){ // Describe the results Serial.println(F("Failed, response timed out.")); }else{ // Grab the response, compare, and send to debugging spew radio.read( &myData, sizeof(myData) ); unsigned long time = micros(); // Spew it Serial.print(F("Sent ")); Serial.print(time); Serial.print(F(", Got response ")); Serial.print(myData._micros); Serial.print(F(", Round-trip delay ")); Serial.print(time-myData._micros); Serial.print(F(" microseconds Value ")); Serial.println(myData.value); } // Try again 1s later delay(1000); } /****************** Pong Back Role ***************************/ if ( role == 0 ) { if( radio.available()){ // Variable for the received timestamp while (radio.available()) { // While there is data ready radio.read( &myData, sizeof(myData) ); // Get the payload } radio.stopListening(); // First, stop listening so we can talk myData.value += 0.01; // Increment the float value radio.write( &myData, sizeof(myData) ); // Send the final one back. radio.startListening(); // Now, resume listening so we catch the next packets. Serial.print(F("Sent response ")); Serial.print(myData._micros); Serial.print(F(" : ")); Serial.println(myData.value); } } /****************** Change Roles via Serial Commands ***************************/ if ( Serial.available() ) { char c = toupper(Serial.read()); if ( c == 'T' && role == 0 ){ Serial.print(F("*** CHANGING TO TRANSMIT ROLE -- PRESS 'R' TO SWITCH BACK")); role = 1; // Become the primary transmitter (ping out) }else if ( c == 'R' && role == 1 ){ Serial.println(F("*** CHANGING TO RECEIVE ROLE -- PRESS 'T' TO SWITCH BACK")); role = 0; // Become the primary receiver (pong back) radio.startListening(); } } } // Loop