900HP 08b: Complete example RX
This example shows how to receive a packet. When the source address is the expected one, an answer is sent back to the emitter Waspmote
Required Materials
1 x Waspmote 1 x Battery 1 x MicroUSB wire 1 x XBee-PRO 900HP
Notes
- The battery has to be connected. - This example can be executed in Waspmote v15
Code
/*
* ------ [900_08b] - complete example receive ------
*
* Explanation: This is a complete example for XBee-900HP
* This example shows how to receive a packet. When the source
* address is the expected one, an answer is sent back to the
* emitter Waspmote
*
* Copyright (C) 2016 Libelium Comunicaciones Distribuidas S.L.
* http://www.libelium.com
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*
* Version: 3.0
* Design: David Gascón
* Implementation: Yuri Carmona
*/
#include <WaspXBee900HP.h>
#include <WaspFrame.h>
// define variable
uint8_t error;
uint8_t destination[8];
void setup()
{
// init USB port
USB.ON();
USB.println(F("Complete example (RX node)"));
// init XBee
xbee900HP.ON();
}
void loop()
{
// receive XBee packet (wait message for 20 seconds)
error = xbee900HP.receivePacketTimeout( 20000 );
// check answer
if( error == 0 )
{
USB.println(F("\n1. New packet received"));
// Show data stored in '_payload' buffer indicated by '_length'
USB.print(F("-> Data: "));
USB.println( xbee900HP._payload, xbee900HP._length);
// Show data stored in '_payload' buffer indicated by '_length'
USB.print(F("-> Length: "));
USB.println( xbee900HP._length,DEC);
/*** Available info in library structure ***/
// get Source's MAC address
destination[0] = xbee900HP._srcMAC[0];
destination[1] = xbee900HP._srcMAC[1];
destination[2] = xbee900HP._srcMAC[2];
destination[3] = xbee900HP._srcMAC[3];
destination[4] = xbee900HP._srcMAC[4];
destination[5] = xbee900HP._srcMAC[5];
destination[6] = xbee900HP._srcMAC[6];
destination[7] = xbee900HP._srcMAC[7];
// Show data stored in '_payload' buffer indicated by '_length'
USB.print(F("-> Source MAC address: "));
USB.printHex( destination[0] );
USB.printHex( destination[1] );
USB.printHex( destination[2] );
USB.printHex( destination[3] );
USB.printHex( destination[4] );
USB.printHex( destination[5] );
USB.printHex( destination[6] );
USB.printHex( destination[7] );
USB.println();
// insert small delay to wait TX node
// to prepare to receive messages
delay(1000);
/*** Send message to TX node ***/
USB.println(F("\n2. Send a response to the TX node: "));
// send XBee packet
error = xbee900HP.send( destination, "Message_from_RX_node" );
// check TX flag
if( error == 0 )
{
USB.println(F("send ok"));
// blink green LED
Utils.blinkGreenLED();
}
else
{
USB.println(F("send error"));
// blink red LED
Utils.blinkRedLED();
}
}
else
{
// Print error message:
/*
* '7' : Buffer full. Not enough memory space
* '6' : Error escaping character within payload bytes
* '5' : Error escaping character in checksum byte
* '4' : Checksum is not correct
* '3' : Checksum byte is not available
* '2' : Frame Type is not valid
* '1' : Timeout when receiving answer
*/
USB.print(F("Error receiving a packet:"));
USB.println(error,DEC);
}
USB.println(F("\n----------------------------------"));
}
Output
H#
Complete example (RX node)
1. New packet received
-> Data: <=>�#2230530E695B4AB0#node_TX#0#STR:Complete example message#BAT:98#
-> Length: 69
-> Source MAC address: 0013A20040D8D5B7
2. Send a response to the TX node:
send ok
----------------------------------
1. New packet received
-> Data: <=>�#2230530E695B4AB0#node_TX#1#STR:Complete example message#BAT:98#
-> Length: 69
-> Source MAC address: 0013A20040D8D5B7
2. Send a response to the TX node:
send ok
----------------------------------
1. New packet received
-> Data: <=>�#2230530E695B4AB0#node_TX#2#STR:Complete example message#BAT:98#
-> Length: 69
-> Source MAC address: 0013A20040D8D5B7
2. Send a response to the TX node:
send ok
----------------------------------
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