//Designs/duckweed_collector/SW/RF01/RF01.pde
1,22 → 1,19
/*
connections arduino RF01 and RF02
RF02 TX sample for Arduino
 
in arduino version 018
(not yet tested in more recent arduino versions)
in arduino version 022
 
tested with ATmega 328
on frequency 433
 
no range test done yet, just in one room
tested with MLAB modules with ATmega 328 at 16MHz
see RF02 library for a Band and Frequency
*/
 
//connections RF01: (receiving)
#define SDI 5 // RF01 SDI, arduino 13, ATmega PB5, cannot be changed
#define SCK 4 // RF01 SCK, arduino 12, ATmega PB4, cannot be changed
#define CS 3 // RF01 nSEL, arduino 11, ATmega PB3, cannot be changed
#define SDO 2 // RF01 SDO, arduino 10, ATmega PB2, cannot be changed
//--------------------- // RF01 niRQ, arduino 02, ATmega PD2, cannot be changed
//----------------------// RF01 nFFS: 1-10k Pullup too Vcc
//connections RF01: (RX)
// RF01 SDI, arduino 13, ATmega PB5, cannot be changed
// RF01 SCK, arduino 12, ATmega PB4, cannot be changed
// RF01 nSEL, arduino 11, ATmega PB3, cannot be changed
// RF01 SDO, arduino 10, ATmega PB2, cannot be changed
// RF01 niRQ, arduino 02, ATmega PD2, cannot be changed
// RF01 nFFS: 1-10k Pullup too Vcc
 
 
// receiving words with RF01
23,32 → 20,26
 
#include <RF01.h>
 
int serialTesting = 1;
 
void setup() {
void setup()
{
Serial.begin(9600);
Serial.println("\nRF02 receive");
Serial.println("\nRFM01 init");
delay(250);
 
rf01_prepAll();
 
delay(250);
Serial.println("startup");
Serial.println("done");
}
 
void loop() {
int n;
// unsigned char buf[] = { "$00\n" }; // Motor, Rudder
for(n=0;n<32;n++) rf01_data[n]='$';
rf01_receive();
char* buf = (char*) rf01_data;
buf[31]=0;
//if ((buf[0]=='$')&&(buf[3]=='\n'))
Serial.println(buf);
for(n=0;n<32;n++) {Serial.print(rf01_data[n], HEX); Serial.print(' ');}
Serial.println();
void loop()
{
int n;
char* buf = (char*) _rx_buffer;
 
delay(10);
rf01_rxdata(_rx_buffer, 10);
buf[11]=0;
 
Serial.println(buf);
for(n=0;n<32;n++) {Serial.print(buf[n], HEX); Serial.print(' ');}
Serial.println();
}
//Designs/duckweed_collector/SW/RF02/RF02.pde
1,81 → 1,38
/*
connections arduino RF01 and RF02
RF02 TX sample for Arduino
 
in arduino version 018
(not yet tested in more recent arduino versions)
in arduino version 022
 
tested with ATmega 328
on frequency 433
 
no range test done yet, just in one room
tested with MLAB modules with ATmega 328 at 16MHz
see RF02 library for a Band and Frequency
*/
 
//connections RF02: (sending)
#define SDI 0 // SDI, -> RF02 Atmega PB0 Arduino 8 cannot be changed
#define SCK 1 // SCK, -> RF02 Atmega PB1 Arduino 9 cannot be changed
#define CS 2 // nSEL, -> RF02 Atmega PB2 Arduino 10 cannot be changed
#define IRQ 4 // nIRQ, <- RF02 Atmega PB4 Arduino 12 cannot be changed
//------------------// FSK: Pullupto VCC
//connections RF02: (TX)
// SDI, -> RF02 Atmega PB0 Arduino 8 cannot be changed
// SCK, -> RF02 Atmega PB1 Arduino 9 cannot be changed
// nSEL, -> RF02 Atmega PB2 Arduino 10 cannot be changed
// nIRQ, <- RF02 Atmega PB4 Arduino 12 cannot be changed
// FSK: Pullupto VCC
 
 
// RF02 sending words
// tested with lib, november 2010
 
#include <RF02.h>
#include <stdint.h>
 
int wissel = 0;//wissel means change in dutch
void setup()
{
Serial.begin(9600);
Serial.println("\nSTM02 init" );
rf02_prepAll();
 
void setup() {
Serial.begin(9600);
Serial.print("hello" );
Serial.println("init" );
rf02_prepAll();
Serial.println("done" );
pinMode(4, OUTPUT); //testing leds
pinMode(5, OUTPUT);
ledBlink(4);
ledBlink(5);
Serial.println("done" );
}
 
void ledBlink(int num){
digitalWrite(num, HIGH);
delay(100);
digitalWrite(num, LOW);
delay(100);
}
 
unsigned int ble='a';
 
void loop()
{
unsigned char _tx_buffer[]="0123456789";
// ledBlink(4);
delay(1000);
delay(1000);
 
// unsigned char buf[] = { "01234567890123456789012345678901\n" }; // Motor, Rudder
unsigned char buf[] = { "0123456789012345678$0123456789" };
 
unsigned char sum=0;
//buf[19]=ble;
for(unsigned int a=0;a<20;a++)
{
sum+=buf[a];
};
if(ble>'z') {ble='a';} else {ble++;}
buf[20]=sum;
buf[21]=0xAA;
buf[22]=0xAA;
rf02_changeText( buf, 23);
 
// rf02_changeText( buf, sizeof buf);
// Serial.println("M0R0\n");
rf02_sendData();
rf02_txdata( _tx_buffer, sizeof(_tx_buffer));
}
 
 
//Designs/duckweed_collector/SW/library/RF01/RF01.cpp
1,28 → 1,17
/*********************************************
*
* draft version v 0.1, experimental
* RFM01 simple library
*
* $HeadURL: svn://www.mlab.cz/home/MLAB/Designs/duckweed_collector/SW/library/RF02/RF02.cpp $
* $Id: RF02.cpp 2129 2011-08-18 18:40:43Z kakl $
*
* code based on the code of "benedikt k."
* this was an avr project from the site: http://www.mikrocontroller.net/topic/65984#541030
* code based on the code of "benedikt k." and "contrechoc"
*
* tested on arduino 22
*
* code should be matched with RF01
*
* up to now no transmission between the RF12 modules and Jeelabs.com RF12 lib
*
* this code has worked: transmitting using atmega168 and atmega328 in combination with RF01s and RF02s
*
* arduino 18
*
* five march, contrechoc.com, june 2010 , october 2010
*
*
*********************************************/
 
#include <avr/io.h>
#include <avr/interrupt.h>
#include <avr/pgmspace.h>
#include <avr/eeprom.h>
#include <stdlib.h>
 
#include "rf01.h"
38,7 → 27,7
#define SCK 4 // RF01 SCK, arduino 12 cannot be changed
#define CS 3 // RF01 nSEL, arduino 11 cannot be changed
#define SDO 2 // RF01 SDO, arduino 10 cannot be changed
//----------------- // RF01 niRQ, arduino 02 cannot be changed
//----------------- // RF01 niRQ, arduino 2 cannot be changed
//------------------// RF01 nFFS: 1-10k Pullup too Vcc
 
 
49,18 → 38,10
#define sbi(sfr, bit) (_SFR_BYTE(sfr) |= _BV(bit))
#endif
 
// maximum receive buffer
#define RF_MAX 32
unsigned char rf01_buf[RF_MAX]; // recv buf
unsigned char _rx_buffer[32]; // recv buf
 
#include <util/delay.h>
 
void rf01_receive(){
rf01_rxdata(rf01_data, 23); //!!!32
}
 
static unsigned char sdrssi, sgain;
 
void rf01_prepAll()
{
RF_PORT=(1<<CS);
68,17 → 49,9
 
for (unsigned char i=0; i<11; i++) _delay_ms(10); // wait until POR done
 
// rf01_trans(0xC2E0); // AVR CLK: 10MHz
// rf01_trans(0xC42B); // Data Filter: internal
// rf01_trans(0xC6F7); // AFC settings: autotuning: -10kHz...+7,5kHz
// rf01_trans(0xE000); // disable wakeuptimer
// rf01_trans(0xCC00); // disable low duty cycle
// rf01_trans(0x8978); // band 433MHz, enable crystal + 12pF, 200kHz bandwidth
 
rf01_trans(0x0000);
// rf01_trans(0x898A); // band 433MHz, 134kHz bandwidth
rf01_trans(0x8000|0x1000|0x70|0x02); //band
rf01_trans(0xA640); //434MHz
rf01_trans(0xA640); // freq
rf01_trans(0xC823); //!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! 9600 Bd
rf01_trans(0xC69B);
rf01_trans(0xC42A);
99,8 → 72,9
else
cbi(RF_PORT, SDI);
sbi(RF_PORT, SCK);
sbi(RF_PORT, SCK);
sbi(RF_PORT, SCK);
wert<<=1;
_delay_us(0.2);
cbi(RF_PORT, SCK);
}
sbi(RF_PORT, CS);
109,10 → 83,6
void rf01_rxdata(unsigned char *data, unsigned char number)
{ unsigned char i,j,c;
 
//!!!
// sgain=2; //2,4 -6dB LNA gain, DRSSI threshold: -79dBm
// sdrssi=4;
//!!! rf01_trans(0xC0C1|((sgain&3)<<4)|((sdrssi&7)<<1)); // RX on
rf01_trans(0xCE89); // set FIFO mode
rf01_trans(0xCE8B); // enable FIFO
cbi(RF_PORT, SDI);
145,7 → 115,6
asm("nop");
asm("nop");
asm("nop");
//!!! _delay_us(0.2);
cbi(RF_PORT, SCK);
asm("nop");
asm("nop");
157,5 → 126,4
asm("nop");
asm("nop");
}
//!!! rf01_trans(0xC0C0|((sgain&3)<<4)|((sdrssi&7)<<1)); // RX off
}
//Designs/duckweed_collector/SW/library/RF01/RF01.h
5,10 → 5,9
 
#define rf01_data (rf01_buf + 2)
 
extern unsigned char rf01_buf[]; // recv/xmit buf including hdr & crc bytes
extern unsigned char _rx_buffer[]; // recv/xmit buf including hdr & crc bytes
 
extern void rf01_prepAll();
extern void rf01_receive();
 
extern void rf01_trans(unsigned short wert);
extern void rf01_rxdata(unsigned char *data, unsigned char number);