/Designs/HOPEwireless/SW_RX_RFM01/atmel/RFM01.h |
---|
0,0 → 1,135 |
/* mija 2008 |
defines for module RFM01 - RX 868MHz |
*/ |
#define CMD_SETTING 0x8000 // b1, b0, eb, et, ex, x3..x0, i2..i0, dc |
#define CMD_FREQUENCY 0xA000 // f11..f0 860+F*0.005 MHz 36..3903 |
#define CMD_RATE 0xC800 // cs, r6..r0 BR=10M/29/(R+1)/1+cs*7) |
#define CMD_RX 0xC000 // d1, d0, g1, g0, r2..r0, en |
#define CMD_FILTER 0xC420 // al, ml, s1, s0, f2..f0 |
#define CMD_FIFO 0xCE00 // f3..f0, s1, s0, ff, fe |
#define CMD_AFC 0xC600 // a1, a0, rl1, rl0, st, fi, oe, en |
#define CMD_WAKE_UP 0xE000 // r4..r0, m7..m0 T=M*2^R [ms] |
#define CMD_DUTY 0xCC00 // d6..d0 D.C.= (D*2+1)/M*100% |
#define CMD_BATTERY 0xC200 // d2..d0, t4..t0 |
#define CMD_STATUS 0x0000 // for read status |
// CMD_SETTING |
#define BAND_315 0x0000 |
#define BAND_433 0x800 |
#define BAND_868 0x1000 |
#define BADN_915 0x1800 |
#define SETTING_EB 0x400 // enable low battery detect |
#define SETTING_ET 0x200 // enable wake-up timer |
#define SETTING_EX 0x100 // enable crystal oscilator |
#define C_8_5pF 0x00 |
#define C_9pF 0x10 |
#define C_9_5pF 0x20 |
#define C_10pF 0x30 |
#define C_10_5pF 0x40 |
#define C_11pF 0x50 |
#define C_11_5pF 0x60 |
#define C_12pF 0x70 |
#define C_12_5pF 0x80 |
#define C_13pF 0x90 |
#define C_13_5pF 0xA0 |
#define C_14pF 0xB0 |
#define C_14_5pF 0xC0 |
#define C_15pF 0xD0 |
#define C_15_5pF 0xE0 |
#define C_16pF 0xF0 |
#define BANDWIDTH_400 0x02 // baseband bandwidth[kHz] |
#define BANDWIDTH_340 0x04 |
#define BANDWIDTH_270 0x06 |
#define BANDWIDTH_200 0x08 |
#define BANDWIDTH_134 0x0A |
#define BANDWIDTH_67 0x0C |
#define SETTING_DC 0x01 // disable siglanl of CLK pin |
// CMD_FREQUENCY |
#define FREQUENCY_867 0x578 |
#define FREQUENCY_868 0x640 |
#define FREQUENCY_869 0x708 |
// CMD_RATE |
#define RATE_1200 0x123 |
#define RATE_2400 0x8F |
#define RATE_4800 0x47 |
#define RATE_CS_4800 0x108 |
#define RATE_9600 0x23 |
#define RATE_19200 0x11 |
#define RATE_38400 0x8 |
#define RATE_57600 0x5 |
#define RATE_115200 0x2 |
// CMD_RX |
#define VDI_RSSI 0x00 // VDI response time |
#define VDI_DQD 0x40 |
#define VDI_CLOCK 0x80 |
#define VDI_ALWAYS_ON 0xC0 |
#define LNA_GAIN_0 0x00 // LNA_GAIN |
#define LNA_GAIN_6 0x10 // -6dBm |
#define LNA_GAIN_14 0x20 // -14dBm |
#define LNA_GAIN_20 0x30 // -20dBm |
#define DRSSI_103 0x00 // RSSI= DRSSI + LNA_GAIN -103dBm |
#define DRSSI_97 0x02 // -97dBm |
#define DRSSI_91 0x04 // -91dBm |
#define DRSSI_85 0x06 // -85dBm |
#define DRSSI_79 0x08 // -79dBm |
#define DRSSI_73 0x0A // -73dBm |
#define DRSSI_67 0x0C // -67dBm |
#define DRSSI_61 0x0E // -61dBm |
#define RX_EN 0x01 // enablel receiver |
// CMD_FILTER |
#define FILTER_AL 0x80 // enable clock recovery atuo-lock |
#define FILTER_ML 0x40 // enable clock recovery fast mode |
#define FILTER_S0 0x08 // enable digital filter |
#define DQD_7 0x7 |
#define DQD_6 0x6 |
#define DQD_5 0x5 |
#define DQD_4 0x4 |
#define DQD_3 0x3 |
#define DQD_2 0x2 |
#define DQD_1 0x1 |
#define DQD_0 0x0 |
// CMD_FIFO |
#define FIFO_16 0x00 // FIFO level |
#define FIFO_15 0xF0 |
#define FIFO_14 0xE0 |
#define FIFO_13 0xD0 |
#define FIFO_12 0xC0 |
#define FIFO_11 0xB0 |
#define FIFO_10 0xA0 |
#define FIFO_9 0x90 |
#define FIFO_8 0x80 |
#define FIFO_7 0x70 |
#define FIFO_6 0x60 |
#define FIFO_5 0x50 |
#define FIFO_4 0x40 |
#define FIFO_3 0x30 |
#define FIFO_2 0x20 |
#define FIFO_1 0x10 |
#define FIFO_VDI 0x00 // FIFO start VDI |
#define FIFO_SYNC_WORD 0x04 // |
#define FIFO_VDI_WORD 0x08 // |
#define FIFO_ALWAYS 0x0C // |
#define FIFO_FF 0x02 // enable FIFO fill |
#define FIFO_FE 0x01 // enable FIFO function |
// CMD_AFC |
#define AFC_MCU 0x00 // AFC auto_mode by MCU |
#define AFC_POWER_ON 0x40 // AFC at poweron |
#define AFC_OFFSET 0x80 // AFC keep offset when VDI hi |
#define AFC_VDI 0xC0 // AFC keeps independently from VDI |
#define AFC_NORESTR 0x00 // range limit no restriction |
#define AFC_RANG_16 0x10 // range limit +15/-16 |
#define AFC_RANG_8 0x20 // range limit +7/-8 |
#define AFC_RANG_4 0x30 // range limit +3/-4 |
#define AFC_ST 0x08 // store offset into outpur register |
#define AFC_FI 0x04 // enable AFC hi accuracy mode |
#define AFC_OE 0x02 // enable AFC output register |
#define AFC_EN 0x01 // enable AFC function |
/Designs/HOPEwireless/SW_RX_RFM01/atmel/RX_RFM01.c |
---|
0,0 → 1,245 |
/* mija 2008 |
demo for RFM01 - RX 868MHz |
CPU ATMEGA8 |
fcpu = 1MHz |
!! define PIN,PORT,DDR for IOpin !! |
tested with module RFM12B - TX,9600,Fdev 15kHz |
*/ |
#include <avr/io.h> |
#include <util/delay.h> |
#include "RFM01.h" |
//************************************************************************ |
#define SDI PB3 |
#define SDI_PORT PORTB |
#define SDI_DDR DDRB |
#define FSK PC1 |
#define FSK_PORT PORTC |
#define FSK_DDR DDRC |
#define SDO PB4 // input for mega |
#define SDO_PORT PORTB |
#define SDO_DDR DDRB |
#define SDO_PIN PINB |
#define SCK PB5 |
#define SCK_PORT PORTB |
#define SCK_DDR DDRB |
#define nIRQ PD2 // input for mega |
#define nIRQ_PORT PORTD |
#define nIRQ_DDR DDRD |
#define nIRQ_PIN PIND |
#define nSEL PB2 |
#define nSEL_PORT PORTB |
#define nSEL_DDR DDRB |
#define LED PD3 |
#define LED_PORT PORTD |
#define LED_DDR DDRD |
// interni |
#define SDI_H SDI_PORT |= _BV(SDI) |
#define SDI_L SDI_PORT &= (~(_BV(SDI))) |
#define SDI_INIT SDI_DDR |= _BV(SDI) |
#define FSK_H FSK_PORT |= _BV(FSK) |
#define FSK_L FSK_PORT &= (~(_BV(FSK))) |
#define FSK_INIT FSK_DDR |= _BV(FSK) |
#define SDO_INPUT (SDO_PIN & _BV(SDO)) |
#define SDO_INIT SDO_DDR &= (~(_BV(SDO))) |
#define SCK_H SCK_PORT |= _BV(SCK) |
#define SCK_L SCK_PORT &= (~(_BV(SCK))) |
#define SCK_INIT SCK_DDR |= _BV(SCK) |
#define nIRQ_INPUT (nIRQ_PIN & _BV(nIRQ)) |
#define nIRQ_INIT nIRQ_DDR &= (~(_BV(nIRQ))) |
#define nSEL_H nSEL_PORT |= _BV(nSEL) |
#define nSEL_L nSEL_PORT &= (~(_BV(nSEL))) |
#define nSEL_INIT nSEL_DDR |= _BV(nSEL) |
#define LED_H LED_PORT |= _BV(LED) |
#define LED_L LED_PORT &= (~(_BV(LED))) |
#define LED_INIT LED_DDR |= _BV(LED) |
#define START_FIFO RF_WRITE_CMD(CMD_FIFO|FIFO_8|FIFO_VDI_WORD|FIFO_FF|FIFO_FE) |
#define STOP_FIFO RF_WRITE_CMD(CMD_FIFO) |
//************************************************************************ |
uint8_t rx_buf[16]; |
//************************************************************************ |
void delay_ms(uint16_t time) |
{ |
while(time--) _delay_ms(1); |
} |
void IO_INIT(void) |
{ |
SDI_INIT; |
SDO_INIT; |
SCK_INIT; |
nIRQ_INIT; |
nSEL_INIT; |
FSK_INIT; |
LED_INIT; |
} |
void RF_INIT(void) |
{ |
nSEL_H; |
SDI_H; |
SCK_L; |
nIRQ_INPUT; |
SDO_INPUT; |
FSK_H; |
} |
uint16_t RF_WRITE_CMD(uint16_t cmd) |
{ |
uint8_t i; |
uint16_t temp; |
SCK_L; |
nSEL_L; |
temp=0; |
for (i=0;i<16;i++) |
{ |
if (cmd & 0x8000) SDI_H; |
else SDI_L; |
SCK_H; |
cmd <<= 1; |
temp <<= 1; |
if(SDO_INPUT) temp |= 0x0001; |
SCK_L; |
} |
SCK_L; |
nSEL_H; |
return (temp); |
} |
void RF_WRITE_DATA(uint8_t data) |
{ |
while (nIRQ_INPUT); |
RF_WRITE_CMD(0xB800 + data); |
} |
uint8_t RF_READ_DATA(void) |
{ |
uint8_t i,result; |
while (nIRQ_INPUT); |
SCK_L; |
nSEL_L; |
SDI_L; |
result=0; |
for (i=0;i<24;i++) |
{ |
result <<= 1; |
if (SDO_INPUT) result |= 0x01; |
SCK_H; |
SCK_L; |
} |
nSEL_H; |
return (result); |
} |
void RS232_INIT(void) |
{ |
//set baud rate 9600 8N1 for Fosc 1MHz |
UBRRH = 0; |
UBRRL = 12; |
UCSRB = (1<<RXEN)|(1<<TXEN); //enable RX TX |
UCSRC = (1<<URSEL) |(3<<UCSZ0); //8N1 |
UCSRA |= _BV(U2X); |
} |
void put_rs232(char data) |
{ |
// Wait for empty transmit buffer |
while ( !( UCSRA & (1<<UDRE)) ); |
// Put data into buffer, sends the data |
UDR = data; |
} |
int main() |
{ |
uint8_t i,ChkSum; |
uint8_t LED_TRG; |
uint8_t b; |
IO_INIT(); |
RS232_INIT(); |
RF_INIT(); |
delay_ms(100); |
LED_L; |
LED_TRG=0; |
RF_WRITE_CMD(CMD_SETTING |BAND_868 | C_12pF | BANDWIDTH_67 | SETTING_DC); |
RF_WRITE_CMD(CMD_FREQUENCY |FREQUENCY_868); |
RF_WRITE_CMD(CMD_RATE |RATE_9600); |
RF_WRITE_CMD(CMD_FILTER |FILTER_AL | FILTER_S0 | DQD_4); |
RF_WRITE_CMD(CMD_AFC |AFC_POWER_ON | AFC_RANG_8 | AFC_ST | AFC_OE | AFC_EN); |
RF_WRITE_CMD(CMD_RX); |
RF_WRITE_CMD(CMD_RX |VDI_CLOCK | LNA_GAIN_0 | DRSSI_103 | RX_EN); |
RF_WRITE_CMD(CMD_FIFO); |
while (1) |
{ |
START_FIFO; |
ChkSum = 0; |
for (i=0;i<16;i++) |
{ |
b = RF_READ_DATA(); |
rx_buf[i] = b; |
ChkSum += b; |
} |
b = RF_READ_DATA(); |
RF_READ_DATA(); |
STOP_FIFO; |
for (i=0;i<16;i++) |
{ |
put_rs232(rx_buf[i]); |
delay_ms(2); |
} |
if (ChkSum == b) |
{ |
LED_TRG = ~ LED_TRG; |
put_rs232(' '); |
put_rs232('o'); |
put_rs232('k'); |
} |
else |
{ |
put_rs232('\n'); |
delay_ms(2); |
put_rs232('\r'); |
delay_ms(2); |
put_rs232('e'); |
put_rs232('r'); |
put_rs232('r'); |
} |
if (LED_TRG) LED_H; |
else LED_L; |
} |
return 0; |
} |
/Designs/HOPEwireless/SW_RX_RFM01/atmel/RX_RFM01.hex |
---|
0,0 → 1,34 |
:1000000012C02CC02BC02AC029C028C027C026C0BF |
:1000100025C024C023C022C021C020C01FC01EC0D4 |
:100020001DC01CC01BC011241FBECFE5D4E0DEBF25 |
:10003000CDBF10E0A0E6B0E0E8E0F2E002C005903D |
:100040000D92A036B107D9F710E0A0E6B0E001C0EC |
:100050001D92A037B107E1F760D0D5C0D1CFAC0178 |
:10006000892B59F020E030E08AEF90E00197F1F71A |
:100070002F5F3F4F24173507B9F70895BB9ABC98F7 |
:10008000BD9A8A98BA9AA19A8B9A0895C29AC39AED |
:10009000C59880B386B3A99A0895C598C29840E0E0 |
:1000A00020E030E0992314F4C39A01C0C398C59AA4 |
:1000B000220F331FB4992160C5984F5F403119F06A |
:1000C000880F991FEFCFC598C29AC90108958299E8 |
:1000D000FECF90E080509844E0DF08958299FECFF3 |
:1000E000C598C298C39820E080E0880FB4998160D9 |
:1000F000C59AC5982F5F2831C1F7C29A90E008953C |
:1001000010BC8CE089B988E18AB986E880BD599A2B |
:1001100008955D9BFECF8CB908956F927F929F9258 |
:10012000AF92BF92CF92DF92EF92FF920F931F9305 |
:10013000CF93DF93A3DFE4DFA9DF84E690E08FDFD6 |
:1001400093988DE790E9A9DF80E496EAA6DF83E241 |
:1001500098ECA3DF8CEA94ECA0DF8BE696EC9DDFB5 |
:1001600080E090EC9ADF81E890EC97DF80E09EECF5 |
:1001700094DF99240F2EF0E6AF2EF0E0BF2EF02D85 |
:100180003501CC24DD246894C4F8CA0CDB1C8BE850 |
:100190009EEC83DF8501E301FF24A0DF8993F80E45 |
:1001A000CC15DD05D1F79ADFE82E98DF80E09EECD4 |
:1001B00074DFF80181918F01ACDF82E090E04FDFC6 |
:1001C000C017D107B1F7FE1441F4909480E2A1DF8B |
:1001D0008FE69FDF8BE69DDF10C08AE09ADF82E02A |
:1001E00090E03DDF8DE095DF82E090E038DF85E64E |
:1001F00090DF82E78EDF82E78CDF992011F0939AFF |
:08020000C6CF9398C4CFFFCFD5 |
:00000001FF |
/Designs/HOPEwireless/SW_TX_RFM02/atmel/RFM02.h |
---|
0,0 → 1,82 |
/* mija 2008 |
defines for module RFM02 - TX 868MHz |
*/ |
#define CMD_SETTING 0x8000 // b1, b0, d2..d0, x3..x0, ms, m2..m0 |
#define CMD_POWER 0xC000 // a1, a0, ex, es, ea, eb, et, dc |
#define CMD_POWER_OUT 0xB000 // p2..p0 -3*Pmax dBm |
#define CMD_FREQUENCY 0xA000 // f11..f0 860+F*0.005 MHz 36..3903 |
#define CMD_RATE 0xC800 // r7..r0 BR=10M/29/(R+1) |
#define CMD_WAKE_UP 0xE000 // r4..r0, m7..m0 T=M*2^R [ms] |
#define CMD_SLEEP 0xC400 // s7..s0 S stop CLK |
#define CMD_BATTERY 0xC200 // dwc, ebs , t4..t0 |
#define CMD_STATUS 0xCC00 // for read status |
// CMD_SETTING |
#define BAND_315 0x0000 |
#define BAND_433 0x800 |
#define BAND_868 0x1000 |
#define BADN_915 0x1800 |
#define C_8_5pF 0x00 |
#define C_9pF 0x10 |
#define C_9_5pF 0x20 |
#define C_10pF 0x30 |
#define C_10_5pF 0x40 |
#define C_11pF 0x50 |
#define C_11_5pF 0x60 |
#define C_12pF 0x70 |
#define C_12_5pF 0x80 |
#define C_13pF 0x90 |
#define C_13_5pF 0xA0 |
#define C_14pF 0xB0 |
#define C_14_5pF 0xC0 |
#define C_15pF 0xD0 |
#define C_15_5pF 0xE0 |
#define C_16pF 0xF0 |
#define SETTING_MS 0x08 // modulation polarity |
#define TX_DEV_30 0x00 // select frequency deviation |
#define TX_DEV_60 0x01 |
#define TX_DEV_90 0x02 |
#define TX_DEV_120 0x03 |
#define TX_DEV_150 0x04 |
#define TX_DEV_180 0x05 |
#define TX_DEV_210 0x06 |
// CMD_POWER |
#define POWER_A1 0x80 // enable crystal and syntheesizer by sleep |
#define POWER_A0 0x40 // enable PA by sleep |
#define POWER_EX 0x20 // enable transmitter |
#define POWER_ES 0x10 // enable synthesizer |
#define POWER_EA 0x08 // enable PA (power amplifier) |
#define POWER_EB 0x04 // enable low battery detector |
#define POWER_ET 0x02 // enable wake up timer |
#define POWER_DC 0x01 // disable clock output of CLK pin |
// CMD_POWER_OUT |
#define POWER_OUT_0 0xB000 // -0dBm |
#define POWER_OUT_3 0xB100 // -3dBm |
#define POWER_OUT_6 0xB200 // -6dBm |
#define POWER_OUT_9 0xB300 // -9dBm |
#define POWER_OUT_12 0xB400 // -12dBm |
#define POWER_OUT_15 0xB500 // -15dBm |
#define POWER_OUT_18 0xB600 // -18dBm |
#define POWER_OUT_21 0xB700 // -21dBm |
// CMD_FREQUENCY |
#define FREQUENCY_867 0x578 |
#define FREQUENCY_868 0x640 |
#define FREQUENCY_869 0x708 |
// CMD_RATE |
#define RATE_2400 0x8F |
#define RATE_4800 0x47 |
#define RATE_9600 0x23 |
#define RATE_19200 0x11 |
#define RATE_38400 0x8 |
#define RATE_57600 0x5 |
#define RATE_115200 0x2 |
// CMD_BATTERY |
#define WAKE_UP_DWC 0x80 // disable wake-up timer periodical calibration |
#define TX_EBS 0x20 // enable TX bit synchronization function |
/Designs/HOPEwireless/SW_TX_RFM02/atmel/TX_RFM02.c |
---|
0,0 → 1,197 |
/* mija 2008 |
demo for RFM02 - TX 868MHz |
CPU ATMEGA16 |
fcpu = 1MHz |
!! define PIN,PORT,DDR for IOpin !! |
tested with module RFM12B RX 9600 BW 134kHz |
*/ |
#include <avr/io.h> |
#include <util/delay.h> |
#include "RFM02.h" |
//************************************************************************ |
#define SDI PB3 |
#define SDI_PORT PORTB |
#define SDI_DDR DDRB |
#define FSK PC1 |
#define FSK_PORT PORTC |
#define FSK_DDR DDRC |
#define SDO PB4 // input for mega |
#define SDO_PORT PORTB |
#define SDO_DDR DDRB |
#define SDO_PIN PINB |
#define SCK PB5 |
#define SCK_PORT PORTB |
#define SCK_DDR DDRB |
#define nIRQ PD2 // input for mega |
#define nIRQ_PORT PORTD |
#define nIRQ_DDR DDRD |
#define nIRQ_PIN PIND |
#define nSEL PB2 |
#define nSEL_PORT PORTB |
#define nSEL_DDR DDRB |
#define LED PC3 |
#define LED_PORT PORTC |
#define LED_DDR DDRC |
// interni |
#define SDI_H SDI_PORT |= _BV(SDI) |
#define SDI_L SDI_PORT &= (~(_BV(SDI))) |
#define SDI_INIT SDI_DDR |= _BV(SDI) |
#define FSK_H FSK_PORT |= _BV(FSK) |
#define FSK_L FSK_PORT &= (~(_BV(FSK))) |
#define FSK_INIT FSK_DDR |= _BV(FSK) |
#define SDO_INPUT (SDO_PIN & _BV(SDO)) |
#define SDO_INIT SDO_DDR &= (~(_BV(SDO))) |
#define SCK_H SCK_PORT |= _BV(SCK) |
#define SCK_L SCK_PORT &= (~(_BV(SCK))) |
#define SCK_INIT SCK_DDR |= _BV(SCK) |
#define nIRQ_INPUT (nIRQ_PIN & _BV(nIRQ)) |
#define nIRQ_INIT nIRQ_DDR &= (~(_BV(nIRQ))) |
#define nSEL_H nSEL_PORT |= _BV(nSEL) |
#define nSEL_L nSEL_PORT &= (~(_BV(nSEL))) |
#define nSEL_INIT nSEL_DDR |= _BV(nSEL) |
#define LED_H LED_PORT |= _BV(LED) |
#define LED_L LED_PORT &= (~(_BV(LED))) |
#define LED_INIT LED_DDR |= _BV(LED) |
#define START_TX RF_WRITE_CMD(CMD_POWER|POWER_EX|POWER_ES|POWER_EA|POWER_DC) |
#define STOP_TX RF_WRITE_CMD(CMD_POWER|POWER_DC) |
//************************************************************************ |
//uint8_t test[16]={0x30,0x31,0x32,0x33,0x34,0x35,0x36,0x37,0x38,0x39,0x3a,0x03b,0x3c,0x3d,0x3e,0x3f}; |
uint8_t test[17]="\n\rATmega16\n\r ---"; |
//uint8_t test[16]="0123456789abcdef"; |
//************************************************************************ |
void delay_ms(uint16_t time) |
{ |
while(time--) _delay_ms(1); |
} |
void IO_INIT(void) |
{ |
SDI_INIT; |
SDO_INIT; |
SCK_INIT; |
nIRQ_INIT; |
nSEL_INIT; |
FSK_INIT; |
LED_INIT; |
} |
void RF_INIT(void) |
{ |
nSEL_H; |
SDI_H; |
SCK_L; |
nIRQ_INPUT; |
SDO_INPUT; |
FSK_H; |
} |
void RF_WRITE_CMD(uint16_t cmd) |
{ |
uint8_t i; |
SCK_L; |
nSEL_L; |
for (i=0;i<16;i++) |
{ |
SCK_L; |
SCK_L; |
if (cmd & 0x8000) SDI_H; |
else SDI_L; |
SCK_H; |
SCK_H; |
cmd <<= 1; |
} |
SCK_L; |
nSEL_H; |
} |
void RF_WRITE_DATA(uint8_t data) |
{ |
uint8_t i; |
for (i=0;i<8;i++) |
{ |
while (nIRQ_INPUT); |
while (!nIRQ_INPUT); |
if (data & 0x80)FSK_H; |
else FSK_L; |
data <<= 1; |
} |
} |
int main() |
{ |
uint8_t i,j,ChkSum; |
IO_INIT(); |
RF_INIT(); |
LED_H; |
delay_ms(100); |
RF_WRITE_CMD(CMD_STATUS); |
RF_WRITE_CMD(CMD_SETTING |BAND_868 |C_12pF |TX_DEV_90); |
RF_WRITE_CMD(CMD_FREQUENCY |FREQUENCY_868); |
RF_WRITE_CMD(0xD040); |
RF_WRITE_CMD(CMD_RATE |RATE_19200); |
RF_WRITE_CMD(CMD_BATTERY |TX_EBS); |
RF_WRITE_CMD(CMD_POWER |POWER_DC); |
RF_WRITE_CMD(POWER_OUT_0); |
j= 0; |
while (1) |
{ |
LED_H; |
START_TX; |
ChkSum = 0; |
for (i=0;i<3;i++) RF_WRITE_DATA(0xAA); |
RF_WRITE_DATA(0x2D); |
RF_WRITE_DATA(0xD4); |
for (i=0;i<16;i++) |
{ |
RF_WRITE_DATA(test[i]); |
ChkSum += test[i]; |
} |
RF_WRITE_DATA(ChkSum); |
RF_WRITE_DATA(0xAA); |
RF_WRITE_DATA(0xAA); |
STOP_TX; |
LED_L; |
delay_ms(500); |
j++; |
test[13]=(j/100)+0x30; |
test[14]=((j%100)/10)+0x30; |
test[15]=((j%100)%10)+0x30; |
} |
return 0; |
} |
/Designs/HOPEwireless/SW_TX_RFM02/atmel/TX_RFM02.hex |
---|
0,0 → 1,39 |
:100000000C942A000C9447000C9447000C94470071 |
:100010000C9447000C9447000C9447000C94470044 |
:100020000C9447000C9447000C9447000C94470034 |
:100030000C9447000C9447000C9447000C94470024 |
:100040000C9447000C9447000C9447000C94470014 |
:100050000C94470011241FBECFE5D4E0DEBFCDBF16 |
:1000600010E0A0E6B0E0EEE3F2E002C005900D92F1 |
:10007000A237B107D9F710E0A2E7B0E001C01D92A6 |
:10008000A237B107E1F70E948C000C941E010C947A |
:100090000000AC01892B59F020E030E08AEF90E0BD |
:1000A0000197F1F72F5F3F4F24173507B9F70895F0 |
:1000B000BB9ABC98BD9A8A98BA9AA19AA39A0895B5 |
:1000C000C29AC39AC59880B386B3A99A0895C59871 |
:1000D000C29820E0C598C598992314F4C39A01C02A |
:1000E000C398C59AC59A2F5F203119F0880F991FC0 |
:1000F000F1CFC598C29A089590E08299FECF829B75 |
:10010000FECF882314F4A99A01C0A9989F5F983064 |
:1001100010F4880FF2CF0895CF92DF92EF92FF9202 |
:100120000F931F93CF93DF930E9458000E946000AB |
:10013000AB9A84E690E00E94490080E09CEC0E942B |
:10014000670082E790E90E94670080E496EA0E94D7 |
:10015000670080E490ED0E94670081E198EC0E94C6 |
:10016000670080E292EC0E94670081E090EC0E94C0 |
:10017000670080E090EB0E94670000E00F2EF0E641 |
:10018000CF2EF0E0DF2EF02DEE24FF246894E4F86B |
:10019000EC0CFD1CAB9A89E390EC0E94670010E028 |
:1001A0008AEA0E947C001F5F1330D1F78DE20E9423 |
:1001B0007C0084ED0E947C00E60110E088810E94B2 |
:1001C0007C008991180FCE15DF05C1F7812F0E94A1 |
:1001D0007C008AEA0E947C008AEA0E947C0081E01E |
:1001E00090EC0E946700AB9884EF91E00E94490078 |
:1001F0000F5F802F64E60E941201805D80936D0086 |
:10020000802F0E941201292F892F6AE00E9412017B |
:10021000805D80936E00822F0E941201905D90930A |
:100220006F00B8CF991B79E004C0991F961708F0AA |
:0E023000961B881F7A95C9F780950895FFCF19 |
:10023E000A0D41546D65676131360A0D202D2D2D45 |
:02024E000000AE |
:00000001FF |