pradeep shekhar
Code used earlier for testing the peak power output
main.cpp
- Committer:
- shekhar
- Date:
- 2015-10-26
- Revision:
- 0:8e29aadf305d
File content as of revision 0:8e29aadf305d:
#include "beacon.h"
Serial pc(USBTX, USBRX); // tx, rx
SPI spi(D11, D12, D13); // mosi, miso, sclk
DigitalOut cs(D10); //slave select or chip select
void writereg(uint8_t reg,uint8_t val)
{
cs = 0;__disable_irq();spi.write(reg | 0x80);spi.write(val);__enable_irq();cs = 1;
}
uint8_t readreg(uint8_t reg)
{
int val;cs = 0;__disable_irq();spi.write(reg & ~0x80);val = spi.write(0);__enable_irq();cs = 1;return val;
}
void clearTxBuf()
{
writereg(RF22_REG_08_OPERATING_MODE2,0x01);
writereg(RF22_REG_08_OPERATING_MODE2,0x00);
}
void clearRxBuf()
{
writereg(RF22_REG_08_OPERATING_MODE2,0x02);
writereg(RF22_REG_08_OPERATING_MODE2,0x00);
}
int setFrequency(float centre,float afcPullInRange)
{
//freq setting begins
uint8_t fbsel = 0x40;
uint8_t afclimiter;
if (centre >= 480.0) {
centre /= 2;
fbsel |= 0x20;
afclimiter = afcPullInRange * 1000000.0 / 1250.0;
} else {
if (afcPullInRange < 0.0 || afcPullInRange > 0.159375)
return false;
afclimiter = afcPullInRange * 1000000.0 / 625.0;
}
centre /= 10.0;
float integerPart = floor(centre);
float fractionalPart = centre - integerPart;
uint8_t fb = (uint8_t)integerPart - 24; // Range 0 to 23
fbsel |= fb;
uint16_t fc = fractionalPart * 64000;
writereg(RF22_REG_73_FREQUENCY_OFFSET1, 0); // REVISIT
writereg(RF22_REG_74_FREQUENCY_OFFSET2, 0);
writereg(RF22_REG_75_FREQUENCY_BAND_SELECT, fbsel);
writereg(RF22_REG_76_NOMINAL_CARRIER_FREQUENCY1, fc >> 8);
writereg(RF22_REG_77_NOMINAL_CARRIER_FREQUENCY0, fc & 0xff);
writereg(RF22_REG_2A_AFC_LIMITER, afclimiter);
return 0;
}
void init()
{
//reset()
writereg(RF22_REG_07_OPERATING_MODE1,0x80); //sw_reset
wait(1); //takes time to reset
clearTxBuf();
clearRxBuf();
//txfifoalmostempty
writereg(RF22_REG_7D_TX_FIFO_CONTROL2,5);
//rxfifoalmostfull
writereg(RF22_REG_7E_RX_FIFO_CONTROL,20);
//Packet-engine registers
writereg(RF22_REG_30_DATA_ACCESS_CONTROL,0x8E); //RF22_REG_30_DATA_ACCESS_CONTROL, RF22_ENPACRX | RF22_ENPACTX | RF22_ENCRC | RF22_CRC_CRC_16_IBM
//&0x77 = diasable packet rx-tx handling
writereg(RF22_REG_32_HEADER_CONTROL1,0x88); //RF22_REG_32_HEADER_CONTROL1, RF22_BCEN_HEADER3 | RF22_HDCH_HEADER3
writereg(RF22_REG_33_HEADER_CONTROL2,0x42); //RF22_REG_33_HEADER_CONTROL2, RF22_HDLEN_4 | RF22_SYNCLEN_2
writereg(RF22_REG_34_PREAMBLE_LENGTH,8); //RF22_REG_34_PREAMBLE_LENGTH, nibbles); preamble length = 8;
writereg(RF22_REG_36_SYNC_WORD3,0x2D); //syncword3=2D
writereg(RF22_REG_37_SYNC_WORD2,0xD4); //syncword2=D4
writereg(RF22_REG_3F_CHECK_HEADER3,0); //RF22_REG_3F_CHECK_HEADER3, RF22_DEFAULT_NODE_ADDRESS
writereg(RF22_REG_3A_TRANSMIT_HEADER3,0xab); //header_to
writereg(RF22_REG_3B_TRANSMIT_HEADER2,0xbc); //header_from
writereg(RF22_REG_3C_TRANSMIT_HEADER1,0xcd); //header_ids
writereg(RF22_REG_3D_TRANSMIT_HEADER0,0xde); //header_flags
writereg(RF22_REG_3F_CHECK_HEADER3,0xab);
writereg(RF22_REG_40_CHECK_HEADER2,0xbc);
writereg(RF22_REG_41_CHECK_HEADER1,0xcd);
writereg(RF22_REG_42_CHECK_HEADER0,0xde);
//RSSI threshold for clear channel indicator
writereg(RF22_REG_27_RSSI_THRESHOLD,0xA5); //55 for -80dBm, 2D for -100dBm, 7D for -60dBm, A5 for -40dBm, CD for -20 dBm
writereg(RF22_REG_0B_GPIO_CONFIGURATION0,0x15); // TX state ??
writereg(RF22_REG_0C_GPIO_CONFIGURATION1,0x12); // RX state ??
//interrupts
// spiWrite(RF22_REG_05_INTERRUPT_ENABLE1, RF22_ENTXFFAEM |RF22_ENRXFFAFULL | RF22_ENPKSENT |RF22_ENPKVALID| RF22_ENCRCERROR);
// spiWrite(RF22_REG_06_INTERRUPT_ENABLE2, RF22_ENPREAVAL);
setFrequency(435.0, 0.05);
//return !(statusRead() & RF22_FREQERR);
if((readreg(RF22_REG_02_DEVICE_STATUS)& 0x08)!= 0x00)
pc.printf("frequency not set properly\n");
//frequency set
//setModemConfig(FSK_Rb2_4Fd36); FSK_Rb2_4Fd36, ///< FSK, No Manchester, Rb = 2.4kbs, Fd = 36kHz
//setmodemregisters
//0x1b, 0x03, 0x41, 0x60, 0x27, 0x52, 0x00, 0x07, 0x40, 0x0a, 0x1e, 0x80, 0x60, 0x13, 0xa9, 0x2c, 0x22, 0x3a = FSK_RB2_4FD36
//0xc8, 0x03, 0x39, 0x20, 0x68, 0xdc, 0x00, 0x6b, 0x2a, 0x08, 0x2a, 0x80, 0x60, 0x13, 0xa9, 0x2c, 0x21, 0x08 = OOK,2.4, 335
/* writereg(RF22_REG_1C_IF_FILTER_BANDWIDTH,0x2B);
writereg(RF22_REG_1F_CLOCK_RECOVERY_GEARSHIFT_OVERRIDE,0x03);
writereg(RF22_REG_20_CLOCK_RECOVERY_OVERSAMPLING_RATE,0x41);
writereg(RF22_REG_21_CLOCK_RECOVERY_OFFSET2,0x60);
writereg(RF22_REG_22_CLOCK_RECOVERY_OFFSET1,0x27); //updated 20 to 25 reg values from excel sheet for 1.2 Khz freq. deviation,fsk
writereg(RF22_REG_23_CLOCK_RECOVERY_OFFSET0,0x52);
writereg(RF22_REG_24_CLOCK_RECOVERY_TIMING_LOOP_GAIN1,0x00);
writereg(RF22_REG_25_CLOCK_RECOVERY_TIMING_LOOP_GAIN0,0x99);
/*writereg(RF22_REG_2C_OOK_COUNTER_VALUE_1,0x2a);
writereg(RF22_REG_2D_OOK_COUNTER_VALUE_2,0x08);*/ //not required for fsk (OOK counter value)
/* writereg(RF22_REG_1D_AFC_LOOP_GEARSHIFT_OVERRIDE,0x40);
writereg(RF22_REG_1E_AFC_TIMING_CONTROL,0x0A);
writereg(RF22_REG_2E_SLICER_PEAK_HOLD,0x1e); //??
writereg(RF22_REG_58,0x80);
writereg(RF22_REG_69_AGC_OVERRIDE1,0x60);
writereg(RF22_REG_6E_TX_DATA_RATE1,0x09);
writereg(RF22_REG_6F_TX_DATA_RATE0,0xd5);
writereg(RF22_REG_70_MODULATION_CONTROL1,0x2c);
writereg(RF22_REG_71_MODULATION_CONTROL2,0x22);//ook = 0x21 //fsk = 0x22
writereg(RF22_REG_72_FREQUENCY_DEVIATION,0x01);*/
writereg(RF22_REG_1C_IF_FILTER_BANDWIDTH,0x2B);
writereg(RF22_REG_1F_CLOCK_RECOVERY_GEARSHIFT_OVERRIDE,0x03);
writereg(RF22_REG_20_CLOCK_RECOVERY_OVERSAMPLING_RATE,0x83);
writereg(RF22_REG_21_CLOCK_RECOVERY_OFFSET2,0xC0);
writereg(RF22_REG_22_CLOCK_RECOVERY_OFFSET1,0x13); //updated 20 to 25 reg values from excel sheet for 1.2 Khz freq. deviation,fsk
writereg(RF22_REG_23_CLOCK_RECOVERY_OFFSET0,0xA9);
writereg(RF22_REG_24_CLOCK_RECOVERY_TIMING_LOOP_GAIN1,0x00);
writereg(RF22_REG_25_CLOCK_RECOVERY_TIMING_LOOP_GAIN0,0x28);
/*writereg(RF22_REG_2C_OOK_COUNTER_VALUE_1,0x2a);
writereg(RF22_REG_2D_OOK_COUNTER_VALUE_2,0x08);*/ //not required for fsk (OOK counter value)
writereg(RF22_REG_1D_AFC_LOOP_GEARSHIFT_OVERRIDE,0x40);
writereg(RF22_REG_1E_AFC_TIMING_CONTROL,0x0A);
writereg(RF22_REG_2E_SLICER_PEAK_HOLD,0x1e); //??
writereg(RF22_REG_58,0x80);
writereg(RF22_REG_69_AGC_OVERRIDE1,0x60);
writereg(RF22_REG_6E_TX_DATA_RATE1,0x04);
writereg(RF22_REG_6F_TX_DATA_RATE0,0xEA);
writereg(RF22_REG_70_MODULATION_CONTROL1,0x20);
writereg(RF22_REG_71_MODULATION_CONTROL2,0x22);//ook = 0x21 //fsk = 0x22
writereg(RF22_REG_72_FREQUENCY_DEVIATION,0x01);
//set tx power
writereg(RF22_REG_6D_TX_POWER,0x07); //20dbm
writereg(RF22_REG_3E_PACKET_LENGTH,TX_DATA); //packet length
}
int main()
{
wait(1); // wait for POR to complete //change the timing later
cs=1; // chip must be deselected
wait(1); //change the time later
spi.format(8,0);
spi.frequency(10000000); //10MHz SCLK
if (readreg(RF22_REG_00_DEVICE_TYPE) == 0x08) pc.printf("spi connection valid\n");
else pc.printf("error in spi connection\n");
init();
//init complete
pc.printf("init complete.....press t to send\n");
//********
while(1)//pc.getc()=='t') //1
{
/*uint8_t data[] = "Hello World!";
pc.printf("%d %d %d %d %d %d %d %d %d %d %d %d",data[0],data[1],data[2],data[3],data[4],data[5],data[6],data[7],data[8],data[9],data[10],data[11],data[12]);*/
uint8_t data[255]; //starts from 0,1,2,3,4!!!;
int i = 0; //for loops
int u = 0; //universal count for hk array
int bar = 0;
//filling hk data
/* for(int n=0; n<1; n++)
data[n] = 0xAA;
data[1] = 0x3A;
for(int n=0; n<60; n++)
data[n] = 0x5A;
for(int n=2; n<60; n++)
data[n] = n;
for(int n=60; n<75; n++)
data[n] = 0xCC;
for(int n=75; n<95; n++)
data[n] = 0xBC;
for(int n=95; n<110; n++)
data[n] = 0xEC;
for(int n=110; n<120; n++)
data[n] = 0xFC;
for(int n=120; n<150; n++)
data[n] = 0xAF;*/
for(int n=0; n<TX_DATA; n++)
data[n] = 0xFF;
//tx settings begin
//setModeIdle();
writereg(RF22_REG_07_OPERATING_MODE1,0x01); //ready mode
//fillTxBuf(data, len);
clearTxBuf();
//Filling Data into FIFO for the first time
cs = 0;
spi.write(0xFF); //fifo write access
for(i=0; i< 20; i++) { //datalen; i++){
spi.write(data[i]);
pc.printf("0x%X \n",data[u+i]);
}
u=i;//check its 64
cs = 1;
//Set to Tx mode
writereg(RF22_REG_07_OPERATING_MODE1,0x09);
//Check for fifoempty Thresh
while((readreg(RF22_REG_03_INTERRUPT_STATUS1) & 0x20) != 0x20);
while(u!=TX_DATA) {
if((TX_DATA - u) >= TIMES)
bar = TIMES;
else
bar = (TX_DATA - u);
//writing again
cs = 0;
spi.write(0xFF); //FIFO write access
for(i=0; i<bar; i++){
spi.write(data[u + i]);
pc.printf("0x%X \n",data[u+i]);
}
u = u + i;
cs = 1;
//Check for fifoThresh
while((readreg(RF22_REG_03_INTERRUPT_STATUS1) & 0x20) != 0x20);
}
//rf22.waitPacketSent();
while((readreg(RF22_REG_03_INTERRUPT_STATUS1) & 0x04) != 0x04)pc.printf(" chck pkt sent!\n");
pc.printf(" packet sent ");
}
}