Dheeraj M Pai
ADF7023
main.cpp
- Committer:
- dheerajmpai23
- Date:
- 2015-07-09
- Revision:
- 1:700c4c6067ab
- Parent:
- 0:314c556411b3
File content as of revision 1:700c4c6067ab:
#include "mbed.h"
#include <iostream>
using namespace std;
#include <bitset>
#define ENDL "\r" << endl;
#define START_ADDRESS 0x020;
//SPI
SPI adf(PTD6, PTD7, PTD5);
//MOSI, MISO, CLOCK
DigitalOut CS(D10);
Serial PC(USBTX, USBRX);
DigitalOut ledr(LED_RED);
#define SPI_NOP 0xFF
enum con_type{ packet=0x18, bbram=0x19, mcr=0x1B, program=0x1E };
enum discon_type{ packet2=0x08, bbram2=0x09, mcr2=0x0B };
enum discon_type_RD{ packet3=0x28, bbram3=0x29, mcr3=0x2B };
void write_con(con_type ram, uint8_t address, uint8_t *data, int length){
int *response = new int[length];
CS = 0;
// ignore recevived data
adf.write( ram );
// write start address
int r = adf.write( address );
// write data
for(int i = 0 ; i < length ; ++i){
response[i] = adf.write( data[i] );
}
CS = 1;
cout << r << ENDL;
for(int i = 0 ; i < length ; ++i){
cout << response[i] << " ";
}
cout << ENDL;
}
void write_discon(discon_type ram, uint8_t *address, uint8_t *data, int length){
int *response1 = new int[length];
int *response2 = new int[length];
CS = 0;
// ignore recevived data
adf.write( ram );
for(int i = 0 ; i < length ; ++i){
// address[7:0] next 8 bits
response1[i] = adf.write( address[i] );
// data next 8 bits
response2[i] = adf.write( data[i] );
}
CS = 1;
for(int i = 0 ; i < length ; ++i){
cout << response1[i] << "\t" << response2[i] << ENDL;
}
}
int read_discon(discon_type_RD ram, uint8_t address){
CS = 0;
// ignore the reply
adf.write( ram );
int stat1 = adf.write( address );
int stat2 = adf.write( SPI_NOP );
int reply = adf.write( SPI_NOP );
CS = 1;
return reply;
}
void write_bbram_sequence(void){
adf.write(0x19);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x33);
adf.write(0x00);
adf.write(0xF4);
adf.write(0xC2);
adf.write(0x10);
adf.write(0xC0);
adf.write(0x00);
adf.write(0x30);
adf.write(0x31);
adf.write(0x07);
adf.write(0x00);
adf.write(0x01);
adf.write(0x00);
adf.write(0x7F);
adf.write(0x00);
adf.write(0x0B);
adf.write(0x37);
adf.write(0x00);
adf.write(0x00);
adf.write(0x40);
adf.write(0x0C);
adf.write(0x00);
adf.write(0x05);
adf.write(0x00);
adf.write(0x00);
adf.write(0x18);
adf.write(0x12);
adf.write(0x34);
adf.write(0x56);
adf.write(0x10);
adf.write(0x10);
adf.write(0x08);
adf.write(0x14);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x04);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
adf.write(0x00);
}
void initiate(void){
CS=0;
adf.write(0xB0);
CS=1;
wait_ms(2);
CS=0;
adf.write(0x1BFAA1);
// adf.write(0xFA);
// adf.write(0xA1);
CS=1;
wait_ms(2);
CS=0;
adf.write(0x180D00);
// adf.write(0x0D);
// adf.write(0x00);
CS=1;
wait_ms(2);
//
CS=0;
write_bbram_sequence();
CS=1;
wait_ms(500);
// cout<<"Please write BBRAM SEquence Fast"<<ENDL;
// wait(45);
cout<<"i HOPE BBRAM_SEQUENCE WRITTEN"<<ENDL;
wait(5);
CS=0;
adf.write(0xBB);//CONFIGURE_DEV
CS=1;
wait_ms(2);
cout<<"CONFIG_DEV"<<ENDL;
CS=0;
adf.write(0xB1);//PHY_ON
CS=1;
wait_ms(2);
CS=0;
adf.write(0xB5);//PHY_TX
CS=1;
wait_ms(2);
cout<<"PHY_TX"<<ENDL;
}
int main(){
CS = 1;
adf.format(8,0);
adf.frequency( 1000000 );
cout << "Press s" << ENDL;
ledr = 1;
char c = 'a';
while( c != 's'){
c = PC.getc();
PC.putc(c);
}
ledr = 0;
initiate();
}