Yujing Qian
//EE 202 hm2 //This is a program built for the mbed1(master mbed) in generation mode //This code has been tested and should be function, if you has any problem, //please mail me.
Fork of
202hm2_master
by 
Yujing Qian
main.cpp
- Committer:
- allonq
- Date:
- 2014-03-16
- Revision:
- 3:5149e55c21e3
- Parent:
- 2:1c7e1110ac61
File content as of revision 3:5149e55c21e3:
//EE 202 hm2
//This is a program built for the mbed1(master mbed) in generation mode
//This code has been tested and should be function, if you has any problem,
//please mail me.
//Author: Yujing Qian
//y.qian42@gmail.com
#include "mbed.h"
#define mod 0x0000bb80
#define duty_cycle 0.5
#define high_cycle mod*duty_cycle
#define low_cycle mod-high_cycle
#define buffer_size 9
#define BBBbuff_size 30
DigitalOut LED(LED_RED);
DigitalOut out(PTD4);
Serial uart_bbb(PTE16,PTE17);
Serial uart(PTE0, PTE1);
Serial pc(USBTX,USBRX);
int loop_num=0;
int per_num=0;
int Period=500;
int state=0;
uint32_t T1=0;
uint32_t T2=0;
uint32_t T3=0;
uint32_t T4=0;
bool flag=false;
int syc_f=2;
int syc_interval=1000/syc_f;
uint32_t syc_cnt=0;
uint32_t Mod=mod;
char BBBbuffer[BBBbuff_size];
bool cmd_received=false;
int BBBbuff=0;
char buffer[4];
int buff=0;
uint32_t TIME(){return per_num*Period*48000+loop_num*48000+(TPM0->CNT);}
void receive_handler(){
while( pc.readable() && BBBbuff<BBBbuff_size){
BBBbuffer[BBBbuff] =pc.getc();
pc.putc(BBBbuffer[BBBbuff]);
//pc.printf(& rx_buffer[buff]);
if (BBBbuffer[BBBbuff] == '#'){
BBBbuffer[BBBbuff] = '\0';
cmd_received=true;
BBBbuff++;
pc.printf("cmd received\n");
break;
}
BBBbuff++;
}
return;
}
void TPM1_IRQHandler(void);
uint32_t calculate_delay(){// calculate delay using hand shake
T1=TIME();
uart.putc('a');
uart.getc();
T4=TIME();
return (T4-T1)/2;
}
void Syc(uint32_t delay){
//pc.printf("delay=%d\n",delay);
TPM1->MOD=delay;
TPM1->CNT=0x0;
//loop_num=0;
TPM1->SC=0x000000c8;
NVIC_EnableIRQ(TPM1_IRQn);
// open tpm1
uart.putc(0);//send signal to slave
}
void synchronize(uint32_t Cmd_per){
char* tmp=(char*)&Cmd_per;
uart.getc();
//pc.printf("TFS love xuemei");
uart.putc((*tmp));//pc.printf("0=%d\n",*tmp);
uart.getc();
uart.putc((*(tmp+1)));//pc.printf("1=%d\n",(*(tmp+1)));
uart.getc();
uart.putc((*(tmp+2)));//pc.printf("2=%d\n",(*(tmp+2)));
uart.getc();
uart.putc((*(tmp+3)));//pc.printf("3=%d\n",(*(tmp+3)));
uart.getc();//clear the buffer
Period=Cmd_per;
Syc(calculate_delay());
loop_num=0;//clear clock
}
void TPM0_IRQHandler(void){
loop_num++;
if(loop_num==Period){
out=!out;
LED=!LED;
per_num++;
loop_num=0;
}
TPM0->SC|= 0x000000c8;
return;
}
void TPM1_IRQHandler(void){// time to restart the system
LED=1;
//TPM0->SC= 0x000000c8;
TPM0->CNT=0x0;
TPM1->CNT=0x0;
//pc.printf("SC=%d",TPM1->SC);
TPM1->SC= 0x00000080;
//TPM1->SC= 0x00000000;
//pc.printf("SC_after=%d\n",TPM1->SC);
//pc.printf("Tic-Toc\n");
NVIC_DisableIRQ(TPM1_IRQn);
//NVIC_ClearPendingIRQ(TPM1_IRQn);
//flag=true;
//pc.printf("Tic-Toc\n");
return;
}
void Initial(){
Period=1000;
LED=1;
out=0;
SIM->SOPT2=0x05000000;
SIM->SCGC6=0x03000000;//enable TPM 0,1
TPM0->SC=0x0;
TPM0->CNT=0x0;
TPM0->SC=0x00000040;
TPM0->MOD=0x0000bb80;
TPM0->SC=0x00000048;//0008
TPM1->CNT=0x0;
TPM1->SC=0x00000040;
TPM1->MOD=0x0000ffff;
TPM1->SC=0x00000008;//0008
}
int main() {
loop_num=0;
cmd_received=false;
pc.attach(&receive_handler);
int CMD_Per=0;
Initial();
pc.baud(9600);
pc.attach(&receive_handler);
uart.baud(9600);
pc.baud(9600);
NVIC_SetVector(TPM0_IRQn, (uint32_t)&TPM0_IRQHandler);
NVIC_SetPriority(TPM0_IRQn, 1);
NVIC_EnableIRQ(TPM0_IRQn);
NVIC_SetVector(TPM1_IRQn, (uint32_t)&TPM1_IRQHandler);
NVIC_SetPriority(TPM1_IRQn, 0);
NVIC_EnableIRQ(TPM1_IRQn);
//wait(5);
//pc.printf("Initial done\n");
pc.printf("please enter T(in us)...\n");
//Syc(2000000);
//Syc(48000);
while(1){
if(cmd_received){
pc.printf(BBBbuffer);
for(int i=0;i<BBBbuff-1;i++){
CMD_Per*=10;
CMD_Per+=(BBBbuffer[i]-'0');
}
cmd_received=false;
BBBbuff=0;
Period=CMD_Per;
uart.putc('#');
synchronize(CMD_Per);
CMD_Per=0;
}
}
}