智能车制作

标题: 求红外线传感器的程序 [打印本页]

作者: sjb3345514 时间: 2010-12-17 21:00
标题: 求红外线传感器的程序
如题

作者: 821316166 时间: 2011-1-18 11:47
#include <hidef.h>    /* common defines and macros */
#include <MC9S12XS128.h>    /* derivative information */
#pragma LINK_INFO DERIVATIVE "mc9s12xs128"

//static unsigned char direction_turn[12]={888,1098,1208,1328,1481,1612,1730,1856,1988,2100,2222,2368};
//Chapter 12
//Periodic Interrupt Timer (S12PIT24B4CV1) Page349
//The PIT module has no external pins.
//PIT 模式没有外部引脚
//========================================================================================

unsigned char light=0;  //激光管检测标志
unsigned short turn_value=0;  //转向的PWM数值
unsigned short direction_turn[7]={333,430,560,647,705,780,888}; //转向给定值初始化
short speed_set[7]={250,300,350,400,350,300,250}; //速度给定值
short speed_flag=0; //速度档位标志位
short speed[3]={0,0,0};  //速度检测函数
short pulse_count=0;    //编码器脉冲计数值
short speed_expect=0; //理想速度
short kp=2; //比例环节
short ki=0; //积分环节
short kd=1; //微分环节
short ek1=0; //误差1
short ek2=0; //误差2
short ek3=0; //误差3
short speed_add=0; //速度增量

//=======================================================================================

void PLL_Init() //时钟初始化
{

REFDV=0x81;                   /* PLLCLK=2*OSCCLK*(SYNR+1)/(REFDV+1)*/
SYNR=2;                   /* 锁相环时钟=2*16*(2+1)/(1+1)=48MHZ */
while(!(CRGFLG&0x08));    /* 总线时钟=48/2=24MHZ */
CLKSEL=0x80;

}
void PWM_Init() //PWM初始化
{

PWME=0x00;       //关闭PWM使能
PWMPRCLK=0x66;    //A,B时钟均为总线的64分频,375KHZ
//PWMSCLA=0x01;    //clockSA=clockA/(2*PWMSCLA) = 1500KHZ
//PWMSCLB=0X01;    //clockSB=clockB/(2*PWMSCLB) =1500KHZ
PWMCLK=0x00;
PWMPOL=0xFF;    //PWM输出起始电平为高电平
PWMCAE=0x00;    //输出左对齐
PWMCTL=0xf0;    //通道01，23，45，67级联

PWMPER01=5999; //舵机频率为62.5Hz
PWMDTY01=647;    //占空比a=（PWMDTY01+1）/(PWMPER01+1)

PWMPER23=1000;    //PWM通道3周期为375HZ
PWMDTY23=0;       //占空比a=（PWMDTY01+1）/(PWMPER01+1)占空比50% ~~ 150

PWMPER45=1000;    //PWM通道5周期为0.10ms 10KZH 300=0.00010/(1/3000000)
PWMDTY45=300;    //占空比a=（PWMDTY01+1）/(PWMPER01+1)

PWMPER67=375; //频率为1000Hz
PWMDTY67=200;    //

PWME=0xff;       //使能pwm
}
void  Pit0_Init() //PIT初始化
{
  PITCFLMT_PITE=0;       //关PIT使能
  PITCE_PCE0=1;          //通道0使能
  PITMUX_PMUX0=0;          //通道0接微时钟0
  PITMTLD0=99;          //微时钟0值设置为7f
  PITLD0=3839;          //time-out period = (PITMTLD + 1) * (PITLD + 1) / fBUS.
                        //时间计算 100*3840/24000000=0.016s
  PITINTE_PINTE0=1;       //通道0中断时能
  PITCFLMT_PITE=1;       //PIT使能
}

void ECT_Init()
{

TIOS=0x00;                /* OC0路为输出比较，OC1路为输入捕捉 */
TSCR2=0x06;                /* 定时器溢出中断禁止，计数器自由运行禁止复位，64分频 */
TSCR1=0x80;                /* 定时器使能 */
TIE=0x01;                /* 输出比较相应中断使能 */
TCTL4=0x01;

}

void dly_1ms()
{
int i,j;
for(i=0;i<200;i++)
{
  for(j=0;j<1000;j++){;}
}
}

  void sam_position() //车位检测函数
{
   int i=0,j=0;
   unsigned char m=0,n=0;
   n=PORTA;
   for(i;i<10;i++)
   {
      m=PORTA;
      if(n==m)
         j++;
   }
   if(j>6)
   light=n;

}

  void check_start()  //检测起始线
{
if((light&&4)||(light&&16))
   start_flag++;
}

  void check_start()
{

  }

  void turning() //舵机转向函数
{
switch(light)
{
case 1:if(turn_value==direction_turn[1])  //出界判断算法
         {
            turn_value=direction_turn[0];
            speed_expect=speed_set[0];
         }
         else if(turn_value==direction_turn[0])
         {
               turn_value=direction_turn[0];
               speed_expect=speed_set[0];
         }
         break;
case 2:if(turn_value==direction_turn[0])
         {
         turn_value=direction_turn[1];
         speed_expect=speed_set[1];
         }
         else if(turn_value==direction_turn[1])
         {
         turn_value=direction_turn[1];
         speed_expect=speed_set[1];
         }
         else if(turn_value==direction_turn[2])
         {
         turn_value=direction_turn[1];
         speed_expect=speed_set[1];
         }
         break;
case 4:if(turn_value==direction_turn[1])
         {
         turn_value=direction_turn[2];
         speed_expect=speed_set[2];
         }
         else if(turn_value==direction_turn[2])
         {
         turn_value=direction_turn[2];
         speed_expect=speed_set[2];
         }
         else if(turn_value==direction_turn[3])
         {
         turn_value=direction_turn[2];
         speed_expect=speed_set[2];
         }
         break;
case 8:if(turn_value==direction_turn[2])
         {
         turn_value=direction_turn[3];
         speed_expect=speed_set[3];
         }
         else if(turn_value==direction_turn[3])
         {
         turn_value=direction_turn[3];
         speed_expect=speed_set[3];
         }
         else if(turn_value==direction_turn[4])
         {
         turn_value=direction_turn[3];
         speed_expect=speed_set[3];
         }
         break;
case 16:if(turn_value==direction_turn[3])
         {
         turn_value=direction_turn[4];
         speed_expect=speed_set[4];
         }
         else if(turn_value==direction_turn[4])
         {
         turn_value=direction_turn[4];
         speed_expect=speed_set[4];
         }
         else if(turn_value==direction_turn[5])
         {
         turn_value=direction_turn[4];
         speed_expect=speed_set[4];
         }
         break;
case 32:if(turn_value==direction_turn[4])
         {
         turn_value=direction_turn[5];
         speed_expect=speed_set[5];
         }
         else if(turn_value==direction_turn[5])
         {
         turn_value=direction_turn[5];
         speed_expect=speed_set[5];
         }
         else if(turn_value==direction_turn[6])
         {
         turn_value=direction_turn[5];
         speed_expect=speed_set[5];
         }
         break;
case 64:if(turn_value==direction_turn[5])  //出界判断算法
         {
            turn_value=direction_turn[6];
            speed_expect=speed_set[6];
         }
         else if(turn_value==direction_turn[6])
         {
               turn_value=direction_turn[6];
               speed_expect=speed_set[6];
         }
         break;
default:break;
}
PWMDTY01=turn_value;

}

void check_speed()    //速度检测函数
{
   ek3=ek2; //计算速度差值
   ek2=ek1;
   ek1=speed_expect-pulse_count;
   speed[2]=speed[1];  //当前速度放在[0],之前放在[1],[2]
   speed[1]=speed[0];
   speed[0]=pulse_count;

   pulse_count=0;
}

void speed_down() //制动函数
{
   PWMDTY23=300; //电机反向供电
   PWMDTY45=0;

}

  void speed_pid()  //PID算法
{
speed_add=kp*(ek1-ek2)+ki*ek1+kd*(ek1-2*ek2+ek3);  //PID增量式

}

  void driver()    //驱动电机控制函数
{

   //if(((turn_value>705)||(turn_value<560))&&(speed[0]>200)) //当前速度若远超给定速度
   //  {
      //speed_down();
   //  }
   //else
   // {
      PWMDTY23=0;
      speed_pid();
      PWMDTY45=PWMDTY45+speed_add;
   // }
   if(PWMDTY45>600)
      PWMDTY45=600;



}

  void main()
{

DisableInterrupts;          /* 关中断 */
PLL_Init();
PWM_Init();
Pit0_Init();
ECT_Init();
turn_value=direction_turn[3];
DDRA=0x00;
DDRB=0xFF;
PORTB=0X00;
EnableInterrupts;
for(;;)
{
   //sam_position();
   //turning();

}
}

#pragma CODE_SEG NON_BANKED

void interrupt 8 Timer0_ISR(void)
{

pulse_count++;
TFLG1_C0F=1;                /* TC0端有中断产生 */

}

void interrupt 66 PIT0_ISR(void)
{
sam_position();    //车位检测函数
turning();       //舵机转向函数
check_speed();    //速度检测函数
driver();       // 驱动电机控制函数
PITTF_PTF0=1;       /* PIT0端有中断产生,清除标志位 */
}

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