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N32G455定时器捕获偶尔会丢一个沿的问题

通讯不上2024-02-21

本帖最后由通讯不上于 2024-2-21 14:02 编辑

使用定时器一个通道捕获频率时偶尔出现频率只有一半的问题。检查重复捕获标志位没有异常。信号源和电路应该没有问题，用pwm模式捕获的话是正常的，求助!!!部分代码：
void inline pwm_compute(uint8_t idx)
{
// uint32_t first_val = 0;
uint16_t cap_val = 0u;  //进来先读值
uint8_t i = 0;  //避免在处理这个中断时update没来得及处理导致计算不准确

switch (idx)
{
      case 0:
         cap_val = TIM_GetCap1(TIM5);
         break;
      case 1:
         cap_val = TIM_GetCap2(TIM5);
         break;
      case 2:
         cap_val = TIM_GetCap3(TIM5);
         break;
      case 3:
         cap_val = TIM_GetCap4(TIM5);
         break;
      default:
         break;
}

if(ic_info[idx].ic_capnum == 0)
{
      /* Get the Input Capture value */
      ic_info[idx].ic_freq_delval = cap_val;
      //TIM_ConfigOc1Polarity(TIM5,TIM_IC_POLARITY_FALLING);
      ic_info[idx].ic_capnum = 2; // 1是有占空比
      ic_info[idx].ic_overcnt = 0;
}
else if(ic_info[idx].ic_capnum == 1)
{
      /* Get the Input Capture value */
      ic_info[idx].ic_duty_delval = ic_info[idx].ic_overcnt * 65535 + cap_val - ic_info[idx].ic_freq_delval;
      TIM_ConfigOc1Polarity(TIM5,TIM_IC_POLARITY_RISING);
      ic_info[idx].ic_capnum  = 2;
}
else if(ic_info[idx].ic_capnum == 2)
{
         /* Get the Input Capture value */
//       first_val = ic_info[idx].ic_freq_delval;
      if(cap_val < ic_info[idx].ic_freq_delval  && ic_info[idx].ic_overcnt == 0)
      {
         i = 1;
      }

      ic_info[idx].ic_freq_delval = (ic_info[idx].ic_overcnt +i)* 65535 + cap_val - ic_info[idx].ic_freq_delval;
      //dev_printf("del1 =%d",ic_info[idx].ic_freq_delval);
      //TIM_ConfigOc1Polarity(TIM5,TIM_IC_POLARITY_RISING);
         ic_info[idx].ic_freq = (uint32_t) (18000000 * 1.0 / ic_info[idx].ic_freq_delval + 0.5);
         ic_info[idx].ic_duty =  (uint32_t) ((float)ic_info[idx].ic_duty_delval * 1.0 / ic_info[idx].ic_freq_delval)*1000;
         //ic_info[idx].ic_capnum = 0;
      if(ic_info[idx].ic_freq < 480)
      {
         dev_printf("freq =%d\n",ic_info[idx].ic_freq);
//          first_val = 0;
      }

      //全波形测量
      ic_info[idx].ic_freq_delval = cap_val;
      ic_info[idx].ic_overcnt = 0;

}

void PI_IRQHandlerCallback(void)
{
uint8_t i = 0;

      if(TIM_GetIntStatus(TIM5, TIM_INT_UPDATE) == SET)
      {
      for(i = 0;i<4;i++)
      {
         if(TIM_GetIntStatus(TIM5, (TIM_INT_CC1<<i)) == SET) //如果已经捕获了那就不要加了，避免多加一
         {
            continue;
         }
         ic_info.ic_overcnt++;
      }
      TIM_ClrIntPendingBit(TIM5, TIM_INT_UPDATE);
      }

if(TIM_GetIntStatus(TIM5, TIM_INT_CC1) == SET)
{
      /* Clear TIM5 Capture compare interrupt pending bit */
      TIM_ClrIntPendingBit(TIM5, TIM_INT_CC1);
      pwm_compute(0);
      if(bd_r && bd_r->pi1)
      {
         dev_pi_get_fd(bd_r->pi1,ic_info[0].ic_freq,ic_info[0].ic_duty);
      }
}

if(TIM_GetIntStatus(TIM5, TIM_INT_CC2) == SET)
{
      /* Clear TIM2 Capture compare interrupt pending bit */
      TIM_ClrIntPendingBit(TIM5, TIM_INT_CC2);
      pwm_compute(1);
      if(bd_r && bd_r->pi2)
      {
         dev_pi_get_fd(bd_r->pi2,ic_info[1].ic_freq,ic_info[1].ic_duty);
      }

}

if(TIM_GetIntStatus(TIM5, TIM_INT_CC3) == SET)
{
      /* Clear TIM2 Capture compare interrupt pending bit */
      TIM_ClrIntPendingBit(TIM5, TIM_INT_CC3);
      pwm_compute(2);
      if(bd_r && bd_r->pi3)
      {
         dev_pi_get_fd(bd_r->pi3,ic_info[2].ic_freq,ic_info[2].ic_duty);
      }
}

if(TIM_GetIntStatus(TIM5, TIM_INT_CC4) == SET)
{
      /* Clear TIM2 Capture compare interrupt pending bit */
      TIM_ClrIntPendingBit(TIM5, TIM_INT_CC4);
      pwm_compute(3);
      if(bd_r && bd_r->pi4)
      {
         dev_pi_get_fd(bd_r->pi4,ic_info[3].ic_freq,ic_info[3].ic_duty);
      }
}
}

}