亚洲春色中文字幕久久久-三上亚,一吻二脱三床四吻胸,国产真实伦对白视频全集,在线毛片观看,精品成品入口黄网,国产毛aⅴ片久久久,亚洲AV色香蕉一区二区三区老师,萧皇后A级艳片,色情日本视频更新,99久久亚洲精品日本无码

標題: PID算法實現(c 語言) [打印本頁]
作者: slimchao    時間: 2017-5-9 16:46
標題: PID算法實現(c 語言)
  1.     #include <stdio.h>
  2.     #include<math.h>
  3.     //定義PID 的結構體
  4.     struct _pid
  5.     {
  6.         int pv; //integer that contains the process value 過程量
  7.         int sp; //*integer that contains the set point   設定值
  8.         float integral; // 積分值 -- 偏差累計值
  9.         float pgain;
  10.         float igain;
  11.         float dgain;
  12.         int deadband;    //死區
  13.         int last_error;
  14.     };
  15.     struct _pid warm,*pid;
  16.     int process_point, set_point,dead_band; float p_gain, i_gain, d_gain,integral_val,new_integ;;
  17.     /*----------------------------------------------
  18.     pid_init DESCRIPTION This function initializes the
  19.     pointers  in  the  _pid  structure  to  the  process  variable
  20.     and the setpoint. *pv and *sp are integer pointers.
  21.     ---------------------------------------------- */
  22.     void pid_init(struct _pid *warm, int process_point, int set_point)
  23.     {
  24.         struct _pid *pid;
  25.         pid = warm;
  26.         pid->pv = process_point;
  27.         pid->sp = set_point;
  28.     }
  29.     /*----------------------------------------------
  30.     pid_tune DESCRIPTION Sets the proportional gain
  31.     (p_gain), integral gain (i_gain),
  32.     derivitive  gain  (d_gain),  and  the  dead  band  (dead_band)
  33.     of a pid control structure _pid.
  34.     設定PID參數 ---- P,I,D,死區
  35.     ---------------------------------------------- */
  36.     void pid_tune(struct _pid *pid, float p_gain, float i_gain, float d_gain, int dead_band)
  37.     {
  38.         pid->pgain = p_gain;
  39.         pid->igain = i_gain;
  40.         pid->dgain = d_gain;
  41.         pid->deadband = dead_band;
  42.         pid->integral= integral_val;
  43.         pid->last_error=0;
  44.     }
  45.     /*----------------------------------------------
  46.     pid_setinteg DESCRIPTION Set a new value for the
  47.     integral term of the pid equation.
  48.     This is useful for setting the initial output of the
  49.     pid controller at start up.
  50.     設定輸出初始值
  51.     ---------------------------------------------- */
  52.     void pid_setinteg(struct _pid *pid,float new_integ)
  53.     {
  54.         pid->integral = new_integ;
  55.         pid->last_error = 0;
  56.     }
  57.     /*----------------------------------------------
  58.     pid_bumpless DESCRIPTION Bumpless transfer
  59.     algorithim.
  60.     When suddenly changing setpoints, or when restarting
  61.     the PID equation after an extended pause,
  62.     the derivative of the equation can cause a bump in the controller output. This function will help smooth out
  63.     that bump.
  64.     The process value in *pv should be the updated just
  65.     before this function is used.
  66.     pid_bumpless 實現無擾切換
  67.     當突然改變設定值時,或重新啟動后,將引起擾動輸出。這
  68.     個函數將能實現平順擾動, 在調用該函數之前需要先更新 PV值
  69.     ----------------------------------------------*/
  70.     void pid_bumpless(struct _pid *pid)
  71.     {
  72.         pid->last_error = (pid->sp)-(pid->pv);  //設定值與反饋值偏差
  73.     }
  74.     /*----------------------------------------------
  75.     pid_calc  DESCRIPTION  Performs  PID  calculations  for  the
  76.     _pid structure *a. This function uses the positional form of the pid
  77.     equation, and incorporates an integral windup
  78.     prevention algorithim.
  79.     Rectangular  integration  is  used,  so  this  function  must
  80.     be repeated on a consistent time basis for accurate
  81.     control.
  82.     RETURN VALUE The new output value for the pid loop.
  83.     USAGE #include "control.h"
  84.     本函數使用位置式PID計算方式,并且采取了積分飽和限制運算
  85.     PID計算
  86.     ----------------------------------------------*/
  87.     float pid_calc(struct _pid *pid)
  88.     {
  89.     int err;
  90.     float pterm, dterm, result, ferror;
  91.     // 計算偏差
  92.     err = (pid->sp) - (pid->pv);
  93.     // 判斷是否大于死區
  94.         if (abs(err) > pid->deadband)
  95.         {
  96.             ferror = (float) err;   //do integer to float conversion only once 數據類型轉換
  97.             // 比例項
  98.             pterm = pid->pgain * ferror;
  99.             if (pterm > 100 || pterm < -100)
  100.             {
  101.                 pid->integral = 0.0;
  102.             }
  103.             else
  104.             {
  105.                 // 積分項
  106.                 pid->integral += pid->igain * ferror;
  107.                 // 輸出為0--100%
  108.                 // 如果計算結果大于100,則等于100
  109.                 if (pid->integral > 100.0)
  110.                 {
  111.                     pid->integral = 100.0;
  112.                 }
  113.                 // 如果計算結果小于0.0,則等于0
  114.                 else if (pid->integral < 0.0)
  115.                 {
  116.                     pid->integral = 0.0;
  117.                 }
  118.             }
  119.             // 微分項
  120.             dterm  =  ((float)(err  -  pid->last_error))  *  pid->dgain;
  121.             result = pterm + pid->integral + dterm;
  122.         }
  123.         else
  124.         {
  125.             result = pid->integral; // 在死區范圍內,保持現有輸出
  126.         }
  127.         // 保存上次偏差
  128.         pid->last_error = err;
  129.         // 輸出PID值(0-100)
  130.         return (result);
  131.     }
  132.     //----------------------------------------------
  133.     void main(void)
  134.     {
  135.         float display_value;
  136.         int count=0;
  137.         pid = &warm;
  138.         // printf("Enter the values of Process point, Set point, P gain, I gain, D gain \n");
  139.         // scanf("%d%d%f%f%f", &process_point, &set_point,&p_gain, &i_gain, &d_gain);
  140.         // 初始化參數
  141.         process_point = 30;
  142.         set_point = 40;
  143.         p_gain = (float)(5.2);
  144.         i_gain = (float)(0.77);
  145.         d_gain = (float)(0.18);
  146.         dead_band = 2;
  147.         integral_val =(float)(0.01);
  148.         printf("The  values  of  Process  point,  Set  point,  P  gain, I gain, D gain \n");
  149.         printf(" %6d %6d %4f %4f %4f\n", process_point,
  150.         set_point, p_gain, i_gain, d_gain);
  151.         printf("Enter the values of Process point\n");
  152.         while(count<=20)
  153.         {
  154.             scanf("%d",&process_point);
  155.             // 設定PV,SP 值
  156.             pid_init(&warm, process_point, set_point);
  157.             // 初始化PID 參數值
  158.             pid_tune(&warm, p_gain,i_gain,d_gain,dead_band);
  159.             // 初始化PID 輸出值
  160.             pid_setinteg(&warm,0.0);
  161.             //pid_setinteg(&warm,30.0);
  162.              //Get input value for process point
  163.             pid_bumpless(&warm);
  164.             // how to display output
  165.             display_value = pid_calc(&warm);
  166.             printf("%f\n", display_value);
  167.             //printf("\n%f%f%f%f",warm.pv,warm.sp,warm.igain,wa
  168.             rm.dgain);
  169.             count++;
  170.         }
  171.     }
復制代碼


作者: jackwuming    時間: 2017-5-13 10:34
一定用的到!謝謝
作者: chichtlm    時間: 2017-5-14 15:00
收下了,感謝
作者: gaoshouujd    時間: 2017-11-17 15:32
好厲害
作者: hclin    時間: 2017-12-11 00:26
收下了,研究中,謝分享。



歡迎光臨 (http://www.denmoz.com/bbs/) Powered by Discuz! X3.1