oled methods with some errors, speed calculation

2023-03-22 09:11:48 +01:00 · 2023-03-22 09:11:48 +01:00 · ce45893fe9
commit ce45893fe9
parent cdafb2a107
5 changed files with 100 additions and 33 deletions
--- a/vscode/Unendlichkeitsmaschine/include/json.hpp
+++ b/vscode/Unendlichkeitsmaschine/include/json.hpp
@ -13,7 +13,6 @@ typedef struct
  const char * unit;  
  double value;
  float unit_factor;
  unsigned long prev_update_ms;
  unsigned long act_update_ms;
  unsigned long timestamp;
 } DataStruct;
--- a/vscode/Unendlichkeitsmaschine/include/main.hpp
+++ b/vscode/Unendlichkeitsmaschine/include/main.hpp
@ -60,8 +60,8 @@ const unsigned long UPDATE_ESC_EVERY_MS = 500;
 const uint8_t HALL_SENSORS_COUNT = 8; // input, sec, min, hour, day, week, month, year
 const uint8_t ALL_DATA_COUNT = HALL_SENSORS_COUNT;
 const uint8_t HALL_NR_TURNS = 2; ///number of turns we wait before measuring each time
 const uint8_t HALL_TICKS_PER_TURN = 4;
 const uint8_t HALL_NR_TURN = 4;
 const uint8_t HALL_MIN_PULSE_MS = 50;
 volatile DataStruct AllData[ALL_DATA_COUNT];
@ -101,6 +101,8 @@ const uint8_t HALL6_PIN = 26;
 const uint8_t HALL7_PIN = 27;
 const uint8_t HALL8_PIN = 14;
 const uint8_t TIME_PER_ROUND_VALS = 10;
 const uint16_t MIN_SPEED = 800;
 const uint16_t MAX_SPEED = 5000;
 const uint8_t MAX_ESC_SPEED = 100;
--- a/vscode/Unendlichkeitsmaschine/include/oled.hpp
+++ b/vscode/Unendlichkeitsmaschine/include/oled.hpp
@ -34,7 +34,9 @@ class Oled
    public:
        void begin();
-        void progressBar(uint8_t i);
+        void progressBar(uint8_t i, String big_text, String small_text1, String small_text2);
        void progressBar(uint8_t i, String big_text = "", String small_text1 = "", String small_text2 = "");
        void progressBar(uint8_t i, String big_text , String small_text1 = "", String small_text2 = "");
        void show_values(int speed, int min_speed, int max_speed, volatile DataStruct *HallData, uint8_t hall_sensors_count, unsigned long runtime, String ipaddr);
 };
--- a/vscode/Unendlichkeitsmaschine/src/main.cpp
+++ b/vscode/Unendlichkeitsmaschine/src/main.cpp
@ -3,6 +3,8 @@
 int Drehregler;  // Ausgabewert des Drehreglers
 int speed;  // Das Wort "Geschwindigkeit" steht als Variable für den Ansteuerungswert am ESC.
 int last_speed;
 volatile uint8_t time_per_round_pointer = 0;
 volatile double time_per_round_ms[TIME_PER_ROUND_VALS];
 time_t run_time = 0;
 time_t start_time = 0;
@ -42,6 +44,7 @@ void data_init();
 void speed_get();
 void speed_set();
 void PID();
 double time_per_round_calc();
 void count_secs(time_t* run_time);
 void get_serial_cmd();
@ -59,6 +62,17 @@ void setup()
  randomSeed(micros());
  display.begin();
    /*
    display->setTextAlignment(TEXT_ALIGN_CENTER);
    display->setFont(ArialMT_Plain_16);    
    display->drawString(64, 2, "Init controller");
    display->setFont(ArialMT_Plain_10);
    display->drawString(64, 40, "You may hear some beeps.");
    display->drawString(64, 52, "That's OK! ;-)");
    display->display();  
    */
  capportal.begin();
  html_content = "<!DOCTYPE html><html><head><meta http-equiv=\"refresh\" content=\"0; url='/_ac'\" /></head><body></body></html>";  
@ -70,16 +84,21 @@ void setup()
  Serial.println("Init ETC ...");
  ESC.attach(ESC_PIN,1000,2000); 
-  display.progressBar(0);
+  display.progressBar(0,"Init controller");
  ESC.write(180);
  delay(1000);
  display.progressBar(1,"Connect ETC now!");  
  delay(5000);
  display.progressBar(2,"Calibrating ETC", "You may hear some beeps.", "That's OK! ;-)");    
  ESC.write(0);
-  for(uint8_t i=0;i<=100;i=i+10)
+  for(uint8_t i=3;i<=100;i=i+10)
  {
    display.progressBar(i);
    delay(1000);
  }
  ESC.write(0);
  display.progressBar(100,"ETC init done!");
  delay(1000);  
  data_init();
  // Initialise  timer
@ -100,9 +119,6 @@ void setup()
  pinMode(HALL7_PIN, INPUT);
  pinMode(HALL8_PIN, INPUT);
  //Serial.println("Init light sensor interrupt ...");
  //attachInterrupt(LS1_PIN, ISR_LS1, RISING);
  Serial.println("Init hall sensor interrupts ...");
  attachInterrupt(digitalPinToInterrupt(HALL1_PIN), ISR_HALL1, FALLING);
  attachInterrupt(digitalPinToInterrupt(HALL2_PIN), ISR_HALL2, FALLING);
@ -169,35 +185,58 @@ void PID()
  //current_speed = map(HallData[0].value, MIN_SPEED, MAX_SPEED, MIN_ESC_SPEED, MAX_ESC_SPEED); 
  double int_err = goal_speed - current_speed;
-  double int_integ = integ + int_err;
+  double int_integ = ki>0?integ + int_err:0;
-  double int_derivative = (int_err - last_error);
+  double int_derivative = kd>0?(int_err - last_error):0;
  double int_output = kp * int_err + ki * int_integ + kd * int_derivative;
-  if( int_output <= MIN_SPEED)
+  if( int_output <= MIN_ESC_SPEED)
  {
-    output = MIN_SPEED;
+    output = MIN_ESC_SPEED;
  }
-  else if( int_output > MAX_SPEED)
+  else if( int_output > MAX_ESC_SPEED)
  {
-    output = MAX_SPEED; 
+    output = MAX_ESC_SPEED; 
  }
-  else if((int_output >= MIN_SPEED) && (int_output <= MAX_SPEED))
+  else if((int_output >= MIN_ESC_SPEED) && (int_output <= MAX_ESC_SPEED))
  {
    err = int_err;
    integ = int_integ;
    derivative = int_derivative;
    output = int_output;
  }
-
+  esc_output = constrain(output, MIN_ESC_SPEED, MAX_ESC_SPEED);
  //Beschränkung der Ausgabe
  esc_output = speed_map(output, MIN_SPEED, MAX_SPEED, MIN_ESC_SPEED, MAX_ESC_SPEED);
  //Serial.printf("PID ... (goal: %f, current: %06.3f, err: %06.3f, integ: %06.3f, derive: %06.3f) output=%06.3f \n", goal_speed, current_speed, err, integ, derivative, output);
  //Aktualisierung der letzten Fehler- und Zeitwerte
  last_error = err;
 }
-
+double time_per_round_calc()
 {
  double mid_time = 0;
  double min_time = -1;
  double max_time = 0;
  uint8_t nr_times = 0;
  for(uint8_t i = 0; i < TIME_PER_ROUND_VALS; i++)
  {
    if(time_per_round_ms[i] >= 0)
    {
      if(time_per_round_ms[i] < min_time || min_time == -1)
      {
        min_time = time_per_round_ms[i];
      }
      else if(time_per_round_ms[i] > max_time)
      {
        max_time = time_per_round_ms[i];
      }
      nr_times++;
      mid_time = mid_time + time_per_round_ms[i];
    }
  }
  if(nr_times >= 3)
  {
    mid_time = (mid_time - max_time  - min_time)/(nr_times - 2);
  }
  return(mid_time);
 }
 void speed_set()
 {
@ -284,6 +323,10 @@ void data_init()
  #endif
  last_speed = 0;
  speed = 0;
  for (uint8_t i= 0; i < TIME_PER_ROUND_VALS; i++)
  {
    time_per_round_ms[i] = -1;
  } 
  unsigned long current_millis = millis();
  for (uint8_t i = 0; i < ALL_DATA_COUNT; i ++)
  {
@ -304,7 +347,7 @@ void data_init()
    }
    #endif
    AllData[i].act_update_ms = 0;
-    AllData[i].prev_update_ms = 0;    
+    //AllData[i].prev_update_ms = 0;    
  }
 }
@ -329,12 +372,10 @@ void data_check()
  {
    if( 0 == nr)
    {
-      if( (HallData[nr].act_update_ms != 0)
+      double mid_time = time_per_round_calc();
-       && (HallData[nr].prev_update_ms != 0)
+      if( mid_time != 0)
       && (HallData[nr].prev_update_ms != HallData[nr].act_update_ms)
        )
      {
-        HallData[nr].value = HallData[nr].unit_factor / ((HallData[nr].act_update_ms - HallData[nr].prev_update_ms)/ HALL_NR_TURNS) ;
+        HallData[nr].value = HallData[nr].unit_factor / (mid_time/HALL_NR_TURN);
      }
    }
    else{
@ -436,10 +477,16 @@ void IRAM_ATTR ISR_HALL1()
  HallData[hallnr].timestamp = run_time;
  // each 4 ticks is one turn
  // so we calculate speed each 4 ticks... just in case we check for bigger ... 
-  if(HallData[hallnr].period_ticks >= HALL_NR_TURNS*HALL_TICKS_PER_TURN){
+  if(HallData[hallnr].period_ticks >= (HALL_NR_TURN * HALL_TICKS_PER_TURN)){
    unsigned long time_ms = millis();
    HallData[hallnr].period_ticks = 0;
-    HallData[hallnr].prev_update_ms = HallData[hallnr].act_update_ms;
+    time_per_round_ms[time_per_round_pointer] = time_ms - HallData[hallnr].act_update_ms;
-    HallData[hallnr].act_update_ms = millis();
+    HallData[hallnr].act_update_ms = time_ms;
    time_per_round_pointer++;
    if(time_per_round_pointer > TIME_PER_ROUND_VALS)
    {
      time_per_round_pointer = 0;
    }
  }
 }
--- a/vscode/Unendlichkeitsmaschine/src/oled.cpp
+++ b/vscode/Unendlichkeitsmaschine/src/oled.cpp
@ -9,21 +9,38 @@ void Oled::begin()
    display->clear();
    display->flipScreenVertically();
    //display->setFont(ArialMT_Plain_10);
    /*
    display->setTextAlignment(TEXT_ALIGN_CENTER);
    display->setFont(ArialMT_Plain_24);
    display->setFont(ArialMT_Plain_16);    
    display->drawString(64, 2, "Init controller");
    display->setFont(ArialMT_Plain_10);
    display->drawString(64, 40, "You may hear some beeps.");
    display->drawString(64, 52, "That's OK! ;-)");
    display->display();  
    */
    display->setTextAlignment(TEXT_ALIGN_LEFT);
    display->setFont(ArialMT_Plain_16);
 }
-void Oled::progressBar(uint8_t i)
+void Oled::progressBar(uint8_t i, String big_text, String small_text1, String small_text2)
 {
    display->drawProgressBar(6, 28, 116, 6, i);
    display->setTextAlignment(TEXT_ALIGN_CENTER);
    if(big_text != "")
    {
        display->setFont(ArialMT_Plain_16);
        display->drawString(64, 2, big_text);
    }
    if(small_text1 != "")
    {
        display->setFont(ArialMT_Plain_10);
        display->drawString(64, 40, small_text1);
    }
    if(small_text2 != "")
    {
        display->setFont(ArialMT_Plain_10);
        display->drawString(64, 52, small_text2);
    }
    display->display(); 
 }