Jump to content

PC Flights A10 Flaps, Hyd Press and Fuel Gauges Help


Kenpilot

Recommended Posts

Does anyone have any of the PC flights gauges for the A10 and uses them with DCS Bios and Arduino? I can't get them to match what the in game DCS gauges are reading. I've looked them up and their values are 544, 2400 and I've messed around with those values in the Arduino sketch but I can't get them to match up for the life of me. If anyone has these and has gotten them to work, please let me know what your values are in your arduino sketches! Thanks!

Windows 10

ASRock Z370 Extreme4 LGA 1151 (300 Series) MOBO

intel i7-8700k (Not overclocked)

16 GB Ram

EVGA GeForce GTX 108ti SC Black Edition

SSD

Trackir

Link to comment
Share on other sites

Hi Ken,

 

I use a PWM servo driver board for the pcflights fuel gauge, but maybe the values make sense even to your setup.

If not, it could be a way to start from and adjust to your needs.

 

#define SERVOMIN_R  265 // 6000 lbs for Fuel Qty Right
#define SERVOMAX_R  438 // 0 lbs for Fuel Qty Right
#define SERVOMIN_L  232 // 0 lbs for Fuel Qty Left
#define SERVOMAX_L  420 // 6000 lbs for Fuel Qty Left

 

Regards, Vinc


Edited by Vinc_Vega

Regards, Vinc

real life: Royal Bavarian Airforce

online: VJS-GermanKnights.de

[sIGPIC][/sIGPIC]

Link to comment
Share on other sites

1 hour ago, Vinc_Vega said:

Hi Ken,

 

I use a PWM servo driver board for the pcflights fuel gauge, but maybe the values make sense even to your setup.

If not, it could be a way to start from and adjust to your needs.

 


#define SERVOMIN_R  265 // 6000 lbs for Fuel Qty Right
#define SERVOMAX_R  438 // 0 lbs for Fuel Qty Right
#define SERVOMIN_L  232 // 0 lbs for Fuel Qty Left
#define SERVOMAX_L  420 // 6000 lbs for Fuel Qty Left

 

Regards, Vinc

 

Thanks Vinc, I'll definitely give it a shot!

Windows 10

ASRock Z370 Extreme4 LGA 1151 (300 Series) MOBO

intel i7-8700k (Not overclocked)

16 GB Ram

EVGA GeForce GTX 108ti SC Black Edition

SSD

Trackir

Link to comment
Share on other sites

On 5/20/2021 at 8:36 AM, Vinc_Vega said:

Hi Ken,

 

I use a PWM servo driver board for the pcflights fuel gauge, but maybe the values make sense even to your setup.

If not, it could be a way to start from and adjust to your needs.

 


#define SERVOMIN_R  265 // 6000 lbs for Fuel Qty Right
#define SERVOMAX_R  438 // 0 lbs for Fuel Qty Right
#define SERVOMIN_L  232 // 0 lbs for Fuel Qty Left
#define SERVOMAX_L  420 // 6000 lbs for Fuel Qty Left

 

Regards, Vinc

 

After going back and looking at the arduino sketch, mine looks nothing like yours. Did you get that sketch from the DCS Bios control reference for the A10? Or did you create that sketch on your own? 

Windows 10

ASRock Z370 Extreme4 LGA 1151 (300 Series) MOBO

intel i7-8700k (Not overclocked)

16 GB Ram

EVGA GeForce GTX 108ti SC Black Edition

SSD

Trackir

Link to comment
Share on other sites

I use a PWM driver board, therefore the sketch is different from yours (example from adafruit).

But as the values were questioned, I was thinking about modify the code like this:

DcsBios::ServoOutput fuelQtyR(0x10cc,PIN, 265, 438);
DcsBios::ServoOutput fuelQtyL(0x10ca,PIN, 232, 420);

 


Edited by Vinc_Vega

Regards, Vinc

real life: Royal Bavarian Airforce

online: VJS-GermanKnights.de

[sIGPIC][/sIGPIC]

Link to comment
Share on other sites

  • 2 weeks later...

My full working code for theA-10 fuel panel with some other connections. Four Servos for LHYd RHyd Lfuel RFuel and a 128x32 0.91" OLED for the total indicator. Enjoy it. You have to set new Values on the servos. I use small gears for 270 degrees rotation.
Michael
 

/*
  Fuel Panel, CMSC-LEDs, Front Dash 
  V2.1 DL4ALL
*/

//#define DCSBIOS_DEFAULT_SERIAL
#define DCSBIOS_IRQ_SERIAL
#include <Servo.h>
#include "DcsBios.h"
#include <LedControl.h>

//#include <Wire.h>
//#include <Adafruit_GFX.h>
#include <Adafruit_SSD1306.h>

#define SCREEN_WIDTH 128 // OLED display width, in pixels
#define SCREEN_HEIGHT 32 // OLED display height, in pixels

// Declaration for an SSD1306 display connected to I2C (SDA, SCL pins)
#define OLED_RESET     -1 // Reset pin # (or -1 if sharing Arduino reset pin)
Adafruit_SSD1306 display(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire, OLED_RESET);

Servo FuelQtyLeft_gauge; // create servo object to control a servo motor
Servo FuelQtyRight_gauge; // create servo object to control a servo motor
Servo L_HYD_Press_gauge; // create servo object to control a servo motor
Servo R_HYD_Press_gauge; // create servo object to control a servo motor
Servo Flaps_gauge; // create servo object to control a servo motor

// MAX 7219 only works with Common Cathode Displays
// inputs: DIN pin, CLK pin, LOAD (/CS) pin. number of MAX7219chips
LedControl FuelDisplay = LedControl(12, 11, 10, 1);


int AB;
float Value1;
float Value2;
float Value3;
float Total;

void setup() {

DcsBios::setup();
  display.begin(SSD1306_SWITCHCAPVCC, 0x3C);
  display.cp437(true);
  display.clearDisplay();
  display.ssd1306_command(0x81);
  display.ssd1306_command(1);
  display.setTextSize(3);
  display.setTextColor(WHITE);
  display.setCursor(30,10);
  display.print(". . .");
  display.display(); 
  
  FuelQtyLeft_gauge.attach(6); // attaches the servo on pin 3 to the servo object
  FuelQtyRight_gauge.attach(9); // attaches the servo on pin 5 to the servo object
  L_HYD_Press_gauge.attach(5); // attaches the servo on pin 6 to the servo object
  R_HYD_Press_gauge.attach(10); // attaches the servo on pin 9 to the servo object
}

//CMSC Missile Launch Indicator (red)
DcsBios::LED cmscLaunch(0x1012, 0x0100, 2);

//CMSC Priority Status Indicator (green)
DcsBios::LED cmscPrio(0x1012, 0x0200, 3);

// Fuel Gauge Test
DcsBios::Switch2Pos fqisTest("FQIS_TEST", 4);

// GUN READY Indicator
DcsBios::LED gunReady(0x1026, 0x8000, 7);

// Nosewheel Steering Indicator
DcsBios::LED nosewheelSteering(0x10da, 0x0001, 8);

// CANOPY UNLOCKED Indicator
DcsBios::LED canopyUnlocked(0x10da, 0x0004, 11);

// MARKER BEACON Indicator
DcsBios::LED markerBeacon(0x10da, 0x0002, 12);

//CMSC Unknown Status Indicator (blue)
DcsBios::LED cmscUnkn(0x1012, 0x0400, 13);

// Fuel Display Selector
const byte fqisSelectPins[5] = {A1, A2, A3, A6, A7};
DcsBios::SwitchMultiPos fqisSelect("FQIS_SELECT", fqisSelectPins, 5);



// FUEL OLED Display-------------------------------------
void onFuelQty10000Change(unsigned int newValue) {
   Value1=(newValue/6553);
    
}DcsBios::IntegerBuffer fuelQty10000Buffer(0x10ce, 0xffff, 0, onFuelQty10000Change);


void onFuelQty1000Change(unsigned int newValue) {
  Value2=(newValue/6553);
}DcsBios::IntegerBuffer fuelQty1000Buffer(0x10d0, 0xffff, 0, onFuelQty1000Change);

void onFuelQty100Change(unsigned int newValue) {
  Value3=(newValue/655.3);
   
}DcsBios::IntegerBuffer fuelQty100Buffer(0x10d2, 0xffff, 0, onFuelQty100Change);



//---------------------------------------------------------

// Fuel Qty Left
DcsBios::ServoOutput fuelQtyL(0x10ca,5, 900, 2000);


// Fuel Qty Right
DcsBios::ServoOutput fuelQtyR(0x10cc,6, 2155, 1018);


// Left Hydraulic Pressure-----------------------
DcsBios::ServoOutput lHydPress(0x10c2,9, 850, 1910);

// Right Hydraulic Pressure
DcsBios::ServoOutput rHydPress(0x10c4,10, 870, 1820);

// Flaps Position Indicator----------------------
//DcsBios::ServoOutput flapPos(0x10a0, 8, 850, 2200);


void loop() {
DcsBios::loop();

  Total = ((int(Value1)*10000)+(int(Value2)*1000)+(int(Value3+1)*10));
  display.clearDisplay();
  display.setCursor(30,10);
  if (Total < 100){           // if for enought leading zeros
    display.print("000");
    display.setCursor(80,10);
    }
  else if (Total < 1000){
    display.print("00");
    display.setCursor(70,10);
    }
  else if (Total < 10000){
    display.print("0");
    display.setCursor(50,10);
    }
  display.print(int(Total));
  display.display();
 
}

 

Link to comment
Share on other sites

  • 1 month later...

I've now rolling digits for the total display integrated. Thanks to middlefart. I used code fragments from his altimeter with rolling digits:

/*
  Fuel Panel, CMSC-LEDs, Front Dash 
  V3.1 DL4ALL
  29.July 21
*/

//#define DCSBIOS_DEFAULT_SERIAL
#define DCSBIOS_IRQ_SERIAL
#include <Servo.h>
#include "DcsBios.h"
#include <LedControl.h>

#include <Wire.h>
#include <Adafruit_GFX.h>
#include <Adafruit_SSD1306.h>
#include "characters.h"
#define SCREEN_WIDTH 128 // OLED display width, in pixels
#define SCREEN_HEIGHT 32 // OLED display height, in pixels

// Declaration for an SSD1306 display connected to I2C (SDA, SCL pins)
#define OLED_RESET     4 // Reset pin # (or -1 if sharing Arduino reset pin)
Adafruit_SSD1306 display(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire, OLED_RESET);

Servo FuelQtyLeft_gauge; // create servo object to control a servo motor
Servo FuelQtyRight_gauge; // create servo object to control a servo motor
Servo L_HYD_Press_gauge; // create servo object to control a servo motor
Servo R_HYD_Press_gauge; // create servo object to control a servo motor
Servo Flaps_gauge; // create servo object to control a servo motor
  

int AB;
float Value1;
float Value2;
float Value3;
float Total;
unsigned long time = 0;
unsigned int i = 0;
const byte fqisSelectPins[5] = {A1, A2, A3, A6, A7};

//Comment for barometric pressure
    #define ALTIMETER
    int updateInterval = 100; //the number of milliseconds between updates
    struct scrollDigit {
      int digit; //The digit that is displayed
      int y; // The vertical position of the digit
    };
    
    struct disp {
      Adafruit_SSD1306 display;
      int width;
      int numberOfDigits;
      scrollDigit digits[5];
    };
//disp oled = {Adafruit_SSD1306(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire, OLED_RESET), 24, 5, {{0,0},{0,0},{0,0},{0,0},{0,0}}};
disp oled = {Adafruit_SSD1306(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire, OLED_RESET), 16, 5, {{0,0},{0,0},{0,0},{0,0},{0,0}}};
void setup() {
  if(!oled.display.begin(SSD1306_SWITCHCAPVCC, 0x3C)) { // Address 0x3C for 128x32
    for(;;); // Don't proceed, loop forever
  }
  DcsBios::setup();

  FuelQtyLeft_gauge.attach(6); // attaches the servo on pin 3 to the servo object
  FuelQtyRight_gauge.attach(9); // attaches the servo on pin 5 to the servo object
  L_HYD_Press_gauge.attach(5); // attaches the servo on pin 6 to the servo object
  R_HYD_Press_gauge.attach(10); // attaches the servo on pin 9 to the servo object

}

void UpdateDisplay()
{
  oled.display.clearDisplay();
  for (int i = 0; i < oled.numberOfDigits; i++)
  {
    printScrollingDigit(oled.digits[i].digit, oled.width, oled.digits[i].y, i + 1, &oled);
  }
  //Clear the area below the the numbers if we are using the small font
  if (oled.width == 16)
  {
    oled.display.fillRect(0, 30, 127, 7, BLACK);
  }
  
  oled.display.display();
}

int YPos()
{
  return ((oled.width + 9) * -1);
}
void printScrollingDigit(int digit, int width, int y, int pos, disp *oled)
{
  int x = (width * pos) - width + pos + 30;
  y +=5;
  switch (digit)
        {
      case -1: oled->display.drawBitmap(x, y, c16_Empty, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_1, 16, 24, 1); break;
      case 1: oled->display.drawBitmap(x, y, c16_1, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_2, 16, 24, 1); break;
      case 2: oled->display.drawBitmap(x, y, c16_2, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_3, 16, 24, 1); break;
      case 3: oled->display.drawBitmap(x, y, c16_3, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_4, 16, 24, 1); break;
      case 4: oled->display.drawBitmap(x, y, c16_4, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_5, 16, 24, 1); break;
      case 5: oled->display.drawBitmap(x, y, c16_5, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_6, 16, 24, 1); break;
      case 6: oled->display.drawBitmap(x, y, c16_6, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_7, 16, 24, 1); break;
      case 7: oled->display.drawBitmap(x, y, c16_7, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_8, 16, 24, 1); break;
      case 8: oled->display.drawBitmap(x, y, c16_8, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_9, 16, 24, 1); break;
      case 9: oled->display.drawBitmap(x, y, c16_9, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_0, 16, 24, 1); break;
      default: oled->display.drawBitmap(x, y, c16_0, 16, 24, 1); oled->display.drawBitmap(x, y+25, c16_1, 16, 24, 1); break;
    }
}
void onFuelQty10000Change(unsigned int newValue)
  {
    unsigned int mappedValue = newValue / 6553;
    unsigned int y = map(newValue, mappedValue * 6553, mappedValue * 6553 + 6553, 0, YPos());

    if (mappedValue == 0)
    {
      mappedValue = -1;
    }
    #ifdef TEST
      Serial.println(mappedValue);
    #endif
    oled.digits[0].digit = mappedValue;
    oled.digits[0].y = y;
  }
  
  void onFuelQty1000Change(unsigned int newValue)
  {
    unsigned int mappedValue = newValue / 6553;
    unsigned int y = map(newValue, mappedValue * 6553, mappedValue * 6553 + 6553, 0, YPos());
  
    oled.digits[1].digit = mappedValue;
    oled.digits[1].y = y;
  }
  
  void onFuelQty100Change(unsigned int newValue)
  {
    unsigned int mappedValue = newValue / 6553;
    unsigned int y = map(newValue, mappedValue * 6553, mappedValue * 6553 + 6553, 0, YPos());
  
    oled.digits[2].digit = mappedValue;
    oled.digits[2].y = y;
  }
  DcsBios::IntegerBuffer fuelQty10000Buffer(0x10ce, 0xffff, 0, onFuelQty10000Change);
  DcsBios::IntegerBuffer fuelQty1000Buffer(0x10d0, 0xffff, 0, onFuelQty1000Change);
  DcsBios::IntegerBuffer fuelQty100Buffer(0x10d2, 0xffff, 0, onFuelQty100Change);

 


//CMSC Missile Launch Indicator (red)
DcsBios::LED cmscLaunch(0x1012, 0x0100, 2);

//CMSC Priority Status Indicator (green)
DcsBios::LED cmscPrio(0x1012, 0x0200, 3);

// Fuel Gauge Test
DcsBios::Switch2Pos fqisTest("FQIS_TEST", 4);

// GUN READY Indicator
DcsBios::LED gunReady(0x1026, 0x8000, 7);

// Nosewheel Steering Indicator
DcsBios::LED nosewheelSteering(0x10da, 0x0001, 8);

// CANOPY UNLOCKED Indicator
DcsBios::LED canopyUnlocked(0x10da, 0x0004, 11);

// MARKER BEACON Indicator
DcsBios::LED markerBeacon(0x10da, 0x0002, 12);

//CMSC Unknown Status Indicator (blue)
DcsBios::LED cmscUnkn(0x1012, 0x0400, 13);

// Fuel Display Selector
DcsBios::SwitchMultiPos fqisSelect("FQIS_SELECT", fqisSelectPins, 5);

//------- Servos ----------------------------------
// Fuel Qty Left
DcsBios::ServoOutput fuelQtyL(0x10ca,5, 900, 2000);

// Fuel Qty Right
DcsBios::ServoOutput fuelQtyR(0x10cc,6, 2155, 1018);

// Left Hydraulic Pressure-----------------------
DcsBios::ServoOutput lHydPress(0x10c2,9, 850, 1910);

// Right Hydraulic Pressure
DcsBios::ServoOutput rHydPress(0x10c4,10, 870, 1820);





void loop() {
DcsBios::loop();

  time = millis();

  if (time % updateInterval == 0)
  {
    UpdateDisplay();
  }
  
}

 

Link to comment
Share on other sites

  • 6 months later...
  • 3 months later...

I'm back at it again trying to find servo settings to work for my fuel and hydraulic gauges so that they match the gauge readings in the game. I've tried the settings that everyone has suggested so far and none of them have worked. Does anyone else have any suggestions or is there an easy way to figure out what the settings should be for the servos that I have?

Windows 10

ASRock Z370 Extreme4 LGA 1151 (300 Series) MOBO

intel i7-8700k (Not overclocked)

16 GB Ram

EVGA GeForce GTX 108ti SC Black Edition

SSD

Trackir

Link to comment
Share on other sites

  • 1 year later...
  • Recently Browsing   0 members

    • No registered users viewing this page.
×
×
  • Create New...