49-Way Joystick Conversion Board

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Revision as of 12:31, 24 March 2020 by Braedel (talk | contribs)
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  • The images and most of the information below is from Sean Riddle's site and the work he did building an EPROM based translator. You can visit his site HERE. (Thanks Sean!)

  • (2-Way Horizontal)

  • 2wayv.jpg

    (2-Way Vertical)

  • 4way.jpg

    (4-Way)

  • 4way cornersleftright.jpg

    (4-Way - Dead Zone - Corners L/R)

  • 8way.jpg

    (8-Way Standard)

  • 8way largedeadzone.jpg

    (8-Way Dead Zone)

  • 8way nodeadzone.jpg

    (8-Way No Dead Zone)

  • 49way - Williams.jpg

    (8-Way/49-Way No Mods)

Amtel Microprocessor Source Code: 


//Program Written By: Brad Raedel
//03162020 - Revision 1 - Just get it working

//Up
int Opto1 = 2;    //Input Pin 2
int Opto2 = 3;    //Input Pin 3
int Opto3 = 4;    //Input Pin 4
int Up = 10;      //Output to Game - Pin 10
int Dn = 11;      //Output to Game - Pin 11
//Down
int Opto4 = 5;    //Input Pin 5
int Opto5 = 6;    //Input Pin 6
int Opto6 = 7;    //Input Pin 7
int Left = 12;    //Output to Game - Pin 12
int Right = 13;   //Output to Game - Pin 13

//Option Switches - These will be used to select mode/options (0 to 15)
int Op1 = A0; //1
int Op2 = A1; //2
int Op3 = A2; //4
int Op4 = A3; //8
int OpVal = 0; //Default to zero

bool Opto1St;   //Opto States
bool Opto2St;
bool Opto3St;
bool Opto4St;
bool Opto5St;
bool Opto6St;
bool UpSt;      //Set HIGH when stick is UP
bool DnSt;      //Set HIGH when Stick is DOWN
bool LtSt;      //Set HIGH when stick is LEFT
bool RtSt;      //Set HIGH when Stick is RIGHT
bool LockedStUD;//Used to Latch the UP or DOWN position
bool LockedStLR;//Used to Latch the LEFT or RIGH postion
int UpVal = 3;    //Store the Up position (0-2)
int DnVal = 3;    //Store the Down postion (0-2)
int UpDnPos = 3;  //Absolute postion of Up/Down 0 = Top, 6 = Bottom, 3 is Center/Neutral
int LtVal = 3;    //Store the Left position (0-2)
int RtVal = 3;    //Store the Right position (0-2)
int LtRtPos = 3;  //Absolute postion of Left/Right 0 = Left, 6 = Right, 3 is Center/Neutral
int AbsPos = 24;

//Rows Then Columns - Stored Like this { {Row 0 - 0 to 48},{Row 2 - 0 to 48}...etc..
//Column Zero is the 8-Way With No Dead Zone
bool UpOut [1][49]  = { {1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,0,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,} };
bool DnOut [1][49]  = { {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,0,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,} };
bool LtOut [1][49]  = { {1,1,0,0,0,0,0,1,1,0,0,0,0,0,1,1,1,0,0,0,0,1,1,1,0,0,0,0,1,1,1,0,0,0,0,1,1,0,0,0,0,0,1,1,0,0,0,0,0,} };
bool RtOut [1][49]  = { {0,0,0,0,0,1,1,0,0,0,0,0,1,1,0,0,0,0,1,1,1,0,0,0,0,1,1,1,0,0,0,0,1,1,1,0,0,0,0,0,1,1,0,0,0,0,0,1,1,} };
void setup() {
Serial.begin(57600);    //Disable when not debugging
pinMode(Opto1,INPUT);   //Set Direction of physical inputs/outputs
pinMode(Opto2,INPUT);
pinMode(Opto3,INPUT);
pinMode(Opto4,INPUT);
pinMode(Opto5,INPUT);
pinMode(Opto6,INPUT);
pinMode(Up,OUTPUT);
pinMode(Dn,OUTPUT);
pinMode(Left,OUTPUT);
pinMode(Right,OUTPUT);
pinMode(Op1,INPUT);
pinMode(Op2,INPUT);
pinMode(Op3,INPUT);
pinMode(Op4,INPUT);

//Let's get our DIP Switch settings (Will = 0 to 15)
if (digitalRead(Op1) == HIGH)
{
  OpVal = 1;
}
if (digitalRead(Op2) == HIGH)
{
  OpVal = OpVal + 2;
}
if (digitalRead(Op3) == HIGH)
{
  OpVal = OpVal +4;
}
if (digitalRead(Op4) == HIGH)
{
  OpVal = OpVal + 8;
}
//Serial.println(OpVal);

} 

//Main Program that loops
void loop() {
// Up/Down Logic
Opto1St = digitalRead(Opto1); //Read Optical Switch 1
Opto2St = digitalRead(Opto2); //Read Optical Switch 2
Opto3St = digitalRead(Opto3); //Read Optical Switch 2
if (Opto1St == true && Opto2St == true && Opto3St == true)  //Determine if the joystick is in the center
{
  LockedStUD = false;   //Unlatch to allow Up or Down to assume control
  UpSt = false;         //Clear Up State
  DnSt = false;         //Clear Down State
  UpDnPos = 3;          //Set Vertical position to center
}
//Latch Direction (Determines if up or down
 if (Opto1St == false && LockedStUD == false)   //UP if True
      {
        UpSt = true;          //Set UP State to TRUE
        LockedStUD = true;    //We lock the State so DOWN can't Steal it!
      }
if (Opto3St == false && LockedStUD == false)    //DOWN if True
      {
        DnSt = true;        //Set DOWN State to TRUE
        LockedStUD = true;  //We lock the State so UP can't Steal it!
      }
//We will figure out what row we are in (0 to 6 - 3 is center)
if (UpSt == true) //Up doesn't need any change since adding the Optical Switches is 0 to 2
{
  UpVal = Opto1St + Opto2St + Opto3St;
  UpDnPos = UpVal;
}
if (DnSt == true)     //For Down, we determine how many Optical Switches are Low, add them up then use a look-up table to generate the position 4 to 6
{
  DnVal = Opto1St + Opto2St + Opto3St;
  switch (DnVal) {
  case 0:      //All Optos are LOW
      UpDnPos = 6;
  break;
  case 1:     //Two of the Optos are LOW    
      UpDnPos = 5;
  break;
  case 2:    //One of the Optos are LOW (The others are still High)  
      UpDnPos = 4;
  break;
  }
}

// Left/Right Logic
Opto4St = digitalRead(Opto4); //Read Optical Switch 4
Opto5St = digitalRead(Opto5); //Read Optical Switch 5
Opto6St = digitalRead(Opto6); //Read Optical Switch 6
if (Opto4St == true && Opto5St == true && Opto6St == true)  //Determine if the joystick is in the center
{
  LockedStLR = false;   //Unlatch to allow Left or Right to assume control
  LtSt = false;         //Clear Left State
  RtSt = false;         //Clear Right State
  LtRtPos = 3;          //Set Horizontal position to center
}
//Latch Direction (Determines if Left or Right
 if (Opto4St == false && LockedStLR == false)   //Right if True
      {
        RtSt = true;          //Set Right State to TRUE
        LockedStLR = true;    //We lock the State so Left can't Steal it!
      }
if (Opto6St == false && LockedStLR == false)    //Left if True
      {
        LtSt = true;        //Set Left State to TRUE
        LockedStLR = true;  //We lock the State so Right can't Steal it!
      }
//We will figure out what row we are in (0 to 6 - 3 is center)
if (LtSt == true) //Up doesn't need any change since adding the Optical Switches is 0 to 2
{
  LtVal = Opto4St + Opto5St + Opto6St;
  LtRtPos = LtVal;
}
if (RtSt == true)     //For Down, we determine how many Optical Switches are Low, add them up then use a look-up table to generate the position 4 to 6
{
  RtVal = Opto4St + Opto5St + Opto6St;
  switch (RtVal) {
  case 0:      //All Optos are LOW
      LtRtPos = 6;
  break;
  case 1:     //Two of the Optos are LOW    
      LtRtPos = 5;
  break;
  case 2:    //One of the Optos are LOW (The others are still High)  
      LtRtPos = 4;
  break;
  }
}
//Calculate the absolute position
AbsPos = (UpDnPos * 7) + LtRtPos;
   //Serial.println(AbsPos);
  digitalWrite(Up,!UpOut[0] [AbsPos]);
  digitalWrite(Dn,!DnOut[0][AbsPos]);
  digitalWrite(Left,!LtOut[0][AbsPos]);
  digitalWrite(Right,!RtOut[0][AbsPos]);
}
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