Gameboy VGA adapter

From Hackerspace ACKspace
Revision as of 21:47, 1 November 2011 by Prodigity (talk | contribs) (Calculations)
Jump to: navigation, search
Project: Gameboy VGA adapter
Featured:
State Stalled
Members Prodigity
GitHub No GitHub project defined. Add your project here.
Description Adding VGA output to a gameboy classic
Picture
No project picture! Fill in form Picture or Upload a jpeg here
Temporary VGAmeboy logo

Introduction

The gameboy classic is a handheld video game device which invokes a feeling of nostalgia into the hearts of many gamers (and non-gamers!).

In total nearly 120 million of these devices have been sold around the world and have delivered uncountable hours of fun (and frustration.. "DAMN YOU MARIO!" heh anyone? :P).

Nowadays the gameboy has been replaced by far more advanced (read: battery-slurping) handheld devices and as such, many people have one lying around collecting dust.

As some of you might remember, the biggest problem with the gameboy classic was the unlit screen which caused any form of sunlight to render the screen into a useless plastic mirror.

REJOICE! For I have decided to add VGA output to the gameboy so you can play on 21" screens! (TAKE THAT SUN!) No more visibility problems! (Yes you can add LEDs to the back of the screen, stop being so boring :P).

Before we get down and dirty, you'll need to be sure that you understand the terms used on this page; VGA terminology.


The gameboy

Gameboy specs:

  • Resolution: 160 x 144
  • Refresh rate: 59.7Hz
  • Horizontal Sync: 9.2KHz
  • Bits per pixel: 2 (Black, Dark grey, Light grey or White)
  • Pixel Clock: 4MHz


As you can see we are presented with a refresh rate of 59.7Hz which nearly matches the standard VGA refresh rate. (Most likely close enough, only testing will tell)

The resolution of 160x144 however poses a problem, no such VGA resolution exists and as such we will be forced to pick a different resolution and do some pixel juggling.

The solution? We will use double buffering and a different resolution.


Calculations

Double buffer

To determine the size of our buffers we simply take the resolution of the gameboy screen and multiply the amount of horizontal pixels with the vertical pixels and the bpp (160x144x2 = 46080).

The 46080 bits translate roughly to 6 kilobyte.


Resolution

Multiplying horizontal pixels by a float is only a matter of altering the pixel clock.

Multiplying vertical pixels by a float however is difficult as this has to be done with a digital solution.

As such we prefer to use a resolution whose vertical pixels are a multiple of 144. (Any integer)

There so happens to be a resolution which adheres to this: 768x576


VESA signal 768x576 source

General timing

Screen refresh rate 60 Hz
Vertical refresh 35.819672131148 kHz
Pixel freq. 34.96 MHz

To 'convert' 160 pixels to 768 we simply adjust the pixel clock: 34.96 MHz / 768 pixels = x MHz / 160 pixels x = 160 pixels * (34.96 MHz / 768 pixels) = 7.283 MHz So if we use a pixel clock of 7.283 MHz, the 160 pixels will stretch themselves over a width of 768 pixels.