Gameboy LCD Sniffing

or How to Take Screenshots the Hard Way.

So, you want to immortalize your Tetris high score for future generations? You could do it the easy way and snap a photo of the screen with your smartphone. Or, gasp, take a screenshot when playing on an emulator.

But what fun is that?

Wouldn’t it be cool to crack open your old brick, peek at the LCD data bus and extract the screenshot from there? Let’s do it!

Before you begin

You’ll need a handful of stuff to get started:

This guide assumes you are using Saleae’s logic analyzer and software, but you don’t have to. Use any logic analyzer and software you want.

I think you will be able to follow along fine nevertheless, but you may have to deviate from my instructions from time to time.

Open up your Game Boy

Opening up the Game Boy is easy! Once you’ve got hold of a tri-point screwdriver, that’s it.

There are six screws on the back that needs loosing: four along the edges and two that you will find hiding behind the batteries, once you’ve removed them.

Connect test clips to data bus

When the Game Boys guts are exposed, you will see that the back and front PCBs are connected with a ribbon cable.

You’re going to tap into the connector on the back PCB using test clips of your Logic 8. If you squint your eyes hard enough, you may see that the contacts of the connector are numbered 1 to 21 from left to right.

Attach test clips to contact number 12, 14, 15, 16, 17 and 21 using the table below. Test clip number 3 (orange cable) goes to contact number 12 (V-Sync), and so on.

Test clip Color Connection Function
0 Black 15 LCD Data 0
1 Brown 16 LCD Data 1
2 Red 17 H-Sync
3 Orange 12 V-Sync
4 Yellow 14 Pixel Clock
GND Black 21 Ground

When you are done attaching test clips, it should look something like this.

Record them ones and zeroes

Now when you’re all hooked up, it’s time to connect the Logic 8 to your computer and fire up the Logic Software. I won’t go into too much detail about the application menus, take a look at the User Guide from Saleae if you’re feeling lost.

Setup channels and collect data

First thing first: start by choosing the channels you want to record. If you followed along earlier, it should be channel 0-4.

Then start collecting data by pressing the big green Start button. I’ve chosen to add a trigger on the rising edge of the V-Sync signal.

In the screenshot above you can see my recording. I’ve named the channels for clarity and zoomed in on a single frame. Right now we are looking at the signals that make up a full Game Boy screen!

About the signals

So how do these signals work together? The V-Sync pulse initializes the drawing of a new frame. The pixels are then plotted from top to bottom, line by line, driven by the H-Sync pulse.

One pixel is drawn on each negative edge of the Pixel Clock. Data 0 and Data 1 makes up the two bits that determine the shade of gray of an individual pixel.

0b00 = White
0b01 = Light gray
0b10 = Dark gray
0b11 = Black

Exporting pixel data

You could decode those signals visually to get all the pixel gray values, but that would take a whole lot of time. Let’s add an analyzer to do the hard work.

Choose the “Simple Parallel” analyzer and use DATA 1 for D0, DATA 0 for D1 and PIXEL CLOCK for Clock, like in the screenshot above. Make sure to pick “Data is valid on Clock falling edge” aswell.

Now add a Timing Marker Pair to select a single frame, like the screenshot above. Then click the cog to the right of “Decoded Protocols” and choose “Search Between Timing Markers.”

Again, under the cog to the right of Decoded Protocols, you will find the option to “Export search result”.

This will give you a comma-separated value file with all the pixel gray values, like this:

Time [s] Analyzer Name Decoded Protocol Result
0.016654640000000 Pixel Data ‘0’
0.016656660000000 Pixel Data ‘3’
0.016656900000000 Pixel Data ‘1’

There will be more than three pixels, though. The Game Boy screen size is 160 × 144 pixels so there should be a total of 23,040 lines, excluding the header, in the exported file.

Extract a screenshot

Almost there! With all these pixel values you can generate an image. You could do it manually, pixel for pixel, or write a program to do it for you.

Actually, I’ve already hacked together that program for you. It’s written in portable C so it should run about anywhere.

Download or checkout this repository and compile by running make:

$ git clone
$ cd game-boy-lcd-sniffing
$ make
$ ./bin/ld2img -o screenshot.pgm your-export.csv

This will hopefully end with a PGM image named screenshot.pgm, watch it in all its glory and congratulate yourself for a job well done.

Here’s three screenshot I took using this technique from Kid Dracula, Mole Mania, and Solomon’s Key. Try them if you haven’t, they’re all great games!

Common My mistakes

The road to that image was a bumpy one for me. Here are some obstacles I ran into. Hopefully writing about them makes the road less bumpy for someone else.

My first exported image looked like this. It looks like an old undeveloped film from a camera. This was a programming mistake from my side, solved by this little line.

The second attempt looked much better, but still a little of. This time I had set up my analyzer wrong in the Logic Software. Changing to “Data is valid on Clock falling edge” solved the problem.

Wow, this looks awesome! Right? Not quite… I had set DATA 0 and DATA 1 signals wrong in the analyzer settings and that mixed up the gray values: light gray looked dark and vice versa.

Thankfully it was an easy fix: I just had to select the correct channels for D0 and D1 in the Analyzer Settings window.

That’s more like it!


This guide and its media assets are licensed under the Creative Commons Attribution-ShareAlike 4.0 International license. Source code is licensed under the MIT license.

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