Make a Custom Arduino Test Bench Using Wirewrapping




About: I am a hobbyist with an interest in open-source software, 3D printing, science and electronics. Please visit my store or Patreon page to help support my work!

This Instructable will show you an easy way to wire up an Arduino Nano to various PCB breakout boards. This project came about during my search for an effective, but non-destructive way to interconnect several module.

I had five modules I wanted to interconnect:

  • An Arduino
  • A 5-inch 800x480 graphical LCD touch panel from Haoyu electronics
  • An SD card reader
  • A DS1302 real-time clock unit
  • A MAX485 RS-485/RS-422 transceiver

The touch panel and the real-time clock modules had previously been used in my my Dali Clock and my Rainbow Synthesizer projects, but those prototypes had been done on a breadboard and had been dismantled to make space for new projects.

It became clear to me that having these all these modules together in a permanent fixture would allow me to spend more time writing software and less time wiring things up on a breadboard. At the same time, I did not want to permanently solder anything together so I could preserve the modules for future use.

This Instructable shows how I put it all together using wire wrapping.

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Step 1: Planning the Interconnections

My first step was to map out how to interconnect all the modules to the available pins on an Arduino Nano. The display and the SD card are both SPI modules. SPI is a bus, so the CLK, MISO and MOSI lines can be daisy chained to the modules that need it along with power. Each would require their own CS (Chip Select) pin, however.

I decided to put the RTC module on its own pins because earlier experiments had shown me it wasn't quite SPI compatible. The transceiver modules also needed their own pins.

After mapping everything out, I found it looked like this:

  • Arduino Pin GND -> LCD GND -> SD Card GND -> Transceiver GND -> RTC 5V
  • Arduino Pin 5V -> LCD 5V -> SD Card 5V -> Transceiver VCC -> RTC VCC
  • Arduino Pin 13 -> LCD CLK -> SD Card CLK
  • Arduino Pin 12 -> LCD MISO -> SD Card MISO
  • Arduino Pin 11 -> LCD MOSI -> SD Card MOSI
  • Arduino Pin 10 -> LCD CS
  • Arduino Pin 9 -> LCD PD
  • Arduino Pin 2 -> LCD INT
  • Arduino Pin 8 -> RTC CLK
  • Arduino Pin 7 -> RTC DAT
  • Arduino Pin 6 -> RTC RST
  • Arduino Pin 4 -> SD Card CS
  • Arduino Pin 14 -> Transceiver DI
  • Arduino Pin 15 -> Transceiver DE
  • Arduino Pin 16 -> Transceiver RE
  • Arduino Pin 17 -> Transceiver RO

Pins 0 and 1 are used by the USB interface, so they were off-limits. Digital pins 3, 5, 18 and 19 remained free, as did analog inputs A4 through A7, allowing for future expansion.

Step 2: The Problem With Jumper Wires and Wirewrap As a Solution

Initially I had attempted to interconnect everything with short custom crimped Y cables. However the crimps and connectors are only designed to take one wire at a time. Cramming multiple wires in one housing was difficult and led to fragile joints that didn't last long. Not only was the crimping process time consuming, once in use the connectors were likely to work themselves loose from pins, leading to additional wasted time tracking down intermittent faults.

I had always wanted to give wire wrapping a try, so I thought this was a good opportunity to do so. After some research, I purchased a WSU-30 M tool, some extra long 19mm long single row headers and 30 AWG wire wrapping wire on eBay.

As a technology, wire wrapping has a long history. It was a popular way to make digital computers in the 60s, 70s and 80s and saw frequent use in telephone central offices. Although it was obsoleted by mass produced printed circuit boards, wire wrapping has the following advantages for the hobbyist:

  • It is inexpensive and quick
  • It is easy to apply and can be removed cleanly
  • It works with the pin headers that are soldered to many breakout boards
  • It forms a long lasting and reliable connection
  • It allows multiple connections to and from each point (when long headers are used)

Step 3: Preparing an Arduino Nano

The next step was preparing my Arduino Nano. I had an Arduino Nano without any headers, which turned out to be handy, since I wanted to solder the extra long header pins to the top side so I could see the labels while wire wrapping.

I also soldered some extra long headers to the tiny breakout board that came with my display panel.

On the transceiver module, the screw terminals were on the opposite side of the headers, so I desoldered them and moved them to the same side as the headers.

The other boards had short headers already soldered on in the correct side, so I kept them as is.

Step 4: Designing a Tray

I wanted to be able to mount all the electronics in the back of the LCD stand I had created for my Dali Clock instructable, so I modeled up something in OpenSCAD. I made cutouts for the various boards I wanted to mount.

After I printed out the tray, I hot-glued all the modules in place.

Step 5: The Process of Wirewrapping

The process of wire wrapping consists of the four steps: measuring, cutting, stripping, and wrapping.

I measure out enough wire for spanning the two points I want to connect, plus an additional inch on each end for wrapping. Then, I strip off 1 inch of insulation on each end and use the tool to wrap the wire onto the post.

The following is the exact technique I use, which you can see on my demonstration video:

  • I measure the span between two points I want to connect
  • I mark the desired length with my fingers, then use a ruler to add two inches
  • I cut the wire to length
  • I measure 1 and a 1/4th inch off the end
  • I then insert the end into the hole on the wrapping tool
  • I pull the wire down into the gap in the cutting blade
  • I yank the wire from the other end, stripping bare one inch of wire
  • I repeat the process for the other side of the wire

With the wire stripped on both ends, I insert the bare wire end into the barrel of the wire wrapping tool so that the stripped portion emerges from the notch on the side. I then slide the tip down on a post and give it a few turns, holding the tool loosely to allow it to rise up as it winds.

A good connection will leave about 7 turns of wire on the post. If the turns are stacked up upon each other, don't push down on the tool so hard!

UPDATE: Several of you have chimed in that the insulation should wrap around the post for strain relief. I have included two photos to show the difference.

Step 6: Wire Wrapping the Entire Board

This shows the board after I wire wrapped all the connections. I made a few mistakes along the way, but these were easily undone by clipping the wires and using tweezers to unwrap the ends from the posts.

I suggest doing it one part at a time and checking your work with a multi-meter or by powering up and testing each component. Its a lot harder to fix once there are multiple layers of wires.

My finished product looks a bit messy, but if you want you can be a bit more careful about the routing or use different colors to keep things clear.

Even if it doesn't look pretty, it is a lot more robust than a breadboard! But the big bonus is that if at any time you want to take it apart, you can do so easily with no damage to the Arduino Nano or to the pin headers on the individual boards!

Step 7: Compatible Projects

The completed board will allow you to implement these projects:

Epilog X Contest

Participated in the
Epilog X Contest



    • Indoor Lighting Contest

      Indoor Lighting Contest
    • Make It Fly Challenge

      Make It Fly Challenge
    • Growing Beyond Earth Maker Contest

      Growing Beyond Earth Maker Contest

    19 Discussions


    Question 5 months ago on Step 1

    Hallo. I´m new here. My question is: how do i get the code for this projet?
    Thank´s for answer!

    3 answers

    Answer 5 months ago

    The code was provided in my two earlier instructables. This instructable is just on how to wirewrap the board.


    Reply 5 months ago

    Many thanks for your friendly answer!
    Yours sincerely,


    Reply 5 months ago

    I updated the Instructable with the code for the tray, if that is what you were asking for.


    5 months ago

    Seems a bit more work, but cleaner than poking tiny wires into breadboard holes or soldering. My first time seeing this, and it's a good idea!

    4 replies

    Reply 5 months ago

    Stripping the ends is the most tedious part, with a better tool for that, I would be a huge help.


    Reply 5 months ago

    I finally bought one of these. Saved my hands, wires, time, and life!

    Wire stripper vice.JPG

    Reply 5 months ago

    It is more work than a solderless breadboard however, you can actually use the finished wire wrap board in a permanent application if you wish. Where the application is a "one-off" this can often be the best route to get the job done. If designed and properly done, a wire wrapped device can be as reliable as a PCB.


    5 months ago

    Hurray!! To ”wrap” the wire. I worked for the telephone company LM Ericson in them late 70’s, yes, you did read it right, 1971->. And they developed this ”Wire&Wrap” technology into their telephonical automated exchanges. Thus to eliminate the work moment of the need to make the solder. They allso made a solution to owerride this momentum by introducing a cable to be ”Wrapped around” the stand but still having it’s insulation on, when soldered the insulation melts away?

    Your idea with ”Wire & Wrap" is really good
    But to be honest: Make a PCB- of your work

    1 reply

    Reply 5 months ago

    I've toured telephone exchanges before, the wiring work was certainly very impressive!


    5 months ago

    Talk about coincidence, I just wire wrapped a ESP32 internet radio. Got into the 'old stuff' box for the same tool, a fiberglass perforated board, and a pack of precut wires. Doesn't conform MIL-STD-1130 specs but it went together well. Even wrapping onto the short pins of the ESP32 Dev board, and using stock header pins, it works. It scratched an itch and satisfied my curiosity. More substantial than jumpers in a prototype board, yet I can easily dismantle the solderless terminations to reuse the hardware. Thanks for sharing your project.

    wire wrap 1.jpgwire wrap 2.jpg
    1 reply

    Reply 5 months ago

    Nice job! So one difference is that I am wirewrapping on the front, while in your project you did it on the back. Yours looks cleaner, but I bet it's harder to do it that way!


    5 months ago

    Perhaps it is time for the Wire Wrap Renaissance! It's definitely something to consider doing - sometimes solder joints or pin connectors aren't quite what's needed.

    Some things I noticed compared to what little I know about wire-wrapping:
    1) I'm pretty sure the proper method of wire wrapping requires 2 or 3 turns of the insulated portion of the wire to be wrapped, which acts as a strain relief - also stops bare wire coming directly from the joint
    2) Wire wrap pins aren't like the headers you get nowadays. They have sharp corners which bite into the wire, which header pins don't have. These sharp corners are the secret of it making an extremely reliable connection..

    2 replies

    Reply 5 months ago

    I am an old hand (both experience and age wise) at wire wrapping. I have designed and fabricated some very complex "one off" machine control systems in which I used wire wrapping. The only real possible problem I see is that there is far too much uninsulated wire on the close up shown. While it isn't always necessary to use a "modified" wrap in which about 1-1/2 turns of insulation is wrapped onto the post, there should not be any bare wire left between the post and insulation as it could cause a short circuit. I learned the hard way a long time ago to always use a modified wrap where that 1-1/2 turns of insulation is on the post. The type of wire wrapping tool you use determines whether the wrap is modified or standard. For any project I now attempt I use a cordless OK Industries wire wrap gun (rather expensive for just occasional hobby use) which can be fitted with a wide variety of bits and sleeves to obtain the type of wrap desired as well as allowing the use of different wire gauges depending upon the application.


    Reply 5 months ago

    Sometimes the insulation wraps around, sometimes it doesn’t. I feel like I haven’t gotten my technique down quite yet!

    As for whether sharp corners are best, definitely true. But actual wire wrapping posts are hard to find, in a pinch regular headers seem to work. Good enough for home use, maybe not up to NASA standards :)


    5 months ago

    I'd agree with U04601 and throbscottle that wire wrapping has much to commend it. Back in the 1980's, using wire wrapping prototyping boards I wire wrapped a fairly complicated interface board (interfacing a paper tape reader, paper tape punch, RS232 port and cassette tape) and my first 2 (Motorola 6800 series) computers, the first (photo attached - sorry you can't see all the wires underneath) with a massive 64k of dynamic RAM with hand-crafted row and column address multiplexing and timing. My wife used to refer to my "knitting"!

    For small scale work I guess you can get away with using standard pin headers, but as throbscottle points out, the sharp corners of proper wire wrapping pins cut into the wire to form micro welds which are much more reliable than solder joints.

    1 reply

    5 months ago

    Thanks for this instructable! I have not wire wrapped for more than 35 years but will be using it on future projects.