The Ultimate Retro Chip Tester?

For all who need a back button: The next firmware release will have one. - Update: v19 has been released (new menu, new switch assignments)

Perfect timing for me, as I've recently launched into a retrocomputing project. Thanks so much for this build and review!

Great video, really useful device to have in your arsenal. Love the way you keep any mistakes in your videos, rather than editing them out. Makes for a far better viewing experience. Thanks Noel 👍

Love the "warts and all" aspect of this video. Thank you for showing your mistakes along the way, as we can learn much more from them than just seeing the working unit.

Great walk through from start to finish, even point out the room to improve, I think the author will appreciate your work.

Love this video for two reasons. The first being its very well produced with clear explanations. It also shows the human side of many of us and the common mistakes and problem solving we all do from time to time such as working through the problem of programming the fuses and firmware, picking the wrong display, forgetting the contrast setting, etc. It's "reality" CZcams. I really want to pull the trigger on this and build one. Keep up the fine work on your very informative videos sir.

12:47 if it doesn't have a dedicated back button by design, the easiest way will be implement in the firmware a "hold" (long press) state on the select button to jump back .

You're right, it needs a rotary switch with a button and submenus. Also it's be cool to have a few memory buttons that could be custom shortcut to chips you test frequently.

Wow! As always, your videos are really fun and well done! Thanks, Noel, for showing to us so many devices and computers. This CZcams channel is pure gold!

Don't underestimate the amount of work required to design and develop the software for something like this. The idea the they make this available at cost is truly generous. I think they can look at your comments regarding the user interface. It might not be a trivial exercise but doable to re-purpose some of the switches in different modes of the menu. Very good and thorough review. As usual saw a video pop up from your channel and jumped to view it. Great work.

Very cool - glad there are things like this out there to test these old chips.

Psh.. I could totally design and build one of these myself. .... just as soon as I get done with the other 8000 projects I said that about. 😒
Hm. Maybe I should just buy one, so I could actually use it before I expire.

I just wanted to watch a minute into the video and now I watched the full. Super interesting review, thx!

Remember to set the contrast for the new LCD. Also, I would mount it in a wooden case with a lid, and print the extended chip list as either a table on the inside is the lid, or as a little booklet that sits next to the device.

I appreciate this video so much. I ordered my BOM and TOTALLY missed the screen too :) Thanks for all the great content as always. I'm a big (lurking) fan.

Excellent video! Absolutely loved it!

Yeah, as soon as I saw the interface I immediately thought "that should really be a rotary encoder with velocity" ;)

Incredible. A few days ago I was wondering if a product like this existed and this pops up in my recommended.
Great video.

Great video Noel!
Love to see the mistakes. Best way to learn 😁

Great video, you actually mentioned this tester a while ago and that is how I found it. I bought the pcb and parts immediately and have build one myself a few months ago. I had to laugh when I saw the wrong zif socket early in the video, as I made the exact same mistake ;-)
I flash mine with an arduino (programmed as isp) and this works fine, however you do have to disconnected the sd reader to program, so there's a tip for you and others.
I would also like to mention that support from Stephan is just awesome, I have mailed him a few couple of times when I had a 'problem' and he is very helpful and all issues were solved within a day!
Next to retro computers I repair arcade pcb's and this thing is a must have for this...

This is a brilliant device and I have nothing but praise for the amount of work the creators put into designing this super useful tool. Definitely on my list of things to get hold of! I'm thinking in terms of the user interface, having a number pad might be a good idea as the list of supported chips grows, so you could reference to a list number and jump straight to the chip you want.

Very cool tester! Thanks for reviewing it!! Something more to add to my Christmas list! :)

Totally worth it. I've got a couple of machines that I would love to use this on!

Love the trouble shooting on the ATMega. I've had quite a few bricked ATMegas and never thought to introduce an external clock. Good stuff!

Very impressive variety and amount of chips it can test. I would think having the ability to interface with a computer and use a simple VT52 interface would help vice relying on a LCD screen - but it does make this tester as a convenient standalone tester.
An alternative tester that I recently acquired is the Tauntek IC tester that I saw reviewed by CuriousMarc YT channel. I like this tester because during testing it is able to measure current drawn by the chip and measure pin voltages are within VOL and VOH levels and even tristate levels. It’s helpful to see borderline chips that other testers may just declare pass even though the chip may pull way more current than normal.
The tester reviewed here and the Tauntek tester, together, can be some great testers to both have to complement a viable work bench.
Thanks for the review on this tester and highlight mistakes during the build that could easily happen to any of us.

I think I'm sold on this.
In the future making it so it can identify unidentified chips would be a fantastic feature if it can be added! Also adding a full keypad to directly enter chip numbers would make things easier too. If/when I get one I think I'm going to try to design a 3D printable case for it.

I would use the same 4 buttons but with this actions: Up, Down, OK, Back. Reset would be just Up + Down pressed together. That would allow any navigation using a menu style interface. As always, great video Noel!

I put one together. the build was really satisfying, it came up the first time. I used it to test some ZIP dram.

Thanks Noel. Love that you left the mistakes is… Great manuals often have the TLDR problem. We are all humans :-)
I have a RAM tester (no idea what kind of model it is - it was pricy), which also measures the maximum speed of the RAM chip. I've found a bunch, where the maximum speed was slower than what was promised on the label…

Nice gadget and work, as always. If you are planning to use it constantly, as you already told us, I would suggest you(you know me...) to ask the manufacturer for 3 things to implement in the next update:
First: For those who use the small screen, there should be an option to have a vertical or horizontal scrolling, in order to be able to see all of the available info. This might be good even for the big screens.
Second: If we want to go back and choose the previous chip type, as you had the need to do, this could have been done by holding down the "next" button or using a combination of buttons, in order to go back one selection.
Third: The ability to control the whole system(or even set some parameters like the fore-mentioned scrolling) from the computer, like all of the other programmers in the market do, as far as I know.
I think that these thingies would be nice to have. Happy testing!

Great vid ! I can't justify to buy the components and build this board but it's nice to know it exists. Thanks for letting us know about it

I have this tester in version 1.2h and I dont regret buying it. It is very useful and today I can use it without problem (as like I´m sleeping).

These LCD screen have the same controller and ALL work with a virtual display of 2 lines x 40 columns. The physical LCD will always just display a part of this virtual screen. If you write sequential chars on the display, they will be written to the RAMbut will not be displayed. A 4x20 display will have the first half of line 1 in line 1, the second half on line 2, then 1st half of line 2 on line 3 and the last half of line 2 on line 4 (or something like that, it's 30 years ago that I wrote a Siemens ES102 display emulation on such a Toshiba LCD display).

That is an amazing piece of kit that any retro restorer should have in their tool chest. From what I've seen on the creator's site though, the code does not seem to be open source. This is not a deal breaker, but I think it would allow for the community to contribute patches, like the one Noel refers to about a possible back button feature.
To be absolutely clear though, I am planning on purchasing one of these for my own retro restoration projects, and having the ability to determine if memory chips and supporting logic chips are good or not is invaluable in my opinion.

Terrific video...I learned more from your errors than I would have otherwise.

just a tip...you could have used the arduino board to connect to the ICSP and program the chip! (that how i programmed my z80-mbc2 a few weeks ago)..you didnt have to buy that "programmer" EDIT: i see you mentioned that at the end of the vid!
cool board...thanks for the look Noel

Awesome board and step by step video.
I saw the limitations on 13:00 . The only suggestion would be get rid of the button controllers and the display using the computer as a main interface via usb.
That would simplify the overall board, and make it simpler.

Amazing work of art. Hats off to 8Bit-Museum!

Excellent video and explanation. Thank you!

Awesome video. Thanks for sharing the whole journey, mistakes included :)

Super & great analysis. Nice comments to help to improve the design.

Been wondering when this video was coming, now I know why it took extra long! 😂

Nice. I would love to see this evolve into a unit that can connect with an Amiga or ST, then check all common computer DIP chips, such as 68000, VIC, Pokey and so on, and have full Workbench / GEM support for easier navigation and feedback.

I have just created a brushless motor controller, and it has a Hitachi display like that one. It has several pages of PID controls and other presets. The user interface uses a rotary encoder just exactly as Noel described. It's a fast effective way to implement any UI. The rotary encoder has a pushbutton built in, so you only need to hold one rotary control and you can do everything.

I've also build the tester, great device and nice support/development/updates from Stephan S.

This machine is great, but it seriously needs a USB port and an associated PC application. That interface is far too clunky as it stands.

Excelente placa en formato modular y con un manual que explica desde como armarla hasta como usarla, me recuerda mucho al homebrew computer club y la filosofia de armar las cosas uno mismo sabiendo como funcionan y dejandolas abiertas para modificarlas y expandirlas, gran video!

I was on the fence until the ROM trick , very cool device.

amazing ,great project

Many years ago (1985 to be precise), I was part of a design team for a RAM tester for use in factories. It was about a metre across and was too heavy for one person to move. Things have changed.

I've replaced that type of buttons quite a few times in my projects as they fail. Rotary digital step control would be much better.
I remember buying an IC tester from Maplin back in the 90s which had a board with an ISA connector...I used it mainly for 74 series.
This new board covers a lot of different types of chip. Testing is slow but probably ok for occasional use.
Checking the monitor screen carefully is essential to avoid missing any errors. Previous experience programming with Arduinos would help .
The Manual looks good and is probably essential and read through carefully before starting the build.
Nice one, Noel.

Dang it Stefan!! Another cool project I can't make.

Great tool, great review. Thank you. I was aware of this kit, even exchanged a few msgs with its designer last year. I only fix and maintain my modest collection of ZX Spectrums, so a bit on the expensive side for me, but yet, as you have already said, it is a very valuable tool for those who make money doing retro repairs, well worth the price for them, I wouldn't think twice if I were one. You are right on the idea of a rotary switch, I am sure the designer will consider that on the next hardware revision. Also since now you are used to buying parts twice :-) you should get a yellow positive image 4x20 LCD for that. Totally pin compatible, much better contrast and viewing angle, just a little more on the price tag but worth it. I've stopped using these "blue" LCDs on my projects long time ago, they are just a waste of money.

Very interesting review. I didn’t know about it 👍

That's an amazing device.

Excellent video :D This would be so great to test ram and different chips. I will ask if texelec can build and sell these preassembled.

I just bought one based on this video and can't wait to put it together. Regarding the price, I spent a few weeks on a project because an SRAM chip was counterfeit. If I had this device, it would have paid for itself in time alone.

oh man, this thing needs a rotary encoder soo baaad.

Very nice! Great that there’s a Reichelt shopping cart :) and that documentation is very impressive. I also tend to handle manuals as troubleshooting guides :) Life’s too short to read manuals :) And ironically I am one of those developers that writes tons of documents and designs. Because I tend to forget easily. But nobody reads them and I can’t be angry, because that would be hypocritical:)

very good as always!

The 44256 were extremely common memory chip in the early 90s. Neary every 1MB VGA card was equipped with 8 of them. The GUS classic used these chips as sample RAM. Some 286/386SX mainboards that offered DIP socket memory as well as SIMMs accepted banks made of 4 44256 (for 16 bit data) and 2 41256 (for parity) to build a bank of 512K.
So indeed, the chips are exotic for you, but that's just because they are newer than the retro stuff you usually deal with.

Interesting and useful, thank-you.

Wow, that looks like a really useful device!

You jumpstarted the car without your feed on the ground, literally. Considering that you wired the clock signal but not ground (if I didn't miss another connection in the scene) I wonder what kind of loops were in your setup to work at all. A real feat!

8:00 It may just be 4MHz, but I kind of expected some problems with signal integrity, seeing as you've only used one wire to connect the clock signal, meaning the ground return path was all the way through the pcb, ICSP connector, ribbon, programmer, USB port, the other USB port and finally the arduino's USB cable. Although if you really didn't change much between the two tries it's more likely it was just a dodgy connection. Either way, it was an interesting way to get the chip working without a high voltage programmer, so kudos to you!

Great work. 🔌⚡
Thanks so much for sharing. 😎👌🏼

Been there and done that with “bricking” an AVR. With an AVR you can feed its clock directly to an output pin. So I use that from a second AVR to provide a clock.

The 4-line LCD would look better if you adjust the contrast. You shouldn't see boxes behind each character.

Awesome video and great inspiration. OK, OK, I admit I've been putting off putting this together for a year!!! I am going to go start right now... Until I inevitably get to the point where I ordered the wrong part or programmer.

Nice. The common TL866 programmer also tests many logic IC’s and memory chips, but this device looks like it also covers more of the earlier memory chips. Looks like a fun project to add to my project list queue. ;)

I would just have fun building and soldering this device, it's like meditation... :D

Wow, that's a great device!

Got to get one.

Such a good idea to purchase it. It will help you in your projects. Very lecturing video for people like me (and you as I see) that end purchasing the not-quite-correct components.Another fine video from Noel #AFVFN !!! Guess I'll make a t-shirt with this hashtag ;-)

Great vid. And device. Thanks

That 256k x 4 DRAM is super popular in (S)VGA cards from 1988 to 1993, I have probably a hundred or so of these ICs (all inside some old (S)VGA cards)

Well, that was fun! All you need now is a custom-designed 3D-printed case for it, and Bob's your uncle. The user interface you described (using a rotary pulser) seems like it would be do-able as a daughter card, no?

I agree on using a rotary encoder. In fact most of the ones I use have a button press function built-in to them just for that reason.

For better component selection ease, how about a master table with a four digit (or more if need) code for each device to be tested? Keeping the PCB markings the same for the benefit of other functions:

Press "Reset" button to start the device selection process. Press the "Select" button multiple times to increase the most significant digit of the device code displayed on LCD - press "OK" button - display moves right to the next digit - press "Select" button multiple times to enter the next digit - press "OK" - and so forth. Press and HOLD the "Select" button to rapidly decrement current digit with the digit position moving left to the previous digit position after a "0" count. "Reset" button to start over.

I wish I had that chip tester years ago. In order to test ICs I'd always have to build some circuit on a breadboard.

Cool test gear. I would enjoy building it, but would have very little use for it. I repair, (or sometimes adapt and break), Spectrums, so I'm already sorted for test equipment for them. :)

So this kit is so retro that it ships with a real manual, amazing!
For those who don't get it, old manuals were entire service manuals. :)

it is a wonderful and helpful video Thank you
,

WOW! As we say in Denmark... _"Hold du kæft"_ and take my money! I need one of these asap!! BTW: Great video! and great the you showed your misstakes. You learn a lot from that. Instans subscriber!

Nice video, thanks :)

Brilliant vid and thank you for sharing. You were able to extract the Amstrad chip code but is there another chip you can write it to?

You need a case for the tester. It is very easy to drop something (a chip maybe?) and do a short circuit on the board.

My first thought on seeing this is that it could be useful for testing newly acquired chips to see if they're counterfeit before installing them. I wouldn't mind seeing how well it works for that.

I really wish you bloggers would give these sources a heads-up so they can either ramp up their inventories or make arrangements for a one-time bulk production run.
So many great retro testing tools out there, and every time a story is run, the developer is slammed for orders within hours - leaving the rest of us to wait until production quantities are even available. It's not like these designs are pushed out to OSH Park for self-service ordering.

This device looks amazing! Not just for retro computing, but just general repair. Are there any plans to make this more commercially available globally?

You can use any Arduino to flash other ATmegas. The sketch is in the Arduino IDE.

I really wish I had discovered my interest in electrical and computer engineering before I started college 3 yrs ago.

Rotary encoders are expensive! The button setup would be fine but I agree, there should be a back button. Some combination could be added with a firmware update I'm sure. Might be nice to even let you put the menu / chip data on the SD card so you can select only the chips you want to test from a list on your computer to make it more convenient.
Submenus kinda already exist with the jump function.
A simple (short) test option would be nice though.
A feature that would be nice would be load testing the outputs / current draw during idle and usage. That could turn this from hobbyist diagnostic tool to industrial engineering sample analyzer real fast.
Real wishful thinking here but writing E/E/PROM chips would definitely be in the cards for this and I don't think it would be that hard to verify contents for them either. This could be an extremely powerful tool if it's given just a few extras!

Ohh Noel. The age old saying RTFM.... Congratulations on the 20k subs BTW.

Looks fantastic! Ah, I see silicon-ark sells it =D

13:30 A rotary encoder with a clickable button when you push it and an added back button, just because I like a good rotary encoder with a click :D

My grandfather on my mother's side was very headstrong and almost never read the manual on anything. Perhaps it was his education (he had a masters' degree in electronics engineering).

Have you used the CUSTOM option, a video on programming a custom chip would be good and very helpful

A great bit of kit, Can't you program the atmega from an Arduino in ISP mode instead of buying another programmer ?

Nice!