God-tier repair skills as always. Most people would have given up at this point. You should definitely archive your custom firmware until somebody dumps the real deal.
Certainly not an easy fix, especially when you first have to root out the cause. That said, you don't absolutely need a PAL/GAL chip here. An 8-bit microcontroller could probably be made to do the job. The clock division alone could probably have been done with a multiple flip-flop IC chip.
Excellent work, you never cease to impress with your repair skills. While I have no need of the firmware personally, I do think the firmware you wrote should definitely be released, these old boards are going the way of the dodo and having the ability to keep them going for as long as possible is hugely important imo
Most people would just connect 5v to the affected pin permanently. Actually I take that back. Most people would know how to even find the problem. Please keep making these videos. They are very impressive and entertaining.
Wow reverse engineering the PAL chip and writing a replacement firmware is next level! I loved seeing how you worked out the logic, great visualizations! Also it made me realize that the PIO cores on the Pi Pico RP2040 are basically embedded PAL chips 🤯
I think this is the first time I've encountered anyone programming a replacement PAL from scratch. That's some next-level work! It was also interesting to hear an explanation of the different implementations of turbo functionality.
A dead PAL chip is usually where most people figure it can’t be fixed. Reverse engineering one is incredibly impressive! From reading some of the FPGA recreation forums, it’s usually the custom PAL chips that hold up so many, that they end up trying to just use the original chips salvaged from ruined boards.
I really have to respect the skills and patience required to pull a repair like this off. From the last few episodes I was really looking forward to how you were going to repair these boards. Thanks for sharing!
I'd recommend archiving that reverse engineered firmware. Something tells me this particular implementation of a turbo controller has a high failure rate, due to choosing the cheapest IC they could get their hands on, based on the age of the hardware when it was manufactured.
This was a great explanation of Turbo-Switching. I was never aware, that it was not just slowing down the clockspeed! At "rest in peace old PAL" i chuckled 😂
The analysis and problem solving is what i love about your channel. And even if i dont know a lot about electronic/electricity, i'm still learning and understanding HOW it works and im starting to follow along more easily!
Wow. Just wow. I don't want to say that your skills are godlike, you' said in some previous videos that you kind of involved in software development and this skill to "dig in" is essential for every good programmer. But you move forward further and go mess with hardware. And i think fighting this issue (in such elegant manner) is a great personal achievement. And... from retro-hardware folks perspective what you did - is total magic. And... my hat tips and respect to your research and repair work. Nice show, thanks for your video!
This is the kind of content we're here for. Other channels be like: "Yeah, motherboard iz half-ded, it's for parts, too bad". Necroware be like: "Lets reverse engineer the PAL and write new firmware." And he proceeds to do it. WHAT. Amazing.
Terrific work on the reverse engineering! So much knowledge about these custom programmed logic chips is lost to the annals of time, and it makes repairs like yours all the more difficult! Very well done :)
Sorry for the loss of a pal of yours ;-) Great video! Hoping it may come useful, here's a technique I use when investigating a logic signal on a PCB which is not behaving as expected: instead of shorting it to ground or to a supply rail, I always use a resistor. In this way you get more information about what's actually going on and, for example, you can discriminate between a dead short (like a solder bridge) or the lack of a driver winning over a pull-up/down resistor. It also avoid doing more damage or overloading the supply. For example using a 10k from 5V, 0.5mA is enough to pull the signal to ground and this current should not be a problem for anything. If the signal is lifted to 2.5V you know that the net is connected to something equivalent to 10k. Again, really impressed with your perseverance and skills!
Thank you for all your efforts. If possible, please archive your work. This may help others even with different motherboards that use similar chips. Great video.
I've thought about this video multiple times today after watching it yesterday. Fantastic. This is excellent content, and very relevant. There are fewer and fewer of these machines, and the problems will continue to happen. So please, more content like this!
Yes it would for sure be useful to have access to the programming file for the PAL/GAL for archival for fixing others of these motherboards and also learning from the source.
Wow, your patience and technical know-how are amazing - makes me believe I could achieve the same one day. Most motherboards are a black box to me, so this was a very interesting and easy to understand video, thank you.
I have a soft spot for the turbo button and went to great lengths to find a turbo capable motherboard for my primary PC. Turbo in general is a poorly documented and esoteric topic, this video was enlightening.
Incredible work, I enjoyed this very much! The PAL stuff was very interesting, first time I've seen someone reverse-engineering one of those. Keep up your wonderful videos man, you're a gem. :)
From a electronics engineer's stand point, Nicely done. Most people would of just tied that pin high or toss on a switch to enable/disable it. Typically when people run into a PAL/GAL chip issue they just give up.
that was very interesting how you worked out where the problem was, and even more interesting was that you managed to build up the PAL with no knowledge of what needed to be programed in there, only what it should produce on the outputs, I guess you have a fair bit of background knowledge of programing these devices.
Absolutely great detective work. :) I might have socketed the PLCC chip when it was desoldered anyway... but then the chance of that same defect happening again in the same place is low. Although, since 2 boards have failed on the same chip, it may be more common than one would think, hmmm...
Great work, brilliant detective work on the Turbo functionality, thanks for sharing I think that will be very useful for other people struggling with broken Turbo functionality on their machines. Also makes me wonder if implementing 'Turbo' (slow down) on other machines that don't have it might be possible so that some speed sensitive games could work better.
My friend and I both worked at PB writing tech docs during the time of these boards. That document you found was very likely written by him or he was involved in its creation. What you found was probably a webified version of the one created in the early 90s before PB even had a website - the info would be sent to service centers on 3.5" floppies that we hand created. I remember this board but it was replaced shortly after with the PB450. If you ever run across one, many had a quirky BIOS that caused them to slow down when you added the cache chips! :D :D
This is fantastic work! I'm so glad you figured this out! As I said on the previous video I have a particular interest in these mainboards as my first PC had a PB410 mainboard in it and I learned a LOT while using the machine for several years.
So, if I am understanding it right - it wasn't too clear in the video - the 6 MHz, 3 MHz, 1.5 MHz, and 750 kHz signals output from the PAL weren't used by anything else on the board, and were just a vestigial artefact of the PAL dividing down (by half each step) the 12 MHz clock signal to get the 750 kHz FLUSH pulses?
Being able to reproduce the code on these PAL chips is a huge deal, since it's frequently the point of failure that takes these old boards down for good. A lot of old Macintosh computers have multiple programmable logic chips that can die, and their opaque contents also impedes reproduction board efforts, something that's ongoing in the retro mac community.
👏 Very interesting. I had been wondering how the turbo button worked. Now I have a pretty good idea. If anyone can benefit then I think it is worth while publishing the PAL firmware.
My very first pc was a 386SX25 with a turbo button. If I remember rightly it dropped from 25MHz to 14MHz when it was used. It also had 2 Meg of RAM (soldered to the mobo as 8 256k chips) and a massive 50 Meg hdd.
God-tier repair skills as always. Most people would have given up at this point. You should definitely archive your custom firmware until somebody dumps the real deal.
Certainly not an easy fix, especially when you first have to root out the cause.
That said, you don't absolutely need a PAL/GAL chip here. An 8-bit microcontroller could probably be made to do the job. The clock division alone could probably have been done with a multiple flip-flop IC chip.
I love this!! Amazing work and so interesting. I had never looked much into his turbo worked, so this was fascinating.
At least something interesting I could give back to you ;) Thank you Adrian.
amazing skills!! 😉
amazing! Finding how the turbo worked was cool enough, writing a custom logic IC to replace the dead one is the next level! Thank you!
Your retro repair skills are astonishing. Thank you so much for this PB video series!
Excellent work, you never cease to impress with your repair skills.
While I have no need of the firmware personally, I do think the firmware you wrote should definitely be released, these old boards are going the way of the dodo and having the ability to keep them going for as long as possible is hugely important imo
Most people would just connect 5v to the affected pin permanently. Actually I take that back. Most people would know how to even find the problem. Please keep making these videos. They are very impressive and entertaining.
Your tenancy is applaudable! 😊
What an amazing journey this was! Reverse engineering the chip for that turbo mode problem was just so cool to watch. So very well done!
Wow reverse engineering the PAL chip and writing a replacement firmware is next level! I loved seeing how you worked out the logic, great visualizations!
Also it made me realize that the PIO cores on the Pi Pico RP2040 are basically embedded PAL chips 🤯
I think this is the first time I've encountered anyone programming a replacement PAL from scratch. That's some next-level work! It was also interesting to hear an explanation of the different implementations of turbo functionality.
A dead PAL chip is usually where most people figure it can’t be fixed. Reverse engineering one is incredibly impressive! From reading some of the FPGA recreation forums, it’s usually the custom PAL chips that hold up so many, that they end up trying to just use the original chips salvaged from ruined boards.
I wonder if anyone back in the day bought a new PC then hit the Turbo button and wondered why it ran so slow!
Everybody I think :)
I used turbo button to slow down. Once.
I lived through those days but never had the need to slow down.
I was young and foolish 🤠
I thought my parents had bought a faulty pc 😅
"Rest in Peace, old PAL" 😁
That's priceless 😂
I really have to respect the skills and patience required to pull a repair like this off. From the last few episodes I was really looking forward to how you were going to repair these boards. Thanks for sharing!
I'd recommend archiving that reverse engineered firmware. Something tells me this particular implementation of a turbo controller has a high failure rate, due to choosing the cheapest IC they could get their hands on, based on the age of the hardware when it was manufactured.
You, sir, are a genius! 🧠
This was a great explanation of Turbo-Switching. I was never aware, that it was not just slowing down the clockspeed! At "rest in peace old PAL" i chuckled 😂
The analysis and problem solving is what i love about your channel. And even if i dont know a lot about electronic/electricity, i'm still learning and understanding HOW it works and im starting to follow along more easily!
Excellent video and troubleshooting work as always! I learned a lot about turbo functionality and PALs too. 👍🙂
Wow. Just wow. I don't want to say that your skills are godlike, you' said in some previous videos that you kind of involved in software development and this skill to "dig in" is essential for every good programmer. But you move forward further and go mess with hardware. And i think fighting this issue (in such elegant manner) is a great personal achievement.
And... from retro-hardware folks perspective what you did - is total magic. And... my hat tips and respect to your research and repair work. Nice show, thanks for your video!
Brilliant! Nice work reverse engineering that PAL too! Looks like a common fault, perhaps caused by the leakage =/
would more think the age of the board.
This is the kind of content we're here for. Other channels be like: "Yeah, motherboard iz half-ded, it's for parts, too bad". Necroware be like: "Lets reverse engineer the PAL and write new firmware." And he proceeds to do it. WHAT. Amazing.
What a smooth 'n soothing episode, enjoyed it with ma Coffee.
Приятель, ты мега крут!!!! Аплодирую стоя!!!
I like the PLCC to DIP "adapter" :)
Terrific work on the reverse engineering! So much knowledge about these custom programmed logic chips is lost to the annals of time, and it makes repairs like yours all the more difficult! Very well done :)
Sorry for the loss of a pal of yours ;-) Great video!
Hoping it may come useful, here's a technique I use when investigating a logic signal on a PCB which is not behaving as expected: instead of shorting it to ground or to a supply rail, I always use a resistor. In this way you get more information about what's actually going on and, for example, you can discriminate between a dead short (like a solder bridge) or the lack of a driver winning over a pull-up/down resistor. It also avoid doing more damage or overloading the supply.
For example using a 10k from 5V, 0.5mA is enough to pull the signal to ground and this current should not be a problem for anything. If the signal is lifted to 2.5V you know that the net is connected to something equivalent to 10k.
Again, really impressed with your perseverance and skills!
You sir are a master of the old x86 days. Well done. And yes, it deserves archiving.
Thank you for all your efforts. If possible, please archive your work. This may help others even with different motherboards that use similar chips. Great video.
very interesting repair! I've never come across anything like that.
This was one of the best motherboard detective work videos I have ever seen. 😀
Great job!
I've thought about this video multiple times today after watching it yesterday. Fantastic. This is excellent content, and very relevant. There are fewer and fewer of these machines, and the problems will continue to happen. So please, more content like this!
Because of your channel I took a foto of my Advantech industrial sbc pentium board and sent it to the retro web 😊
Amazing work!! That's why i come here.
Yes it would for sure be useful to have access to the programming file for the PAL/GAL for archival for fixing others of these motherboards and also learning from the source.
This is just incredible.
I'm just repeating what everyone else has already said, but really good video. Educational and entertaining. Love these deep dives.
Even if many people write similar kind words, this is still very motivating and helps the channel to grow. Thank you very much too!
@@necro_ware least we can do :). Keep it up and hope all is well mate.
Wow, your patience and technical know-how are amazing - makes me believe I could achieve the same one day. Most motherboards are a black box to me, so this was a very interesting and easy to understand video, thank you.
"Rest in peace old PAL" - I see what you did there ;-)
You Sir, are very clever guy! Truly are THEE Necromancer of electronics...
Amazing - great fix!
I really appreciate this kind of deep diving for fixing things, superb!
I have a soft spot for the turbo button and went to great lengths to find a turbo capable motherboard for my primary PC. Turbo in general is a poorly documented and esoteric topic, this video was enlightening.
turbo button + 7 segment led ❤
Incredible work, I enjoyed this very much!
The PAL stuff was very interesting, first time I've seen someone reverse-engineering one of those.
Keep up your wonderful videos man, you're a gem. :)
From a electronics engineer's stand point, Nicely done. Most people would of just tied that pin high or toss on a switch to enable/disable it. Typically when people run into a PAL/GAL chip issue they just give up.
that was very interesting how you worked out where the problem was, and even more interesting was that you managed to build up the PAL with no knowledge of what needed to be programed in there, only what it should produce on the outputs, I guess you have a fair bit of background knowledge of programing these devices.
I am amazed by your skills and reasoning: please keep this up. It is inspiring.
That is taking repair to another level, very impressive.
Congratulations, @necro_ware, you now have 30,000 subscribers!!!
Yeah, unbelievable :) Thank you very much!
Absolutely great detective work. :) I might have socketed the PLCC chip when it was desoldered anyway... but then the chance of that same defect happening again in the same place is low. Although, since 2 boards have failed on the same chip, it may be more common than one would think, hmmm...
And TBH, you have already released the programming of the chip since we can see your PAL equations in the video. :D
So much trouble for such a little thing! Another great video, I always learn something with them.
This level of repair is absolutely incredible!!!
That was pretty intense.
You are a LEGEND!
I have to call my neighbor from downstairs so he retuned my jaw back! 😮 Astonishing job!
LOL :)
I like retro repairs video cool to learn something new 😃
Seriously, your determination has no bounds. Quite enjoyable video. Thank you.
Brilliant video as always, thanks for sharing this and all your thoughts about what is going on and how it works! 😉👍
Great work, brilliant detective work on the Turbo functionality, thanks for sharing I think that will be very useful for other people struggling with broken Turbo functionality on their machines. Also makes me wonder if implementing 'Turbo' (slow down) on other machines that don't have it might be possible so that some speed sensitive games could work better.
Fantastic stuff! Nice to see the logic / process you went through to get to the fix.
Congrats on another fantastic repair!!!!
My friend and I both worked at PB writing tech docs during the time of these boards. That document you found was very likely written by him or he was involved in its creation. What you found was probably a webified version of the one created in the early 90s before PB even had a website - the info would be sent to service centers on 3.5" floppies that we hand created. I remember this board but it was replaced shortly after with the PB450. If you ever run across one, many had a quirky BIOS that caused them to slow down when you added the cache chips! :D :D
It's nice that you made a replacement chip. I would have probably been happy to just remove it and have the system run at full speed all the time.
Incredible work! Congratulations!
Outstanding effort. Thanks for showing it to us.
This is fantastic work! I'm so glad you figured this out! As I said on the previous video I have a particular interest in these mainboards as my first PC had a PB410 mainboard in it and I learned a LOT while using the machine for several years.
You're a genius! Another amazing repair video. Thanks for your time.
well done, all to the end! i'm 100% sure i had ended it by pulling the pin high thus enabling full speed permanently 😄
That would be too easy :)
Super cool overview of turbo implementations. Also, major kudos on thr reverse engineering and fix. Get yourself and ice cream. You deserve it
Wow. Really enjoyed the video. I appreciate the time and effort in making it too 😊
amazing video, Necroware. you're talking alien language to me but i enjoy it so much :)
Great reverse engneering of that PAL. I always considered the turbo as a slowdown-button, as by default the systems would run in Turbo-mode.
Amazing. You never cease to impress me. Thank you for sharing these gems. It is a joy to watch and learn in each of these journeys.
Thanks for video. Big respect for problem solution
thank you for the nice video and some new knowledge about turbo mode :)
So, if I am understanding it right - it wasn't too clear in the video - the 6 MHz, 3 MHz, 1.5 MHz, and 750 kHz signals output from the PAL weren't used by anything else on the board, and were just a vestigial artefact of the PAL dividing down (by half each step) the 12 MHz clock signal to get the 750 kHz FLUSH pulses?
right.
Being able to reproduce the code on these PAL chips is a huge deal, since it's frequently the point of failure that takes these old boards down for good. A lot of old Macintosh computers have multiple programmable logic chips that can die, and their opaque contents also impedes reproduction board efforts, something that's ongoing in the retro mac community.
amazing job
That is some next level repair! Great job!
👏 Very interesting. I had been wondering how the turbo button worked. Now I have a pretty good idea. If anyone can benefit then I think it is worth while publishing the PAL firmware.
Very interesting content! Thank you!
Necroware necromancer skills!
You 're an 007 agent of old systems. Kkkkkk
Incredible! And I'm just afraid of unsoldering a damaged floppy connector😂
Really solid work, well done!
As always Necroware provides us with quality and interesting content. Thx Necroware ❤
I love your content and looking deep into actual issue!
As i told on the phone. This is really over the top.
Amazing video!
Absolutely incredible work!!!!
you are the best friends of mine, thank you so much..
once again i must say your videos are amazing to watch and your skills are just out this world. thanks for the content :)
Man, great work! Thank you for share with us.
My very first pc was a 386SX25 with a turbo button. If I remember rightly it dropped from 25MHz to 14MHz when it was used. It also had 2 Meg of RAM (soldered to the mobo as 8 256k chips) and a massive 50 Meg hdd.
Awesome work, must have taken many many hours!
Yeah, that was quite a long journey indeed.
Very impressive repair!
Excellent video and work, thank you for sharing this.
omfg these are some godlike repair skills
Wow. Jestem pod wrażeniem.
Just awesome work.