Good work. I used to use a FLIR camera to hunt for bad chips. Depending on the failure mode they don't always heat up but sometimes they do and it makes for quick troubleshooting.
Thank you! Unfortunately don't have a FLIR camera at my disposal, but I did the touch test, and nothing really felt any hotter than anything else except the VDP, but they run hot already.
I saw a video from Adrian's Digital Basement where he sprayed on some alcohol and watched to see how it evaporated. It disappeared off the hot chip super fast.
Shielding easiest fix is to spray with a coat of zinc based primer, or even aluminium silver spray paint, which will keep them looking nice. Otherwise you will need to chemically derust them, degrease and do a copper plate, then a nickel plate to get the surface bright with metal.
@@SonicBoone56 the RF shielding probably doesn't need to be conductive across its hold surface, so the areas where full electrical conductivity is required could be masked off. Dielectric grease in the uncoated area could protect metal from corrosion. Clearcoat will be fine in an indoor environment. Clearcoat is used by those who want to preserve the 'rat-look' on their vehicles. It isn't as good a primer, base coat and then clearcoat of course.
Damn it! That's why the 4A always looked weird to me! I had the 4 when I was a kid and didn't realize it, the darn thing was stolen when I was a teenager too. 😭
Several bits in the ROMs typically go bad. Best path forward is to unsoldered both ROMs (note which goes where!), Read them out, and compare to the known good code. Then program new UV EPROMs (with minor wiring changes). I spent WAY too long on other chips before discovering bad ROMs. I have a simple Arduino board and program to read, compare, and program them...for the 99/4A.
Back in the day, when testing for faults on 8-bit micro's, I used to "dead bug" the RAM chips. That is, sit a replacement chip on top of the suspect one with all the pins touching. Saved me a lot of time desoldering stuff...
I actually did that same test, pressing a new RAM chip atop the soldered in ones, but it didn't change anything, no matter what that line was always pulled high. Which feels like one of the 4116s failed with an internal short to VCC on that pin that was strong enough to overcome a known good chip sitting on top.
I'm so glad I sent you my TI-99/4a I got when I was a kid. You're the person I always wish I could find for the things I never can do much with myself but want to find a good home for.
Someday I hope to come visit and use your TI-99/4A setup for a few hours because I've wanted to get a running system started from that one I found. I wanted to so much that it sat at the foot of my bed until I sent it to you, but I just never found anything else for it so it was always by itself. Getting to play with your TI systems would fulfill that goal I had, especially since the only part I ever found got to add to that collection!
Great effort so far, I hope you can get this rare system up and running! I've never experienced the 99-4 but the 4/A has a special place in my heart. Little yellow screwdriver... KYB AGX? ❤ the short film!
Thank you so much for the coaster! The 4/A is a considerably better system, but it is fun to experience the obtuseness of the OG. And I have no idea where the little yellow screwdriver came from, I've typically been a Bilstein guy, though I do have a set of KYBs on my Bellett!
Looks almost as rusty and crusty as the VCF Mac :) Good to know of this rare transitional model, and nice to see your progress. It's definitely worth saving. As for paint, I'd go either with transparent polyurethane spray paint, or something automotive-specific.
If you don't like blanket replacements, why not get a retro chip tester or the like? Considering how much TTL hardware you have there, that seems like a valid tool purchase. And you can save as many chips as possible. And save some frustration. Edit cheap options for testing: dramduino. You likely already have the parts. Can be made on perf board
I actually have a 4116 specific tester, I was more lamenting the fact that I was desoldering them in the first place. But really, I had to desolder them anyways, even if I could locate the single bad chip, there was no way my OCD would allow me to have just one of the eight RAM chips socketed, haha.
When desoldering a bunch of chips, desolder one pin per chip, that is pin one of chip one, then pin one of chip two, then pin one of chip three and so on, then pin two of chip one and so on until you're done. This way the chips have more time to cool down in between the desoldering and have a greater chance of surviving the process.
May not best way to get thermal cycling old components. I think beter and faster to do preheat the board and do the continius desoldering with moderate heat then do it with cold board and components.
They definitely decreased the number of long jumpers considerably on the 4A, but sometimes, you've just got no space to run that extra line on the PCB itself.
@@TheErador don't watch her channel. If we are talking about the same lady, she is smart, but there is something in het behavior and video making i find very annoying.
@@TheErador yes that's the one. Neurodivergent... Is that the way we say weird, these days😃. Everybody is different and doesn't need a label. That they annoy me is not her problem, nor mine.
I worked in a TV repair shop in high school around 1970. Color TV's have to be converged to fix your color problem. Look in the back of the monitor and see if there are adjustments for color convergence. If there is you may be able to fix your problem. Also there were magnets on the neck of the tube. I remember my boss would spend hours converging a set while I held a mirror so he could see the screen. Good video. Good luck.
@@UsagiElectric If the convergence controls are there mark the settings with a felt tip pin and try adjusting. Or maybe there is a manual on line. Keep up the great work!!
@@UsagiElectric The color fringing might not be a convergence issue; it could be a signal problem. You'd definitely want to check the monitor with a known-good test signal before you tweak anything.
I remember that fringing being a very common problem for computers of the 80's & early 90's. Maybe due to stray capacitance or to limits on the technology at the time. (either TVs or monitors on a budget)
To de-rust easily, get some evapo-rust, just de-grease and then drop the part in and wait an hour or so, its fantastic stuff and re-usable. Once done, just wash off with water and use a brush or something to remove the black film that is left. You will be left with metal that is completely rust free.
Never used it, but can vouch for evaporust and anything based on the same idea. No harsh chemicals, completely safe, clean to the environment. My only question is what's something that can be used on electronics or anything grounded that prevents rust and oxidation from coming back? Obviously there's tons of methods in normal applications, but I've never figured out what's an electronics safe sealant and rust preventer? Would love to restore my 90s Dell Dimension that has rust all on the back.
@@SonicBoone56 conformal coating is the ideal, but a thin application of nail lacquer works just as well :) most people choose clear or green inside systems, because of typical PCB aesthetics, but any colour should work! Just avoid the ones with glitter (big or small) in! You can’t always tell whether they’re plastic or metal (the latter can cause problems). That shouldn’t be hard if you’re buying it specially, as the cheapest ones don’t usually have extras like glitter. It’s more of a caution against asking for any old bottle from your sister/mother/spouse without checking first :P Would probably recommend a clear matte one for external metal, as that doesn’t show up except on close inspection. Of course plastic paint of any kind works, and depending on the size a spray applicator may be easier. Nail lacquer is always water resistant in a way other paints sometimes aren’t though.
Very much recommend Evapo-Rust. Excellent product, does a great job, and best of all non toxic. You can get many uses out of a gallon. I like that it gets out ALL of the rust, even down in pin holes and such. As mentioned, clean with water and slightly abrasive pad afterwards.
There is a technique for hunting for chips that hold pins inappropriately high or low if the chips are soldered, it may work to save you some superfluous desoldering. I have used this technique in the past to find the one bad chip on a RAM expansion board which had over 100 memory chips, all soldered, of which one was bad. Essentially you take a known good chip, and you stick it on top of each of the chips you suspect are bad, one at a time, in a piggyback configuration. You have to make sure that all the pins of the chip on top contact the corresponding ones of the chip below. If you're lucky and the defect in the chip isn't pulling a pin too hard high or low, the good chip can fight it and bring back the level in spec. So when you find a position where piggybacking corrects the fault, it's likely that the chip at the bottom is the bad one.
I actually did that same test, pressing a new RAM chip atop the soldered in ones, but it didn't change anything, no matter what that line was always pulled high. Which feels like one of the 4116s failed with an internal short to VCC on that pin that was strong enough to overcome a known good chip sitting on top.
Nice to see the 99/4A again. Back when it was being sold, I briefly worked for a store that sold them and Xerox 820, and I worked with the local TI 99 users group to teach computer ltieratcy using LOGO. Although it's version of LOGO was a little bit funky, it did have access to the hardware sprites, and we did some fun stuff with the sprites. Fun memories.
You may be able to use a thermal imaging camera to look for bad chips (not always possible). You could also socket all of the suspect chips then remove each one in tern. This is highly dependent on the architecture might not apply in this case but your stuck line might change when the bad one is removed...
I actually watched you ane FPGA troubleshoot the video circuit in voice chat, youe vacuum tube way of understanding it was funny for sure. I was muted because I was still a bit shy to talk haha. Great to see that you got it partially working!
I grew up with the 99/4A in my family. Nice to see a little bit of the heritage behind the machine. Easy to forget, at least for me, that it was a 16 bit machine that early back. I sometimes wonder where things would have gone, if they had been able to keep on developing the line of computers.
I was fortunate to live in Colorado Springs in the mid 80s. A TI engineer at the local office brought in a 99/8 prototype to our users group meeting. That was quite a treat. I also was gifted a 300 baud TI demonstrator modem (plexiglass case) by him when they closed up shop. Fun days.
Why not build a dramduino, Jan Beta released a video today about his new better build. It takes an Arduino uno (nano is possible too), 3 resistors, 2 LEDs (green and red) a push button, a ZIF socket, a jumper, and some pin headers. It tests 4116 and 41256 RAM chips, slowly.
I understand about the A in TI-99/4A, and I know how the TI-99/4 and TI-99/4A relate to the TI-990 and TMS9900, but does anyone know where the 4 came from? For why a four? What's the whyfor? Forwhy?
Ugh.... if it comes down to the 9900 be extra careful desoldering and resoldering... the pinout is very unforgiving and a solder bridge across the wrong 2 adjacent pins will not work out well... I still have my original 4a from 1983, and it still works! I bought it a few friends over the years in case i ever need spare parts.... it's not the TI99/4a of Theseus yet, i did re-cap the power supply board and the motherboard as a couple caps were bulging.
Yup! Tried that and also tried the piggyback method, but no dice. I should have snipped the appropriate address leg of each chip one at a time until I found it, but I totally didn't think of that.
I think replating is best. you could either do a separate side video showing how to plate or if your other projects are more pressing, you could take the shields to a plating company. The big thing would be to polish it to the desired finish first. Any scratches or tooling marks won't get fixed by plating.
We are seeing new motherboards for other vintage computer but nothing for the TI-99/4A. If any computer deserves a redesign to fix the issues that crippled it out of the gate the TI-99/4A is one. It's my understanding the design halved the possible speed.
The TI's performance problems run deep. The sequential 8 bit access to VRAM and GROMs and that essentially all software is not even machine code but GPL means you'll never fix it and still have something that is a TI-99/4A. Yes changing expansion RAM to 16 bit access would help but it'd still be like trying to sprint with one leg tied behind your back.
A redesign would likely introduce software incompatibilities. And the system was not a big hit. It's not that interesting. There for not a lot of designed for it. Though it's one of the few that has separate video memory.
TI was working on an 8-bit processor for their home computer, but that never came to be, so they kludged in a 16-bit processor they had on hand. It would be interesting to see someone use the TMS9900 in its full potential.
So what I do when I'm working on arcade PCBs with common RAM address lines like you experienced, I clip that address leg on all of them with side cutters. Then I confirm that the address line is working properly. If the RAMs were a problem, it should start toggling. Then I solder a blob of solder on each clipped leg, one at a time, until it goes back to stuck high. That way I don't have to desolder a bunch of chips just to find one bad one.
It's not just based on the architecture of the TI-990, it actually is the TI-990 CPU! Later models of the TI-990 minicomputer used the TMS9900 in place of the TTL logic boards, so the CPU in the little TI-99/4 is incredibly powerful, it's just the rest of the system that hamstrings it.
@@UsagiElectric Litton used a more consolidated version called the TMS9995 in aircraft weather radar processors, taking advantage of the hardware multiply to speed up the task of processing the raw data.
That video circuit is a tough one... I tend to get very confused if the input to a transistor circuit doesn't go into the base. Retro Chip Tester might be a good idea?????
Right! Having the input not into the base always does my head in. I actually have a 4116 tester, but I would still have had to desolder the 4116s anyways. And the real reason I swapped entirely to 4164s was so that they all look the same, it would have driven me nuts having just one modified RAM chip and 7 unmodified, haha.
Yup, the PEB was the standard expansion method, and it's a wonderful little box. But, I love the sidecar train simply because it's so crazy and dumb, haha.
Nice! Don't worry about the 15k noise... Those of us old enough to remember the Ti-99/4 and /4a can't hear that range anymore anyway...lol! The last time I checked my Ti-99/4a to see if it was still working was around 2015 I think. It was working perfectly back then, but now I am afraid to try it because the capacitors are probably all dry now. I have the Speech Synthesis module, the Peripheral Expansion with 32K memory and a Floppy drive in it.
@@UsagiElectric Yeah I can, but I'm also a professional live audio engineer with excellent hearing so... I actually don't like it being rolled out much; I'm a fan of it because it's part of the experience of running a CRT! That's how you know it's on!
my first computer was a TI 99-4A. I had the speech synthesizer, I never have been too much into games,. I would write BASIC programs on it. I loved that computer! my parents had a window Air-con unit in the living room window for the main part of the house, but I had none in my bedroom, I remember in the summer, being so into coding, that I would work on programs until the sweat dripping off my face, would get the keyboard wet. Ya I was that enthralled in it ! 😀
Good to see another video on a historically interesting computer. You will figure this one out, I'm sure. I look forward to the next episode! As for the shielding? I'd just hit it with some lubricant (like 3-in-1 Silicone or CRC 2-26 if you prefer silicone-free) or maybe some wax-based conformal coating. It's not permanent or expensive and is easily removable/renewable.
you could try cold tinning to cover the shields with thin layer of tin metal. you use special liquid for that that does electrolysis without electricyty , just rub it in those liquids work on principle of base metal properties and you could copper coat steel, tin coat steel nickel or copper and nickel copper or steel but not the other way around with those it could be found in electronic stores or musical stores that specyfi in brass instruments like tubas and trumpets, necause they are often tinned in this way
TI stuff is out of my comfort zone and alas no time to learn the architecture behind its thought processes. I'll stick with the larger business solid state computers and storage, but best wishes to your attempts and the enthusiast community on this one
The problem is not your technique (although you could have tested and piggybacked the RAM chips before desolderung and tested them afterwards one by one), the problem is that you never asked the bunny.
I did ask the bunny, and she said to do the piggyback method. So I did that and it didn't work, when I came back she said "Oh well, how about some treats anyways!"
Very nice video :) I really appreciate that you try to turn on the computer "live" and not with a voice over. It makes me so much more immersed in the video.
It's actually an A-7 Corsair on a carrier deck! My father was in the Navy and that's what he flew off the Independence. He was part of the Attackron VA-66 squadron called the "Waldos". I like to keep the picture hung up to remind me just how epically cool my father is.
I've never had a TI99/4x but every repair video I've seen of this thing seems like marketing people made the design and very clever engineers were forced to made it work -- somehow.
Always wanted a /4 (and a /8, but that's a different story) Once thing is certain, I wish I would have rekindled my TI-99 hobby with your skill set. Not having it means that I don't fix anything until it breaks for fear of making it worse, severely restricting the fun I could be having. But at least I have your videos.
You didn't give us too much to go off but given how rusted everything was my first thought was spraying everything that makes contacts with contact cleaner, especially all socketed chips, reseating them in process. Some corrosion may also have damaged traces on the motherboard - good luck with that - you will need it. Some of your RAM chips may still be bad - have you tested them? I vaguely remember a video of someone working on TI99 - Adrian maybe? - and using some diagnostic ROMs - if they do exist your best bet is probably to try them. You have a working computer handy - this is awesome - try powering them both up and comparing what is different. I guess the repair manual already walked you through that but just in case: 1) check the power rails with the scope during startup 2) check the RESET signal 3) check all clock signals 4) check ALL address and data lines being 1 or 0, not floating at random voltages 5) slow-scope some line like D0 and A0 on working and on dead machine from reset and compare. Does it attempt to startup? 6) try running the computer without ROM. Compare what address lines are doing on alive and dead computers. 7) do a visual inspection of the board. Do you see any possible corrosion spots? 8) does any chip get much warmer than in should?
would be cool to get the Peripheral Expansion system for the 4a with the P-Code system so you can have both type of expansion system for the TI-99 side car and Peripheral Expansion box.
I wasn't aware that they were that rare. That's what our high school started with, moving to the 4A soon afterwards. After the not so great experience with the chicklet keys on the 4, I was surprised when IBM decided to use basically the same for the PC Jr. And now... a lot of slim laptops. Shudder. BTW, those are linear power supplies, so no surprise the voltage is fine with no load. They just make lots of heat - which was good for cold days in Monte Vista, Colo. I need to dig my modified 4A out and see if it still works. Modified because it has static RAM in place of the 4116's, so it runs twice as fast and has 48kB on-board without an expansion card. Or... maybe I could just let you have a go at it.
Ugly hack, but bad RAM won't typically damage a system, so if an address bus on an IC is suspected to be holding a bit high, you can remove an IC and power on the system. If the problem goes away with it missing, then that's the bad IC :)
The easiest way for rustproofing the rf shield would be some Tremclad! I'd use it on my metal cases. You can even get a clear coat if you want to keep the original color.
On chips which share a signal line you have to cut traces. Cut half the chips off the bus, if problem remains it's one of the four connected, otherwise it's the other four. Worst case, using a binary search, you have to do three cuts and three trace repairs. Use 26awg wire wrap wire for repairs, cover with superglue.
Oh my god. I started writing code for Apple II, but never had a computer myself until years later when I finally had one of my own. And it was a TI -99/4A ! This brings back memories.
At University in 81, the undergraduate computer club found itself in possession of a prototype - wired-wrapped I think - with 9900 processor and some sort of display. May have been a UART/serial terminal. A handwritten monitor rom with a single error message QUE? The 16-bit instruction set looked gorgeous on paper, especially compared to Z80 or 6502. Had a go at writing a simple cross-assembler on my BBC MIcro, but it didn't go anywhere. I discovered theatre, I think. Alas, the 9900 never gained sufficient traction in the market no doubt because of the memory performance issues you mention at the head of the video. I certainly is a fascinating path not taken.
@UsagiElectric i have infront of me a wii u dev kit v4, ntsc-j unreleased! Only 200-500 were ever manufactured and is unreleased. it's in working order and has everything including PC software disk. flawless. i'm impressed how clean and quality the ports are in. specs are 3gb ram compared to retail are 2gb. (there is a v5 dev kit however it is completely not neccessary and will not work without this unit. my v4 dev kit is much more rare than it's "successor"/predecessors!) it was manufactered in 2014-2015.
13:53 Your technical skills are amazing, and clearly far beyond mine. I still have not figured out how to make things work if you put the cover back on _before_ testing it; for me invariably screwing the case back together before testing means that the device won't work. :-) As far as debugging computers goes, yeah, after doing basic power and clock checks my next step is almost invariably start with the display output and work backwards from there. Because CVBS (full video or just sync) is so easy to recognise and debug even on a cheap handheld 'scope, I've found this to most quickly get me to whatever the source of the "I'm not seeing a display" issue is. On the Tomy Pyuta I happened to be debugging the other day, I had good sync but no luminance at the output, which was the same all the way back to the TMS9918A, so the next step was to check the DRAM interface on that. Turned out a couple of DRAM chips were showing oddly different data line signals than the rest, and also getting hotter than the rest, so it's probably bad DRAM there, meaning the next step is to desolder all the DRAM, put in sockets, and find some new DRAM chips and ideally a friend with a DRAM tester. That's where I would have started here, too, since actually the '138 you replaced was "deeper" into the system than the the DRAMS, which are directly connected to the TMS9918. If those DRAMs are bad, it doesn't really matter what you do in the rest of the system since bad VRAM will probably mean you never get a display.
Don't knock the TI 99/4A, please! I had one since the early 1980's (it still works), and it's where I learned programming and many other skills. I always thought of it as a misunderstood and underappreciated computer, because it was eclipsed in sales by the Commodore 64. Thank you for this video, I had never seen a TI 99 "just 4" before!
If the short causes enough current to flow, you can find it with the hp547a current tracer. CuriousMarc has an episode on using it for exactly this kind of fault.
Unfortunately those are very rare and expensive. Without one, an easy and quick solution is to cut the legs on the ICs one by one until the fault goes away. Then just resolver the legs on the good ICs.
Pity you didn't get it going. The 99/4 and 99/4A had the bones of some really good architecture (like how the device ROMs are switched in and out and how the console can find GROM routines in cartridges) likely borrowed from the 990 minicomputer, but it was also incredibly compromised. They tried to develop a version of the 9900 that drove an 8-bit data bus, but they ran out of time and it was faster to throw in that data bus multiplexor than redesign the thing to be properly 16bit. The 9900 itself was also not a fast processor and TI struggled to even grasp the idea of making a fast home computer. The 99/8 had some real promise, but it also lacked enough forward thinking (it still used a 9918A-derived video chip instead of at least using Yamaha's 9938A!) so it was too little too late. Oh what might have been...
That's the first time I've seen anyone else using those solder-sucker bulbs. I don't have the attachment, mine just have nylon tips but I find them far superior to those one-shot-wonder spring-loaded things. I used to get mine from Tandy/Radio Shack or RS Components for about £5. Only drawback, it can be a PITA to empty big chunks of solder out. I use a home-made pin ring made from a paperclip to keep the nozzle clear.
Okay, I feel for you. I have a C64 board that will not boot. I have replaced EVERY chip on the board with know good ones. Still will not boot. I buzzed the schematic out about 80% (thinking on of the sockets I used wasn't making contact on a top layer trace. I finally ordered a whole new exact board (I think from Germany) to fully build an identical mother board. I doubt you have that option with the TI99/4.
Excelent Video I would test a despolarized condenser at the RESET pin of the processor , ACTIVE when LOW , if it doesn't charge properly , the system will not start. (guess pin Nº6)
* scratches head * I'm puzzled. I keep on seeing videos about the "Texas Instruments TI99" and it's always a full computer... but... I distinctly remember using a borrowed calculator which was designated the TI-99 and was made by Texas Instruments. This TI-99 was a calculator, not a computer. It was pretty much the Rolls Royce of calculators and it had a huge (for the day) memory which could be divided between program memory and data storage (number) memory. It also had the ability to write out its memory to custom-made magnetic stripe cards. You needed 4 of those to store the whole memory space. Once each "block" had been written, the information could be read back into the same block by reading the stripe. I remember programming it to play a "blackjack" style game, using the built-in random number generator.
I ran TI-99/4As well into the 1990s. I even surfed an early Internet using a TI-99/4A as a dumb terminal to a dial-up service; I sent my first e-mail on one. In many years of being a TI-99/4A User Group member, I have seen exactly ONE TI-99/4, and it was a classmate's home in 1980 or so. I remember things like the keyboard overlays. Take good care of that beautiful and special machine. The TI-99/4A V2.2 is pretty rare as well; they say "(C) 1983 TEXAS INSTRUMENTS V2.2" in the title screen and have a lockout to prevent 3rd party cartridges (ahem... "Solid State Software Modules") from running. Another example of TI shooting themselves in the foot. The V2.2 machines are all beige QI machines (not all QI machines are V2.2, though!), but the motherboards are interchangeable across all TI-99/4A variants AFAIK. Ahhh, if TI had just released full schematics and internal data, extended the entire 16-bit-bus to the expansion port, and maybe made use of the TMS9918A's genlock feature for the burgeoning camcorder and VCR market of the era, the TI-99/4 and TI-99/4A might not have died an undignified death on the shelves of K-Mart. What could a stock TI-99/4A do with nothing more than the 32kx8 RAM expansion? (Despite the speech, there is no speech synthesizer used!) To avoid composite video quality issues, this is captured from an emulator but it looks and runs the same on real 1981 hardware. I don't mean to spam your channel with an outside video, but check this out: ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-ZhSUhE03XFw.html
I've written quite a bit of 9900 code back in the day. A really weird and unusual software architecture. Silicon real estate was expensive back then, so it didn't have any on-chip general registers. Instead, there was a pointer to a block of 16 locations in main memory which functioned as registers. Long before caches became a thing! Didn't even have any real support for stacks: no push or pop, just a 'branch and link' instruction which switched to a new 16 locations;. You had to keep track of the old location and restore it on return from a function call. Interesting times!
You know I never had a 99/4 but I did have a 4A and the Monitor, these days watching all these collector videos I kick myself that back in the day I just sold them on rummage sales or in some cases like for my original Nintendo Gadgets I gave them to my young nephews. I had Robbie the Robot and Gyromite. I gave it away and it got destroyed now 30 years later *kick kick kick* Ohwell Nothing I can do about it now.
Man, Im sorry, I have a TI 99/4A and just looking at the set up, I cant see where you have the machine plugged into the monitor. I'm sure its plugged in, but lord knows I've made mistakes that simple before, but is it plugged into the monitor?
The composite amplification circuit is a common-base amplifier that feeds a common-collector amplifier. The common-base is intended to have an impedance to match the output of the TMS9918 composite output. The base voltage is (4.7/(4.7+6.3)) X 12 V = 5.1 V which means there's approx. (5.1V-0.7V)/2.2k=2 mA of emitter current, or the input impedance is VT/2 ma = 26 mV/2 mA = 13 ohms. Because this is very small, the input impedance is dominated by the 470 ohms+2.5 k pot and so the voltage gain is 2200 ohms/(470 ohms+2.5k pot). This is in turn goes into the high input impedance common collector stage which will have a gain of 220/(220+47)=0.82. The output impedance of the common collector is approximately (Vt/Ic + 2.2k/beta)+ 68 ohms so probably something like the 75 ohms that the composite video expects.
13:50 That looks like a little lamp on the tube base. I wonder what these are for? IIRC my Sony TV-990UB sets have a little neon lamp attached to their tube base. Maybe flash-over protection? I'll have to investigate next time I open one up.
the TI-99/4A was the very first computer i encountered in my life. a family friend had one and he was kind enough to let me play with it. It was GREAT! i was so young so i didnt do much but the smell, the sounds, the games.. that was so awesome!
The TI-99/4 you have has the exact same ceramic TMS9900 package as my TI DS990 Model 1 computer. I think they have a very similar DOM too! Problem is also the same, mostly. If I turn on my computer, it will (sometimes) attempt to read from the first external floppy drive, then fail and show LOAD ERROR 22. If I power cycle the computer, I either get a very similar error, or nothing at all. If that happens, I cannot get an error message again until I've left the machine for hours. I am thinking it is a reset circuit problem, but only guessing. All 4116 RAM checks out... Also, the red/orange keys on the keyboard are the same colour as on the DS990 Model 1! Looking forward to the next video!
If you like the TI-99, I bet you would love the TI-990. I happen to have one looking for a good home. Interested? Oh... you drove right by it on the way to PA! 🙂
I saw you mention you don't have a FLIR to check for hot chips. Why not consider getting one of the cheap smartphone addons? They're nothing special, but they're certainly good enough to quickly check for a hot chip.
Question : I think Electronics is a vast subject and should not be bundled with other subjects. My degree is in ECE which is electronics and communication engineering and it's overwhelming to learn both, What do you think.
When I work with CRTs, I use a wire that has alligator clips on each end. I clip one end on a flat screwdriver and the other to ground. I then slide the blade of the screwdriver under the rubber "umbilical" wire to the side of the CRT. Sometimes, I hear electrical zaps, sometimes I don't. I make sure I tap the sires under the rubber several times before I call it safe. Just to be safe, I touch the screwdriver to several other parts inside the display's electrical connections... just to make sure everything is grounded out.