For fairly obvious reasons, most people were unaware this set ever existed. In the 90s (~1993?), my family replaced our old 1970s-era 19" Sony Trinitron with a HUGE new TV, a 35" Toshiba.
At the time, a "big" CRT was a 32". I helped my dad transport the 35" which, from memory, was 150 or 180lbs. It was likely the largest CRT commercially available. (PVM-4300 stragglers aside).
A couple years later (1995-6?), a friend's family bought a 40" Mitsubishi, which I _thought_ was the largest CRT made. But, again, Sony aside, it probably was.
1. Touching the circuit board on the back of the CRT tube by mistake trying to troubleshoot image issues, “fortunately” it was a “low” voltage as it was a B&W monitor….
2. Throwing a big big stone to an abandoned next to the trashcan CRT TV while I had it placed normally because it didn’t break when I threw it facing up and the next thing I remember after opening my eyes which I closed from the bang was my friends who were further down the road looking at me as it I were a ghost since big big chunks for the CRT glass flew just right next to me.
CRTs were dangerous in many aspects!
EDIT: I meant to reply to the other thread with the dangers of CRTs
> Touching the circuit board on the back of the CRT tube by mistake trying to troubleshoot image issues, “fortunately” it was a “low” voltage as it was a B&W monitor….
My father ran his own TV repair shop for many years. When I was a teen he helped me make a Tesla coil out of a simple oscillator and the flyback transformer from a scrapped TV. It would make a spark 2 or 3 inches long and could illuminate a florescent light from several feet away. It definitely produced higher voltage than normally exists in a TV, but not orders of magnitude more. The high voltage circuits in CRTs are dangerous as hell.
I'll never forget the feeling of the whoosh when I was working as a furniture mover in the early 2000s and felt the implosion when a cardboard box collapsed and dumped a large CRT TV face-down on the driveway, blowing our hair back. When the boss asked what happened to the TV, I said it fell, and our lead man (who had set it on the box) later thanked me for putting it so diplomatically.
That was nothing compared to the time the CAT scan machine fell face down off the lift gate on the back of the delivery truck because our driver pushed the wrong button and tipped it instead of lowering it, but I missed the flack from that because I was on a move somewhere thankfully. Afterwords he was forever known as the quarter million dollar man.
I still have a piece of glass in back of the palm of my right hand. Threw a rock at an old CRT and it exploded, after a couple of hours I noticed a little blood coming out of that part of hand. Many, many years later was doing xray for a broken finger and doctor asked what is that object doing there? I shrugged, doc said, well it looks like it's doing just fine, so might as well stay there. How lucky I am to have both eyes.
It was high voltage but low current. I touched high-voltage circuit in the back of TV accidentally while poking in it as a teen, and while it was quite unpleasant, all it did was burn a hole in the skin of my finger. It eventually healed.
What's wild is this TV was not mass produced, which added to the cost, plus the shipping costs. Not only did he get the TV but he got the premium model too, I think Sony intentionally gave the restaurant that model so they could take some marketing photos, and sure enough, that was it.
If you like playing with old hardware, be aware that old CRTs have a gotcha that can getcha: they hold a charge that can shock you across the room, and they can hold that charge for weeks or more. Google how to discharge it before poking around in a CRT.
When I was about 12 I got an old TV in my room which I of course decided to take apart to figure out how it worked.
I was VERY smart and of course unplugged the TV before doing anything.
My flat head screwdriver brushed against the wrong terminal in the back, I was literally thrown across the room several feet, and my flat head screw driver was no longer usable as the tip had deformed and slightly melted.
I later found an electronics book that had a footnote mentioning grounding out the tube before going near it…
I have a vague recollection that my little cousin was nearly ended when he managed to destabilize the stand that a CRT was sitting on, and it fell just behind him, but I may be entirely hallucinating that memory.
Regardless, there are multiple ways old CRTs can cause great harm.
Somewhat related but back in my university days, I spent practically all my savings from a summer part-time job to buy a 21" Sony Trinitron CRT. I absolutely loved that thing, but at the end of each year I dreaded having to lug it home and then haul it back to the dorms again.
The elevators often didn’t work and climbing 10 flights of stairs while carrying a 70 lb (31kg) cube was brutal. It’s not often you buy a piece of electronics and get a complimentary workout regimen thrown in.
Some time in the early 1990s I worked with a Macintosh of some variety that had a massively heavy CRT display. It was a real bummer when we were asked to do offsite customer demos, but luckily my back and knees were young enough to carry it upstairs. In retrospect, this is probably why my boss took me to the demos, which was actually quite useful career-wise.
I am nostalgic about their operational principles, but I was already willing to give these up for the convenience of an LCD panel circa 2003. We had a lot of LAN parties to attend back in those days.
I want to call false on the claim that this is s the biggest crt ever made.
I used to work in a computer recycling center in the monitor testing area bak in 2007. One day a giant 60 inch blue aluminum industrial sized sony trinitron was brought in by the fork trucks for me to test. There was 2 of them from a large conference room at xerox or kodak or used by a tv station. They were bigger than an average pallet and took a forklift to move them.
That was most likely a rear projection unit, they looked kind of like CRTs but it's different technology. Sony did make them though they weren't marketed as Trinitrons AFAIK.
Sometime in 2006 we bought a house and our realtor gave us a gift certificate for $2500 at Best Buy (weird, but...those were the days). A brand new, state of the art 720p DLP projection TV was just a hair under that - we still have it and it works great. But I had a couple dollars to burn off on the card.
I happened to have noticed that they were trying to clear out any remaining floor models of CRTs. One of them was an absolutely giant Samsung, memory says it was >34", but I'm not sure how big...with a sticker on it for, and I'll never forget this...$.72.
Soooo two big TVs for the price of one!
Long story short, we were moving out of that house, CRT tvs were long since obsolete and that TV hadn't even been turned on for at least 5 years. So we decided to throw it away. I had never picked it up before and had forgotten how heavy CRTs could be. I ended up having to get two friends to come help me move it to the curb, it was well over 250 lbs. The trash company also complained when they had to pick it up and had to make a return trip.
I kinda regret getting rid of it, but it was among the heaviest pieces of furniture in our house.
In the 90s I was tasked with fixing our CEOs computer and entered his office to see the largest CRT I’ve ever seen in my life. (It was not a PVM-4300, though. This one was sat on a metal table.) The size of it was shocking. I was more shocked, however, to find out he used it at 640 x 480. I never saw him use it so maybe he played games on it… from the moon.
The Sony FW900 was the peak of desktop CRT monitors, and it came out in 1999 so it or one of its rebadges might have been what you saw. That was much smaller than the PVM-4300 at 24" but with a much higher max resolution of 2304x1440@85hz, roughly what we'd now call 1440p, about eight years before the first 1080p LCDs arrived.
Those were still sought after well into the LCD era for their high resolution and incredible motion clarity, but I think LCDs getting "good enough" and the arrival of OLED monitors with near-zero response times has finally put them out to pasture as anything but a collectors item.
We set up one of those widescreen Intergraph CRTs for a client way back then, I think the cost of that thing plus the workstation was easily more than I made in a year
Was turned onto the the FW900 from hardforum years before LCD was available/reasonable
Now I have a FW900 sitting in a closet for decades because I can't lift it anymore
Also will never forget I was taking a walk in the woods years ago and in the middle of nowhere, no houses/apartments for miles, there was a FW900 just sitting there like someone must have thrown it out of an airplane but of course impossible as it was intact and inexplicable WTF (when got home made sure mine was still in the closet and had not somehow teleported itself)
It's fascinating that the biggest CRT ever made had a 43" diagonal, which is at the low end for modern flatscreen TVs. But yeah, I can see why the market for this beast was pretty limited: even with deinterlacing, SD content would have looked pretty awful when viewed from up close, so the only application I can think of was using it for larger groups of people sitting further away from the screen. And even for that, a projector was (probably?) the cheaper alternative...
In the late aughts I worked a summer at a company that was designing an articulating (flat screen) TV mount. I went with the engineers to one of the Intertek testing sessions. We wanted it to be rated for a 60" TV, but I was given the impression that the weight formulas they used for testing were based on CRT screens. The salesperson who came with us was giddy seeing the thing loaded up with 1000lb of steel plates and not giving way, but the actuators could not lift and our advertised rating was not more than 200lb.
I remember having the 36" version in ~1997. I wouldn't want to guess how much it weighed, it was insane. I remember how impressive it was watching the Fifth Element Laserdisc on it.
I had the first high-def Sonys in the US market. I worked at a high end audio video store in the mid 90s and they gave it to me cheap as they couldn't get rid of it.
Even at 34", the thing weighed 200lbs (plus the stand it came with). I lived in a 3rd floor walk up. I found out who my true friends were the day we brought it back from the store. I left that thing in the apartment when I moved. I bet it is still there to this day.
I'd forgotten how heavy CRTs are. A local surplus auction has a really tempting 30's inch Sony CRT for sale cheap, but when I saw it was over 300lbs I had to pass on it.
A lot of those CRT screens had a pretty low refresh frequency, you were basically sitting in front of a giant stroboscope. That was particular bad for computer screens where you were sitting right in front of them. I think they pretty much all displayed at 30Hz. I can imagine how a gigantic screen can get pretty uncomfortable.
I recall a lot of people playing counterstrike at 640x480 to get at 100+hz refresh rates. The lower the resolution, the faster you can refresh. I don't recall the absolute limit but it would give the latest LCD gaming panels a serious run for their money.
Yes and no. Half of the screen was refreshing at a time, so it was really flashing at 30Hz. You still had a visible stroboscopic effect. True 60Hz and 100Hz screen appeared in the late 90s and made a visible difference in term of comfort of viewing.
The only time the electron gun was not involved in producing visible light was during overscan, horizontal retrace, and the vertical blanking interval. They spent the entire rest of their time (the very vast majority of their time) busily drawing rasterized images onto phosphors (with their own persistence!) for display.
This resulted in a behavior that was ridiculously dissimilar to a 30Hz strobe light.
The limiting factor is the horizontal refresh frequency. TVs and older monitors were around 15.75kHz, so the maximum number of horizontal lines you could draw per second is around 15750. Divide that by 60 and you get 262.5, which is therefore the maximum vertical resolution (real world is lower for various reasons). CGA ran at 200 lines, so was safely possible with a 60Hz refresh rate.
If you wanted more vertical resolution then you needed either a monitor with a higher horizontal refresh rate or you needed to reduce the effective vertical refresh rate. The former involved more expensive monitors, the latter was typically implemented by still having the CRT refresh at 60Hz but drawing alternate lines each refresh. This meant that the effective refresh rate was 30Hz, which is what you're alluding to.
But the reason you're being downvoted is that at no point was the CRT running with a low refresh rate, and best practice was to use a mode that your monitor could display without interlace anyway. Even in the 80s, using interlace was rare.
Did they really do that, or did the tubes just ran at 2x vertically stretched 640x240 with vertical pixel shift? A lot of technical descriptions of CRTs seem to be adapted from pixel addressed LCDs/OLEDs, and they don't always seem to capture the design well
I think I saw one as a child in the mid 90s - it belonged to an upper-middle class Kuwaiti whose at the time preschooler daughter was approximately as tall as the device, which was laid on the carpeted floor.
At the time there were a lot of private import items in Kuwait - particularly cars - so it's not impossible it was this particular model. I mean, what other TV could boast being the height of a four year old?
A very long time ago, sometime during the first geologic age, I worked at a facility on Queen Street in Toronto. On the street side of the building, we had two Flame suites (very high-end (for the time) realtime editing and effects, used for composing television commercials). Each one had a Sony Trinitron TV of about this size as the client preview monitor. They were amazing, but every time a streetcar passed outside, they would get involuntarily degaussed!
A few years back someone near me was giving away a (basically) brand new 40" Sony one with the stand. Took three of us a lot of effort to get that thing into my house.
In the mid 90s (feel like it was 1996 but can't remember) my grandmother bought us a 40" Mitsubishi right before the Super Bowl. The thing was insane. Took 6 people to move it.
My gamer friend found a 23-inch CRT monitor on ebay and the box it showed up in was large enough to ship a washing machine. I can't imagine what it would be like for a 43-inch TV.
My lord... this thing probably requires the power grid to do a generation dispatch when you turn it on.
When I was a kid I lived down in Southeastern Kentucky (Somerset) which gets a lot of its power from the local lake via hydro. My grandfather had this large (not this big but big) tube TV, the old wooden case kind. When you turned it on it'd take about ten seconds in which you could hear tube heaters tinkling, followed by a "grrrnnnnnzzzzz" sound as the tube came to life. I remember my uncle joking that the lake level started visibly falling.
Between LCDs/etc. and LED lighting, the amount of efficiency improvement we've done in home electronics is wild. I can now put my hand right on an equivalent to 100W light output light bulb and it's just... warm.
I had the 36" widescreen and I don't remember any issue with the power requirements, but I just calculated the screen area difference. The 43" 4:3 is 60% more area and the 45" 4:3 is 75% more area, so they are vastly bigger screens.
way back when, I had a 32" CRT from SGI attached to an o2. So heavy I had to buy a special desk to hold it. I can't imagine carrying that PVM-4300 anywhere.
$40k invested in AAPL in 1990 would be worth about $40m today. $40k is about what $100k is today. So what stock would you invest $100k in today, that in 35 years would give you a similar return?
Keep in mind that AAPL came pretty close to becoming absolutely worthless around the mid 1990s before Steve Jobs rode to the rescue. Which is to say, you would really need a crystal ball to make such predictions. I could definitely see an "alternate universe" where Apple fared a bit worse and Commodore didn't mismanage the Amiga as much, then Commodore could be in the place where Apple is now...
I know I'm ngmi with this attitude, but I just find it hard to believe there even could be such a thing. All the numbers point towards us hitting up against planetary limits, at some point something's got to give.
Positive news about e.g. solar PV shrinks away to some miniscule number when compared against the big picture, do nothing to address the myriad other things such as species loss or peak-phosphorus and the gains are eaten up by Jevon's paradox (or LLM datacenter buildout) anyway.
Even the past performance of AAPL feels like it's more to do with central bank funny money than the real economy. Numbers keep going up but in the rral world everything gets increasingly enshittified.
Is it true we just don’t really have the technology anymore to build a CRT? We’ll never see a new CRT ever again, unless it’s the passion project of some billionaire?
Industrially, it's very nearly a completely lost tech.
Last I heard the only new-production of electron guns for CRTs was one singular source in Russia, but that was before the war started.
Even preservation of already-manufactured CRTs is difficult.
The last CRT rebuilder in France closed years ago. Some folks purchased some of the equipment and tried to get it set up at the Vintage Television Museum in Columbus, Ohio, but ultimately failed. It's in the care of a dude in Maryland now but is not in production status.
AFAICT, the singular remaining entity presently capable of working on existing picture tubes is Colorvac, in Germany: https://colorvac.de/service/
---
In the unlikely event that new CRT production ever ramps up again, it will be a lot like the reboot of Polaroid film was: So much institutional knowledge will have simply evaporated that even though the new product works, it will never work exactly the same as it once did.
Thomas Electronics in the US supposedly still makes and repairs CRTs for military applications, but those will be much smaller than you'd want for a TV or monitor and often if not always monochrome. Even if they did make big colour tubes they wouldn't give mere mortals the time of day anyway, they're in it for the defense contract money.
If you want a good one, you'll need the materials, machines and skills to make good ones. Probably not too likely unless you like building factories for fun and no profit.
I think it’s more that the production lines that existed to build them in volume have all been long dismantled, so it would be prohibitively expensive and all the people involved would be doing it for the first time.
And even if you found the money to resurrect the production lines, modern regulations probably wouldn't look too kindly on making new consumer goods with several pounds of lead in each unit. Better set aside your morals and enough money to buy some politicians while you're at it.
The tubes start generating X-rays above 5kV or whatever(some docs say 15kV), and you need leaded(literally Pb melted in) glass for the screen to block it, unless you could find a substitute material(Sn nanoparticles or something) or you're fine with <5kV brightness for the tube whatever that amounts to. So you can't pitch it as a nicely eco friendly product, and the glass can't be easily recycled(Pb removed from glass).
Otherwise they're not THAT complicated. They're a lot like lightbulbs. Certainly not as exotic as LCDs.
> In Japan, it sold for 2.6 million yen, but in the United States, it retailed for $40,000, a significant markup. To be fair, shipping them across the Atlantic and then throughout the United States must have been expensive.
If they were going all the long way around to the Atlantic that would indeed explain the markup. Not sure why they would though.
I wonder about the WAF (Wife Acceptance Factor) of that one: she's already not too thrilled about my vintage arcade cab and its 21" CRT. Arcade cab which has already been to three different countries with us and, no, the movers typically ain't that happy when they have to move it (I already moved it by myself but that's quite the endeavour).
At the time, a "big" CRT was a 32". I helped my dad transport the 35" which, from memory, was 150 or 180lbs. It was likely the largest CRT commercially available. (PVM-4300 stragglers aside).
A couple years later (1995-6?), a friend's family bought a 40" Mitsubishi, which I _thought_ was the largest CRT made. But, again, Sony aside, it probably was.
He also made a second video (not linked) which shows off more of the actual hardware.
https://www.youtube.com/watch?v=Dgkw3uu19V8
1. Touching the circuit board on the back of the CRT tube by mistake trying to troubleshoot image issues, “fortunately” it was a “low” voltage as it was a B&W monitor….
2. Throwing a big big stone to an abandoned next to the trashcan CRT TV while I had it placed normally because it didn’t break when I threw it facing up and the next thing I remember after opening my eyes which I closed from the bang was my friends who were further down the road looking at me as it I were a ghost since big big chunks for the CRT glass flew just right next to me.
CRTs were dangerous in many aspects!
EDIT: I meant to reply to the other thread with the dangers of CRTs
My father ran his own TV repair shop for many years. When I was a teen he helped me make a Tesla coil out of a simple oscillator and the flyback transformer from a scrapped TV. It would make a spark 2 or 3 inches long and could illuminate a florescent light from several feet away. It definitely produced higher voltage than normally exists in a TV, but not orders of magnitude more. The high voltage circuits in CRTs are dangerous as hell.
That was nothing compared to the time the CAT scan machine fell face down off the lift gate on the back of the delivery truck because our driver pushed the wrong button and tipped it instead of lowering it, but I missed the flack from that because I was on a move somewhere thankfully. Afterwords he was forever known as the quarter million dollar man.
I was VERY smart and of course unplugged the TV before doing anything.
My flat head screwdriver brushed against the wrong terminal in the back, I was literally thrown across the room several feet, and my flat head screw driver was no longer usable as the tip had deformed and slightly melted.
I later found an electronics book that had a footnote mentioning grounding out the tube before going near it…
I also learned electronics by shocking myself often
The survival selection is real in electronics.
Regardless, there are multiple ways old CRTs can cause great harm.
The elevators often didn’t work and climbing 10 flights of stairs while carrying a 70 lb (31kg) cube was brutal. It’s not often you buy a piece of electronics and get a complimentary workout regimen thrown in.
I dont feel nostalgic in the least about them.
I happened to have noticed that they were trying to clear out any remaining floor models of CRTs. One of them was an absolutely giant Samsung, memory says it was >34", but I'm not sure how big...with a sticker on it for, and I'll never forget this...$.72.
Soooo two big TVs for the price of one!
Long story short, we were moving out of that house, CRT tvs were long since obsolete and that TV hadn't even been turned on for at least 5 years. So we decided to throw it away. I had never picked it up before and had forgotten how heavy CRTs could be. I ended up having to get two friends to come help me move it to the curb, it was well over 250 lbs. The trash company also complained when they had to pick it up and had to make a return trip.
I kinda regret getting rid of it, but it was among the heaviest pieces of furniture in our house.
Those were still sought after well into the LCD era for their high resolution and incredible motion clarity, but I think LCDs getting "good enough" and the arrival of OLED monitors with near-zero response times has finally put them out to pasture as anything but a collectors item.
Now I have a FW900 sitting in a closet for decades because I can't lift it anymore
Also will never forget I was taking a walk in the woods years ago and in the middle of nowhere, no houses/apartments for miles, there was a FW900 just sitting there like someone must have thrown it out of an airplane but of course impossible as it was intact and inexplicable WTF (when got home made sure mine was still in the closet and had not somehow teleported itself)
https://www.mediacollege.com/equipment/sony/tv/kd/kd30xs955....
148 pounds! A total nightmare to get into our car and into our house.
WORTH IT.
https://crtdatabase.com/crts/sony/sony-kw-34hd1
Even at 34", the thing weighed 200lbs (plus the stand it came with). I lived in a 3rd floor walk up. I found out who my true friends were the day we brought it back from the store. I left that thing in the apartment when I moved. I bet it is still there to this day.
I've never really experienced it because I've always watched PAL which doesn't have that.
But I would have thought it would be perceived as flashing at 60 Hz with a darker image?
https://youtu.be/3GJUM6pCpew
The only time the electron gun was not involved in producing visible light was during overscan, horizontal retrace, and the vertical blanking interval. They spent the entire rest of their time (the very vast majority of their time) busily drawing rasterized images onto phosphors (with their own persistence!) for display.
This resulted in a behavior that was ridiculously dissimilar to a 30Hz strobe light.
If you wanted more vertical resolution then you needed either a monitor with a higher horizontal refresh rate or you needed to reduce the effective vertical refresh rate. The former involved more expensive monitors, the latter was typically implemented by still having the CRT refresh at 60Hz but drawing alternate lines each refresh. This meant that the effective refresh rate was 30Hz, which is what you're alluding to.
But the reason you're being downvoted is that at no point was the CRT running with a low refresh rate, and best practice was to use a mode that your monitor could display without interlace anyway. Even in the 80s, using interlace was rare.
At the time there were a lot of private import items in Kuwait - particularly cars - so it's not impossible it was this particular model. I mean, what other TV could boast being the height of a four year old?
Here's a pic of one:
https://www.reddit.com/r/crtgaming/comments/ce52bb/behold_my...
What happened to the world's largest tube TV? [video]
689 points, 295 comments
https://news.ycombinator.com/item?id=42497093
When I was a kid I lived down in Southeastern Kentucky (Somerset) which gets a lot of its power from the local lake via hydro. My grandfather had this large (not this big but big) tube TV, the old wooden case kind. When you turned it on it'd take about ten seconds in which you could hear tube heaters tinkling, followed by a "grrrnnnnnzzzzz" sound as the tube came to life. I remember my uncle joking that the lake level started visibly falling.
Between LCDs/etc. and LED lighting, the amount of efficiency improvement we've done in home electronics is wild. I can now put my hand right on an equivalent to 100W light output light bulb and it's just... warm.
Positive news about e.g. solar PV shrinks away to some miniscule number when compared against the big picture, do nothing to address the myriad other things such as species loss or peak-phosphorus and the gains are eaten up by Jevon's paradox (or LLM datacenter buildout) anyway.
Even the past performance of AAPL feels like it's more to do with central bank funny money than the real economy. Numbers keep going up but in the rral world everything gets increasingly enshittified.
Change My Mind.
Happy Holidays!
Sounds like space is the next big thing then.
Last I heard the only new-production of electron guns for CRTs was one singular source in Russia, but that was before the war started.
Even preservation of already-manufactured CRTs is difficult.
The last CRT rebuilder in France closed years ago. Some folks purchased some of the equipment and tried to get it set up at the Vintage Television Museum in Columbus, Ohio, but ultimately failed. It's in the care of a dude in Maryland now but is not in production status.
AFAICT, the singular remaining entity presently capable of working on existing picture tubes is Colorvac, in Germany: https://colorvac.de/service/
---
In the unlikely event that new CRT production ever ramps up again, it will be a lot like the reboot of Polaroid film was: So much institutional knowledge will have simply evaporated that even though the new product works, it will never work exactly the same as it once did.
https://www.thomaselectronics.com
https://www.youtube.com/watch?v=_PzoAReMXOE
If you want a good one, you'll need the materials, machines and skills to make good ones. Probably not too likely unless you like building factories for fun and no profit.
Otherwise they're not THAT complicated. They're a lot like lightbulbs. Certainly not as exotic as LCDs.
If they were going all the long way around to the Atlantic that would indeed explain the markup. Not sure why they would though.