These tiny tubes were the key components in the proximity fuzes used by AA artillery in WW2. It was found that by mounting them vertically in a rubber mounting they were able to withstand the 30,000 G of firing stress. They were invented in UK and then went across to the US with the Tizard group along with the cavity magnetron.
This is so amazing! So many craftmansships in one Man. Glass, electronics, mechanical and videoproducer. (And a lot more, manuscript, producer, cameraman)
Would be cool to put the triode into an am transmitter circuit. I would be curious how many mw (or even watts :)) it could output to a 50 ohm dummy load. That is some precision work there! Thanks for another great video. Please keep making them and we'll keep watching!
just gave it a thumbs up without watching the video, just because i knew your previous videos ;-) after watching i could need a secound and third voice to vote... Ron, your videos are just very impressive. I would like to see the final result of your mini-tubes. Did you put them on a wooden stand for an exposition? Please upload videos of your projects more frequently.... Greets from Germany Ronny
FANTASTIC VIDEO! I was a teenager in the nineteen fifties, at the end of the vacuum tube era, and I built and repaired many tube radios, amplifiers and TV sets before the transistor took over. But, I could never figure out how they were able to seal a vacuum in vacuum tubes. It seemed to me like the hot molten glass would be sucked into the tube by the vacuum pump as the tube was sealing. Or, the inrush of air would cool the hot glass at the point where it closed and prevent it from sealing. I knew the "getter" was used in the last step to harden the vacuum, but it was obvious that most of the air had to be removed with a vacuum pump. This puzzle about vacuum tubes has bothered me for more than 60 years, and I've tried to look up an explanation with no success. Then, I came across your video by accident. Now that I've actually watched you seal a tube, I still find it hard to believe it's possible. Moreover, it's such a delicate operation, that I'm amazed they were able to automate the process and make vacuum tubes by the millions and sell them so cheap. Thank you for finally clearing up this mystery for me after more than 60 years.
There is a Mullard factory video on You Tube that shows tube manufacture from start to finish. The automated machinery is AMAZING; but the actual assembly of the individual elements is done painstakingly by hand. The QC room and banks of test equipment almost defy description.
Hello, sir. I have a quick question, but there is no option to send you a message. It involves what I think is pretty complex glasswork. (It's a question of engineering; if someone else thinks they might help, please don't hesitate to engage me in comment)
Hi Glasslinger. Great Video. Could you please tell me what welder you are using please. I have looked everywhere for some info on one. If you could please help me it would be greatly appreciated. Thank you. Have a great day.
Make a 1921 Peanut Tube! These 'improvised design' tubes used a control electrode on the outside of the tube to circumvent patents, or just a cheaper means of fabrication. They controlled their electron stream by means similar to CRT's, but with lower anode voltages(15V to 22.5V). Just little incandescent lantern bulbs fitted with three connections at its base, and a wire electrode wound around the neck of the bulb's midsection for the input signal. Low gain and high impedance, kind of like a crude vacuum-tube version of a FET
What is the lifetime of these tubes. Is the temperature coefficient of expansion the same for tungsten as glass? Do you get leakage around the pins when the tube expands and contracts?
The pins of modern vacuum tubes are made of a metal alloy know as KONAL, that has the same thermal expansion coefficient as the glass the tube is made of
I wish you had explained an application where these could be used, say to replace one of those great big diodes from the fifties or something like that
Here is a challenge, use your miniature tubes to build an equivalent of early logic circuits and "flip flop gates to make a simple computer based on miniature tubes
Glasslinger is a master craftsman. That's enough. But he also can build this stuff in front of a camera while keeping everything in focus. That's genius.
Very good, really fantastic! Yes it is a real Craftmanship! Mr. Glasslinger, do you use a HHO generator? I hear Some noises like electrolysis Just Bravo for this DIY!
Great videos. Where can I get the flash getter from. It looks like you have a getter designed for a larger tube that you have cut to size. I understand it is made from Barium Azide and powdered glass, but tracking down this kind of thing is going to be very difficult.
+Rob King Go to my tubecrafter.com website and look at the getter flasher construction plans. To get getters buy a bunch of junk TV tubes on ebay (lowest cost you can find) and you can crack them open and get the getter. Do the cracking immediately before you are going to put the getter in the tube and vacuum it since the getters deteriorate rapidly (1 hour) in air.
Hi Glasslinger, so the small ring of getter you were cutting to size came from an old TV tube? Do you mean the small valves/tubes or the big CRT tube? The other thought I had was to put the whole tube/valve inside a larger glass vacuum tube with a ball bearing, seal the tube then rattle the tube until the ball bearing smashes the valve. Or use a thin tungsten heater wire wrapped around the valve to cause it to crack in 2. I will get a few valves and break some open to see what the flash getter is like and if I can re-use them - great idea of yours!
The getters from the small TV tubes. (they are cheap) You don't need to do any complicated procedure. Just don't crack the TV tube open before you are ready to use the getter.
Hi Glasslinger, I have bought a good selection of about 80 tubes/valves. One of them has no black silver discharge on the inside of the glass - just clear glass. But there is a small black square attached to one of the leads inside the tube around 6mm x 6mm, could this be the getter? Also, do I only have about 1-2 hours after the tube is broken before placing the getter ring back inside a vacuum? Have you tried using the getter a day or week later? Thanks Rob
Genius at work. Absolutely Awesome video as always Ron. I can't add anything more than the other good people who have commented other than I hope we will get to see the emission results soon in your next video for the triode. I agree, a transmitter would be a nice project. Maybe a 20's period looking receiver that you are a master at creating would sell better however.
Nice job! I love Your videos! I am going to try tube making. I make neon signs so I am more than half way there. I just made a small induction oven, which is my last stumbling block. I will post a video when I get there.
I use sodium silicate. It is available as a 40% liquid for cheap on ebay. Dilute it to where it is about 1% of the barium carbonate mix. Too much will affect the emission.
@@glasslinger Thanks for reply.. I have another question about cathode oxide , if i only use barium carbonate without zirconium will it work? or i have to mix with other chemical to make it work better?
An old video, from a time when I should have been interested. Alot of time lost. Alot of life gone by, nonetheless just as useful, albeit for more psychological processes than material. In any case I am thankful to you.. from a weird and dangerous future..
Nice. You may be able to optimize the process with jigs. Not sure of the tolerances of the application but space between the elements can affect performance. Jigs may give more control of spacing. Amazing.
Thomas Edison invented the diode vacuum tube and patented it, De Forest added a grid to it to make a voltage amplifying tube. But Edison stuck with his amplifier less megaphone phonograph because he refused to use the modified diode tree he invented. This put him out of the phonograph business.
This is WaaaaaaY COOL !! ( This is a Must - Watch !! ) If you are a Totally Geek'd Out Electronics NERD,...... You have to see this old school method, for making " Hollow State " devices !!! Great Job, Well Done !!! PS: Can anyone tell me, where I can get the materials to make tubes ?? Like Thoriated tungsten wire or the chemicals used for treating or coating the filament and getter. Also, where can I find the metal wire, tubing and sheet's of whatever pure or alloys used in the construction of the diode, triode, etc........! I want to design and build a Nuke/EMP Proof Tranceiver !!
All of it is available on ebay. For an EMP proof receiver, using a commercial receiver and adding shielding would be your best option. Most commercial receivers will not be affected by EMP unless the EMP source is close enough to where you will not give a shit any more!
Books I've read from RCA and Phillips have you flashing the getter after sealing, FWIW. Perhaps that's to avoid reheating (and redistributing it) during sealing, causing electrical leakage, etc.
It was more convenient for the production process. The getter will evolve a LOT of gas so why waste part of the getter by not pumping it out! In the real world it doesn't make any difference overall.
@@glasslinger Wow, thanks for the reply. I do vacuum physics stuff (with deuterium ions mostly) but also have made a couple of triodes just "in-tank" for fun - just barely good enough to make a multivibrator with. I'm guessing authorities like Kohl mentioned this because with a top and bottom mica support wafer you really didn't want to re-evaporate some of the getter during sealing - he and others said the getter made the vacuum better than their pump did even after high temp outgassing. (though how they measured that is anyone's guess) If I may ask, where do you get yours? I may someday replicate what you're doing, I have the rest of the stuff and make my own glass-metal seals already. Getters are the one piece I haven't been able to put my hands on. Need any kilometers of W-Re wire, .5 mil thick?
Modify a microwave oven transformer by replacing the secondary coil with 2 turns of insulated 2 gauge (American gauge) stranded copper wire. Re-weld the transformer core and input 120v ac, or whatever the transformer was designed to handle, to the primary coil and use the secondary coil to weld.
@@6p1p The thoriated tungsten wire is on ebay. To use the oxide coated cathodes the vacuum must be VERY GOOD, any air in the tube above 10-6 torr will quickly destroy the emission. High temperature bake out and a getter flash is mandatory.
I think if you took some glass capillary tube you could group as many as you need in a bundle and melt them together with the tungsten wire inside. Then you have a nice straight base. You could even fill them with vacuum epoxy instead of melting the glass to the tungsten.
Yes! All three of them worked! I made a total of 5 of them and two had leaks. The other three worked. The characteristics were not particularly good of course!
WHAT is the emitter paste and did you buy or make it and can you make a video showing us how to make it if we can not buy it.....and .. thank you for the videos.
Easy. Barium carbonate and Strontium carbonate, 50-50 and grind to dust with mort and pestle. Dissolve in enough water to make a cream-like liquid. Add about 1/2% sodium silicate (30% liquid) as a binder. All are easily available chemicals.
You are having brilliant skills sir. Now I have understood why vacuum tube amplifiers are expensive. Because your love in your work is visible. Now a days everything looks magic. I always feel there is a life inside the vacuum tube radios. Same in the case of old wall clocks. Thanks for making such historical videos. I have become your follower. Kindly share your Photograph. I would like to add in my best mechanics album.
It took me a few seconds to remember the tiny triode tubes RCA ever so loved, nuvistors. Only ever saw one fail, out of thousands. Unlike vacuum tubes used in car radios and portable electronics like hearing aids. Folks, think hearing aids twice the size of a Raspberry Pi case alll around, powered by a 90 volt battery.
WOW!!!!!! That is intricate work. If Lee Deforest, the inventor of the "audion tube" way back in 1904 was alive today he would be blown away by this video.
Wonderful, mesmerising to watch first-principles craftsmanship like this. I'm really intrigued with your miniature handheld spot welder, is it commercial or did you build it? If so, what sort of transformer was used as I'm guessing a modified microwave oven tranny would be grossly over current for these tiny zaps?
I don't understand how it was possible to flash the getter when it consists of a "U" welded onto a much finer wire to close the loop. I should think it would melt the finer wire long before it could flash.
These tiny tubes were the key components in the proximity fuzes used by AA artillery in WW2. It was found that by mounting them vertically in a rubber mounting they were able to withstand the 30,000 G of firing stress. They were invented in UK and then went across to the US with the Tizard group along with the cavity magnetron.
Could watch this mastery of craft for hours - It's like "The Joy of Painting" for enigineers :=)
Love your work!
salat He makes happy triodes.
salat. SHE
You've stated it perfectly. Thanks.
This is so amazing! So many craftmansships in one Man. Glass, electronics, mechanical and videoproducer. (And a lot more, manuscript, producer, cameraman)
Would be cool to put the triode into an am transmitter circuit. I would be curious how many mw (or even watts :)) it could output to a 50 ohm dummy load. That is some precision work there! Thanks for another great video. Please keep making them and we'll keep watching!
would have like to see it finished & working !!!!! anticlimax
it was funny tho. Best make our own.
Suppose the use of metal epoxy shorted the leads...
Such tiny tubes could be used to make a tiny amplifier for the tiny violin. (or other tiny musical device really...)
Peanut Tubes were first invented in 1921, but were very crude and had low gain. I think they could only be used as audio freq. amps
Vacuum tubes the size of Christmas tree lights
That is craftsmanship!
Nice piece of craftsmanship by an expert electronics technician. Excellent job !
Just Amazing, Mind Blowing, A true Old school Engineer..
Hey Ron,
you got a new camera! We could see that 1 mil filament just fine!
Would sure love to see these pygmy tubes used in something.
You have some great skills man, thank you for sharing them. I appreciate the effort you put in to making these great videos. all the best.
just gave it a thumbs up without watching the video, just because i knew your previous videos ;-)
after watching i could need a secound and third voice to vote...
Ron, your videos are just very impressive. I would like to see the final result of your mini-tubes. Did you put them on a wooden stand for an exposition? Please upload videos of your projects more frequently....
Greets from Germany
Ronny
Incredible amount of patience and knowledge. Thanks for showing this great hand-made work of functioning art!
FANTASTIC VIDEO! I was a teenager in the nineteen fifties, at the end of the vacuum tube era, and I built and repaired many tube radios, amplifiers and TV sets before the transistor took over. But, I could never figure out how they were able to seal a vacuum in vacuum tubes. It seemed to me like the hot molten glass would be sucked into the tube by the vacuum pump as the tube was sealing. Or, the inrush of air would cool the hot glass at the point where it closed and prevent it from sealing. I knew the "getter" was used in the last step to harden the vacuum, but it was obvious that most of the air had to be removed with a vacuum pump. This puzzle about vacuum tubes has bothered me for more than 60 years, and I've tried to look up an explanation with no success. Then, I came across your video by accident. Now that I've actually watched you seal a tube, I still find it hard to believe it's possible. Moreover, it's such a delicate operation, that I'm amazed they were able to automate the process and make vacuum tubes by the millions and sell them so cheap. Thank you for finally clearing up this mystery for me after more than 60 years.
There is a Mullard factory video on You Tube that shows tube manufacture from start to finish. The automated machinery is AMAZING; but the actual assembly of the individual elements is done painstakingly by hand. The QC room and banks of test equipment almost defy description.
Hello, sir. I have a quick question, but there is no option to send you a message. It involves what I think is pretty complex glasswork. (It's a question of engineering; if someone else thinks they might help, please don't hesitate to engage me in comment)
A great job. Congratulations from Chile!
Searching the net, there seems to be no known cure or treatment for this kind of illness!! [kidding] :) Simply outstanding !!!
Hi Glasslinger. Great Video. Could you please tell me what welder you are using please. I have looked everywhere for some info on one. If you could please help me it would be greatly appreciated. Thank you. Have a great day.
Your work with building valves & Nixies never fails to amaze me.
Amazing work Bud Big Respect from Birmingham England
Amazing work as usual! I would love to see a video on your DIY Transconductance meter.
Hey Ron, great video. That was like tying three knots in an eyelash! awesome work. Kind regards Paul (Netherlands)
Make a 1921 Peanut Tube! These 'improvised design' tubes used a control electrode on the outside of the tube to circumvent patents, or just a cheaper means of fabrication. They controlled their electron stream by means similar to CRT's, but with lower anode voltages(15V to 22.5V).
Just little incandescent lantern bulbs fitted with three connections at its base, and a wire electrode wound around the neck of the bulb's midsection for the input signal.
Low gain and high impedance, kind of like a crude vacuum-tube version of a FET
He'd be great in a sci-fi series about rebuilding the world post "what it was" that happened.
As long as we have cross-dressers with skills ;-)
Fascinating- as always!
Wow..... Pocket Tube amp anyone?
What an awesome video.....such skill and craftsmanship!!
Man thank you i was searching for hours
What is the lifetime of these tubes. Is the temperature coefficient of expansion the same for tungsten as glass? Do you get leakage around the pins when the tube expands and contracts?
The pins of modern vacuum tubes are made of a metal alloy know as KONAL, that has the same thermal expansion coefficient as the glass the tube is made of
@@Jeffrey314159, Konal, good to know. Now, I’ll have to go look it up.
Damn that is fine work !
You have a lot of initiative...
24:00, looking to decorate your christmas tree?
I admire your skills and craftsmanship. Just beautiful. Thank you for sharing it.
I wish you had explained an application where these could be used, say to replace one of those great big diodes from the fifties or something like that
Recreating a lost art. Thanks for posting!
Here is a challenge, use your miniature tubes to build an equivalent of early logic circuits and "flip flop gates to make a simple computer based on miniature tubes
That had me on the edge of my seat, and holding my breath at times!
Glasslinger is a master craftsman. That's enough. But he also can build this stuff in front of a camera while keeping everything in focus. That's genius.
How can anyone downvote this excellent example of craftmanship and engineering?
Thanks for everything Mr. Ron.
Fantastic skills and a great documentary. I wish you would connnect the triode to a simple simple circuit such as an oscillator with a 'scope.
Very good, really fantastic!
Yes it is a real Craftmanship!
Mr. Glasslinger, do you use a HHO generator?
I hear Some noises like electrolysis
Just Bravo for this DIY!
Great videos.
Where can I get the flash getter from. It looks like you have a getter designed for a larger tube that you have cut to size.
I understand it is made from Barium Azide and powdered glass, but tracking down this kind of thing is going to be very difficult.
+Rob King
Go to my tubecrafter.com website and look at the getter flasher construction plans. To get getters buy a bunch of junk TV tubes on ebay (lowest cost you can find) and you can crack them open and get the getter. Do the cracking immediately before you are going to put the getter in the tube and vacuum it since the getters deteriorate rapidly (1 hour) in air.
Hi Glasslinger,
so the small ring of getter you were cutting to size came from an old TV tube?
Do you mean the small valves/tubes or the big CRT tube?
The other thought I had was to put the whole tube/valve inside a larger glass vacuum tube with a ball bearing, seal the tube then rattle the tube until the ball bearing smashes the valve.
Or use a thin tungsten heater wire wrapped around the valve to cause it to crack in 2.
I will get a few valves and break some open to see what the flash getter is like and if I can re-use them - great idea of yours!
The getters from the small TV tubes. (they are cheap) You don't need to do any complicated procedure. Just don't crack the TV tube open before you are ready to use the getter.
Hi Glasslinger,
I have bought a good selection of about 80 tubes/valves. One of them has no black silver discharge on the inside of the glass - just clear glass. But there is a small black square attached to one of the leads inside the tube around 6mm x 6mm, could this be the getter?
Also, do I only have about 1-2 hours after the tube is broken before placing the getter ring back inside a vacuum?
Have you tried using the getter a day or week later?
Thanks
Rob
Rob King
You can store the getters under diesel fuel, kerosene, or mineral oil to keep it from oxidizing in the atmosphere.
Jesus man, u gotta have alot of patience for this.
There are a few others on RUclips that make hand-made tubes but this is, by far, the best for explanations of thew process.
Genius at work. Absolutely Awesome video as always Ron. I can't add anything more than the other good people who have commented other than I hope we will get to see the emission results soon in your next video for the triode. I agree, a transmitter would be a nice project. Maybe a 20's period looking receiver that you are a master at creating would sell better however.
where do you get the nickel tube from?
I cut it out of old TV tubes. The cathodes of these tubes come in various diameters. For long lengths, I buy it on line. (very expensive!)
Nice job! I love Your videos! I am going to try tube making. I make neon signs so I am more than half way there. I just made a small induction oven, which is my last stumbling block. I will post a video when I get there.
wow!! I would like to know the pic is for what article? I'm sure its of big interest to me!
what liquid you mix with your barium carbonate to make it stick on filament?
I use sodium silicate. It is available as a 40% liquid for cheap on ebay. Dilute it to where it is about 1% of the barium carbonate mix. Too much will affect the emission.
@@glasslinger Thanks for reply.. I have another question about cathode oxide , if i only use barium carbonate without zirconium will it work? or i have to mix with other chemical to make it work better?
This awesome, but I've never had so much adrenaline watching a DIY tube video. ITS SO FIDDLY XD
An old video, from a time when I should have been interested. Alot of time lost. Alot of life gone by, nonetheless just as useful, albeit for more psychological processes than material. In any case I am thankful to you.. from a weird and dangerous future..
Nice. You may be able to optimize the process with jigs. Not sure of the tolerances of the application but space between the elements can affect performance. Jigs may give more control of spacing. Amazing.
thank you hope you have been doing well good work always enjoy your posts
Thomas Edison invented the diode vacuum tube and patented it, De Forest added a grid to it to make a voltage amplifying tube. But Edison stuck with his amplifier less megaphone phonograph because he refused to use the modified diode tree he invented. This put him out of the phonograph business.
This is a very informative and entertaining video. thanks for sharing !
I guess that’s why solid state won, probably fit about 600 billion transistors in there...
looks like I have most of the tools to do this
is a diffusion pump absolutely necessary?
And to think some of the mini tubes i worked with in the military had 1 and 2 grids,
This is WaaaaaaY COOL !! ( This is a Must - Watch !! ) If you are a Totally Geek'd Out Electronics NERD,...... You have to see this old school method, for making " Hollow State " devices !!! Great Job, Well Done !!! PS: Can anyone tell me, where I can get the materials to make tubes ?? Like Thoriated tungsten wire or the chemicals used for treating or coating the filament and getter.
Also, where can I find the metal wire, tubing and sheet's of whatever pure or alloys used in the construction of the diode, triode, etc........! I want to design and build a Nuke/EMP Proof Tranceiver !!
All of it is available on ebay. For an EMP proof receiver, using a commercial receiver and adding shielding would be your best option. Most commercial receivers will not be affected by EMP unless the EMP source is close enough to where you will not give a shit any more!
Is it at all possible for you to make a basic germanium or silicon Transistor? I thought if anyone can you can!
Books I've read from RCA and Phillips have you flashing the getter after sealing, FWIW. Perhaps that's to avoid reheating (and redistributing it) during sealing, causing electrical leakage, etc.
It was more convenient for the production process. The getter will evolve a LOT of gas so why waste part of the getter by not pumping it out! In the real world it doesn't make any difference overall.
@@glasslinger Wow, thanks for the reply. I do vacuum physics stuff (with deuterium ions mostly) but also have made a couple of triodes just "in-tank" for fun - just barely good enough to make a multivibrator with.
I'm guessing authorities like Kohl mentioned this because with a top and bottom mica support wafer you really didn't want to re-evaporate some of the getter during sealing - he and others said the getter made the vacuum better than their pump did even after high temp outgassing.
(though how they measured that is anyone's guess) If I may ask, where do you get yours? I may someday replicate what you're doing, I have the rest of the stuff and make my own glass-metal seals already. Getters are the one piece I haven't been able to put my hands on. Need any kilometers of W-Re wire, .5 mil thick?
im so hapy i found you on you tube. you are an true artist. Nice
If you think this is fiddly, you should see those guys soldering the i9's for intel
Awesome! Can I ask how much filament voltage and current you were running on the diode?
I believe the video mentioned, right at the end of the diode testing, that a plate voltage of 50V gave about 10 mA plate current.
Outstanding! Where do you get your materials?(glass,tungsten wire ,nickel tubing etc.????)
Ebay of course!
Unbelievable! Looks like Witchkaft :).
I would do it myself to if I had the equipment. Or try.
oxygen torch?
Yes. The glass is pyrex which requires the high temperature.
thanks - i was thinking more 'oxygen' just because it wasn't leaving burnt carbon deposits etc
excellent video.....where can i find a small hand held spot welder like this?
Modify a microwave oven transformer by replacing the secondary coil with 2 turns of insulated 2 gauge (American gauge) stranded copper wire. Re-weld the transformer core and input 120v ac, or whatever the transformer was designed to handle, to the primary coil and use the secondary coil to weld.
jb weld has steel powder in it, is it conductive?
Wow. Stealing bits out of tubes to build even smaller tubes!
Fantastic!
What is the product that covers the filament?
Congratulations!
it is a mix of half barium carbonate and half strontium carbonate. A small amount of sodium silicate is added as a binder.
what type of wire use for filament? is it pure tungsten wire?
The wire is 2% thorium oxide. These are also coated with barium oxide to increase emission.
@@glasslinger I have tried with pure tungsten wire coat with barium carbonate it didnt work well after i heat too hot.. Where to get the thorium wire?
@@6p1p The thoriated tungsten wire is on ebay. To use the oxide coated cathodes the vacuum must be VERY GOOD, any air in the tube above 10-6 torr will quickly destroy the emission. High temperature bake out and a getter flash is mandatory.
@@glasslinger Thanks you very much for answer my question..
DOES IT FIRE UP
Yes. But the performance was abysmal!
Isn’t JB weld conductive
No. It is very insulating, in the millions of ohms per mil.
sorry . had doubts about the metal particulate in half of the mix.
Awesome work as always. Did they work at least?
I think if you took some glass capillary tube you could group as many as you need in a bundle and melt them together with the tungsten wire inside. Then you have a nice straight base. You could even fill them with vacuum epoxy instead of melting the glass to the tungsten.
There are certain requirements for making a long term vacuum seal that make that idea impractical.
You have far too much patience
Mouth noises adds to the professionalism....
Does it work though?? Not too amazing if it doesn’t work. U didn’t show it.
Yes! All three of them worked! I made a total of 5 of them and two had leaks. The other three worked. The characteristics were not particularly good of course!
New Camera? WOW Good Quality. Way better than Before ^^
i love your pinch welder , i really want to build one, will you show it to us
Vacuum tube manufacturer ASMR 😍
ONE OF THE BEST CRAFTSMAN EVER.I enjoy watching Ron works.Very Knowledgeable.Thank you for a great video. 73 KI7DYM
WHAT is the emitter paste and did you buy or make it and can you make a video showing us how to make it if we can not buy it.....and .. thank you for the videos.
Easy. Barium carbonate and Strontium carbonate, 50-50 and grind to dust with mort and pestle. Dissolve in enough water to make a cream-like liquid. Add about 1/2% sodium silicate (30% liquid) as a binder. All are easily available chemicals.
@@glasslinger Thank you.
You are having brilliant skills sir. Now I have understood why vacuum tube amplifiers are expensive. Because your love in your work is visible. Now a days everything looks magic. I always feel there is a life inside the vacuum tube radios. Same in the case of old wall clocks. Thanks for making such historical videos. I have become your follower. Kindly share your Photograph. I would like to add in my best mechanics album.
Hi! Ron. Can u show your antique radio collection to your viewers that u have reconditioned . It will be very exciting to see your collections.
Working on it. It's a BIG job! May be my longest video!
Thank u Ron. Waiting for that excitement.
It took me a few seconds to remember the tiny triode tubes RCA ever so loved, nuvistors.
Only ever saw one fail, out of thousands.
Unlike vacuum tubes used in car radios and portable electronics like hearing aids. Folks, think hearing aids twice the size of a Raspberry Pi case alll around, powered by a 90 volt battery.
WOW!!!!!! That is intricate work. If Lee Deforest, the inventor of the "audion tube" way back in 1904 was alive today he would be blown away by this video.
every "ok" spell give +1 to emission and +0.5 to gain =)) ( to say without joke - this is AWESOME !!! great ! )
We see it. :)
Wow! That's amazing!
Wonderful, mesmerising to watch first-principles craftsmanship like this. I'm really intrigued with your miniature handheld spot welder, is it commercial or did you build it? If so, what sort of transformer was used as I'm guessing a modified microwave oven tranny would be grossly over current for these tiny zaps?
Where did you get that bench top vise from? I’ve looked at PanaVise and did not find anything looking remotely similar.
I don't understand how it was possible to flash the getter when it consists of a "U" welded onto a much finer wire to close the loop. I should think it would melt the finer wire long before it could flash.
The triode didn't work did it?
1" by 1/4"... I guess you could call these Compact, Ron... Sorry haha
I am not worthy! Thank you for keeping the history of American craftsmanship alive.
So, are you telling me that these little teeny miniature tubes could replace a great big tube in say a 1948 radio?