I have never seen so much love and care in explaining a concept that can be perfectly replicated by someone who is not into ham radio but can start something with this sort of circuits, thank you ! I have just downloaded the video just in case it gets deleted by your nephews one day
I worked for 25 years as an electrical engineering consultant after working for ten years for various companies. I ruined a perfectly good hobby by turning it into a business. I have enjoyed your videos and others and it has reawakened my interest in electronics as a hobby. Thanks. I have some ideas that I'm going to try and will report on in your comments.
I think the idea of a crystal radio set is not needing a power source. We could be without power for weeks and possibly months, after a hurricane comes through. A crystal radio set would at least pick up stations. As for the video thanks for the enlightenment in the electronics field. I always played with electricity when a was a small child and later into electronics. It's good to know I still learning old technology like it was new. Thanks again big 73!
Cool, back in 1970, I joined the US Army, and after a whirl wind training session, I found myself in Vietnam. I was assigned to an Engineer outfit, and since we were a major headquarters, we had to have a lot of field phones, thus a rather large switchboard. I became a switchboard operator, of course we were not allowed to have any distractions in the SB room, but at night, when the board was fairly quiet, we found that we could jack into the line that lead across the CamRahn Bay from Dong Ba Thin, where our HQ was located to CamRahn Bay where the major switching central was to get around the country. If nobody was on the line, the board and headset acted as a sort of radio receiver, and we could listen to the only radio station available, the Armed Forces Radio and Televison Network. They played a lot of current rock and roll, so we could spend the 4 hour shift listening to tunes (they found that over 4 hours at a time on the board lead to some really nasty reaction in some soldiers because of the constant pressure of a busy double SB86 SB with extra stacks of receiver towers.) We worked 4 hours on and 8 hours off constant rotation.
Great video. Thanks for doing all the projects for us. BTW a neat trick for soldering enameled magnet wire is to put an aspirin tablet on a piece of wood under the wire and then push the soldering tip against it. I saw this in an old magazine somewhere and tried it. It works like a champ, but the fumes are horrible.
I’ve must’ve watch 70+ Crystal radio videos this was the best demonstration with the clearest loudest sound that actually made me interested. I’ve seen very simple ones and very elaborate but the radio signal and sound quality we’re never that good as the one you just demonstrated. I believe I just found my first crystal radio set to build thank you very much keep up the videos I’ve just subscribed to your channel. 👍👍👍
A Crystal set was the first thing I ever got working I was very much surprised that you didn’t really need much at all if you just wanted to pick up the strongest signal all you needed was Crystal earpiece pretty much. In the 70s and 80s you could buy a complete TRF device housed in a 4 legged TO18 case it was the ZN414 a great little device and enough signal out to feed a single stage common emitter amp to drive a small 80 ohm loudspeaker.
Very nice, simple project. Thanks for uploading this. I am looking forward to seeing how much difference there will be in the reception of crystal sets that I make now I live out in the country and I can put up a high wire antenna without worrying about complaints from neighbours, - I don't have any now!.
These videos are great and so informative, many thanks!! I think your mix of theory and demonstration are perfect for my needs. Backfilling the basics of radio receivers is really helping my amateur radio education. Cheers, 2E0DAV.
This video is a terrific explanation and demonstration of how to add a TRF stage to a crystal set. One question, though... At time 22:00, you say to first tune the TRF stage to the station you want to listen to, and _then_ tune the crystal stage. Is that correct? Are both tuned stages equally selective? If they are both quite selective, I can foresee a situation where _no_ signal gets through, because the two tuned circuits are set to very different parts of the band. Perhaps that is what gave those old TRF radios a reputation for being finicky and hard to tune? You would need to have marked dials/scales on each variable capacitor, so that you at least get both tuned circuits _close_ to each other, and then fine-tune while listening to the received station. p.s. At 16:49, you show a copy of "Design of Modern Transistor Circuits", by Maurice Yunick. In the mid 1970's that was the textbook used in the electronics design course at the University of Manitoba, Faculty of Electrical Engineering. That course was taught by Professor Yunick himself, and I still have my copy of that textbook (signed by the author).
@Radioman.These days people say "HFE" instead of "Beta" but yes you got it right for the frequencies you are working at. Really there is "Re" and also "re". The little "re" in inherent in the silicon transistor and can be said to have 25mV on it at whatever the emitter current is. There are other effects that make the input impedance smaller in extreme cases. To a tuned circuit, the transistor's capacitances only change the frequency a bit but the fact that those capacitances are not good capacitors adds an extra loss.
I used a TRF in my Novice ham days. I found an RME DB-22A. Worked wonders in front of my cheap general coverage solid state receiver (Lafayette HA-600). Love your videos! 73 de WB2SMK
Another great video, with the promise of more to come. I'm sure it won't be long before comments and links start showing up on the Radioboard. Thanks, Karl
A very good presentation. In the past, I've heard so much about large wire, large diameter coils. (Thin wall 1 1/4" and 1 1/2" pvc sink drain material is good for small diameter coils.) I've made many coils of 3,4,6,8 and 12" diameter. Wound with 14 to 24 gauge solid and stranded wire. Fine-stranded speaker wire is nice. I'm not trying to upstage you with these details. Only letting you know what I've tried. Your knowledge is well beyond mine.) Recently I built several variometer and variocoupler coils which were fun. At any rate, your smaller diameter coils and wire seem to perform better than most of the ones I have built. I may have wasted a lot of money on the bigger/better ideas. As you mentioned, keep it simple. Did you ever experiment with large coils? Thanks for any thoughts! John in Bay City, Mi.
I'd say you gave me the secret to making my super passive radio work much better. I've always thought there should be a way to make a passive amplifier. And apparently this is it. I will have to add this circuit to my version of the lyonodyne Crystal Radio by Mike Tuggle. Of course as I'm into having a completely passive radio, I won't be using an amplified speaker. But with this circuit added and the sound powered transducer elements that I have for headphones, this should really be quite something. And I still get to keep my passive criteria on the radio in tact. Maybe this is why as a brand new ham I seem to be enjoying QRP. I really look forward to knowing CW well enough to be able to communicate. With a 1 watt or less radio it will be interesting to see what I can do. to see just how much I can do. Unfortunately, it's looking like it may take me quite a while to get CW down well enough to effectively communicate with it. I never thought it would be easy, but it may be harder than I thought it would be.
You'll never learn any new language without total immersion and/or many hours spent studying and practicing. CW is just the same--and as you've figured out, it's the best way to maximize QRP success. I'm relearning code myself, but not for the tests this time, for the airwaves. I haven't built a crystal set-yet. Catch you out there, 73 de W1ADE
A good varactor to play with is the Motorola MV1662, 250 pF. A couple of these should do the trick. Typically tune with a well bypassed pot like a 10K or 50K with a 1M resistor off the center feeding the two diodes which in turn are coupled to the coil with a 0.01 cap. Play with inserting resistors to the bottom and top of the pot to scale it.
Awesome video. As for your rf amp stage at 18:20 in your video: In order to find the value of the self biasing resistor do you just use ohms law and look up the 2n2222 base emitter current to get .6 to .7 volt at the base to keep it turned on? I don't understand why the emitter resistor adjusts the gain. Is there extra reading I could do to find out how this works? I have the essentials of radio book u show on your video. Thank you for sharing your knowledge. How is the performance of a typical vacuum tube detector with a grid leak resistor and capacitor compared to a 1n34 diode??
Its pretty loose, and it does not take much to get almost any transistor into the linear region enough to handle the small signals. In other words it does not need to be exactly biased to half VCC, that's for sure (but it would be nice...).
I don't understand what the function of the spark coil in radio reception is. I've already built several Galena radios and I also know the spark coil but I didn't know about its use.
I have an idea, maybe its possible to pick the best germanium multiband crystal radio design, and add a separate regenerative transistor powered circuit coupled inductively to the coil? One that is powered by an untuned separate antenna or coil that rectifies and provides current to the feedback circuitry transistors? No batteries needed?
16:00 To maintain the spirit of this hobby, the TRF should be made with only pre-1960's technology and parts. No microchips(IC's), and preferably vacuum tube tech! To use 'modern electronics' is to render the endeavor as unauthentic
Yes as a purist, historian, collector or preservationist, I would agree. But I was learning electronics in a very strange time period of the early 1970's where I still had tube design and slide rule courses, right along side semiconductor design classes. The "Hybrid Era". It all flows together. There is very little new in the actual designs till we get the PLL and processor.
HOOOWWwww I missed almost these videos !!! (Part 1 and 2) yes this is fun! this is delicious! simple but work like a cannon! friendly greetings from The Netherlands! Rob
Awesome video, do you mind telling me what the outside diameter is of those tubes you used for the inductor coils? I tried making mine this morning with some 1.5 inch PVC that has an OD of 1 and 5/8 in. I didn't count my turns, I was doing it hastily LOL but my antenna is a couple 100ft long but most of it's laying on the ground when I get home I'm going to work on trying to raise it up at least a couple feet. It was hard to tell if I heard something I could have sworn I heard ever so faintly a station I got to mess with it some more.
sweet.....can one be done w/out any batteries, or transistors/tubes? just curious...good AM radio antenna cut to freq. would be large, but should be more volume with the longer antenna....excellent video, and looking forward to part deux….
Hi Verynice video i like how historical it looks on those wooden boards dont stop. I made better Crystal rx since last time. It Is for LW band ( longwave ) 150-288kHz i would send you a schematic but i know you dont have LW band in US And it Is schematic which i never seen anywhere on internet.
Wonderful tutorials and demonstrations. I love it! However, late model TRFs of the 1930s? Didn't you mean late 20s? I have an American Bosch made in 1928 that has ganged TRF. Also a Majestic floor model, same ganged TRF setup, 1929. By 1932 the superhet patent ran out and everyone made superhet radios, though one could get the small TRF due to the depression, and a 3 tube TRF was cheap.
My transistor TRF is working like a champ finally, with one annoying problem yet. I just can't seem to get a set of coils that will really bring in the lower end of the band. I struggle to get anything much below 800-900khz. Some nights slightly better than others but not by much. Any ideas ??
Can a loop antenna be used for a crystal radio? I have watched many videos on making a crystal radio but none of them really discuss the antenna and what options are for a portable AM radio. I am trying to watch all your videos so maybe I just haven't got to it yet.
A loop antenna based pure crystal set with no amplification would require a large very low loss loop. It would be tuned. I small table top loop of say 15 inches on each side of a square loop would work only for nearby ground wave stations. So for real performance, imagine winding a loop of say 3 to 5 ft. on a side using low loss Litz wire. Then you would have an inner loop of a couple of turns that you feed the diode with. This gives you an idea of what we are talking about, and this one is small. aa7ee.wordpress.com/2013/11/17/a-tuned-loop-antenna-for-the-am-broadcast-band/
@@MIKROWAVE1 Thanks for the info. I think I might try something like your active antenna with the ferrite core. I want to build a portable AM radio that I can carry. I am also looking at your 2 tube amp design with the battery tubes...pretty cool!
I love crystal radios but was that a SR-150 transceiver in the intro? The SR-150 was my first SSB rig back in the 70's - Thanks for the TRF video de WA4JAT
The German military used TRF receivers in WW2 . They were very effective partly because of their robust construction. Take a look at www.nonstopsystems.com/radio/pdf-hell/article-hell-24.pdf for some details
@MIKROWAVE1 Can you show or do you have a video of the antenna? I have HOA restrictions and would like to know if I can run an antenna in a low profile way and achieve similar results as shown in this video.
Hello sir, can you help me with a pocketradio. I want to remove the mute moment between the sweeping through radio channels? I hope you can help me? Thanks
I had one recently. Oh they don't cancel, they usually allow the complaint source to monitize. Any and all of my videos could be scrutinized. Even inadvertently recorded music as tuning across the band can be tagged.
Do you understand WHAT the appeal is in using a crystal radio receiver with a crystal earpeice ? SIMPLICITY : radio reception without using using electricity , power supply, batteries or amplifiers .
That little speaker was built by my high school shop teacher. He was a crackerjack woodworker cabinet maker. He even made Banjo Necks with inlays. The grille is a steel stamping and the speaker is a simple 4 inch PM.
Can I make the RF amp ( at 18:09 ) with a gain of 100 by setting a very small emitter resistor and using only 1 meter of an antenna? I live in the city, so I can't have a 40 foot antenna! Really appreciate an answer...
Joanne, the kind of antenna that you are describing is called an Active Voltage Probe. These can be very effective if there is filtering to focus on the band of frequencies you are interested in. For instance, for the broadcast band, you would want one with a sharp low pass filter set for 1.8 MHz. To make the tunable amplifier in this video work as a demo, you may try to increase the gain to a reasonable level of 20 to 30 and attach your very short wire to the very top of the tuned circuit (no primary coil needed).
A Vacuum has a relative permeability of 1. Air is 1.00000037. Water is .9999992. Wood is 1.00000043. Pure Iron 1000. So it depends on how wet the wood is and if it has magnetic impurities! Maybe zero effect. Q is another story.
@@MIKROWAVE1 - polystyrene has good permeability and a good Q. I would like to make a printed spider-wound polystyrene coil form with a tubular glass variable cap. You just got me interested in making a super crystal set once again. Thanks so much.
You do get more voltage out if the output impedance is high enough and the signal is strong enough to turn on two diode drops. The penalties are increased output impedance, increased distortion and less SENSITIVITY.
Great video !! ....That 1 Transistor really Woke up the Crystal radio Sensitivity & Selectively !! .....Now that a battery supply is Utilized, maybe Foward Biasing the detector Diode a few Microamps could "Hotrod" even more Weaker DX stations !!
Hola..hello..this radio is SW..??. Homemade radio SW??! ( web, project..!!).si alguien sabe dónde puedo encontrar planos de proyectos de radio SW, me pasarían los Links gracias.
I've tried building this seemingly simple TRF front end onto a Crystal set and absolutely does not work !! Voltages at the collector & base are all over the place and never near what you show in your video schematic. I'm totally lost as to what's going on 🤔🤔
Simple is not always easiest when it comes to bias. Thus we have H bias. All it takes is a variation in the current gain to greatly influence the Q point with simple bias. First attempt to get the first stage collector somewhat centered between VCC and ground.
@@MIKROWAVE1 Fifth try was the charm !! Working like a champ. Even with 40' INDOOR antenna running thru a loading coil !! One thing I'm curious about, why does it seem Crystal Set output seems to be bass heavy ???
@@stevenlitkey9354 That's great about getting it biased! - it could be that the output filter cap on the phones side is too large. Try reducing it to a .005 uF.
This calls for a bad pun I read many years ago in Pop'tronics........ At one national industry consumer electronics show, sitting in one corner of a display area, was an old horse drawn passenger conveyance. The over a century old wooden vehicle's paint was nearly completely worn off, and the only lettering left on one side were the initials of its long gone operator, 'R.F'. The faint sound of music wafted out of the carriage, and group of engineers gathered around it, scratching their heads and trying to figure out what was the purpose of this exhibit. Finally, one of them face palmed, and spoke up. "Of course", he exclaimed, "it's a 'Tuned RF Stage!" Both of those transistors are often used in RF applications up to 50 mhz. The gain may fall off from the DC value that high, but they work. If you used the dual gang capacitor and placed the two coils at right angles to each other, you could have built a single control radio. The coils would have to be wound exactly the same, but by using the trimmer caps on the variable you could have gotten them to track. Ganged control sets were common in the late 1920's, by the 30's superhets were more common.
I have never seen so much love and care in explaining a concept that can be perfectly replicated by someone who is not into ham radio but can start something with this sort of circuits, thank you ! I have just downloaded the video just in case it gets deleted by your nephews one day
I worked for 25 years as an electrical engineering consultant after working for ten years for various companies. I ruined a perfectly good hobby by turning it into a business. I have enjoyed your videos and others and it has reawakened my interest in electronics as a hobby. Thanks.
I have some ideas that I'm going to try and will report on in your comments.
I think the idea of a crystal radio set is not needing a power source. We could be without power for weeks and possibly months, after a hurricane comes through. A crystal radio set would at least pick up stations. As for the video thanks for the enlightenment in the electronics field. I always played with electricity when a was a small child and later into electronics. It's good to know I still learning old technology like it was new. Thanks again big 73!
Nice Work Buddy
Blessings From Penzance , Cornwall , UK
Have fun with your crystal sets!
Cool, back in 1970, I joined the US Army, and after a whirl wind training session, I found myself in Vietnam. I was assigned to an Engineer outfit, and since we were a major headquarters, we had to have a lot of field phones, thus a rather large switchboard. I became a switchboard operator, of course we were not allowed to have any distractions in the SB room, but at night, when the board was fairly quiet, we found that we could jack into the line that lead across the CamRahn Bay from Dong Ba Thin, where our HQ was located to CamRahn Bay where the major switching central was to get around the country. If nobody was on the line, the board and headset acted as a sort of radio receiver, and we could listen to the only radio station available, the Armed Forces Radio and Televison Network. They played a lot of current rock and roll, so we could spend the 4 hour shift listening to tunes (they found that over 4 hours at a time on the board lead to some really nasty reaction in some soldiers because of the constant pressure of a busy double SB86 SB with extra stacks of receiver towers.) We worked 4 hours on and 8 hours off constant rotation.
Thanks for sharing your experience, it was really interesting.
That's pretty cool. What kind of reaction?
Your Channel is simply amazing!! Stay Awesome...
This is so much fun. Really enjoy watching all this come together. Keep experimenting and keep having fun! All for the love of Radio.👍👍
Great video. Thanks for doing all the projects for us. BTW a neat trick for soldering enameled magnet wire is to put an aspirin tablet on a piece of wood under the wire and then push the soldering tip against it. I saw this in an old magazine somewhere and tried it. It works like a champ, but the fumes are horrible.
GREAT Project! Please keep them coming.... 👍
I’ve must’ve watch 70+ Crystal radio videos this was the best demonstration with the clearest loudest sound that actually made me interested. I’ve seen very simple ones and very elaborate but the radio signal and sound quality we’re never that good as the one you just demonstrated. I believe I just found my first crystal radio set to build thank you very much keep up the videos I’ve just subscribed to your channel. 👍👍👍
A Crystal set was the first thing I ever got working I was very much surprised that you didn’t really need much at all if you just wanted to pick up the strongest signal all you needed was Crystal earpiece pretty much.
In the 70s and 80s you could buy a complete TRF device housed in a 4 legged TO18 case it was the ZN414 a great little device and enough signal out to feed a single stage common emitter amp to drive a small 80 ohm loudspeaker.
I remember the little wonder chip, the ZN414. Another one I played with was the 703 RF IF AF differential amplifier. Radio Shack sold those for 99c.
@MIKROWAVE1 I never tried your device but I think if you can find a zn414 these days they ain't cheap.lol.😂
Thank you for demonstrating the loading coil in a receiver. They used that more than 100 years ago...
Still works pretty well on the long wires!
very good demostrations. I am very interested . congratulations...... nice sound
Very nice, simple project.
Thanks for uploading this.
I am looking forward to seeing how much difference there will be in the reception of crystal sets that I make now I live out in the country and I can put up a high wire antenna without worrying about complaints from neighbours, - I don't have any now!.
These videos are great and so informative, many thanks!! I think your mix of theory and demonstration are perfect for my needs. Backfilling the basics of radio receivers is really helping my amateur radio education. Cheers, 2E0DAV.
Excelente idea la bola sobre la bobina ! Bravo !
This video is a terrific explanation and demonstration of how to add a TRF stage to a crystal set. One question, though... At time 22:00, you say to first tune the TRF stage to the station you want to listen to, and _then_ tune the crystal stage. Is that correct? Are both tuned stages equally selective? If they are both quite selective, I can foresee a situation where _no_ signal gets through, because the two tuned circuits are set to very different parts of the band. Perhaps that is what gave those old TRF radios a reputation for being finicky and hard to tune? You would need to have marked dials/scales on each variable capacitor, so that you at least get both tuned circuits _close_ to each other, and then fine-tune while listening to the received station.
p.s. At 16:49, you show a copy of "Design of Modern Transistor Circuits", by Maurice Yunick. In the mid 1970's that was the textbook used in the electronics design course at the University of Manitoba, Faculty of Electrical Engineering. That course was taught by Professor Yunick himself, and I still have my copy of that textbook (signed by the author).
Request to begin linking schematics in descriptions.
Thanks, de KE0RFZ
Lowering the gain with an emitter resistor also increases the input impedance making your TRF load its coil less.
@Radioman.These days people say "HFE" instead of "Beta" but yes you got it right for the frequencies you are working at.
Really there is "Re" and also "re". The little "re" in inherent in the silicon transistor and can be said to have 25mV on it at whatever the emitter current is.
There are other effects that make the input impedance smaller in extreme cases.
To a tuned circuit, the transistor's capacitances only change the frequency a bit but the fact that those capacitances are not good capacitors adds an extra loss.
I used a TRF in my Novice ham days. I found an RME DB-22A. Worked wonders in front of my cheap general coverage solid state receiver (Lafayette HA-600). Love your videos! 73 de WB2SMK
Very good receiver. Congratulations.
The more metal you get in the air and the air you get the metal in makes for good performance.
Another great video, with the promise of more to come. I'm sure it won't be long before comments and links start showing up on the Radioboard. Thanks, Karl
A very good presentation. In the past, I've heard so much about large wire, large diameter coils. (Thin wall 1 1/4" and 1 1/2" pvc sink drain material is good for small diameter coils.) I've made many coils of 3,4,6,8 and 12" diameter. Wound with 14 to 24 gauge solid and stranded wire. Fine-stranded speaker wire is nice. I'm not trying to upstage you with these details. Only letting you know what I've tried. Your knowledge is well beyond mine.) Recently I built several variometer and variocoupler coils which were fun. At any rate, your smaller diameter coils and wire seem to perform better than most of the ones I have built. I may have wasted a lot of money on the bigger/better ideas. As you mentioned, keep it simple. Did you ever experiment with large coils? Thanks for any thoughts! John in Bay City, Mi.
You are exploring the high arts of crystal set design!
Awesome video Mike. Thanks.
I'd say you gave me the secret to making my super passive radio work much better. I've always thought there should be a way to make a passive amplifier. And apparently this is it. I will have to add this circuit to my version of the lyonodyne Crystal Radio by Mike Tuggle. Of course as I'm into having a completely passive radio, I won't be using an amplified speaker. But with this circuit added and the sound powered transducer elements that I have for headphones, this should really be quite something. And I still get to keep my passive criteria on the radio in tact. Maybe this is why as a brand new ham I seem to be enjoying QRP. I really look forward to knowing CW well enough to be able to communicate. With a 1 watt or less radio it will be interesting to see what I can do. to see just how much I can do. Unfortunately, it's looking like it may take me quite a while to get CW down well enough to effectively communicate with it. I never thought it would be easy, but it may be harder than I thought it would be.
You'll never learn any new language without total immersion and/or many hours spent studying and practicing. CW is just the same--and as you've figured out, it's the best way to maximize QRP success. I'm relearning code myself, but not for the tests this time, for the airwaves. I haven't built a crystal set-yet. Catch you out there, 73 de W1ADE
Did it work?
Lot of very useful tips. Thanks !!
Great Video. Thanks! Watched the entire thing
I'm going to have to try this!
It would be cool to see you replace the variable caps with varactor diodes.
Great job on the video.
A good varactor to play with is the Motorola MV1662, 250 pF. A couple of these should do the trick. Typically tune with a well bypassed pot like a 10K or 50K with a 1M resistor off the center feeding the two diodes which in turn are coupled to the coil with a 0.01 cap. Play with inserting resistors to the bottom and top of the pot to scale it.
Great info, a lot of time went into making those coil taps, but nothing on using them. Wondering if they are worth putting into my coils?
Nope. Both the diode and the Amp seemed happy with a centertapped coil.
Awesome video. As for your rf amp stage at 18:20 in your video: In order to find the value of the self biasing resistor do you just use ohms law and look up the 2n2222 base emitter current to get .6 to .7 volt at the base to keep it turned on? I don't understand why the emitter resistor adjusts the gain. Is there extra reading I could do to find out how this works? I have the essentials of radio book u show on your video. Thank you for sharing your knowledge. How is the performance of a typical vacuum tube detector with a grid leak resistor and capacitor compared to a 1n34 diode??
Its pretty loose, and it does not take much to get almost any transistor into the linear region enough to handle the small signals. In other words it does not need to be exactly biased to half VCC, that's for sure (but it would be nice...).
One shorted turn constitutes a shorted coil or transformer.
I don't understand what the function of the spark coil in radio reception is. I've already built several Galena radios and I also know the spark coil but I didn't know about its use.
I have an idea, maybe its possible to pick the best germanium multiband crystal radio design, and add a separate regenerative
transistor powered circuit coupled inductively to the coil? One that is powered by an untuned separate antenna or coil that
rectifies and provides current to the feedback circuitry transistors? No batteries needed?
Awesome video joined
16:00 To maintain the spirit of this hobby, the TRF should be made with only pre-1960's technology and parts. No microchips(IC's), and preferably vacuum tube tech!
To use 'modern electronics' is to render the endeavor as unauthentic
Yes as a purist, historian, collector or preservationist, I would agree. But I was learning electronics in a very strange time period of the early 1970's where I still had tube design and slide rule courses, right along side semiconductor design classes. The "Hybrid Era". It all flows together. There is very little new in the actual designs till we get the PLL and processor.
HOOOWWwww I missed almost these videos !!! (Part 1 and 2)
yes this is fun!
this is delicious! simple but work like a cannon!
friendly greetings from The Netherlands!
Rob
Wonder where you can get those variable capacitors nowadays?
Awesome video, do you mind telling me what the outside diameter is of those tubes you used for the inductor coils? I tried making mine this morning with some 1.5 inch PVC that has an OD of 1 and 5/8 in. I didn't count my turns, I was doing it hastily LOL but my antenna is a couple 100ft long but most of it's laying on the ground when I get home I'm going to work on trying to raise it up at least a couple feet. It was hard to tell if I heard something I could have sworn I heard ever so faintly a station I got to mess with it some more.
That is a good start. You may be a bit low in the band, so some turns may have to come off (do a tap instead).
sweet.....can one be done w/out any batteries, or transistors/tubes? just curious...good AM radio antenna cut to freq. would be large, but should be more volume with the longer antenna....excellent video, and looking forward to part deux….
За реостатный вариометр-однозначно лайк!!!✌
Neat stuff.
I have Alfred Morgan's The Boy Book of Engines, Motors and Turbines
It is simply amazing how many books he wrote for young people, and over such a long career.
what book was that? "Elements of Radio"? who was the author and when was it published?
How did you get the hole in the ball?....Thanks for this
Can you make one in the cylinder,. Or the smallest crystal radio, mostly can you make a 460mhz crystal kit.out
You can reduce that down to one device using a MC1350 chip from Motorola which is a wide-band balanced IF amplifier.
I love that old 1350. I made my first QRP transceiver with one of those in the IF. I think it was also used in a TV descrambler project in 1980.
Love what you do, Please keep it up! Where can we find the schematics?
I maintain a FB page called Mikrowave1's Radio Resource Page facebook.com/Mikrowave1
Any plans on doing a TRF circuit receiver capable of receiving the shortwave bands?
Yes look for Solid State Shortwave Preselector
Nice video!
Finally a variable capacitor!
Hi Verynice video i like how historical it looks on those wooden boards dont stop. I made better Crystal rx since last time. It Is for LW band ( longwave ) 150-288kHz i would send you a schematic but i know you dont have LW band in US And it Is schematic which i never seen anywhere on internet.
Fine video.
Schematic?
I have a support FB page called Mikrowave1 Radio Resources Page where I keep high resolution schematics of the projects.
Could you please share the circuit diagram of this radio. Thank you.
Wonderful tutorials and demonstrations. I love it! However, late model TRFs of the 1930s? Didn't you mean late 20s? I have an American Bosch made in 1928 that has ganged TRF. Also a Majestic floor model, same ganged TRF setup, 1929. By 1932 the superhet patent ran out and everyone made superhet radios, though one could get the small TRF due to the depression, and a 3 tube TRF was cheap.
I have a 1929 Crosley ganged TRF art deco style with skinny legs that has an AC supply. Yes late 20s.
My transistor TRF is working like a champ finally, with one annoying problem yet. I just can't seem to get a set of coils that will really bring in the lower end of the band. I struggle to get anything much below 800-900khz. Some nights slightly better than others but not by much. Any ideas ??
Can a loop antenna be used for a crystal radio? I have watched many videos on making a crystal radio but none of them really discuss the antenna and what options are for a portable AM radio. I am trying to watch all your videos so maybe I just haven't got to it yet.
A loop antenna based pure crystal set with no amplification would require a large very low loss loop. It would be tuned. I small table top loop of say 15 inches on each side of a square loop would work only for nearby ground wave stations. So for real performance, imagine winding a loop of say 3 to 5 ft. on a side using low loss Litz wire. Then you would have an inner loop of a couple of turns that you feed the diode with. This gives you an idea of what we are talking about, and this one is small. aa7ee.wordpress.com/2013/11/17/a-tuned-loop-antenna-for-the-am-broadcast-band/
@@MIKROWAVE1 Thanks for the info. I think I might try something like your active antenna with the ferrite core. I want to build a portable AM radio that I can carry. I am also looking at your 2 tube amp design with the battery tubes...pretty cool!
I love crystal radios but was that a SR-150 transceiver in the intro? The SR-150 was my first SSB rig back in the 70's - Thanks for the TRF video de WA4JAT
Yup a 150. It's gone now as someone really needed it! I have a new victim, a rare Swan solid state mini from the late late 70's.
@@MIKROWAVE1 The Swan should be a great little rig for you :-)
The German military used TRF receivers in WW2 . They were very effective partly because of their robust construction. Take a look at www.nonstopsystems.com/radio/pdf-hell/article-hell-24.pdf for some details
Vary cool thanks
Svaka čast 73
are plans and parts list available for this build? Tnx and 73
Check out my FB Radio Resources Page. facebook.com/Mikrowave1/
Super my fiend
@MIKROWAVE1 Can you show or do you have a video of the antenna? I have HOA restrictions and would like to know if I can run an antenna in a low profile way and achieve similar results as shown in this video.
At 8:50, what is the diameter of that loading coil? And where did you get that ball from?
Hello sir, can you help me with a pocketradio. I want to remove the mute moment between the sweeping through radio channels? I hope you can help me? Thanks
Very good but I'm surprised RUclips hasn't canceled your video for copyright violations on the music. They do it with everyone else.
I had one recently. Oh they don't cancel, they usually allow the complaint source to monitize. Any and all of my videos could be scrutinized. Even inadvertently recorded music as tuning across the band can be tagged.
@@MIKROWAVE1 your topics are very interesting and I wish you all the best
next do a super regen radio
I did a valve type super regen. video project for VHF. Solid State?
Do you understand WHAT the appeal is in using a crystal radio receiver with a crystal earpeice ?
SIMPLICITY : radio reception without using using electricity , power supply, batteries or amplifiers .
Ha yes! Maybe use a second radio tuned to a more powerful station as a power supply for the amplifier?
Did you make that speaker? What is it?
That little speaker was built by my high school shop teacher. He was a crackerjack woodworker cabinet maker. He even made Banjo Necks with inlays. The grille is a steel stamping and the speaker is a simple 4 inch PM.
thank you ..
Can I make the RF amp ( at 18:09 ) with a gain of 100 by setting a very small emitter resistor and using only 1 meter of an antenna? I live in the city, so I can't have a 40 foot antenna! Really appreciate an answer...
Joanne, the kind of antenna that you are describing is called an Active Voltage Probe. These can be very effective if there is filtering to focus on the band of frequencies you are interested in. For instance, for the broadcast band, you would want one with a sharp low pass filter set for 1.8 MHz. To make the tunable amplifier in this video work as a demo, you may try to increase the gain to a reasonable level of 20 to 30 and attach your very short wire to the very top of the tuned circuit (no primary coil needed).
@@MIKROWAVE1 Thank you, for the reply ! That was really nice ! Thanks !
Does the wood core on the coils affect the inductance much?
A Vacuum has a relative permeability of 1. Air is 1.00000037. Water is .9999992. Wood is 1.00000043. Pure Iron 1000. So it depends on how wet the wood is and if it has magnetic impurities! Maybe zero effect. Q is another story.
@@MIKROWAVE1 - polystyrene has good permeability and a good Q. I would like to make a printed spider-wound polystyrene coil form with a tubular glass variable cap. You just got me interested in making a super crystal set once again. Thanks so much.
MIKROWAVE1 -Thanks for taking the time to reply. Have you by chance had any experience with wave traps?
could you "gang" the variable capacitor and use it for both stages?
never mind. you answered it.
@@generoll4027 I had the same question. I'm still wondering how they put the caps on a single gang and kept the coils separated.
@@clifffiftytwo - The frame of the cap (the stator) is common and should be connected to ground. The rotors are separate and isolated.
Gostei.....
Why doesnt anyone else use a 2nd cap and diode to double the audio out?
You do get more voltage out if the output impedance is high enough and the signal is strong enough to turn on two diode drops. The penalties are increased output impedance, increased distortion and less SENSITIVITY.
Great video !! ....That 1 Transistor really Woke up the Crystal radio Sensitivity & Selectively !! .....Now that a battery supply is Utilized, maybe Foward Biasing the detector Diode a few Microamps could "Hotrod" even more Weaker DX stations !!
Hola..hello..this radio is SW..??. Homemade radio SW??! ( web, project..!!).si alguien sabe dónde puedo encontrar planos de proyectos de radio SW, me pasarían los Links gracias.
Hola Hola, no, ¡esta es la banda de transmisión de AM!
i have that book. de kae4466/kf6uxj . bookmarked for future reference .
73!
IS RODGER STONE YOUR BROTHER ?
I've tried building this seemingly simple TRF front end onto a Crystal set and absolutely does not work !!
Voltages at the collector & base are all over the place and never near what you show in your video schematic. I'm totally lost as to what's going on 🤔🤔
Simple is not always easiest when it comes to bias. Thus we have H bias. All it takes is a variation in the current gain to greatly influence the Q point with simple bias. First attempt to get the first stage collector somewhat centered between VCC and ground.
@@MIKROWAVE1 Fifth try was the charm !! Working like a champ. Even with 40' INDOOR antenna running thru a loading coil !! One thing I'm curious about, why does it seem Crystal Set output seems to be bass heavy ???
@@stevenlitkey9354 That's great about getting it biased! - it could be that the output filter cap on the phones side is too large. Try reducing it to a .005 uF.
This calls for a bad pun I read many years ago in Pop'tronics........
At one national industry consumer electronics show, sitting in one corner of a display area, was an old horse drawn passenger conveyance. The over a century old wooden vehicle's paint was nearly completely worn off, and the only lettering left on one side were the initials of its long gone operator, 'R.F'. The faint sound of music wafted out of the carriage, and group of engineers gathered around it, scratching their heads and trying to figure out what was the purpose of this exhibit. Finally, one of them face palmed, and spoke up. "Of course", he exclaimed, "it's a 'Tuned RF Stage!"
Both of those transistors are often used in RF applications up to 50 mhz. The gain may fall off from the DC value that high, but they work.
If you used the dual gang capacitor and placed the two coils at right angles to each other, you could have built a single control radio. The coils would have to be wound exactly the same, but by using the trimmer caps on the variable you could have gotten them to track. Ganged control sets were common in the late 1920's, by the 30's superhets were more common.
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