RESISTANCE IS FUTILE! Diode Tunnels in Germany and Vermont

Peter DL3PB's Zinc Negative Resistance Transceiver

Michael Rainey AA1TJ's work with tunnel diode rigs has provided much grist for the SolderSmoke mill over the years, as has the tunneling of Peter DL3PB:
http://soldersmoke.blogspot.com/search?q=tunnel+diodes

They are back at it!

Michael updates Peter (and us!) us on his efforts of this week:

Grüss Peter!

Thanks for the nice message. Yes, I knew that you were going to be QRV with your ZnO transceiver but I never heard if you had made any contacts. I guessed that you had not, otherwise I'm sure you would have let me know. 

Again, I think your circuit looks really great! It's amazing to think you managed to squeeze 500uW from a scrap of oxidized zinc-plated steel. Even if you didn't make a contact, what you are doing is really fantastic. Congratulations on the creation of this amazing radio!

Okay, so I spent most of the afternoon at the workbench. Thus far I'm only using a single SRD (step-recovery-diode...1N5401 rectifier). Of course the result is a unipolar pulse. The idea did work as planned, however the power only increased by 2.24dB. The maximum RF output power is now 230uW. At least the SRD makes a pretty pulse :-)   

Please find two scope captures attached to this message. The first (0002) shows the SRD generated unipolar pulse. As you can see, the pulse width is nearly perfect for the job. The second trace shows the output RF waveform. The worst spurious energy is ~20dBc. The second image shows the 507kHz waveform at the unijunction emitter along with the output RF waveform.

The beacon is presently off the air, but I look forward to trying my luck tomorrow with a back-to-back pair of SRDs. A bipolar pulse pair will provide a shock impulse once every 3.5 cycles, instead of once every 7 cycles with the present unipolar drive pulse. The bipolar pulse pair should result in increased RF output power as well as a slight spectral improvement.

It's only a matter of time before you make a ZnO QSO, Peter. As we always say, the difficulty merely sweetens the eventual success. 

A broadband measurement of my output power (using an AD8307 log-amp power meter) indicates 139uW. Spurious frequency energy accounts for 2uW, leaving 137uW at 3.552MHz. I believe this is roughly the output power produced by your ZnO transmitter? 

This morning I'll attempt to increase the unijunction (UJT) 80m RF output power by inserting a pair of back-to-back standard-recovery power supply rectifiers (1N5401-ish) at the  UJT base-2 to ground node. Thus far I have relied exclusively on internal UJT nonlinearity for the generation of harmonic energy. I've reason to believe the minority carrier charge-storage capability (normally a defect, but hopefully a virtue here!) of these rectifiers will efficiently produce a bipolar pulse-pair every 1/500kHz seconds resulting in an odd-order comb-spectrum. At least that's the plan...we'll see how it works out ;-)

Peter, I never heard the results of your ZnO DXpedition? Any luck OM?

Okay, I'm off to the Hobbit-Hole. My heartfelt thanks to you all for your shared interest in this cock-eyed project.

73,

Mike, AA1TJ       

Peter, DL3PB, in Germany respond with amazing news of his own.  Peter is homebrewing his own tunnel diodes, using Zinc Negative Resistance Oscillators.  No store-bought appliances for him!

At this point you really have to visit the pages of Nyle K7NS

http://www.sparkbangbuzz.com/els/zincosc-el.htm

and

http://sparkbangbuzz.com/zinc-osc-2/zinc-osc3.htm

Nyle tells of building a little microwatt transmitter, and, once the snow melted, climbing a hill 5 miles from town to see if he could hear it.  This reminded me of young Marconi's early efforts in Bologna.

Peter writes:

Hi Folks,

Mike, your plan on how to increase output-power sounds reasonable –  yes, a few dB could really help, to make reception a bit steadier and thus allow a QSO.

Well, I thought we had already talked about the ZnO TRX attempt, but obviously we didn’t. The reason is dead simple - It didn’t work.

[ The ZnO TRX is a minimalist 80m band transceiver with a homemade tunnel-detector-diode as the only active device –  based on Nyle’s K7NS experimentshttp://sparkbangbuzz.com/zinc-osc-2/zinc-osc3.htm – please find attached an early schematic ]

Three days in a row after Xmas I tried for several hours each, I had announced the activity on QRPSPOTS and the German QRP Forum. Thus several guys
within the right distance were really trying hard to copy. I used different temporary antennas, mostly verticals, but also a sloper dipole - nada, niente , nothing.
One or two OMs reported weak CW signals on the scheduled QRG, but too deep in the noise, to even make out, whether it was me or someone else.

Yes, power is more or less comparable, actually it’s 0.5mW +/-3dB depending on the day’s form of the homemade tunnel-detector, but I guess all my antennas are
some dB behind a full-size dipole, so at the end it’s pretty much the same.

Folks were very cooperative during the test itself, but after it was clear, that it had not worked, the usual trolls showed up to explain, why that never could have worked...
I plan another test within the coming week e.g. during the PA-contest next weekend ( I’m only 30km from the dutch border ) with a base loaded 15m vertical –
be assured, you’re the first to hear about any success in terms of QSO or just being heard anywhere.

What would we go for, if everything works as expected and/or right from the beginning – or as Jim said it : What fun...

73!

Peter/DL3PB

Finally, Alan Wolke provides a very illuminating (as always) explanation of tunnel diodes):

The Parasaki: DL3PB's Amazing All Diode Transceiver

JBOD! FB!

Hi folks,

I'd like to share with you a long-cherished dream, that recently came true, forty years after I came to read about hams using tunnel diodes to make QSOs when I was aged twelve or so:

Finally I managed a first skywave QSO with my PARASAKI-transceiver, an 'all diode' rig: Christophe/F8DZY replied to my very first call on 20m band in REF-contest last weekend. I was running 2mW into a temporary vertical dipole on my balcony. Distance between us is 918km - obviously OM Christophe has excellent ears.

Those interested in the cruel details of my circuit, please find attached a schematic and a photo of the pretty ugly setup. The circuit is designed straight-forward with exception of the parametric VXO, derived from Mike/AA1TJ's famous Paraceiver design. (see http://fhs-consulting.com/aa1tj/paraceiver.html )

The low impedance of the high peak-current tunnel diodes make it very difficult to built a really crystal controlled oscillator rather than an LC-oscillator, synchronized by the crystal more or less, at least on the higher SW-bands. The Parametric VXO provides a crystal-stable, chirp-free signal on expense of an output power of two milliwatts only instead of ten, but with an amazing spectral purity, no need for a low pass filter or such. Of course it sounds pretty cool making a QSO with a 'bunch of diodes' and a parametrically excited crystal, but believe me or not, I'd preferred to bring that full ten milliwatt into the air - on the other hand that approach allowed to tune the rig a bit ( ~ 5kHz/per xtal), which turned out to be much more valuable than a few milliwatts more while being 'rock-bound'.

The receiver in its 'gain-less' version works fine for strong signals - while listening to QRP(p) stations, the moderate gain of the audio amplifier helps a lot. A comfortable frequency shift between receive and transmit is realized by the 5µH inductor at the LO-port of the mixer, with little effect on sensitivity.

Thanks for the bandwidth, OMs, won't bother again you with such mails, unless I make a cross-pond QSO with that rig ( not that likely ) or any skywave QSO with homemade semiconductors ( probably impossible )...

72!

Peter/DL3PB

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More QRPoetry from AA1TJ

This is actually prose, not verse, but it has a poetic element to it. It is not for nothing that we have called Michael "the poet laureate of QRP." Must be all that time up on the mountain. Whatever the motivation, we're always happy to get his messages, and we always find inspiration in them:

On the topic of QRP power levels; for me it all stems from the pair of "100mW" walkie-talkies that my brother and I found under the Christmas tree one year. I thought it was magical that we could walk around the neighborhood and still talk to each other. Then one day my friend and I was messing around and I heard some lady's (CBer) voice all of a sudden. It took a moment to figure out that she was talking to me (my first and last CB QSO). We only talked for a few moments but it left me wondering how far it might be possible to communicate with such low power. The electronics magazines I was just starting to read showed massive boat-anchor transmitters; none of which appealed to me. For me the excitement was trying to see how far I could talk with my MPF102 oscillator on 40m; and later, a similar xmtr made from a surplus 2N697 that I happened upon. It was around that time I first heard about tunnel diodes; exotic devices based upon the (still) mystical notion of quantum tunnelling. Of course, I dreamed about building a tunnel diode rig...a dream that would take 35 years to realize...to which I owe a huge debt to Seab, AA1MY...dunno if he knows to this day how big of a deal it was for me; which is why I was especially happy to see his, "with childlike joy and wonder" comment. Ditto for me. Speaking of which, last I showed my wife, N4KGL/p's QTH on the map located on his site "Nov 23rd Lunch Time QRP". http://www.n4kgl.info/ We thought it was fun to progressively zoom out from the parking lot where he was operating yesterday. Right away the Gulf of Mexico appears. Of course, Vermont eventually comes into view. Scientific American that did a similar series of zooms in a book some years ago. It began with a couple lying on a blanket in a park. Some pages later you're staring back at this "pale blue dot" (to steal Carl Sagan's wonderful phrase). Something else comes to mind from Tom Wolfe's, The Right Stuff. Do you recall the passage where Lovell covers the Earth with his thumb? "At one point I sighted the earth with my thumb—and my thumb from that distance fit over the entire planet. I realized how insignificant we all are if everything I'd ever known is behind my thumb. But at that moment I don't think the three of us understood the lasting significance of what we were looking at." Dunno why, but QRPp feels a bit like Lovell's thumb. It gives me the same sense of vertigo displacement; a tiny signal sent from a tiny man located in a vast, oceanic, Universe. I remember saying so to my pal, Jim, W1PID, only last year in connection to my voice-powered CW transmitter. Hearing the dits and dahs return yesterday...looking at my puny transmitter...Wisconsin, Florida, Guadeloupe Island; bouncing these little ripples off the ionosphere...hearing the friendly replies...who would not be overwhelmed by the thought of it all? These little radios are just the launchers; pinkie fingers dabbed in the cosmic pool of Being. The Argentinian writer, Antonio Porchia, said, "Beyond my body my veins are invisible." Jim Lovell's veins radiated from beneath the thumb he so casually dabbed over the Earth. His veins radiated not just back to far away Earth - to everything that he loved - but in all directions; to places he'd never even dreamed of. I'd better sign now. I'm headed up to the mountain-top TV transmitter in a couple of hours... That's how it is here, Steve; QRO pays the bills, QRPp gives the thrills. :o) BTW, Dave, K1SWL, has already given a big thumbs-up to our RockMite contact! 73/72, Mike, AA1TJ

Homebrew Transistors? Careful with the Chloroform!

I suppose it was inevitable. After years of pushing the envelope with the tunnel diode, it seems like Michael, AA1TJ, is moving toward homebrewing his own transistors. Michael writes:

Hey, I found a Yahoo Group of kindred spirits late last night, 2N1150_Down; where the interest is centered on early Germanium semiconductor devices. I downloaded a book from their files that, until now, I'd only heard about. Practical Transistors and Transistor Circuits, by J.S. Kendall, first appeared in the U.K. in 1954. Believe it or not, the subject of the book is how to make the "practical" transistors referred to in his title! Of course, these are point-contact devices built from a pair of cat's whiskers on a slab of "P-type" Germanium salvaged from diodes. I especially like where he writes, "Great care should be exercised owning to the anesthetic properties of the chloroform vapour...the constructor may not be aware of the danger until he is almost on the point of collapse." Oh brother!

Better yet, I found an article in the group's files taken from the March and April, 1954 issues of The Short Wave Magazine, by G3HMO. This fellow not only made his own transistor, he used it to build a one-transistor, 160m, transmitter and then went on to make contacts with it up to a distance of 30miles! He writes, "There is nothing impractical about making a point-contact transistor at home." Oh baby, crack me open a bottle of chloroform and let's get to it!

The photo above is, of course, the original point contact transistor from 1947. It looks do-able.
In searching for the picture I came across this interesting article from the author of the wonderful book on this subject "Crystal Fire" : "How Europe missed the Transistor"