Eric Guth 4Z1UG had a really nice interview with our friend Charlie Morris ZL2CTM. Charlie shared with Eric a lot of wisdom about how to homebrew radio gear. I especially liked Charlie’s comments on keeping most of his rigs on the wooden prototype boards. He said something important when he talked about the benefits of taking a break from a difficult problem, then coming back to it with a rested and refreshed mind. I noted, however, that he said most of these frustrating problems have to do with software. I got got several chuckles out of Charlie’s comments on the difficulty of building stable analog LC VFOs (here he seemed to be channeling our good friend Pete Juliano). I chuckled because as I listened I was happily building the analog LC VFO for my Q-31 Quarantine receiver. The centerpiece of this project is a variable capacitor that Pete gave me; Pete took it out of an old Galaxy V transceiver. Believe me guys, no rotary encoder could possibly look as nice or have as much soul as that capacitor from Pete, with all its gears, reduction drives, and anti-backlash mechanisms. It even smells of machine oil. Call me a Luddite, but I will stick with the coils and capacitors. Listen to the interview here:
During this StayInTheShack (SITS) emergency, it is good to have something to work on. I decided it would be best to try to build something using only items currently in my parts collection. I’ve been getting into shortwave listening again, and I’ve discovered that the 31 meter band (9.4 – 9.9 MHz) is my favorite. Thus the “Quarantine On-Hand 31 Meter AM Receiver.” A big part of the inspiration for this project comes from the AM receiver of Paul VK3HN.
I propose that we all designate rigs built during quarantine as “Q” rigs. This will be the Q-31.
I had an old chassis on the shelf. It held my WSPR DSB rig in Rome, and various other projects over the years. It has so many holes in it that it looks like it has been used for target practice.
A while back Pete N6QW sent me this really magnificent variable capacitor with at least two reduction dries and an anti-backlash gear. I’ve been looking for a project that will allow me to use AND display this beautiful part. It will be the main tuning cap for the Q-39. It will stay — like the tubes in the rigs of days-gone-by — above the chassis.
While in London many years ago I picked up an old regen receiver at the Kempton Park rally. The parts are still in my junk box. A very nice 1.7 uH plug in coil (with socket) was there. That will be the main coil in the Hartley Oscillator that will be the VFO. I will add a few turns for the feedback coil (see circuit diagram below). I wonder of that Eddystone coil was around for the Blitz?
On the recommendation of our old friend Rogier (originally PA1ZZ), a few years ago Elisa got me a set of grey Altoids-sized metal boxes. I will have three of these atop the target-practice chassis (they will provide shielding and will cover up the holes):
— One will hold the bandpass filter (designed with the Elsie program) and the mixer (probably diode ring, with transformers from Farhan).
— One will hold two IF amps with a 10 kHz 455 kHz IF filter between them (thanks to Bruce KK0S for the filters).
— One will hold the AM detector and the AF amplifiers.
— A fourth box will be under the chassis and will hold all the powered parts of the VFO circuitry. I base my VFOs on this simple circuit from page 34 of Solid State Design for the Radio Amateur:
This quarantine looks like it is going to last a long time, so it is best to take your time on projects like this. I might work on the VFO today. No need to rush…
I am shooting videos as I go along and will at some point start putting them up on my YouTube channel.
So, I suggest that any of you who are feeling bored and confined (that would be almost all of us) fight back by launching a Quarantine “Q-Rig” project. Send reports to me — I will try to put them on the SolderSmoke blog.
Be sure to check out the blog of Dean KK4DAS. He is a new homebrewer who is having great success with one of Pete Juliano’s ingenious SSB designs. Dean has a video of his receiver working — AL FRESCO — as construction on the full transceiver proceeds. This is amazing. Just a short time ago Dean was taking his first steps as a homebrewer with his version of the Michigan Mighty Mite. He has followed the advice of the Tribal Wizards and has proceeded slowly, step by step, stage by stage, gaining the experience that has allowed him to actually build a superhet receiver and be on the verge of completing a full SSB transceiver. Lots of inspiration to be found on Dean’s blog. Check it out: https://kk4das.blogspot.com/2020/03/dean-kk4dass-furlough-40-ssb-rig.html
Amazing that the arguments about the presence or absence of a luminiferous ether made its way into parts advertisements in a radio magazine. This is from Radio for January 1923. (About 18 months before my dad was born.)
BTW that capacitor looks very nice, and would almost certainly still work. I have caps like that in my junk box. The shape of the blades helps address one of Pete Juliano’s complaints about analog oscillators — the inconsistent spacing of frequencies on the dial.
I have been talking bad about the Hallicrafters S-38E receiver for several years now. For a long time I agreed with my friend Pete Juliano in his colorful description of the receiver: “a pig with lipstick.”
But as I’ve gotten to know the receiver better, I have come to like it. It is very simple. There is a certain minimalist thing that explains the attraction; it is a challenge to make the most of this very low-budget 1950’s receiver. It uses tubes, but the voltage is not really in the very lethal range. It covers a wide range of frequencies. Its frequency stability is fairly good. And it sounds great on AM (scroll to the bottom to listen). It seems to be technologically related to the Echophone EC-1 — we have been posting about the WWII advertisements featuring Hogarth and his (unbelievable) efforts to attract women with this receiver.
The S-38E has a big “picture window” frequency dial, marked with exotic foreign locations (Java!). I share with it a similar vintage with the S-38E: IGY. The S-38E was produced from 1957-1961. Duck and cover my friends; the CONELRAD frequencies are marked on the dial. Working on these two receivers has kept me busy during the first few days of the COVID-19 emergency.
I now own two of these things. I might get a third. I thought it would be worthwhile to write up my experiences with the S-38E. I hope this information will be of use to others who might work on this piece of gear.
Winterfest RX on the left, junker on the right
SHOCKINGLY BAD? I had an S-38E as a kid. Around 1980, I gave it to my cousin Mary’s husband Mike so he could listen to shortwave broadcasts. Recently I asked him about that S-38E — he said it had given him a nasty shock. That was because of the “transformer-less” AC/DC power supply — if you plugged the AC line cord in “the wrong way” you would be putting 115 V AC on the chassis. Ouch. AC/DC DESTROYS AN ANTENNA COIL I picked up an S-38E at a Vienna Wireless Winterfest a few years ago. I think I paid ten bucks. I didn’t pay attention to the polarity of the AC plug and managed to plug it in the wrong way. Then I managed to short the antenna terminal to what turned out to be a very AC hot (115V) chassis. This destroyed a significant portion of the antenna coil. Smoke was released. ISOLATION TRANSFORMER Not wanting to repeat the hot chassis disaster, I installed an isolation transformer. On the junker, I used the Triad N-49X, available from Digikey. In retrospect I probably should have gone with the larger, 35 watt N-51X, but Fred KC5RT provided a great suggestion that would make the smaller N-49X adequate: Run the filaments in series DIRECTLY from the AC line, with neither side of the AC line to the chassis. Then run the rest of the circuitry through the isolation transformer. This would take a lot of current out of that little transformer and would likely make replacement with a larger unit unnecessary. I will try this later. Update: 2 April 2020: I tried to run the S-38E with the filaments in series fed with AC directly from the line cord and the rest of the circuit running through the isolation transformer. I got it working this way. Sort of. But AC hum was a lot louder and I found myself back in the AC/DC transformerless situation with the chassis going hot if the set is plugged in “the wrong way.” So I retreated, going back to having the whole receiver running off the isolation transformer. The hum went back to the earlier (normal) level and the chassis would not go hot no matter how I plugged it in. On the Winterfest S-38E it looks like I had used a larger isolation transformer. I put a 500 ma fuse in the primary circuit. On the N-48X the black lines are primary, the red are secondary. One black line goes to the fuse, then on to the front panel on/off switch. The other side of the switch goes to the AC line. The other side of the AC line goes to the other black line. Neither of the AC lines goes to chassis. On the secondary side, one of the red lines goes to Pin 4 of V5 (rectifier); the other goes to the B- line which is Pin 3 of V3 the 12AV6 which is also connected to the volume control. I put the isolation transformer on the top side of the chassis. It ends up close to the speaker, and fairly close to the AF output transformer. This raises hum concerns.
Where I placed the isolation transformer on both my S-38Es
HUM? I did a test to see if my placement of the isolation transformer was adding to the hum. I simply took the S-38E back to its original transformer-less configuration and then listened to the hum. I noticed no difference and concluded that the isolation transformer is NOT adding to the hum. If there is a difference, I’d say that there is less hum with the isolation transformer. (And yes, I did make sure the AC line plug was in the correct way with the old power supply configuration.) See what you think:
The hum is not really a problem. You can only hear it when the volume control is turned all the way down. As soon as you turn the volume control to the right, band noise overwhelms the hum and you can’t hear it any more. I think this was the normal condition of this very economical receiver. The two receivers have different speakers. The Winterfest speaker measures 7.6 ohms (DC) and the junker has a 3 ohm speaker (closer to that called for in the schematic). I think the 3 ohm speaker results in somewhat less hum. REPAIRING/REPLACING THE ANTENNA COIL
After the smoke release, I tried to re-wind the burned out portions of the antenna coil on the Winterfest S-38E, but I got tired of the project, cursed all S-38s, and sent mine to the basement/crawl space. I would have given it away, but I was afraid that the recipient would electrocute himself. So it sat in the basement for a couple of years. Recently I got interested in shortwave listening again, so I pulled out the S-38E. On e-bay, I found and bought an S-38 antenna coil. I put it in my S-38E, hoping that it would bring the receiver back to life. But I had a lot of trouble with the front end alignment. I theorized that the coil I had bought was from the original model of the S-38, and perhaps the S-38E coil had different inductances. So I went back to e-bay. There I found a junker S-38E being sold by Mark W1MEM. It had been owned by KA1WFY. At the suggestion of Scott W1NB on the AntiqueRadio forum, before installing the coil from the junker, I measured the inductances of the S-38E coil and the previously obtained S38 coil. I was surprised to find that the values were almost identical. That meant that my theory about coil inductance differences was incorrect. But I took the S-38E coil from the junker and put it in my S-38E. I took note of the fact that the junker did not in fact look like junk, but there it was, sitting on the floor of the workshop, having had its antenna coil extracted. And I had in hand the old S-38 coil that I knew from testing was very close in value to the S-38E coil.
I was kind of getting tired of S-38s at this point, and I thought about leaving work on the junker S-38 for another day (or another year, or decade), but familiarity with the innards of the rig and alignment procedures is perishable, so I decided to try to get the junker going while it as all still fresh in my mind. I installed the isolation transformer mod on the junker and put the S-38 antenna coil in. That is how I came to own a second S-38E.
RF ALIGNMENT PROBLEMS One of the problems I had was that the alignment instructions for the S-38E are very sparse. For the front end alignment, they just tell you to put signal generator signal into the antenna terminal, put a meter or scope on the audio output then tweak the antenna and oscillator coils for max output. I had no trouble getting the oscillator on the right frequency — for bands 2 and 3 that would be the signal frequency PLUS .455 MHz. For Band 4 it would be signal frequency minus .455 MHz. But I could not get the LC circuit in the front end to peak on the input frequency. Now, if you have the peak for the input LC circuit in the wrong place, your receiver will still work (sort of) but image rejection will be even more horrible than it is designed to be. For example, assume you want to tune a strong signal at 7.0 MHz. Your VFO is at 7.455 MHz. The difference frequency is .455 MHz. This signal goes through the IF transformers and you hear the signal. But now tune down .910 MHz to 6.09 MHz. Your VFO will be at 6.545 MHz. 7.0 – 6.455 = .455 Unless the front end LC filter blocks the strong signal at 7.0 MHz, it will also show up at 6.09 MHz on your dial. If the S-38E is aligned properly, that front end LC circuit will track the tuned frequency. In this case it will be peaked at 6.09 MHz and the strong signal from 7.0 MHz will not get through. Oh happy day! That 7.0 MHz signal shows up only on one place on the dial. All is right with the universe. Of course there is another image problem. If you are tuned to 3.9 MHz, your VFO is at 4.355 MHz. If a shortwave broadcaster fires up on 4.81 MHz, well 4.81 – 4.355 = .455 That is why I can hear “Brother Stair” raging away, seemingly at 3.9 MHz. Even if a simple receiver like this is properly aligned, a powerful shortwave broadcast signal will often get past the puny single LC circuit in the front end.
But what happens if the S-38E is misaligned? What happens if that LC circuit is peaking above the desired frequency? Now when you tune to 6.09 MHz, the front end tuned circuit may be peaked at say 6.5 MHz. There is only one tuned circuit in this receiver front end, so the “skirts” are quite wide. Wide enough to let that 7.0 MHz signal through to the mixer where it mixes with the 6.545 MHz VFO output to produce a very audible output. This is what was happening when my S-38E was misaligned. The 40 meter ham band and the 75 meter hambands were both showing up at two places on the dial. After alignment, this problem disappeared.
I realized later what my problem was: I was putting far too much faith in the accuracy of the frequency readout needle on the front panel of the S-38E. Many of these receivers had had their dials restrung over the years, so in many cases the placement of the needle was significantly off. MY RF ALIGNMENT METHOD
What you really need to do is this: At first, don’t pay much attention to where the red or yellow frequency indicators are pointing. View them as rough measures. Put a signal generator across on the A1 antenna terminal, with ground from the sig gen going to both A2 and GND. Then put a scope probe across the same A1 -A2/GND terminals. On Band 2 set your sig generator to, say, 4.0 MHz. Tune the main tuning dial UNTIL YOU SEE A BIG DIP ON THE SCOPE. At that point your front end is tuned to 4.0 MHz. Now, you need to set the oscillator coil to 4.455 MHz. I used a separate general coverage receiver (Radio Shack DX-390) tuned to this frequency. I slowly tuned the trimmer on the oscillator coil until I could hear the oscillartor on 4.455 MHz on the DX-390. At this point the front end is in alignment. It might not be that easy at first. You may need to use the LC trimmer and the oscillator trimmer to kind of “walk” the two desired frequencies close to each other. But by doing this, I was able to get the LC circuit to peak at the frequency at which the VFO was .455 MHz above the freq at which the LC signal peaked (the desired signal frequency). Now, you may notice that the red frequency indicator is not at 4.0 MHz exactly. Later I decided to tackle this problem of front panel calibration. I decided to only worry about Band 2 (1.6 -5.0 MHz) and Band 3 (4.8-14.5 MHz). I picked two frequencies on these two bands that would use the same position of the red tuning pointer. (I put they yellow bandspread pointer at 0. ) I chose 9 MHz and 3.1 MHz. For Band 3, at 9 MHz I set up my sig gen and scope as described above. With the sig gen on 9 MHz, I tuned the main tuning dial for a dip at 9 MHz. Then, keeping the tuning cap at the same spot, I moved the red pointer to exactly 9 MHz. (I just pinched the cord to the front panel with my finger and slid the red pointer down along the cord a bit. I then turned on my general coverage receiver, set it to 9.455 MHz and turned oscillator trimmer H (see above) until I heard the VFO at that frequency. I then moved the S-38E to Band 2. I set the sig gen to 3.1 MHz. Leaving the main tuning cap and the red pointer exactly where they were, I tuned the antenna coil trimmer L until I saw the dip on my scope. I then turned the general coverage receiver on to 3.555 MHz and tuned oscillator trimmer K until I heard the oscillator signal at that frequency. The S-38E was then aligned for RF on Bands 2 and 3 with fairly good front dial calibration.
Here is how to tell if you’ve got it lined up right. Tune to the 75 meter band on Band 2 or to the 40 meter band on band 3. Then tune 910 kHz BELOW where you found the ham band. Do you hear the ham chatter in that second location on the dial? If you do, the signal strength should be significantly lower than the signal strength 910 KHz up. If you don’t hear it at all, great. If you hear it at significantly reduced strength, that’s OK too. the S-38E has only ONE tuned circuit between the mixer and the antenna, so you can’t expect really great image attenuation. But if you hear the image at the same strength (or stronger!) than the desired signal, you have placed the peak of the antenna input tuned circuit in the wrong place. See above. Try it again. IF ALIGNMENT IF alignment was relatively easy: I put a 455 kHz signal onto the grid of V1 and my scope on pins 5 & 6 of V3. I then peaked the four IF transformer coils. The IF cans in he Winterfest receiver were close to .455 kHz. The coils in the junker were quite a bit out of tune. RECAP On the first S-38E I assumed that I would have to change out all the electolytics and the older tubular capacitors. So I did. But with the second (“junker”) S-38E my replacement capacitors from Hayseed Hamfest had not yet arrived. So I pulled out my Variac and made a somewhat hasty effort to re-form the original caps. It seemed to work. No smoke was released. Nothing exploded. There is no horrible hum. But I could tell that all was not quite right. The BFO really wasn’t oscillating properly. When the capacitor kit from Hayseed Hamfest arrived, I replaced all the caps. The receiver works great — including the BFO.
Recapping in process. Hayseed electrolytic in green can.. Old tubular caps being replaced by new yellow caps.
Recapping completed
ALIGNMENT OF THE JUNKER Armed with my newfound knowledge of how to align an S-38E, I applied this skill to the junker and was able to get it aligned without difficulty. RE-STRINGING OF DIAL CORDS On both of these S-38-Es there were dial string problems. Interestingly, both problems were with the BANDSPREAD dial cord, NOT with the MAIN TUNING dial strings. I see this as evidence that these receivers were used by ham radio operators. You don’t really need the bandspread to tune AM shortwave station, or AM broadcast band stations. But novice ham radio ops would be frantically tuning that bandspread control up and down, wearing those dial springs out. The Bandspread dial string on my Winterfest S-38E broke while I was turning it — I replaced it but it is not really smooth, so I may try again. The Bandspread dial on the junker broke also.
Broken Bandspread string from Winterfest S-38E
Approximating the size for the replacement string
My re-stringing skills were better the second time around. Tips: use a small file to “roughen up” the spindle on the tuning knob (just the center of the spindle, so it will grab the cord better). Before installing, rub the new dial cord with an isopropyl alcohol pad, then run the string (still a a bit wet) several times over a piece of violin rosin. This seemed to prep the dial cord well. Sometimes you need a bit more tension on the string to get the tuning spindle to grip properly. Unlike the Drake 2-B, the S-38E does not have several hooks on which to attach the spring. Not wanting to have to start all over just to add a bit more tension on the string, I came up with an easier solution: Just put a few twists in the string near the spring by twisting the spring (with strings attached) around a few times. Like this:
You also need something that allows the indicator needle to grip the dial cord. I cut open a short piec of heat-shrink tubing, put it over the cord at the desired spot, hit it with hot air, then put a small dab of super glue at each end of the tubing. ( See above.) This allowed the dial pointed to grip the cord very firmly. Because you may need to move the red pointer during dial calibration (see above) I’d recommend NOT putting the drops of glue on the cord for the red pointer — you may need to slide the red one up or down a bit.
TUBES
On the Winterfest S-38E, the BFO had a very rough tone, making it impossible to copy SSB or even CW. I thought it might be a bad set of filter caps, but after I replaced them, the problem was still there. So I then replaced the tubes (warning — that 50CS audio amplifier is expensive). This fixed the problem
The junker had original Hallicrafters tubes. LISTEN! Here are some YouTube videos of the S-38Es in action:
SolderSmoke Podcast #215 is available. 25 November 2019 http://soldersmoke.com/soldersmoke215.mp3 Happy Thanksgiving! Transit of Mercury Book Reviews Bill’s Minimalist Adventures: — 15 Contacts with the ET-2 — Ethical issues: Is spotting yourself OK? OK to use TWO FETs? — Using Reverse Beacon Network — How to keep receiver on the right frequency — N0WVA’s receiver sounded better, so I built a second N0WVA receiver — Regens reach back to Edwin Howard Armstrong’s 1912-1923 breakthrough — Regens are fun, but they are not good projects for new builders. — Pull out those Michigan Mighty Mites and listen for yourself via on-line SDR receivers. Pete’s Projects: “WHEN YOU KNOW STUFF YOU CAN DO STUFF!” — Left Coast SSB — “The Paesano” — To be featured in December 2019 SPRAT. — Pete’s KWM-4 on The Collins Collectors Net — Pete builds an N0WVA regen — just in time for Sweepstakes CW Saturday! — Arduino IDE Library trouble — uBITX 6.0? Fake News? No more BITX40 Modules. Long Live BITX40 HOMEBREW! BITX-101. Intriguing but on second thought, no. MAILBAG Steve Silverman: Lexicon: “Audible Modes.” Felipe CU2BD Old buddy from the Azores Michael Rainey AA1TJ: Come back Mike! The ionosphere needs you! Jack Welch AI4SV is in 5G land (Cyprus, not the cell phone thing). Walter AC4IM is at the San Vito Solar Observatory in Italy. DO SOMETHING WALTER! Kostas SV3ORA has an amazing homebrew web site. Thanks Kostas! Mike KC6SAX — How to deal with the frustration of HB projects that don’t work. Paul KL7FLR — Pete is 7 Hz high. Keith W3ISZ sent his photo of the Transit of Mercury. PLEASE USE THE AMAZON SEARCH BOX ON THE SOLDERSMOKE BLOG PAGE WHEN DOING YOUR CHRISTMAS SHOPPING. PLEASE SUBSCRIBE TO THE SOLDERSMOKE CHANNEL ON YOUTUBE.
SolderSmoke Podcast #215 is available. 25 November 2019 http://soldersmoke.com/soldersmoke215.mp3 Happy Thanksgiving! Transit of Mercury Book Reviews Bill’s Minimalist Adventures: — 15 Contacts with the ET-2 — Ethical issues: Is spotting yourself OK? OK to use TWO FETs? — Using Reverse Beacon Network — How to keep receiver on the right frequency — N0WVA’s receiver sounded better, so I built a second N0WVA receiver — Regens reach back to Edwin Howard Armstrong’s 1912-1923 breakthrough — Regens are fun, but they are not good projects for new builders. — Pull out those Michigan Mighty Mites and listen for yourself via on-line SDR receivers. Pete’s Projects: “WHEN YOU KNOW STUFF YOU CAN DO STUFF!” — Left Coast SSB — “The Paesano” — To be featured in December 2019 SPRAT. — Pete’s KWM-4 on The Collins Collectors Net — Pete builds an N0WVA regen — just in time for Sweepstakes CW Saturday! — Arduino IDE Library trouble — uBITX 6.0? Fake News? No more BITX40 Modules. Long Live BITX40 HOMEBREW! BITX-101. Intriguing but on second thought, no. MAILBAG Steve Silverman: Lexicon: “Audible Modes.” Felipe CU2BD Old buddy from the Azores Michael Rainey AA1TJ: Come back Mike! The ionosphere needs you! Jack Welch AI4SV is in 5G land (Cyprus, not the cell phone thing). Walter AC4IM is at the San Vito Solar Observatory in Italy. DO SOMETHING WALTER! Kostas SV3ORA has an amazing homebrew web site. Thanks Kostas! Mike KC6SAX — How to deal with the frustration of HB projects that don’t work. Paul KL7FLR — Pete is 7 Hz high. Keith W3ISZ sent his photo of the Transit of Mercury. PLEASE USE THE AMAZON SEARCH BOX ON THE SOLDERSMOKE BLOG PAGE WHEN DOING YOUR CHRISTMAS SHOPPING. PLEASE SUBSCRIBE TO THE SOLDERSMOKE CHANNEL ON YOUTUBE.
Pete recently spoke to the Peel (Canada) Radio Club about SDR and homebrew. The first 13 minutes show the club members but then it shifts to Pete. Great stuff.
In our last podcast I was saying how Pete’s many, many analog homebrew transceivers have earned him the right to shift into the digital world. Incredibly, someone chose to question Pete’s credentials in this area. Troll! Pete’s blog has pictures of many of the rigs. It is quite inspirational. Check it out:
On opposite coasts and with rigs at opposite ends of the technology spectrum, Pete and I have been putting new homebrew rigs on the air. I’m working on a QRPp transceiver using 10 transistors. Pete is working on an SDR rig that must use, what?, thousands or millions of transistors.
We’ve both been getting nice feedback, often from SolderSmoke podcast listeners. Above you can see my 8 July notes on a contact with K3QP. I was running about 1/2 watt, crystal control, from the Fish Soup 7 combo rig.
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In an earlier post I mentioned Pete’s success in working coast-to-coast on 40 SSB with his homebrew SDR RADIG. Turns out that someone in St. Louis heard the contact:
From: Steve Sent: Saturday, July 13, 2019 6:16 PM To: Pete Subject: Friday QSO
Hi Pete
Heard your QSO to Virginia last evening. Conditions were rough but could hear good enough. I’m located west of St Louis and was outside portable with KX2 and wires tossed in a couple trees. Tried to tail end but of course my signal was not good for you in California.
I really am amazed at the work you put into your projects, websites, and podcast. Can’t thank you enough. Please keep it up.
I worked at McAir in St Louis and spent many hours in the MDEC building St Charles. That was in the late 80s.
Steve
K0SAM
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Finally, earlier in July I had a contact with K1PUG. Someone north of the border heard us:
On Sunday, July 7, 2019, 01:17:47 PM EDT, Dave wrote:
I heard your QSO with Hank K1PUG at my cottage in Canada (FN15ac) this morning. I wondered why you were so faint (since I had been getting good reports with 5W into your area) but when I read this morning’s entry in SolderSmoke, and saw you were 750mW, all became clear.
From: Frank Sent: Saturday, July 13, 2019 6:55 AM To: Pete Juliano Subject: Re: 40M QSO with N6QW
GM Pete
Yes fun QSO last night. You did have a great signal and excellent audio from your HB SDR .
Lots of great info on your website.
I am enjoying my wire beams. I have two five element wire beams mounted end to end beaming Europe that I get on that direction a lot. I’m planning to get an Array Solutions StackMatch soon that will help my signal even more.
Keep up the good work with the SDR rigs Pete.
I look forward to our next QSO.
73
Frank WA3RSL
On Jul 13, 2019 9:42 AM, “Pete Juliano” wrote:
Hi Frank,
Last night was the first coast to coast QSO with my homebrew SDR Transceiver. Thanks for the signal report and the comments on the signal.
This has been a fun project and my main band of operation these days is 40M. I have the capability to put the SDR on 75 as well as 20M. The second prototype (now in work) will use plug in coils for those two bands. It is simply amazing what can be done with a $35 computer.
I have several websites but one has been dedicated to SDR and there is more documentation about the SDR project.
So far I have made about two dozen contacts with the new RADIG. Just finished one with a ham I know in New Mexico and he is an RF Engineer –he was a designer at Alpha. I asked that he do a critical review of how I sounded and looked on his SDR – a good report and his comment was that if I hadn’t told him he would have guessed it was a $4 or $5K box.
So another goal achieved –on my 60th year anniversary and this makes #37.
I didn’t realize that our correspondent in Dayton/Xenia had interviewed Farhan. There was a typo in the audio file name and I was wondering who this UV2ESE guy was. A Ukrainian QRPer? I was really pleased to find out that it was Farhan. In Bob’s interview you will hear Farhan discuss the capabilities of his new Antuino (pictured above). Pete’s Antuino is in the mail, going transcontinental. It should arrive in the Newbury Park Laboratory later this week. As for the spectrum analyzer that Farhan got me last year, I am waiting for retirement (soon!) to get that one going. But there is a danger that the Antuino will leave little room for the older tech… In the interview you will hear Farhan talk about the Antuino circuitry, and about the roots of the three main devices in the Antuino box. Very cool. Thanks again Farhan. And thanks Bob. Here is the interview: http://soldersmoke.com/VU2ESE FDIM 2019.m4a Farhan’s Antuino page: http://www.hfsignals.com/index.php/antuino/
On Sun, May 26, 2019 at 1:45 PM William R Meara wrote:
Dale:
I was talking to Jim W9UD on 20 SSB today. When I told him I was running a homebrew transceiver he mentioned that he talked to another guy who is on the air with homebrew SSB gear — you!
There are so few of us Dale. I felt compelled to send you an e-mail.
What are you running?
After several years on DSB, I started building separate SSB receivers and transmitters, mostly for 17. Lately I am running versions of the Indian BITX transceiver.
Please send info on your homebrew SSB projects.
Thanks,
Bill N2CQR
Hi Bill, I have two radios that are completed to date. I started out building the BITX 40 transceiver from scratch and also a companion 60 watt solid state linear rf amplifier. Then I decided to construct the second transceiver for 20 meter using some of the BITX design concepts and mixed with the UBITX design for additional rf amplification. It too is amplified to about 25 watts output. The 20 meter rig is my favorite radio at this time but I am going to go a different direction on my next build. It’s presently just in the design stage but I’m thinking about using the MC1350 integrated circuits for the IF amplification and for the front end I may try using a FET rf amplifier. The beauty of the bitx design is the use of wide band amplifiers that don’t have a tendency to oscillate. But, the new design I’m working on will have more shielding between critical circuits and I will use a small amount of negative feedback in the high gain circuits. The reason for changing the radio to a higher impedance design is to simplify the design build. I will basically build a receiver that I can reverse the signal direction over to transmit using the same amplifiers and filters. This will cut in half the amount of circuit building however it will increase the switching circuit complication associated with this new design.
Today I’m beginning the build of a 100 watt rf linear amplifier design using the kit parts from China (minipa 70) amps. This provides the transformer components and circuit boards. I purchased two kits of parts and I have a large heatsink to build it on. I’m working on a current sensing circuit for protecting the final FETS. It will run 4 IRF530’s tied together with a splitter and combiner for the input and output matching transformers. It should produce at least 100 watts at 75/80 meters and maybe a little less on 40 meters but 20 meters it will drop off to about 60 or so watts.
I’m just having as much fun as a guy can have playing around with the homebrew radio’s and like you say there’s not many doing it these days. I love operating a radio that I built vs. running a factory made radio. I have two commercial rigs on my bench and a couple of Collins radios but the homebrew takes the lead.
Jim W9UD has become one of my ham friends this year. We end up talking every week or so on the air and keeping touch with local weather conditions.
Side Note:
I wanted to build a SSB radio since I was a young lad with a technician license in the early 60’s. SSB came into the picture many years after I was first licensed. Then move forward to 2015 my ham license had long ago expired during my time in the Vietnam war. I spent several weeks studying the tech, general and finally the extra class exam information and passed on through that adventure. So I decided it’s time to build my own radio from scratch. So I started to look online and in books and I still didn’t have the confidence to begin building. Then I ran across Farhams BITX 40 and I thought why not buy this radio and just use it as a model of how sideband circuits work. So I did just that and I got it working fine I took the radio and placed it on the test bench and began circuit analysis and signal level evaluation until it all made perfect sense. This is accomplished while transmitting so the levels can be seen on the oscilloscope. Just kill the voltage on the final stage of the bitx. I put a 1khz signal on the mic input. That was just about the only thing I used the bitx 40 rig for and I still keep it handy when I need information.
Good hearing from you I hope I haven’t over done this reply but I really enjoy talking about this subject.
73’s Bill…. keep up the building and good luck on your next radio.
Dale KG7SSB
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And of course, Pete N6QW knows Dale and has been talking about SSB with him for some time…
Pete is such a great guy, and such a great ham. Earlier this week I came home to find a box in the living room. In it was the SBE-34 that you see in the video. Pete had been talking about this rig about 18 months ago. So many cool features: The main tuning dial is dual-speed. There is the “Geneva” band switching method. Hybrid, with sweep tubes in the final. All analog. A power supply that will take 110V AC or 12V DC (internal inverter). Collins mechanical filter at 455 kc. Bilateral amplifier stages. PNP Germanium transistors. Pete suggested that I might want to use this rig for parts. No way! There is real radio history and amazing innovation in this rig. Plus, it has been worked on by Pete Juliano, N6QW. Here is the write up from Pete’s YouTube page. Note the part about how they get the BFO signal. Here is an example of what an IC7300 might look like some 50 years ago. It is a hybrid rig using Germanium (mostly PNP) transistors in the low level stages. So OK a couple of NPN (2N706) in several key locations such as the VFO. The driver uses a tube similar to a 12BY7 and the finals are a pair of sweep tubes, the 6GB5’s. The rig operated on four bands (mostly the then phone portions) 80, 40, 20 and 15 Meters. The power out on 80-20 was 60 Watts PEP and dropped down to 50 Watts on 15 Meters. That was a real stretch. The AGC sucked as you will see in the movie and the receiver gain was a compromise –too much on the low bands and weak on the higher. This was a bilateral design — which predates the Bitx series by some 40 years–but not the 1st.The first bilateral design was the Cosmophone – Google that one. The major selling point –a Collins mechanical filter. Also an innovation was how LSB / USB was achieved using a single crystal. It was pure magic and innovation. The basic BFO frequency of 456.38 was doubled and then doubled and tripled again. The first 2X gave you 912.76 KHz and the 2nd 2X gave you1825.52 KHz and a tripling gave you 2738.28 KHz. Mixing that back with 456.38KHz gave you 2281.9 KHz USB or LSB. The VFO operated in the 5.5 MHz range and there were heterodyne crystals to put you on the proper bands. Now that was some clever math! You can download the maintenance manual at BAMA manuals. There were some smart guys leading our ham radio efforts back in the day.
Is this a thing of beauty, or what? Pete sent this to me back when I was having trouble finding a “smooth running” variable cap for my HRO dial receiver. It has a standard Jackson Brother’s reduction drive attached to the shaft, followed by a really cool gear arrangement. Note the spring loaded teeth on the big gear — that is to keep the gears tight when turning in both directions.
As was the case with the HRO dial that Armand sent me, the beauty of this part will cause me to build something with it, really just for the purpose of putting it to use. We’ve been talking about double or triple conversion superhets with 100 or 50 kHz final IFs. At those frequencies you can get good selectivity with LC filters. As with the Drake 2-B. Steve N8NM is sending me a dial that will go well with this part. That will add to the already abundant mojo/juju. I feel a VFO in the works. Thanks to Pete for being so supportive of my luddite analogism.
There is so much tribal knowledge, so many good ideas. Be sure to visit Pete’s blog regularly. http://n6qw.blogspot.com/ He needs the meter from an SBE-33. Somebody out there must have one. Check out his stepper motor antenna tuner video. And be sure to leave some comments or to send Pete an e-mail with feedback. I live in fear that he will think no one is reading and then stop posting. We can’t let that happen!
Sincere apologies for my chronic lack of correspondence but life has proven exceedingly eventful of late. As a long-standing member of our international brotherhood I am aware of a reoccurring, often subliminal, theme: “Always listen to Pete!”. What follows is a cautionary tale of one humble ham following the sage advice offered to him during Soldersmoke 186’s Mailbag…
You might recall the report of my Christmas 2015 escapades from rural Italy, making homebrew CW contact with friends operating GB2RN aboard HMS Belfast, whilst trying to fend-off curious locals from tampering with the wire I’d strung through their trees. Throughout these shenanigans my remarkably-understanding girlfriend was nearby minding her own business (albeit with a certain degree of eye-rolling).
The following year we returned to the same summit above Frascati. Before setting off I advised her that, being a generous chap, there were now two miniature radios in my coat pocket: one for each of us to enjoy. She was politely thrilled by the prospect… but still faithfully assisted with antenna rigging.
Once operational I insisted that we should try her radio first and, following Pete’s advice from SS186, I slipped the tiny red box out of my jacket pocket and knelt down on one knee… (Fear not, Pete, other sage opinions were consulted in the matter first too!).
Remarkably, she said yes! And, exceedingly generously, I was allowed me to make a few contacts too… after all, we had gone to the trouble of lugging it from London and setting up the antenna. Owing to poor telephone reception the first person to learn of our wonderful news was an unsuspecting DL on 40m CW.
We are now happily married so I’m pleased to report that, unsurprisingly, the SolderSmoke tribal knowledge offered to me back in 2016 appears to have been spot on. To return the favour here is my own life lesson to take from the story:
Should one ever need to conceal a surprise gift from a loved one, a radio shack is a cavernous world which even the most curious spouse is unlikely to dare explore.
Furthermore, if one “has previous” (as British policemen say) for smuggling tiny boxes of radio wizardry away on holiday, what better cover could there be for the unsuspected transportation of an engagement ring?
The power of QRP knows no bounds…
All the very best for 2019 and thanks again for the life-changing advice.
Jonathan
M0JGH Editor’s note: In case you don’t remember SS186, Pete’s advice — upon hearing of the ham radio tolerance of Jonathan’s then-girlfriend — strongly advised him to “marry that woman!”
Having overcome the difficulties with the National NPW Dial and Gearbox, I turned my attention to the 455 kHz filter. I had been using this old Toyo CM – 455 kc filter (Date stamped August 1969). CM stands for “Crystal-Mechanical.” These filters are hybrid with some of the features of a crystal filter and some of the features of a mechanical filter. For more details go here: https://soldersmoke.blogspot.com/2016/04/the-meaning-of-cm-in-toyo-cm-455-filter.html I was disappointed by the CM filter. It seemed very lossey, and it just didn’t seem to be of sufficiently high Q — it seemed very broad. I could hear the other side of zero beat. It was barely a “single signal” receiver, and being “single signal” is the whole point of a superhet. I remembered that Pete Juliano had sent me a Japanese-made 455 kc mechanical filter. Maybe this would do better. Last night I did a quick comparison test and — wow — Pete’s filter was much better. The Fifth Edition of the RSGB Handbook seems to agree with my assessment, noting that mechanical resonator filters were superior to the Crystal Mechanical hybrids (see pages 4.17 and 4.18) Pete’s filter is from the Kokusai Electric Company. Part# MF 455 ZL. (Date stamped May 1967). “ZL”indicates lower sideband. I checked and indeed the passband goes from just above 452 kc up to about 454.5 kc. This is a 40 meter receiver and SSB on 40 is LSB, so this filter would work perfectly right? Not so fast! Sideband inversion had to be considered. I was running my VFO from about 7455 to 7755 kHz. This means that the modulated incoming signal would be SUBTRACTED FROM the VFO signal to get to the 455 kHZ IF. And when that knd of subtraction happens, we have sideband inversion. The LSB signal will look like a USB signal when it reaches the filter. My BFO was running right at 455 kHz, using a ceramic resonator at that frequency. I briefly considered just shifting it down to 452 kHz, but this proved to be difficult. Then I got a better idea. I could just shift the VFO down to 6545 to 6845 kHz. This would mean that the VFO frequency would be subtracted from the incoming modulated frequency. There would be no sideband inversion. I had been thinking about doing this frequency shift anyway, thinking that VFO stability gets better as you go lower in frequency. REMEMBER THE RULE: If you are subtracting the modulated (signal) frequency from the frequency of the local oscillator or VFO, only then will you have sideband inversion. See: https://soldersmoke.blogspot.com/2015/05/sideband-inversion.html Moving the VFO was easy. I am using a variable capacitor with several variable caps on the same rotor. I just moved from the smallest variable cap to the middle variable cap — this added capacitance to the system and lowered the frequency. I also added three additional turns on the coil. This put me very close to where I needed the frequency to be. I added one additional 9 pf cap and this put the VFO freq right where I wanted it. I was really glad to include Pete’s filter in this receiver. The mechanical resonator technology fits very well with the very mechanical old-tech theme of this project (it already had a gearbox — a mechanical filter seemed to fit right in). It is a fascinating device — it is almost like having a set of tuning forks all tuned to 455 kc (see above for the RSGB description of how it works). And having it from from Pete adds a TREMENDOUS amount of mojo, juju, and soul to the new machine. Icing on the cake: As I type this, I am listening to Fred K3ZO converse in Spanish with hams all through South America. Fred preceded me by three decades at the U.S. Embassy in Santo Domingo, but when I got there the local hams were still talking about him — he was much loved and admired by the Dominican hams. TRGHS. See Fred’s story here (scroll down a bit): http://www.gadgeteer.us/DRDISP.HTM
