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Showing posts with label Drake 2B. Show all posts
Showing posts with label Drake 2B. Show all posts

Monday, January 1, 2024

Happy New Year! Straight Key Night at N2CQR (video)


As you know, here at SolderSmoke East HQ we are all about TRADITION.  So last night (New Year's eve) I fired up my venerable HT-37 / Drake 2-B combo and made a few Straight Key Night (SKN) contacts on 40 meter CW.  I was indeed using my straight key.  Video above. 

Also, be sure to check out CuriousMarc's very cool New Year's clock video: https://www.youtube.com/watch?v=YZmEz-Y1FFM

Happy New Year to all.  May you make good progress on your homebrew projects, and may the radio gods act favorably on your behalf.  

73 es HNY de N2CQR 

Friday, November 18, 2022

The 2Q -- A Homebrew Solid-State Drake 2-B from 1967

This is really an amazing project.  Way back in 1967 (that's 55 years ago) John Aggers W5ETT of Ponca City, Oklahoma decided to homebrew a solid state version of our beloved Drake 2-B receiver.  Triple conversion.  No crystal filters.  Twenty two discrete transistors and no ICs. Tuned circuits at 50 kHz to provide most of the selectivity.  And he did it.  Just look at the picture above.  It even LOOKS like a Drake 2-B.  

I sent this to our friend Dale Parfitt, W4OP who more recently built a receiver like this.  He too was amazed by this project.  

The article by John Aggers is very clear and provides a lot of good information on how he designed and built this receiver using the technology of 1967 and junk box parts.  I was struck by the lack of diode ring mixers. And I was somewhat taken aback by his use of plug-in socketed transistors.  The AF amplifier is our still-familiar transformer-less push-pull complementary pair design. John did a wonderful job on the mechanical tuning and slide rule mechanism. 

Three cheers for John Aggers W5ETT.  This article is a reminder of the great benefit to the hobby of writing up a project and putting out there in the world.  Here we are, more than half a century later, reading John's article and learning from it.  FB OM.   

https://worldradiohistory.com/Archive-DX/73-magazine/73-magazine-1967/73-magazine-10-october-1967.pdf

Page 8

Monday, September 5, 2022

Why Do Some VFOs Tune More Linearly Than Others?

This has been one of the major complaints about our beloved analog LC VFOs:   The frequency tuning on these circuits is often not linear.  For given amount of VFO frequency dial turn you can get vastly different changes in frequency.  At one end of the tuning range the frequencies are nicely spaced and tuning is easy.  But at the other end of the tuning range all of the frequencies are bunched together.  This is one of the problems that leads some homebrewers to defect to the sad land of "digital VFOs." 

But wait.  It appears that the old designers found a solution to this problem.  Just look at the tuning dial of my HT-37.  The frequencies are all spaced out evenly.  How did they do that? 

I had been thinking that this success may have resulted from Hallicrafters' engineers using the series-tuned Clapp circuit.  Here the main frequency determining element is a series-tuned LC circuit and not the parallel tuned LC circuit that we see in the more commonly used Colpitts circuit.  

But hold on -- how could that be?  The frequency bunching problem that we attributed to the Colpitts circuit must also exist in the Clapp, right?  I went back to SSDRA where there was a good discussion of Colpitts and Clapp VFOs.  The advantage of the Clapp was said to be in its use of a larger value coil which helped minimize the effects of stray inductances.  But there was no mention of the Clapp offering improved linearity in tuning.  

I have in front of me two transceivers:  The Mythbuster uses a 9 MHz Clapp circuit (see below).  The 17-12 rig uses a Colpitts Circuit.  I checked the tuning linearity of both.  Both appeared quite linear in tuning, with no real difference between the two.  

Then I looked at the tuning capacitor in the Mythbuster 17-12 rig.  It came out of an old Hallicrafters transmitter, probably the HT-44.  I looked closely at the stator and the rotor plates.  Both are curved.  I'm guessing that this may yield a more constant change in capacitance for a given movement of the main tuning dial.  

Next I opened up the VFO on the Mythbuster.  (It is the VFO from an old Yaesu FT-101.)  I couldn't see the stators very well but it appears that their shape is different from the square shape we often see in variable capacitors.  Could it be that this variable capacitor was also made to provide linear tuning?  

Back in 2013 Norm Johnson wrote about all this in the Antique Radios.com forum: 

A capacitor that has uniform increase in capacitance with rotation will have the stations at the high end of the band squeezed together. Another type known as the straight-line frequency variable capacitor has, as you might guess, a characteristic that gives even spacing of frequencies with shaft rotation. These were popular in the 1920's but weren't very good for superhets where you needed to have a dual section capacitor that would tune both the RF and local oscillator, and have them track each other properly. The midline variable capacitor is more compatible with a superhet, and easier to make both sections track properly. This is the type that you see in most receivers from the late 1930's to the end of the tube era. They don't have quite the equal spacing between stations across the band that the old straight-line frequency caps had, but they're much better than the variables that change capacitance linearly with rotation.

I wrote an online calculator that helps in the design of the tuning. It shows what frequency range you'll get with a specific type of variable capacitor, including the effects of padder and trimmer capacitors. It also displays a dial scale that shows how the frequencies are lined up accross the dial.
http://electronbunker.ca/eb/BandspreadCalc.html

Steve W6SSP also provided some really good info back in 2013: 

There are three types of open, variable plate caps;
SLC= straight line capacitance where the capacitance varies linearly,
these are the most common and have half-circle plates
SLF= straight line frequency where the plates are tapered to allow
for linear tuning of the frequency
SLW= straight line wavelength, you get the idea...

SLF and SLW caps have oblong plates.

The effect on tuning a receiver can be dramatic. One example is the
Hammarlund SP series of receivers where the ham bands are very
compressed at one end of the tuning range. They used SLC caps
in the VFO. On the other hand rigs like the Kenwood TS-520
and FT-101 series have linear tuning across each band. These use
SLF variable caps. Most old 1920's battery radios used SLW
where stations were identified by their wavelength.
Steve W6SSP

These two variable caps came out of my junkbox.  Both are Eddystones, made in England.  My guess is that the one on the left is SLF.  But could the one on the right (out of an old regen) be SLW?   

The Drake 2-B also has perfectly linear tuning.  I looked at the manual:  "The tuning condenser is of special design..."   I'm guessing that they used an SLF variable capacitor. The 2-B had no need for ganged capacitors -- the "preselector" was tuned via a separate front panel control. 

I looked at the tuning dials on my Hammarlund HQ-100 receiver.   It is fairly linear in its tuning, but not as linear as the HT-37 or the Drake 2-B; on all of the tuning ranges the frequencies seem to spread out a bit at the lower end.  My guess is that Hammarlund used the midline variable described above by Norm Johnson.  The HQ-100 did use a ganged variable cap, with one section tuning the RF amplifier and the other tuning the local oscillator. 

Mythbuster on the bottom.  17-12 rig on the top


Sunday, July 24, 2022

A Surprisingly Good Movie from the Late 1960s: "The Ham's Wide World" (Video)


I found this movie to be surprisingly good.  Narrated by Arthur Godfrey, it features Barry Goldwater, and a lot of other hams.  There is a homebrewer too!  Lots of  old rigs we know and love:  a Drake 2-B, a couple of Galaxy Vs, a Benton Harbor lunchbox, Heathkit SB-series rigs, many Swans, and was that an HQ-170 that I saw in there?  There are also many cool antennas, including a 15 meter quad set up by a bunch of Southern California teenagers. 

Near the end, when they visit ARRL Headquarters, we briefly see none-other-than Doug DeMaw, W1FB!  FB!  

Please take a look at this video and post comments about the rigs, antennas, and radio amateurs that you see in the film. 

Thursday, February 3, 2022

Exorcism Lite -- Spur Suppressed on 17 meter Transmitter -- Split TX/RX Station On The Air


I spent most of January in the tropics, away from my workbench.  This seems to have had a good effect on my 17 meter split TX/RX project.  As I was leaving, heading south,  I was thinking about several difficult options to deal with my spur problem (see previous blog posts). I thought about turning the transmitter into a transceiver by building a receiver board.   I thought about putting San Jian frequency counters on both the transmitter and the receiver, then doing a visual numerical "netting" by just putting the two devices on the same frequency (I actually ordered 3 San Jian counters).   The counter option was even more complicated than it at first seemed -- I would have to build a converter to shift the RX VFO frequency up.  VK2EMU suggested a tube type "Magic Eye" (interesting idea, but also complicated).   This was getting out of hand. 

When I got back home, I took a new look at the problem.   I decided to take one more shot at suppressing the 8th harmonic of the carrier oscillator.  I had already built a new oscillator and buffer using the circuit from Farhan's BITX20.  And I had put it in a metal box.  Now I decided to do three things: 

1) Tighten up the low pass filter at the output of the buffer by moving the cutoff frequency lower (to around 7 MHz) thereby getting a bit more suppression at 41 MHz

2) Try putting a series LC shunt circuit tuned to 41 MHz  at the output of the carrier oscillator (between the oscillator and the buffer). 

3)  Reduce the voltage to the oscillator/buffer.  I have this on a pot, so I can adjust it down to the point where the remnant of the harmonic is no longer audible, while keeping the main carrier osc signal sufficiently strong. 

It seemed to work.  I could now hear the desired frequency for spotting, without the confusing tone from the spur.  

Why had I been able to do this back in 2002 in the Azores using a simple trimmer cap to ground?  My guess is that I was using my Drake 2-B as the receiver.  The trimmer cap to ground may have reduced harmonic output.  And I was probably cranking back the RF gain on the 2-B to the point where I could hear the desired signal but not the remnants of the spur.  I have no RF gain control on the Barebones Barbados receiver that I am using in this project. 

So, what's the lesson from all this?  Well, if you are faced with a serious technical problem, and you find yourself considering complicated and difficult solutions,  go to the Dominican Republic for about a month (especially if it is January or February), and then take another look at the problem when you return.  If you are unable to travel this far or for this long,  taking a walk or taking a weekend break from a troublesome problem will likely have a similar mind-clearing effect. 

The video above shows part of a February 1, 2022 QSO with Gar WA5FWC using the split TX/RX 17 meter rig.  Gar is an amazing long-time SSB homebrewer who got his start with phasing rigs back in the day. 

Saturday, January 1, 2022

Straight Key Night 2021/2022 (Videos) -- Happy New Year!



I made a few contacts on 40 meter CW using my old Hallicrafters HT-37 and Drake 2-B. 

Happy New Year to all!  73   Bill 

Sunday, November 21, 2021

KG7TR's Magnificent 75S-2B Receiver -- Tubes, an Si5351, an Arduino, a Bit of Collins, and a Bit of a Drake 2-B

 

Oh man, I share this with much trepidation because the last time I posted something about the work of Mike KG7TR,  Pete N6QW said he felt like putting all of his own work in the dumpster, so much better was the artistry of KG7TR.  This receiver is so cool and so well-done that we now  might have to post a guard outside the N6QW shack -- heck Mike even has an Arduino Uno and an Si5351 in there!  Don't do it Pete!

I was led to this magnificent receiver by the very humble 6U8 tube.  Scott  WA9WFA and I have been learning (mostly from Grayson KJ7UM) that the much used and sometimes loved 6U8s (three of them in our "Mates for the Mighty Midget")  might be a bit long in the tooth, old even by Thermatron standards.  I was worried when I remembered that my Drake 2-B has a 6U8 in it -- V2, the first mixer.   So I Googled for more info and was led to this amazing receiver, a 2018 creation by KG7TR.  How did we NOT see this for almost four years?

Here is more info and pictures: 

http://www.kg7tr.com/75s-2b-receiver.html

Here is Mike's write-up of the project: 

http://nebula.wsimg.com/c2281e9bdf3b54da42ca4b0b541b4ec9?AccessKeyId=D18ED10DA019A4588B7B&disposition=0&alloworigin=1

Mike KG7TR's web site:

http://www.kg7tr.com/ 

As for the 6U8s, well Grayson says the tube has been getting something of a bum rap.  And  KG7TR has two of them in this receiver, so I will obviously have to give the 6U8 another chance.  

--------------------

I didn't know that Lew McCoy had his own crystal and crystal filter company: 

http://www.kg7tr.com/the-real-mccoy.html

Wednesday, September 15, 2021

Drake 2-B Advertisement


A thing of beauty. 

Wednesday, June 9, 2021

Pete's Drakes


Pete Juliano N6QW has on his blog two very nice videos about the Drake A-line.  

As long-standing fanatical fan of the Drake 2-B, I was struck by the similarities between the 2-B and the R4 seen in Pete's video:  

-- The S-meter is the same. 
-- The passband tuning control and indeed the visible internal circuitry for the passband tuning seem to be the same.  
-- Drake even used the same "hook" for selectivity selection.   

The transceive feature with the T4 seems very nice.  

Pete's first video is above.   Pete's second video, showing his first contacts with the newly acquired A-line, can be seen here: 


Thanks Pete! 

Saturday, April 24, 2021

It's an INVESTMENT!

 

Exactly what we've been saying about Drake 2-Bs and copies of SSDRA!  

Thursday, October 8, 2020

HA-600A Gets a New Coat of Paint -- After Almost 50 years!

 


The HA-600A that I picked up last week was looking kind of sorry.  There was a lot of rust on the cabinet.  Below is the before picture. 

I'm not really into cabinetry or radio aesthetics, but it is amazing what a 6 dollar can of spray paint can do. Formula 409 also helps. I moved the light bulbs forward a bit to get more light on that Juliano Blue dial. 

I am really enjoying this radio.  It has brought back many memories.  I think I got one for Christmas in 1972.  I was 14.  I got my Novice ticket on April 27, 1973 and made my first contact on July 19, 1973.  For that first contact I was using an HA-600A and a Heathkit DX-40.  Later I used the Lafayette with a Heathkit DX-100.   The HA-600A was replaced by the far superior Drake 2B on April 11, 1974.  So I used this receiver for more than two years.  

Looking around inside this receiver (and following up with Google) I learned some more about it: 
-- It was made in Japan. 
-- The manual says it has a "mechanical filter" but in fact it has a Toyo ceramic filter.  This may have been just an honest mistake by the folks who wrote the manual -- maybe they didn't understand the difference between the two types of filters. 
-- There is a big difference between the HA-600 and the HA-600A, mostly in the front end circuitry.  The HA-600 has fewer amplifier circuits at the front end.  This probably explains why the HA-600 I picked up did not seem to live up to my memories of my teen-year HA-600A.  

The fellow who gave it to me tells me that it had belonged to the short-wave listener father of a friend of his. 

I know we have a lot of tube-type receivers that are much older than this thing, but I still think it is pretty amazing that this is a receiver that I used almost half a century ago.  And it is still as good as new.

Wednesday, September 23, 2020

Wisdom from AA0ZZ: NO LIBRARIES! ASSEMBLER CODE ONLY! -- "Digital Crap" -- "No Magic Fruit" What qualifies as a real rig? Si570 vs. Si5351

 

Bill,

Why do you guys make your Soldersmoke podcasts so darn intriguing such that I can’t listen to them in the background while I’m doing something else?   Good grief!  I start listening and before long you make me stop and chase down a rabbit hole to find something new that you mentioned that I had no clue was out there.    Before long I’m doodling out a new sketch or playing with at a new design for something I really need to experiment with or build “next” or something I need to  try.   It is taking too much of my time!!  J

 I’ve been listening to your podcasts for years.   Way back, before I knew you and before I knew you were doing these Soldersmoke blogs with Mike, KL7R, and just before he was so tragically killed, I was collaborating with him on a simple frequency counter project using a PIC microcontroller.  We were making good progress on a neat design.  I later completed the project but always kept his contributions noted as part of the source code. 

 I’ve been making PIC-based VFOs for years – dating back to about 2000 – aiming them at builders who were looking for something to go along with Rick Campbell’s (KK7B) receivers.  Rick is a good friend now, after we met in the Kanga booth at Dayton where we both were demonstrating our stuff.  (Bill Kelsey (N8ET) of Kanga, was the “marketer” for my kits as well as Rick’s for many years.)   My original VFO kits used a DDS (high-end AD9854) that simultaneously  produced I and Q signals which made it perfect for Rick’s phasing gear.  Rick is a big supporter of my work but he still kids me about polluting his beautiful analog world with my “digital crap” (copyright KK7B term).   When I came out with a newer version VFO using a Silicon Labs Si570 PPLL  (I can hear already Pete Juliano groaning) it was a big improvement over the AD9854 in noise/spur reduction.  I documented this all in a QEX article in about 2011 and Rick (and Wes Hayward) were very supportive/appreciative of my work.   

 I have used the Si5351 also and I understand Pete’s point of view.  It’s “plenty good” for most amateur projects.  However, it remains a fact that the Si570 is a better part and produces a cleaner signal.  That’s the reason why the Elecraft KX3 uses a Si570.   Granted, the newer Elecraft KX2 uses a Si5351 but it’s most likely because they wanted to preserve battery life (the Si570 uses more power but not nearly as much as the AD9854) and also to reduce the cost.   I do understand!   I also fully understand the ability of the Si5351 to produce I and Q signals via different channels.  I’ve had extensive conversations about this with Hans Summers, at Dayton and online.  I use a pair of Flip-Flops on the output of the Si570 instead.  My PIC code driving the Si570 is ALL written in ASSEMBLER code.  Yep!   I’m an EE but have had a career mainly in software development and much of it was writing assembler code.   I dare say there aren’t too many gluttons for punishment that do it this way.  I do it because I want to understand every line of code don’t want to be dependent on anyone else’s libraries.  Every line of code in my VFO’s and Signal Generators is MINE so I know I can debug it and it can’t get changed out from under me.   (This problem bit Ashar Farhan hard on the Raduino of his BitX.   Tuning clicks appeared because the Si5351 libraries he used changed between the time he tested it and released it.   I was really appalled when I dug into this and resolved to NEVER use libraries that I didn’t write myself.  Similarly, this also makes me have some distaste for Arduino sketches.  I would rather see ALL of the code including the initialization code, the serial routines, etc, rather than having them hidden and get pulled in from Arduino libraries.  That’s similar to the reason why Hans Summers didn’t use an Arduino in his QCX.  He used the same Atmel microprocessor but developed/debugged it as “C” code with the full Atmel IDE/debugger.                                                                                                            

By the way, Pete  mentioned the Phaser FT8 transceiver by Dave, K1SWL, in a recent podcast.  Dave is a very close friend, even though I haven’t met him in person since about 2000.  We Email at least daily and some of it is even about radio. J   I did the PIC code for the tiny PIC that controls the Si5351 in the Phaser.   Yes, it’s written entirely in Assembler again!   I do know how to do it for a Si5351.  That Si5351 code is not nearly as much “fun”, though.  I know, this will make very little difference to guys who write Arduino “C” code to control it but under the covers it’s a world of difference.   It takes me about 15 serial, sequential, math operations to generate the parameters for the Si5351.  None of them can be table driven and they all have to be performed sequentially.   (This is all hidden in about 5 lines of complex, Arduino “C” code but the operations are all there in the compiled assembler code.)   In contrast, my Si570 code is almost all table driven.   I just have to do one large (48-bit) division operation at the end to generate the parameters.    Yes, that’s a bit of trickery to do in ASM.   There are no libraries do this.

 I will point out one more advantage of the Si570 in comparison to the Si5351.  It has the ability to self-calibrate via software instead of relying on an external frequency standard.  In my Si570 app I can read up the exact parameters for the crystal embedded inside the Si570, run my frequency-generating algorithm “backwards” and determine the exact crystal frequency (within tolerances, of course) for that particular Si570.  Then I update all the internal tables using that crystal frequency and from then on all generated frequencies are “exact”.   I love this!  Frequency often moves by about 6 kHz on 40M.

 Oh yes, I must mention the difference of home solderability of the si570 vs the Si5351.  Those little Si5351 buggers are terribly difficult to solder at home while the Si570 is a breeze.   I know, many folks will just buy the AdaFruit Si5351 board and it’s already soldered on but, again, I like to do it all myself.   No “magic Fruit” for me.

 Now that I retired a couple of years ago and am getting out of the VFO kitting business I can finally build complete rigs instead of just making the next-generation VFO’s for everyone else to use.   I recently build a tiny, Direct Conversion rig with a Si570 signal generator (of course) and a diode ring mixer (ADE-1).  Look at my web page,  www.aa0zz.com  to see it, along with my VFO projects that I’ve been building in the past.   As you well know, Direct Conversion is fun to build and the sound is astounding; however, they are rather a pain to use!  Yes, I did make it qualify as a real rig by making several contacts all over the country.  (Wes Hayward gave me the criteria:  he told me that I must put any new rig on the air and make at least one contact before it qualifies as a real rig.)  

 The new rig that’s on my workbench is my own version of a phasing rig, experimenting with a Quadrature Sampling Detector (QSD, sometimes called a “Tayloe” mixer), using some ideas from Rick’s R2 and R2Pro receivers and many innovations of my own.  At present my new higher-end Signal Generator works great, the QSD receiver works great (extremely quiet and MDS of -130 dB on 40 meters) and the transmitter is putting out about 16 watts with two RD16HHF1’s in push-pull.  You can take away my “QRP-Only-Forever” badge too, not that I’ve ever subscribed to that concept!  Still more tweaking to do with the TX but now I’m also working on the “glue” circuitry and the T/R switch.   The SigGen, RX and TX are all on separate boards that plug into a base board which has the interconnections between boards and the jacks on the back.  I’ve built DOZENS of variations of each of these boards. Fortunately they all fall within the size limit criteria to get them from China at the incredible price of $5 for 10 boards (plus $18 shipping) with about 1 week turnaround.   Cost isn’t really an object at this point but it’s more of getting a hardware education that I sadly missed while I concentrated on software for so many years.  it’s certainly nice to have willing mentors such as Rick, Wes, Dave (K1SWL), Don (W6JL) and many others to bounce my crazy ideas off.  Yes, I’m having a ball!  

 I was licensed in 1964 but out of radio completely from 1975 to 1995.   Do you like the picture of my DX-100 on my web page?  My buddy in the 60’s had a Drake 2B and I drooled over it but couldn’t afford one.

Now I must finish this rig before you guys send me down another rabbit hole.   Too many fascinating things to think about!   I literally have a “priority list” on the my computer’s desktop screen.  Every time I come up with a new project idea – something I really want to play with such as a Raspberry Pi, SDR, etc, I pull out the priority list and decide where it fits and what I want to slide down to accommodate it.  That’s my reality check!

 Take care, Bill.   Thanks for taking the time to give us many inspiring thoughts and ideas.

 73,

-Craig, AA0ZZ

Tuesday, August 18, 2020

WU2D's TR-3 -- Mike Refurbishes a Nice Old Drake Transceiver (PART 1) (Video)



There is a lot of Tribal Knowledge in this video.  And good discussion of the many moral issues faced by those of us who work on old gear. 

-- Mike seems apologetic about his blatant and blasphemous spray painting of the Drake copper chassis.  As well he should be. 

-- His stubborn replacement of the tube socket (to allow for shielding) seems wildly reckless to me.  The Radio Gods may retaliate with some unexpected instability in that circuit. 

-- He CORRECTLY refers to the rewiring of the final circuity (to accomodate 6146s) as "the evil thing."  Indeed. 

-- I love in the beginning how he is listening to some ham radio chatter and the guy is talking about the selection of COM PORTS. With old radios "we don't have COM PORTS -- we have an antenna connector."  Well put Mike. 

-- I was struck by how much the TR-3 innards look like my 2-B receiver.  But the TR-3 has no dial strings.  That is a major technological improvement. And it has a PTO.  Was this a case of Collins envy?

-- Mike adds a useful word to the lexicon:  "shotgunning" -- the indiscriminate replacement of entire categories of parts in old radios.    Now I don't mind shotgunning the electrolytics (some people bitterly oppose this).  But I agree with Mike on the wisdom of keeping the paper caps in there.    

I am looking forward to Part II.  These videos are like "This Old House"  but instead "This Old Rig." And I will go back and look at Mike's video on the Power Supply refurb.  Thanks Mike. 




Friday, July 31, 2020

D-Lab Re-Caps a Drake 2-B (Very Economically)



A bit ugly, but it gets you there!   I like it. 

Thanks to John KE5ETX for alerting us to this video. 

Thursday, June 4, 2020

No Main-Tuning Reduction Drives in Stock Drake 2-Bs -- But why no mod articles?


Alan Wolke W2AEW and I were recently discussing our Drake 2-Bs (again!). Both of our receivers have reduction drives between the main tuning control and the string mechanism that moves the main tuning capacitor.  I wondered if these were the results of modifications by previous 2-B owners.  I vaguely recall that my Elmer -- Hilmar WB2NEC -- had done this sort of mod. 

OM Wouter ZS1KE sent me this very illuminating photo of the inside of his Drake 2-B.  No reduction drive.   So Alan and I obviously have modified 2-Bs.

One thing that puzzles me:  I can't seem to find a single article that describes this apparently common mod.  Does anyone know of an article in the ham magazines that might have described how to do this?  

Thanks again Wouter!  



Saturday, May 23, 2020

SolderSmoke Podcast #222 Antennas, Phasing, VFOs, 2-Bs, 6 years of N6QW, MAILBAG

After 46 years, finally a dial skirt

SolderSmoke Podcast #222 is available:  

No travelogue but… SolderSmoke Almanac!

Memorial Day in U.S.

End of Ramadan so Eid Mubarak! 

#222 marks SIX YEARS of Julian-ismo.  He started on SS 161.  Thanks Pete. 

Thanks to all who sent good wishes on Billy's graduation.  He heads to Boston and the lab in a week or so.  Very proud. 
------------------------------------------
Bill was on Ham Radio WorkBench Podcast  
 ----------------------------------------- 

PETE'S WORKBENCH
-- Antenna Ideas -- Don't Buy that $165 dollar dipole!  It is just wire!   
-- THE PHASING RIG. Does this point to a need for meditation?  Or at least some temporary disengagement? Tribal wisdom from Pete. 
-- DEAN KK4DAS's rig.  The Furlough 40.  Troubleshoot.  Tribal knowledge. 

-------------------------------------------

-- SHAMELESS COMMERCE DIVISION:   AMAZON BOX -- SEARCH FOR ANYTHING OU WANT THERE.  
-- PLEASE PUT COMMENTS ON THE SOLDERSMOKE BLOG POSTS. 
-- PLEASE CHECK OUT THE SolderSmoke YOUTUBE VIDEOS. 

------------------------------------------

BILL's WORKBENCH
n  Shortwave dials and exotic locations.  Java!  
n  Galaxy V VFO Project. Series-tuned Colpitts.  
n  DRAKE 2-B.  Hayseed Recap. Put the skirt back on the old rig.  Reduction drives?   

SHOPPING BAG: 
I got a replacement for the Xtronics 4000 soldering station.  Yaogong worked! 
Ordered screws and stuff from McMaster -- Came very fast! 
Working on a resistor kit from Mouser. 

MAILBAG: 
VK2BLQ's Phasing RX with an HRO dial.  Cool Retro.  
Adam N0ZIB -- Cool station.  TFT screen Aluminum welded box. FB. 
Karl G7AFT    BITX 40 doing USB and LSB by changing the VFO freq.  Pete's trick! 
Jerry KI4IO  out in nearby Warrenton.   Hope to be able to meet up soon. 
Keith N6ORS's Hot Mustard Phasing Board. 
Mike N5GTF'd FULLY INDOOR Quarantine Receiver.  Need a slogan for the antenna!
Nick M0NTV's Bread Bin 80 Quarantine rig
Bruce KC1FSZ   Quarantine 10 -- Brave man in solar minimum. But I hear 10 is opening.
Talking to Grayson Evans KJ7UM  TA2ZGE about Collins 9.9 MHz transformers.
Talking to Alan Wolke W2AEW about Drake 2-B stuff  Was there a reduction drive?
Paul VK3HN about Ceramic filter spurs.
Peter VK2EMU notes no animals were harmed in the making of my videos.  But many electrons were agitated. 

N6QW Phase Shift Success -- It aint over 'till the fat lady sings



Thursday, May 21, 2020

Replacing Electrolytic Caps in my Drake 2-B (Video)



Every dark cloud has a silver lining. Here is a very small silver lining for this terrible COVID-19 situation:  I had time to do a proper replacement of the electrolytic capacitors in my Drake 2-B. 

Three cheers for Hayseed Hamfest LLC for providing the replacement capacitor.  
Go to their website to find capacitors for many other old rigs: 
http://hayseedhamfest.com 

Saturday, March 7, 2020

N2CQR Novice Rig Roundup Station


I actually used that Drake 2-B as a novice back in 1973-1974.   The HT-37 came a bit later. 

For the Novice Rig Roundup I used the beautiful key that Peter VK2EMU sent me.  Thanks again Peter.  

Novice Rig Roundup is a lot of fun.  I was on 40 CW in the old Novice band today.   Worked Greg AA8V who was using a homebrew superhet receiver -- that doesn't happen every day.  Another station asked a question that we don't hear much these days: "What are you running?"  

I will make some more contacts during the rest of the NRR period (scroll down to a recent blog post for more details).  I have my NRR serial number.  Thanks to the organizers for putting together this fun event. 


Monday, March 2, 2020

Novice Rig Round-Up -- March 7- March 15, 2020


I may go with my Drake 2B and HT-37.  But If I get ambitious (and masochistic) I might try to involve the Hallicrafters S-38E that has been torturing me lately.  And I do have a DX-40 on the shelf... 

Here is the announcement:  


VE7SL has a really nice description of the event with great pictures: 


Designer: Douglas Bowman | Dimodifikasi oleh Abdul Munir Original Posting Rounders 3 Column