EI7CLB's Ladybird Receiver (George Dobbs Design), and Voice over the Internet

 

I suggested that Tryg once again gather the parts to build George Dobbs's Ladybird receiver.  He should use the same wooden base.  That would be great.  

As for VOIP, I told Tryg that SolderSmoke got its start in a VOIP program  called Echolink -- Mike KL7R and I used to converse from London to Alaska.   Mike recorded one of  our conversations, and that became SolderSmoke #1.  I was using VOIP even before that -- from the Dominican Republic in the mid 90's I was connecting my Radio Shack 2 meter HT to an early VOIP program Internet  Phone or I-phone.  The company that made it was an Israeli firm called Vocaltech.   

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

Hi Bill,

Thanks for the recent emails and podcasts. I have attached a picture of my first radio - or at least what is left of it. I plundered it for parts down through the years as you can see. It is the build from the late Reverend George's "Making a Transistor Radio", the Ladybird book that really put the hook in me all those years back. I was probably only 11 when my late Grandmother and I went to Dublin by train (300 mile round trip) to Peats of Parnell Street to buy what components my pocket money could afford in order to build the first couple of stages of the radio, The wooden base was cut for me by a worker at a local furniture making factory here in Galway. He got a great laugh out of it when I told him I was going to build a radio - he kept putting the wooden blank up to his ear and joking: "I can't hear anything yet!". I will always remember it.

On another front I wanted to thank Pete and yourself for an entertaining and informative couple of podcasts. I made the leap a couple of months back and bought a set of boards for a uSDX (W2CBA version) but I may just use it as a receiver if I ever get around to building it. I don't know yet. The kit that Pete mentioned in episode #228 really got me excited. I expect you can imagine that my imagination is running riot at the moment.

Finally, I would be interested to hear about your take on half duplex VOIP apps such as Peanut. I realise that it is not 'real' radio to many but I have enjoyed several contacts with operators around the world with it and it has been quite satisfying. These ops that I have spoken with have often been infirm, elderly or have mobility issues. There are also a couple that are under HOA restrictions. One OM in particular lives in a retirement village and is a full-time carer for his wife. I think it is a good thing that they can still be involved in radio without all of the physical demands it might make on them or annoying their neighbours. It might, at least, it might be a worthwhile topic for discussion. Thanks again for an excellent Podcast. BTW, I am a bit of a guitar nut too - is that a Stratocaster that Pete is holding in the picture on the Soldersmoke Blog Page?

Right ho, time to put the kettle on. Tea is a vital component for operational efficiency in my radio world!

73,

Tryg de EI7CLB

Quarantine Hodgepodge Rig -- Part 1 (Video)

More videos to follow.  I have added features, and a transmission mode.  Stay tuned.  

Awesome Video of Perseverance's Landing on Mars

When we watched the landing on February 18, Elisa kind of complained that they were using simulations -- like the rest of us, she has come to expect actual video of important events.  Well, now we have it.  Actual video of the parachute deployment, the decent, heat shield separation, dust from the Sky Crane rockets, the whole thing.   Wonderful!   See above. 

The full press conference is worth watching:

Here we learn that the placement of these cameras was inspired by the sports camera that enabled one of the NASA/JPL guys to watch his daughter's gymnastic back flip from her perspective.  As they discussed the images from the spacecraft,  I found myself thinking of my little Astrocam Estes rocket in the Dominican Republic, our kite-camera adventures in the Azores, and the key-chain video camera that Billy and I flew on a rocket in the Shenandoah Valley. 

We also learn that the parachute color pattern contains a hidden message... (see below for the solution, worked out by a fellow in France.) 

One of the JPL guys noted that we've all had a tough year, and he hopes that these images will bring some joy to people.  Indeed. 

And wow, there are microphones!  They show the mic in the press conference video, and they play audio of the sound of Martian wind. 

There was a nice shout out to Sojourner from 1997 (the year my son Billy was born).  

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

Someone cracked the code in the parachute coloration: 

"DARE MIGHTY THINGS"

and the JPL Coordinates

https://twitter.com/FrenchTech_paf/status/1363992051734478852

LA6NCA's German Military WWII Receivers, and a Luftwaffe Receiver with FAST QSY

Discussions of old military radio gear are dominated by talk of U.S. radios.   Yesterday in the comments section of the SWLing Post I found two interesting videos about German WWII equipment.  Above you can see LA6NCA's receivers.  Below there's a video of a Luftwaffe receiver with an amazing capacity for really rapid frequency change.  

Bootleggers! Radio Criminality -- Some Jean Shepherd Stories

Thanks to Adam N0ZIB who alerted me to Shep's Cincinnati story about the stolen AM broadcast station.  I then found another YouTube video that had that story, but preceded by an even better tale of ham radio bootlegging.  

Adam found his story on this fantastic YouTube channel -- a collection of Shep stuff: 

https://www.youtube.com/channel/UCaip8PM6hvPdKsbID0DNaMA  

Thanks Adam.  73  and EXCELSIOR! 

Perseverance gets to Mars with Parachute and Sky Crane

 

Perseverance under parachute canopy

Perseverance hanging from rocket-powered Sky Crane. 

We had another picture of a spacecraft parachuting to Mars: 

It was from the Phoenix lander in 2008: 

https://soldersmoke.blogspot.com/2008/05/parachuting-on-mars.html

The Sky Crane picture is also awesome, but having spent some time under canopy, I am especially fond of the parachute photos. Dino KL0S and Kevin AA7YQ know what I'm talking about.  And Mike WA6ARA used to design and test parachutes for NASA at the Jet Propulsion Laboratory.  

My affinity for parachutes probably predates my jumping.  My Estes rockets usually returned to earth by parachute (sometimes they used the more economical "streamers").  And my grandfather had a little kite contraption that would send a parachute up to a kite where the device  would hit a cork on the line and release the parachute.  He used to attach a dollar bill to the toy parachutist for the kids in the neighborhood.  Decades later, my dad got one of these, and we frequently flew it during beach vacations.  So I like parachutes.   

AIRBORNE! 

A Step Closer to the Elser-Mathes Cup? Ham Receives Signals from Mars

 

That is the antenna that Scott Tilley VE7TIL  used to receive signals from the Chinese spacecraft Tianwen-1 in orbit of Mars.  In a recent SpaceWeather article, Scott comments on the importance of SDR receivers in these deep space reception efforts.  

https://spaceweatherarchive.com/2021/02/16/ham-radio-signals-from-mars/

I've been watching the Elser-Mathes cup for a long time. I dedicated my book "SolderSmoke  -- Global Adventures in Wireless Electronics" to my kids, Billy and Maria, noting that they were both possible future winners of this most prestigious award.  Scott Tilley's work has put us a step closer to an award ceremony for some intrepid radio amateur. 

Here is a good article on the Elser-Mathes Cup: 

http://www.arrl.org/files/file/QST/This%20Month%20in%20QST/June2016/Schoenfeld.pdf

Scott was in the news last year for finding a zombie satellite: 

https://soldersmoke.blogspot.com/2020/04/quarantine-search-for-zombie-satellite.html

A Problem with the San Jian PLJ6-LED Counter

I had hoped to use this handy and cheap little frequency counter to add some glowing Juliano Blue to the frequency readout on my Quarantine Hodgepodge rig.   I've used these boards with my BITX20, my HA-600A,  and with my DX-100/HQ-100 rigs.  But guess what -- these boards do not work with the BITX40 module board that is the heart of the Quarantine Hodgepodge.  And the reason why is interesting. 

Here is what happens:  First, you plug in the IF frequency of your rig.  In my case 12 MHz.  You connect your VFO output to the signal input on the PLJ6.  You power up the PLJ6.  You then have to select one of two IF frequency options.  One of these options ADDS your IF frequency to whatever it detects at the signal input.  In my case, for a 7.2 MHz signal it would detect a VFO signal at 4.8 MHz. If it were to ADD this signal to the IF freq,  it would readout 16.8 MHz.  And it does.  But obviously that is wrong.  So you go to the other option -- this one SUBTRACTS the designated IF frequency FROM whatever it finds at the signal input.  So here we get 4.8 - 12 =  -7.2   Almost perfect right?  But here is the problem:  The PLJ6 can't handle negative numbers!  So it displays 000000.  Not helpful. 

Here is the manual: 

https://www.mpja.com/download/35057tebasic%20manual.pdf

I didn't have this trouble with any of the other rigs because none of them required the use of negative numbers.  My BITX 20 for example had an IF of 11 MHz and has the VFO running a bit above 3 MHz -- so the PLJ6 just adds the IF to the VFO signal and Bob is my uncle.  Similar problem-free addition takes place with the other rigs. 

I found some discussion on this problem on the internet.  Here is one: 

https://groups.io/g/BITX20/topic/bitx40_and_plj_6led_frequency/4330098?p=,,,20,0,0,0::recentpostdate%2Fsticky,,,20,2,0,4330098 

Some of the respondents didn't seem to understand the problem.  Others hint that the ability to handle negative numbers was as some point in the code for the PLJ6 device,  and may somehow be accessible, but no further info is provided. 

I have already worked up a possible solution, but I'm interested in how you folks would approach this problem.   Any thoughts or suggestions?  I will reveal my solution in the days ahead.   

James West, Inventor of the Electret Mic, has THE KNACK

 

James West (r) with Gerhard Sessler (l)  Bell Labs 1976

https://hackaday.com/2021/02/17/james-west-began-40-years-at-bell-labs-with-world-changing-microphone-tech/

For many reasons, this is a really nice story.  It is about a kid with The Knack, a kid who, like young James Clerk Maxwell, wanted to understand how things work.   It is also a technology story, the story of the invention of a device very important to us: the electret microphone. (Remember the earlier carbon mics in telephones?  I'll bet more than a few of our readers are guilty of stealing a few of those mics from pay phones.)  And it is a reminder of the benefits of helping kids who might need a mentor... or and Elmer.    

Thanks Hack-A-Day.  And three cheers for James West. 

Phasors and the Propeller Analogy from Walla Walla University

We covered this excellent and very illuminating work before. As a follow-up, student Konrad McClure was kind enough to send me this video, which goes the extra mile with the propeller analogy. 

For me, the most interesting aspect of this is that it provides an explanation of the phase differences between upper and lower sidebands.   I need to study more about aliasing and the Nyquist criteria.  

Check out the video.  It get us a lot closer the an intuitive understanding;  math often falls short in this area. 

Thanks Konrad! 

See also: https://soldersmoke.blogspot.com/2020/09/mixer-insights-using-propellers-and.html

Please send feedback to Konrad via the comment box below. 

Put this Chart on the Wall Above Your Workbench

 

If you are like me and sometimes forget if R=E^2/P or E^2P, this chart will help. Very useful.  

My Current Rig: The Quarantine Hodgepodge

 

As I continue to Stay In The Shack,  last week I was looking for something to do. This is what I came up with.   

Left to right: 

-- Speaker

-- Ramsey-kit QAMP20 modified for 40. I now have two MTP3055V MOSFETS in there.  

-- BITX40 Module with a solidified VFO from a Galaxy V (note the knob from a Drake 2B!)

-- Power supply 

It puts out about 15 watts SSB.  I was bracing for attacks from the 40 meter waterfall police, but no, everyone said it sounds great.  I had four very nice contacts yesterday.  It was fun. 

Still to do:  Possibly a San Jian frequency counter to give some Juliano Blue glowing numerals for the frequency readout.  This would be a step up from the Juliano Blue sticky note and  corresponding piece of black electrical tape that currently serves as the frequency indicator. 

Jean Shepherd Works Through a Satellite in a School

Ah,  1975.  Obviously a very different time...  I'm not sure if Shep would fit in well in the classrooms of today.  There was bit of Rodney Dangerfield in his demeanor -- that would likely cause some trouble.

 

But this clip was fun.  Shep was right on target when he talked about how getting your ham license used to mean that you'd "mastered a technical art." 

The OSCAR satellite they were using was 2 meters up and 10 meters down.  There was a Heathkit HF transceiver with a transverter.  And a Simpson multimeter.  That mic was a Turner +3 

Thanks to Steven Walters for alerting us to this.  

EXCELSIOR!   

Use Only Telefunken Tubes -- They Are the BEST!

No translation required.   

A Lifetime of Workshops

 

https://microship.com/consoles/?fbclid=IwAR37yc-NfOrUC93C8QZYXZfakGLf-4eBtPw2php0CpzGHBW3-fb55ciyp0w

It has been more than decade, but we've posted about Steven K. Roberts N4RVE before: 

https://soldersmoke.blogspot.com/2009/09/i-didnt-care-i-had-secret-life.html

https://soldersmoke.blogspot.com/2009/09/knack-on-bike-steve-roberts-video.html

This morning I came across his recent article about the workshops he's had over the course of his life.  Very nice.  Man, I should have held on to that SP-600 I once had.  You folks will like this: 

https://microship.com/consoles/?fbclid=IwAR37yc-NfOrUC93C8QZYXZfakGLf-4eBtPw2php0CpzGHBW3-fb55ciyp0w

Microphone Men -- A Really Nice Video

Thanks to Rogier PA1ZZ for sending me this really nice video.  

Meet Your New Soviet Neighbor -- With Hallicrafters

 

Thanks to Jeff Murray for alerting us to this.  It is obviously from World War II.   If the new neighbors had S-38s, well, that might help explain why things didn't go so well.  

A Quantum Mechanics-based Receiver. The Rydberg Detector

 

Looks like you SDR guys are going to have to up your game!  

https://phys.org/news/2021-02-quantum-entire-radio-frequency-spectrum.html?fbclid=IwAR1nZZikA9VwMYbVCSMfeoJs7cj6XVKWa49LPCQ1LfWOON-iN62LvU6k2WM

A Really Nice Video about a Regen Receiver

Thanks to Stephen Walters for posting the link to this video on the SolderSmoke Facebook page. 

I really liked the way this project was described.  I think this is the work of Ciprian in Romania. 

https://www.instagram.com/dx_explorer/

https://www.youtube.com/channel/UCgaWKPt1P-4D6YI-Opd15_Q

Really nice.   Thanks!   73  

Some Thoughts on Singly Balanced Mixers with Two Diodes and One Transformer

In 2001, out it in the Azores, I built a 17 meter version of Doug DeMaw's Double Sideband transmitter ("Go QRP with Double Sideband" CQ Magazine, February 1997).  I struggled to understand the balanced modulator -- how it mixed, balanced, and how it produced DSB.  I later presented my understanding of the circuit in my book "SolderSmoke -- Global Adventures in Wireless Electronics" pages 132-137.   In essence, I figured out that you had to think of the balancing and the mixing as two separate operations: The transformer provided the balance that eliminated the carrier (the LO signal) while the diodes presented the two signals (audio from the mic amp and LO from the VFO) with a highly non-linear path.  The LO was successively turning on both diodes then turning off both diodes. The audio signal was being "chopped" at the rate of the LO.  This produced a complex waveform that contained sum and difference frequencies -- the upper and lower sidebands.  The carrier was balanced out by the transformer because the two outputs of the transformer were always of opposite polarity, and they were joined together at the output of the mixer.    

Fast forward to 2013.  I built a 17 meter version of Farhan's famous BITX 20 rig.  Above you can see the balanced modulator stage, which also serves as the product detector. As you can see, it is essentially the same circuit as the one used by Doug DeMaw in his DSB rig. 

In 2018 I built a simple direct conversion receiver for my nephew.  For the mixer I used what I considered to be just a cut-down  version of the circuit used by DeMaw and Farhan.  I got the idea for this from Olivier F5LVG and his RX-20 receiver from SPRAT.    It had the RF signal coming in on L1 and the VFO signal coming in to the wiper of the 1 k pot.  But with this arrangement, the diodes were NOT both being turned off on half the VFO cycle, then both being turned on during the other half.  Instead, as the VFO signal swung positive, D2 would conduct and D1 would shut down.  When the VFO signal swung negative,  D1 would conduct and D2 would shut down.  It worked, but the diodes were being switched in a very different way than they had been in the DeMaw and Farhan circuits.  If you have the strong LO signal going in on L1, BOTH diodes conduct, then BOTH don't conduct.  But if you have the LO going in through the pot, one diode conducts while the other does not conduct. 

After I concluded that the BJT product detector circuit in the HA-600A was causing distorted SSB and CW reception, I tried the old DeMaw/Farhan circuit, this time in product detector mode.  See above. This worked better, but I realized that this configuration was balancing out the BFO signal, and not the IF signal.  My problem with the original product detector had been that IF signal was getting simultaneous envelope detection AND product detection.  So I decided to just switch the inputs and put the IF signal into L1 (where it would be balanced) and the BFO into  R1/R2 (the 100 ohm pot). 

This seemed like it would reduce the envelope detection problem, right?  I mean, L1 is the balanced input, right?  But I wonder if we need to consider how the diodes were being switched in this arrangement.  Instead of having both conducting and then both not conducting, in this arrangement one would be conducting during half the BFO's cycle, while the other was not.  That means that at any given moment, the two output sides of the transformer would be looking into very different loads -- hardly a condition conducive to balance. But I used LTSpice to look at the audio output under the two different port arrangements.  Sherwood advised looking at the output of the product detector with the BFO turned off --there should be no output with the BFO off.  And indeed, putting the IF signal into L1 and the BFO into the R1/R2 pot resulted in less of the distortion causing envelope detection.  The way the diodes were being switched didn't seem to adversely affect the balancing out of the IF signal.  I am not sure why this doesn't seem to cause trouble. 

There was, however, another problem with the use of this circuit in the Lafayette HA-600A:  port isolation.  The BFO signal was getting back into the IF signal input on L1.   I could see it on the S-meter.  This was worrisome not only because of the S-meter, but also because the same circuit was driving the receiver's AGC -- in effect, the BFO was turning the gain down.  Theoretically, this should not have been happening.  Look at the transformer.  the BFO currents going through L2 and L3 should be of opposite polarities and should be cancelling each other out in L1.  But obviously this was not happening.  Perhaps this was the result of the sequential way the diode are switching in this arrangement.   On the bench, if I put the BFO into L1, I saw very little BFO signal at the R1/R2 junction. If I put the BFO signal into the R1/R2 junction, I was a lot of BFO signal at the top of L1.  And that is what I saw on my S-meter when this circuit was used in the HA-600A. 

On the bench,  if I turned off the BFO and put an AM modulated signal into the junction of R1/R2, I can see audio getting through once the input signal reaches 1 volt peak.  I do NOT see that kind of "breakthrough" envelope detection when (with the BFO off) I put a modulated signal into L1.  So the singly balanced circuit is doing that it is supposed to do -- it is balancing out the the signal going into L1. 

So it seemed that with the singly balanced circuit I would have to choose: suffer from the poor port isolation or AM breakthrough.   Clearly it was time to go for a doubly balanced circuit.  And that is what I did. 

Finally, I took a look at another two diode detector, the Polyakov or "subharmonic" detector. This is a really interesting circuit that can teach us a lot about how mixers work.  Here you can run the local oscillator at 1/2 the signal frequency.  With two diodes back to back, the incoming signal is being sampled TWICE during each cycle of the local oscillator.  That is equivalent to having the signal sampled at twice the local oscillator frequency.   This circuit allows you to run the oscillator at a much lower frequency -- this could allow much greater oscillator stability.  In the circuit above, with both diodes connected, a 7 MHz incoming signal would produce a 2 kHz tone. 

Another big plus of this circuit comes if you take D1 out of the circuit (as shown).  In this configuration the circuit becomes a normal diode detector.  Here it will receive a signal at 3.5 MHz, converting that signal into a 1 kHz audio tone.  So you can get a direct conversion receiver for 40 and 80 meters fairly easily.