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Thursday, August 27, 2020

A Song Fom Dexter ZL2DEX

From a post on on "ZL Amateur Radio & Friends,"  in response to a complaint about the lack of activity (with apologies to Paul Simon):  

'50 Ways':


"Get on the band, Stan,
Trigger the mic, Ike,
Tap your key, Lee,
Listen for me.
Paddle the bug, Doug,
Watch the waterfall, Paul,
Just QSO, Joe,
when conditions agree."

73

Dex, ZL2DEX


Chuck Adams K7QO's AMAZING Lab Notebook


Thanks to Tony G4WIF for alerting me to this amazing (and free!) e-book by QRP Master Builder Chuck Adams K7QO: 

https://www.k7qo.com/lab.pdf

There is a lot of wisdom and tribal knowledge in that .pdf.  

Thanks Chuck. 

Wednesday, August 26, 2020

Mars is BACK! 2020 Opposition! Don't Miss it!

2004 
Sometimes waking up a bit earlier when the sunrise is coming later leads you to some interesting things.  

It was quite humid in Northern Virginia on the morning of 25 August 2020, but the skies were surprisingly clear.  I stepped outside at about 0500 local time, coffee cup in hand.  Venus was blazing in the east.  Then I saw this big very bright red thing high in the southern sky.   It seemed almost too bright and too high in the sky to be Mars.  But a quick check with Stellarium showed that it was in fact the Red Planet.  I pulled out my six inch Dobsonian reflector telescope and soon had Mars in the eyepiece.  

For the first time in many years I could see surface features:  It is springtime in the southern hemisphere of Mars, but the Southern Polar Cap (which recedes in the summer) was still very prominent (in my eyepiece it was near the top, as in the GIF above) .  I could also see an albedo (dark on light) feature below the icecap.

I went out again on the morning of 26 August 2020.  Again the Southern Polar Cap was very visible.  Below it, near the center of the disc,  I could make out a large albedo feature.  I am pretty sure that is Mare Erythraeum.  


Above is what Stellarium presented as Mars as viewed from Earth this morning. The Southern Polar Cap is much more prominent in my telescope (you can see it in the upper right in the image above).  The large dark thing near the center of the disc is Erythraeum.  In the Stellarium image you can see the enormous Vallis Marinaris canyon shooting off to the lower right (sadly I could not see this in my telescope). 

The GIF at the top of this post gives a much better view than I get with my little six inch telescope.  The GIF gives a good idea of what the albedo features and the ice cap look like.  

This was a great time for me to see these things.  I'm almost done with the second book in Kim Stanley Robinson's Mars Trilogy -- much of the story takes place in sanctuaries carved under the Southern ice cap, and in Hellas (which Robinson's colonists are filling with water).  During the 2018 Earth-Mars opposition a big dust storm made it impossible for me  to see anything on Mars; a similar storm takes place during book one of Robinson's Trilogy. And right now the Perseverance rover is on its way to Mars.  

This 2020 opposition will be the best one until 2033.  So don't miss it. 



Here is a good article on observing Mars during the current opposition: 
https://www.skyatnightmagazine.com/advice/skills/how-to-observe-mars/

Here are technical details on the 2020 opposition: 
http://www.alpo-astronomy.org/jbeish/2020_MARS.htm

To see what side of Mars is facing us at any time, use Sky and Telescope's Mars Profiler: 
https://skyandtelescope.org/observing/interactive-sky-watching-tools/mars-which-side-is-visible/#

Here is a very informative video about the 2020 opposition: 



And remember:  The Elser-Mathes Cup has still not been won.  

Tuesday, August 25, 2020

Great Video on PC Board Techniques, with a Focus on Surface Mount



Wow, lots of wisdom in this video from Leo Fernekes.  Great hints and kinks on prototyping with copper clad boards. I need a Dremel just so that I can make Leo's board cutter.  And I can see that I need some of that liquid flux and isopropyl alcohol. Surf boards and headers! Who knew?  Teflon coating for the wires -- gotta get it. Glad to see that Leo is also a fan of copper tape.

His emphasis on the importance of stage-by-stage construction and testing is right on the mark.  

My only disagreement with Leo is about his use of steel wool.  I've found that steel wool will inevitably cause little tiny "Murphy Whiskers" to float around your workbench. They will eventually settle onto the most inconvenient and damaging place on your board.  So I have banished steel wool from my workshop.  Those green, non-metallic Scotch Brite pads work just as well and don't cause shorts. 

Three cheers for Leo. He is based in Thailand.  He has an interesting background and some really amazing projects and insights:  

http://www.luminati.aero/leofernekes

http://www.fernekes.com/blog/

https://www.youtube.com/channel/UCe1bjEcBichpiAMhExh0NiQ/videos

Thanks to Tore LB4RG for alerting us to Leo's video.  

Monday, August 24, 2020

Experimental Methods Book on Clearance sale -- $20

http://www.arrl.org/shop/Experimental-Methods-in-RF-Design-Classic-Reprint-Edition/

And it includes a .pdf copy of Solid State Design for the Radio Amateur. 

Video on the Strange Tuning of the Radio Shack DX-390 Receiver



I'm more of a single conversion guy myself, but in working with the DX-390 I came to appreciate the benefits (especially regarding image rejection) of the double conversion technique. 

While working on the DX-390, I discovered that the BFO control on the front panel DOES NOT change the BFO frequency.  It was fun to try to figure out why the designers did it this way.  It does make sense once you consider the limitation imposed by that PLL main tuning oscillator that only moves in 1 kHz steps. I hope the video explains things.  

Here is the drawing I used in the video: 


And here is a drawing that shows how a single conversion superhet with a fixed or switchable  (usually crystal-controlled) BFO works: 


Earlier this month  I did a blog post on my repair of a broken DX-390: 

Sunday, August 23, 2020

Mike WU2D's Great Drake TR-3 Refurb Video -- Part 2



Mike WU2D made another very nice video about his Drake TR-3 refurb. 

He cracked me up when he noticed that one of the calibration oscillators was 30 Hz off.  "Let's pretend we care," said Mike.  Indeed. But it was probably wise to tackle this problem, given how upset modern hams seem to get with 30 Hz discrepancies.  Mike noted that the problem was casued by "aging cystals." Yikes! Another thing to worry about, along with the Southern Magnetic Anomaly. 

Once again Mike has added a useful term to our lexicon:   "The Dribble Method" of signal injection (or extraction):  Just wrap a few turns of insulated wire around the tube or IF can and inject or measure away.

Neutralization! Now there's a blast from the Thermatron past.  I haven't done that in a long time. I liked Mike's "reverse neutralization" method. 

Mike's video featured some real Boatanchor eye candy.   That Heathkit HR-10 receiver caught my eye, as did that HP signal generator. 

Thanks Mike.  One hand behind your back OM.    

Saturday, August 22, 2020

Very Cool Vosworx AZ-EL Satellite Tracker



When I was in the Dominican Republic working the RS satellites, MIR and the Space Shuttle, I didn't have an elevation rotator.  I could only move the antenna in the azimuth plane.  So I just aimed it about 45 degrees above the horizon, spun it around, and hoped for the best.  I also had no computer control of the azimuth heading -- I'd just watch the location of the satellite on my computer screen and operate the rotator control manually.  

This device is a big improvement. 

Friday, August 21, 2020

The Original Tuna Tin 2 (and the Mojo Transfer Ceremony with W1REX)

Brian Murreyto
 Amateur QRP Radio
The Original Tuna Tin II built by Doug DeMaw W1FB (SK)...Ed Hare W1RFI of the ARRL Lab, brought this to FDIM in 2001 and allowed us to borrow it for a night. It was so cool. The little guy was found at a hamfest somewhere on the east coast, and brought back to the ARRL. Bruce Muscolino W6TOY (SK) recieved it from the ARRL and he replaced missing parts and got the thing working again. It's in the museum at the ARRL HQ today. I think we made like 16 contacts using that for the transmitter, and a homebrew receiver from Diz W8DIZ that was part of the MultiPig Rig. Antenna was a dipole we had strung up out the window of the Ramada Inn (FDIM Central).
-----------------------------------
Here is my only encounter with the original Tuna Tin 2 -- In 2014 Rex W1REX conducted this solemn ceremony in which some of the TTT mojo was transferred to my homebrew BITX 17. 

Thursday, August 20, 2020

The South Atlantic Anomaly in Earth's Magnetic Field


In case you've grown tired of worrying about infectious disease, here's another scientific problem for you to worry about:

https://www.youtube.com/watch?v=qpdQcw_52iM

Wednesday, August 19, 2020

SolderSmoke Lexicographer Worked on Earth-Moon-Earth Laser


Hi Bill

A ham, well known to us, actually me, was very involved in the very first laser reflector experiment.  I was a new EE graduate and was hired by the University of Maryland Physics department to design and build the control system for the laser experiment.

The first reflector was placed on the moon immediately after Apollo 11 landed.  And the equipment on Earth to use it was in place and ready to go to work.

Here is how it worked.  A very powerful laser was installed at the McDonald Observatory in west Texas.  It pointed into the viewing end of the telescope and had 5 Joules of energy.  When it was fired, a control system made from discrete logic chips was used to control an electronic shutter in front of a very sensitive photomultiplier tube.

In order to prevent stray photons from impacting the photomultiplier tube, the shutter was opened just microseconds before the reflected photons were expected to arrive from the moon, a round trip of about 2.5 seconds.  Then the photons were collected from the laser's pulse.  Only between 1 and 10 photons were collected from each shot and were statistically analyzed to get the best transit time to determine the distance to the moon.

Similar systems were set up on other continents in order to triangulate the distances between the telescopes to determine continental drift.  In addition, the outward shift of the lunar orbit was also determined.

Because the moon's orbit varies by about 10% and is easily predicted, the control system used thumbwheel switches to set the time of transit to open the shutter at the right time to keep out photons that were not from the laser.

The control system also sent the trigger pulse to the laser's gigantic capacitor bank to send trillions upon trillions of photons to the moon. So a 5 volt pulse triggered this massive release of stored energy into the lens of the telescope.

And here is the coolest part,  the astronauts could see the laser pulses from the telescopes when they were fired.

I had no idea that these reflectors were still in use and that their efficiency has degraded likely due to lunar dust. 

73
Steve
KB3SII ... .. ..
------------------------

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. 




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