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Monday, May 16, 2016

Oz QRP2QRP From Mt. Bullfight, Pyramid Hill, and Melbourne's Chelsea Pier


Saturday, May 14, 2016

A Lot of Soul in the Barbados Receiver

After a rather frustrating period working on the Hallicrafters S38-E, I decided to do something different, maybe work on something that isn't known as a "widow maker."    So pulled off the shelf an old Doug DeMaw Barbados Superhet Receiver.  "Barbados" sounds much nicer than "widow maker."  This design and this particular receiver have quite a history: 

-- DeMaw presented the receiver in the June 1982 issue of QST.  It uses six 40673 dual gate MOSFETS, an op amp for the audio, and a 250 Hz crystal lattice filter at 3.579 MHz using (YES!) colorburst crystals.  The local oscillator was a VXO. Doug's was for 20 meters, but his article provided a lot of info on how to put it on other bands.

-- I built one in 1997, building it for 20 CW.   That project is described here:

-- Sometime around 2000 I bought another one.  This one had been built on a FAR Circuits board by Dale Parfitt, W4OP.  Dale had used 5 MHz rocks for the filter and had used a varactor tuned circuit for the LO (with a DC-DC converter to increase the range).   I put it aside.  It sat on shelves in several countries for a number of years.  (I even have a THIRD one, a partially stuffed board that Michael Hopkins (the guy who wrote those great stories about Frank Jones coming back to life to retake the 5 meter band)).

-- I started working on it again around 2005. We were in London by then.  I put it on 17 meters using a capacitor-tuned VXO running up at around 23 MHz.   I did a quick and dirty broadening of the crystal filter by simply changing the capacitor values in the filter.  This worked, but obviously it needed refinement.  As I asked questions about this receiver, Dale Parfitt came to my rescue.  It took us both a while to realize that he was advising me on the receiver that he had built.  That was kind of cool.

-- I used the receiver with my first homebrew SSB transmitter.  I had them both running with separate VXO's, with crystals switched from the front panels.  I'm sure there were no other rigs like this on the air anywhere in the world.

-- By 2011 we were back in the US and I put my old homebrew SSB station back on the air.

-- In October 2014 I was building my first BITX rig.  I built it for 17 meters using a 23 MHz VXO.  I took the crystals out of the Barebones receiver.  Later that month I used an Arduino/AD9850 DDS arrangement as a digital crystal replacement: 
It worked, but it looked hideous.

-- By January 2015 I had learned a lot about how to characterize crystals and build filters.  I decided to take a shot at properly expanding the frequency response of the 5 MHz Barbados filter.  I measured the characteristics of the crystals and got the proper cap values for a 3 kHz filter.  When I tested it, the width seemed fine, but the ripple was more than I had expected.  Kind of disappointed I moved on to other projects.

-- Which brings us to today.  Escaping from the S38-E, I decided to put the Barbados receiver on yet another band.  With sunspot numbers in decline, I opted for 40.  And I wanted this to be an analog, L-C VFO project. No DDS, no PLL.  It would be all L and C for me, thank you! First I played around with the idea of running the VFO up at around 12 MHz, subtracting the 7 MHz sigs to get to the 5 MHz IF. But then I did a sweep of the filter.  First, there was a nice surprise -- the width AND the ripple were fine, just what I wanted (I must have had a measuring problem when I checked the ripple before).  And the skirt was MUCH steeper on the high side than on the low side.  This is why these filters are often called Lower Sideband filters.  You get better opposite sideband rejection if you use them as LSB filters.  

With the skirt situation in mind, I realized that running the LO at 12 MHz would not be a great idea. Our rule of thumb tells us that if we SUBTRACT the signal with the modulation from the signal without the modulation, we'll get SIDEBAND INVERSION.  So 7 MHz LSB would end up as 5 MHz USB.  Not great.  Plus, it is hard to get a VFO stable at 12 MHz.

So I opted to run the LO at around 2 MHz.  There would be no sideband inversion, and it would be easier to get the oscillator stable.   Wary of the threat of harmonics and spurs, I ran the receiver for a few days using an Arduino AD9850 at 2.125 MHz - 2.300 MHz.  It worked fine.

I now have the receiver running with a real Colpitts VFO.  The inductance is provided by an adjustable, shielded coil at around 1.5 uH (it was on the board) in series with a 3 uH toroid (type 6 yellow).  The feedback caps are at 2200 pf with a 1020 cap in series.  The main tuning cap is a small air variable with 73 pf max.  This only lets me tune about 40 kHz of the band, so, in a variation on the old Main Tune -- Bandspread technique, I have a rotary switch that adds capacitance in parallel with the main tuning cap.  I can now tune from 7.141 to 7.300.  The tuning rate is fine and I didn't have to mess with a reduction drive. 

More Barbados receiver blog posts here:
http://soldersmoke.blogspot.com/search?q=barbados

Kind of amazing that DeMaw designed this thing 34 years ago.  A lot of soul in this old machine.   




















Thursday, May 12, 2016

The Solder Is Smoking at N6QW!

It is very good to see the solder flowing again in the Newbury Park Laboratories of Pete Juliano, N6QW.  Check out that postage stamp-sized display.

More details on Pete's newest rig can be found on his blog:

http://n6qw.blogspot.com/2016/05/a-new-ssb-transceiver-from-n6qw-with.html



Tuesday, May 10, 2016

Putting Junk Mail to Excellent Use: Tony G4WIF's Proto-boards


Tony's Version of Audio Section of N6QW's LBS Receiver



Tony Fishpool, G4WIF writes:


I’ve been intrigued by Pete’s matrix pad method. Of course, few of us have the machinery to mill them as Pete does, but etching is a possibility. Now some of Pete’s boards clearly have a lot of noodling behind them. His boards are quite big with little areas of pads and space between. The layout for the whole project has clearly been considered in advance.

I wanted a board that I could make modular, take little time to etch and adapt for the circumstances. These “proto-boards” are the result.

The project is Farhan’s “sweeperino” and one board is for the Si570, and the other the AD8307.

The Si570 board is now complete and working:




The PCB method is pure Chuck Adams. His videos on YouTube describe the toner transfer method better than I could.

The only difference for me is that my glossy paper comes free from travel agent brochures.

Just express a passing interest in Viking River Cruises and you will never pay for PCB paper ever again!

There is a free printing only version of the software I use, so if SolderSmoke listeners want to use the proto-board design, I will happily email them the files.



Kind regards
Tony G4WIF

Monday, May 9, 2016

A 12AU7 Atop a Raspberry Pi

http://makezine.com/2016/05/06/warm-tube-tone-is-just-what-the-raspberry-pi-has-always-been-missing/

I don't know what to say.   One moment I find myself thinking that this could represent "the best of both worlds."   A minute later I'm thinking that this thing is a horrible chimera.  And it has a whiff of audio fool-ism about it, don't you think?  Will it work better with oxygen-free cables and gold-plated fuses? 

Still, overall -- pretty cool.

Friday, May 6, 2016

Polyvaricon Reduction Drive

Oh man, we need more of these.  Many more.  Unfortunately, this may be the only one.   I pulled this out of an old piece of mystery-gear given to me back in 1994 by my friend Pericles HI8P.   Look at that:  dual turning rates, solid construction, and very small.   This device seems destined to go into my W4OP-built Barebones Superhet (in the background).

Wednesday, May 4, 2016

Farhan's Cool BITX 40 (video)


I especially like the wood base and the transparent front panel.  But we have to send Farhan a D-104!

Check out the video of this rig in action:


Farhan posted:

The BITX40 has a redesigned crystal filter at 12 MHz that contributes to a very clear signal. Note the clarity on SSB and the absence of noise due to the three poles of filtering. This was charminar net on May 2, 2016. I couldn't break-in. Probably because the tiny plug mounted mic was too far away from my mouth.


Tuesday, May 3, 2016

Un-modifying an S-38 in 1966, and the Urge to Build

Michael mentioned this article in the Comments section under yesterday's post.  March 1966 issue of 73 magazine.  Page 26.  Just click on the images for easier reading.   Or you can find the article here:

More S38 wisdom from 73 here:
That's the November 1976 issue, page 88.

I miss "73".



Monday, May 2, 2016

Hallicrafters S38-E Saved! it is not a "Pig with Lipstick." It Sounds Good! (Video) (And Radio Moscow recordings)




You guys know how it is:  You get tired of struggling with an old piece of gear.  You put it aside, thinking that you might never work on it again.  But it sits there in the corner, sort of looking at you.  A few days or weeks or years pass and you think, hey, I'll take one more quick look at this thing to see if I can get it going.

That's what happened to me this weekend with the Hallicrafters S38-E.  I hooked up the isolation transformer and put a fuse in the primary. I checked the wiring of my rewound antenna coil primary and found that I had connected it wrong.  Duh.   I then found that the antenna tuned circuit tracks fairly well with the tuned circuits in the local oscillator. 

I hooked it up to my 40 meter dipole and fired it up.  As evening rolled around the shortwave bands started to perk up.  The Chinese Broadcast stations were there, as was that fire and brimstone preacher Brother so-and-so.   But then I tuned into Radio Havana Cuba and the guy was talking about homebrew shortwave antennas.  Could it be?  Yes indeed.  It was Arnie Coro CO2KK.  The Radio Gods had spoken!  They clearly had wanted me to get this old rig going.

I still have a few things to do:  I need to fix the front panel light.   I want to put in a three-wire (with ground) AC cord.   Perhaps a real BFO (the original circuit seems to run out of steam with strong SSB signals).  And I need to spruce up the alignment on the 1.7-5 Mc and 13-30 Mc bands.

I think Pete and I may have been too harsh on this old receiver (calling it a pig with lipstick and all that).   It is clearly not a great communications receiver, but it is nice for casual shortwave listening. 

And here is a bonus treat for you guys: Remember Radio Moscow in the bad old days?  Yesterday I found a site with good recordings of some of their 1965 broadcasts.  This is  just what you would have heard coming out of an S38-E in 1965:


Sunday, May 1, 2016

1625 Tubes and Si5351 Chips: JH8SST's FB Rig



Peter has been helping Jun JH8SST and other Japanese hams get their Si5351 synthesizers working with various displays.   Jun has had some great success as you can see in the above video.  I really like the combination of old (1625) and new (Si5351) technology.

Jun is a long-time homebrewer who as built some amazing stuff.  Check out the pictures on his QRZ.com page:

And look at his cool 128x128 TFT display:



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