Just go to http://soldersmoke.com. On that archive page, just click on the blue hyperlinks and your audio player should play that episode.
http://soldersmoke.com
In our last podcast I mentioned that I had a very interesting contact on 17 meters with Raul Midon AE3RM. This morning Raul's song "Tembererana" popped up on my Pandora feed. The song is great, but is was the album cover that attracted my attention.
Raul has an amazing personal history. Born in Argentina, he and his twin brother have been blind since birth. They have both obviously triumphed -- his brother is a NASA engineer.
From the Wiki: Midón's album State of Mind was released on May 10, 2005. The album features a guest performance with Stevie Wonder, one of his idols, another one with Jason Mraz, and a song written in tribute to Donny Hathaway entitled "Sittin' In The Middle." Midón is an avid amateur radio enthusiast,[2] and in this song he also incorporates his call sign (KB5ZOT) by using Morse code.
Here is his QRZ page: http://www.qrz.com/db/KB5ZOT In it he writes: "He has been an amateur radio enthusiast since Mrs. Redmond introduced he and his brother to the hobby back when they both attended the New Mexico School for the Visually Handicapped." Good work Mrs. Redmond!
Here is Raul's antenna in Maryland. Maybe he was thinking of this when he designed the album cover!
The rules and regulations in this part are designed to provide an
amateur radio service having a fundamental purpose as expressed in the following
principles: (a) Recognition and enhancement of the value of the amateur service to
the public as a voluntary noncommercial communication service, particularly with
respect to providing emergency communications. (b) Continuation and extension of the amateur's proven ability to
contribute to the advancement of the radio art. (c) Encouragement and improvement of the amateur service through rules
which provide for advancing skills in both the communication and technical
phases of the art. (d) Expansion of the existing reservoir within the amateur radio
service of trained operators, technicians, and electronics experts. (e) Continuation and extension of the amateur's unique ability to
enhance international goodwill.
----------------------
On a recent podcast I mentioned that I like the phrase "the radio art." I also mentioned that I heard some objections to this term. A couple of guys wrote in on this --see below. I found out that the phrase features prominently in Part 97 of the U.S. Code of Federal Regulations. This is the document that establishes ham radio in the U.S. (see above) I really like the last line of the first section of Part 97: e) Continuation and extension of the amateur's unique ability to enhance international goodwill. Yea! That's us! The International Brotherhood of Electronic Wizards!
------------------------
Bill:
Was listening to episode 180 and heard you mention that some people had taken exception to using the label “Art” for radio electronics. You should refer them to the Webster’s definition of art,
art. noun \ˈärt\ : something that is created with imagination and skill and that is beautiful or that expresses important ideas or feelings.
Often the patent office, much older than radio, will invalidate a patent application based on “prior art”.
Keep up the great podcast! As soon as I finish a couple of other projects, I’m going to try to build Pete’s LBS design. First, I have got to get a mobile rig installed in my new truck, commuting without it is just too boring.
Going even further, the basis for our patent system is in Article One, Section 8, Clause 8 of the US Constitution:
"To promote the progress of science and useful arts, by securing for limited times to authors and inventors the exclusive right to their respective writings and discoveries;"
Tom Hall does amazing things with solder and electrons in the heart of New York City. I give him extra credit for doing this on the island of Manhattan because 1) that's where I'm from and 2) EVERYTHING is more difficult there.
I may have presented this video before. If I didn't, I should have. And if I did, well, here it is again (I guess my NYC attitude is showing here).
Look at the ease with which Tom switches bands. Fantastic! But even more important, LISTEN to the quality of the reception. Listen as Tom tunes in on strong CW and SSB signals. Do you hear any signs of the dreaded phase noise that is supposed to plague the Si5351 chip? I do not. I think this receiver sounds great.
I don't know why the Si5351 got such a bad rep for noise. Could it be that some people were testing it with boards other than the Adafruit or NT7S products that we have been using? Could it have been that in the tests the boards weren't completely installed? (It is important to have the VFO and BFO signal lines properly shielded.) Could it be that in the tests they were using physically adjacent clock outputs from the board? (We use CLK0 and CLK2, skipping CLK1 to avoid the "bleedover" problem that was noted by early users.)
Wow, this project is very appealing. Finally, a 3D printer project that seems truly useful. They are using one of the Dongle receivers we've been playing with, and, of course, Arduinos. You could really geek-out with this stuff. Check out the hardware side of this effort here: https://satnogs.org/documentation/hardware/
As a result of Elisa's suggestion, more than 1300 people downloaded the free Kindle version of "SolderSmoke - Global Adventures in Wireless Electronics." I hope they liked it. If you did enjoy the book, please spread the word about it (you can use the e-mail button below to forward this post to friends and relatives), and please put a review on the Amazon Kindle page.
In the course of following up on Elisa's idea, I discovered that Amazon Kindle has a program that will allow me to make my more recent book available for free (for a limited period).
So the Kindle version of "Us and Them -- An American Family spends Ten Years WITH FOREIGNERS" will be available for free from October 3 through October 7. Please send me feedback, please let your friends and relatives know about the book (again the e-mail button below is good for that), and please post reviews on the Amazon page.
You can find the Kindle book here. It will be free from October 3 through October 7, 2015
For the last couple of weeks I have been plagued by noise on the HF bands. In spite of being in a very built-up area of Northern Virginia, I usually have low noise levels. But for the last couple of weeks I've had intermittent but frequent arcing noise. It sounded like classic power line arcing.
My 17 meter Moxon antenna provided a clue as to where it was coming from: As I spun the antenna around, the noise was always a lot stronger to the North-North West.
On Wednesday morning on the way to work I noticed that the fire department and the power utility were working frantically on a pole about a mile from our house. It had obviously been on fire -- it was still smoking when we went past.
When I got home I was pleasantly surprised to find the arcing noise gone. It took me a few minutes to make the connection -- yes, the smoking power pole was to my North-North West.
OBVIOUSLY THE RADIO GODS CAME TO MY ASSISTANCE!
This was a good demonstration of the fine front-to-back characteristic of the Moxon antenna. And a reminder of what radio signals sounded like in the days of spark.
I think it sounds great! There is nothing really wrong with it -- that is what 40 meters sounds like! Sure there is static. And those whistles you hear near the top of the band are the carriers from shortwave broadcast stations. You might have a little hum, but that should disappear once you get it all packaged in a metal box. Congratulations Bryan! You have done something that very few hams have done: You have built a receiver. 73 Bill N2CQR
......................
Hi Bryan,
First let me congratulate you. That is one fine build and you may actually have absolutely nothing wrong!!!!!! I really must applaud your “squares”. They look like they were made on a CNC machine. Bravo!!!
You are operating the LBS without an RF amplifier and as such you are trying to make up the gain in the audio amp. I would say that the results you are hearing are very consistent with the DCR without an RF amp. Get the RF amps stage working and then run your test –you will find with the RF amp that at the gain setting you have for the video will be room filling. It actually sounds pretty good. You might also try connecting a 1 NF across the audio trimmer pot as that will cut down on the “hiss’ sound.
Concentrate on the RF amp stage and then re-run your test –you will see the difference.
Great build – very nice job.
73’s
Pete N6QW
....................
Very nice!
Sounds pretty good to me in terms of noise – that’s what a direct conversion receiver sounds like (they tend to be very wide in terms of reception – static is normal... Welcome the world without noise reduction and DSP!!). DCR’s – because they are not run through a narrow IF filter – allow a very broad range of signals to get to the audio stage. So, for example, if you tune that around during a CW contest, you’ll hear a LOT of signals at the same time – versus only one or two at a time, once you have this run through the 4.9152 crystal filter. That’s the nature of the beast.
The 1nf across the audio trimmer definitely will help with reducing the hiss, although I must say my Kenwood receivers all have a similar amount of hiss and I prefer my radios with more, not less, noise (it lets me know what the band conditions are like...). I have noticed on my builds, however, that if you have a very, very high pitch WHINE on the other hand, that tends to be a bad solder joint or bad capacitor somewhere – probably on a capacitor – introducing an offset into your RF someplace it shouldn’t. What that looks like on an oscilloscope is the audio signal will have a large DC offset versus ground – almost always a bad solder joint on a capacitor—or a bad/broken capacitor--somewhere in the audio amplifier. That’s the same problem you get when you try to record audio sometimes from an external source (TV, radio, CD player) on your computer – DC voltage offset on the audio line. Kind of like what you might have heard on a stereo if you ever tried to switch to a channel where the input was hanging open.
Jac (KA1WI) and I spoke on 40 meters on June 29th. I told him about the BITX -- he said he liked the idea of building something and pledged to start melting solder. This week I got this message and video from him. Good going Jac! That was fast! I think we all know who designed the IF amp: Wes W7ZOI. As for the DS/PLL, I recommend you take a look at the Si5351 with an Arduino microcontroller.
Hi Bill,
I started in July building a receiver with the available parts I had collected over many years. Finally today the receiver is working more or less to my satisfaction. Here is a brief description.
I am using a set of crystall filters from an old Atlas 350XL, 5.595 is the IF frequency and the filters have independent USB and LSB plus CW 500 Hz filter. The radio set is a single conversion type. A DBM at the front end and as product detector. Keeping the BFO signal from leaking is a challenge but I managed by carefully matching the three ports of the DBM used as product detector. Matching the IF filters impedance was another challenge. Following the DBM there is a LNA amplifier using a 2N3866 and I am trying another LNA with a discontinued Siemens BFT66 transistor with a very low noise figure. I have some experience with those and they can be amazingly quite.
The IF amp is a hybrid cascode with three stages and AGC that I found in the internet designed by a well known OM, the design works very well it is easy to make and is very stable despite its nearly 70 dB of wide band gain. The AGC range is close to 100dB . . .
The front end has 6 BPF covering from 1.5 to 30 Mhz all switched by relays. This unit I got from an old German receiver.
The VFO or 1st LO is a DDS unit I had played with years ago. From N3ZI is far from perfection but it does the job when the bands are alive and well. The alternative to the simple DDS are complicated. I wish there were more DDS PLL kits available. It can take a long time to get a full synthesizer satisfactorally working.
The set is made of mechanical parts from a Tektronix main frame instrument, there are many parts of different shapes that can be attached together in a crazy way but certainly very functionally. There is the IF amplifier and the Product Detector BFO enclosed in two brass silver plated boxes, both also recovered from some surplus ages ago. The DDS is one of the sides on the chassis without any shielding.
The IF filters and the front end are going to be attached to the rear of the chassis by just adding brackets etc., you get the idea. I am glad the video is acceptable.
I thought it will interest you know that at age 70 is also possible to roll your own, despite having to check every solder joint since my eye sight is the biggest problem
I have other projects, another receiver with an IF of 9 mHz with SSB and AM filters using another type of high gain IF amp.
Pete Juliano and I were talking on Skype yesterday evening. He was regaling me with tales of the wonders of his new beam antenna. He mentioned that he was working a lot of East Coast stations... Wait a minute, I thought, I'm an East Coast station. And I have a 20 meter rig sitting right in front of me. "Meet me on 14.190 Pete!" It took me a minute or so to get the rig connected to the CCI amplifier and the 20 meter dipole. By the time I got everything fired up, there was a station on the frequency. I thought we'd lost the spot. But no! I realized it was Pete calling me.
This was extremely cool. Pete was using his ZIA rig with the brand new beam. I was on my VFO BITX20. And I was using the CCI amp that Pete had coached me on (he taught me how to tap the holes for the heat sink).
This was the first time I had ever contacted another homebrew SSB station -- and the first time Pete and I had spoken on the air. THE RADIO GODS WANTED THIS ONE TO HAPPEN!
"SolderSmoke -- Global Adventures in Wireless Electronics" is now available as an e-book for Amazon's Kindle.
Here's the site:
http://www.amazon.com/dp/B004V9FIVW
Bill's OTHER Book (Warning: Not About Radio)
Click on the image to learn more
Where are the readers of SolderSmoke Daily News?
Pete Juliano N6QW
SolderSmoke Co-Host and Master Homebrewer
Dean Souleles KK4DAS
With beret and with a Michigan Mighty Mite in hand
FNIRSI LCR-P1 Component tester review
-
Component testers are handy for doing a quick check of components grabbed
from the junk box. Those little coloured rings get smaller every year and
it's ea...
Re: GRC-9
-
The GRC-19 in a lowly 60 horsepower M-38 is a real commitment. It’s like
driving around with two big guys in the back seat and another sitting on
the hood...
Slow TV: Portable POTA Hunting at Home
-
This afternoon, instead of venturing out to a local park, I decided to do a
little POTA hunting from home—QRP portable style. It was a fun experience
and f...
HRWB 225 - QRP Radio Design with Jonathan KM4CFT
-
In this episode we meet Jonathan Kayne, KM4CFT, the designer of a very
popular new QRP radio called the CFT-1. Jonathan shares his journey from
concept ...
QRP HomeBuilder rebrands to Popcorn Electronics
-
Greetings Friends! Well, it's time to re-imagine QRP HomeBuilder. I'm
going back to the beginning and rebranding as Popcorn Electronics. This was
the si...
The November - December 2024 SARC Communicator
-
*Another BIG issue*
The final issue of the year. The November-December Communicator, digital
periodical of Surrey Amateur Radio Communications is now avail...
Hollow-State Design, 3rd Edition
-
Hollow-State Design, 3rd Edition is available from: Lulu Press:
tinyurl.com/hollowstatedesign3 eBay: search for “hollow-state design”
Electric Radio bookst...
I Finally Bought My Dream Airplane
-
Aviation has been a love of mine since I was a very little person. Living
in Nevada, seeing posters and ads for the Reno Air Races, specifically the
Texa...
2000 47pF Caps ...
-
An unexpectged package arrive in the mail today. Did you ever wonder what
2000 47pF NP0 capacitors look like? Thanks to John, AB2XT I will never run ...
New QRP Cluster From OM0ET and OM6APN
-
By DX EXPLORER
DX EXPLORER
Paul OM0ET and Peter OM6APN recently launched a new cluster dedicated to
QRP operations. Have a look and I hope you will enjoy...
Daylight Again – An all Analog Radio
-
What’s all this? In 10 seconds, A high performance, 7MHz, 5 watt SSB rig
Draws just 24 mA of current 90 dB dynamic range, 80 dB close-in dynamic
range 3D ...
Digi-chirp! Digital synthesis of ‘nostalgic’ CW
-
The bottom ends of 80, 40 and 20m are not what they used to be. For
starters, the busiest part is the digital segment where computers talk to
computers – l...
SMA Torque Wrench for the NanoVNA (uncalibrated)
-
I have been using SMA connectors on most of my projects, and have
occasionaly gotten a slightly different reading than I had expected. Using
the NanoVNA, ...
40m SSB Tramping Rig
-
Please see my YouTube channel for details of the build.
http://www.youtube.com/c/CharlieMorrisZL2CTM
*2N3904 Antenna Amplifier (initial)*
Voltage gain is ...
Modifications to the Dayton/FDIM-2019 Antuino
-
The Dayton Antuino has sub-optimal performance. This is a short note on
improving it to an 80 db range of measurements. The trouble with Antuino
2.0 (the o...
Raduino as NBFM TX
-
Here is a neat, 30 minute hack for your Raduino to turn the Si5351 into a
pretty stable, solid NBFM transmitter. The hack is to add a varactor diode
in ...
QRP Labs shop!
-
[image: Shop]
All QRP Labs kits may be ordered online securely at the shop, with PayPal
payment.
*Click here to visit the shop!*
*Click!*
*Shop! Order...