Saturday, May 29, 2010
Lulu is the printer who also handles my book: "SolderSmoke -- Global Adventures in Wireless Electronics." This means that you can order both books at the same time, perhaps saving on shipping costs. (But remember, for U.S., buyers shipping is free all summer long. ) And there is a 10 percent off sale for all buyers during the month of May (Coupon Code: FLOWERS).
Check out Ian's book here:
For more info on the SolderSmoke book, go here:
Friday, May 28, 2010
Wednesday, May 26, 2010
U.S. buyers might be better off using the free shipping option, but this 20 percent sale will definitely be a good deal for everyone else. http://soldersmoke.com/book.htm
Monday, May 24, 2010
Friday, May 21, 2010
Steve, KC2VNI, sent in some nice comments on the book:
I am an electrical engineer and I will say that the way Bill explains things is far, far, better than what I've seen in most books dealing with either communications theory or with communications electronics.
Not to go on a rant, but the college level electrical engineering text books are very poorly thought out and are really not written for the beginner (even an undergraduate electrical engineering student) who does not share the author's years of insight.
I would recommend that people who read the book should post comments about it where hams will find it. I posted comments on E-Ham. I will probably post to Ham Radio nation.
Several tweaks to the book (with the understanding that my comments are NOT meant as a slam on the book nor am I an electronics expert):
1) Give me a more detailed troubleshooting methodology- The literature associated with testing and troubleshooting is very,very limited.
A flow chart or diagram of some sort would be very helpful. I get the impression that Bill's efforts in this area were "cut and try" because of his obvious enthusiasm. Having said this, the beginning home-brewer has NO IDEA as to what he needs in the way of test equipment, what he should look for when testing a circuit, what the wave forms should look like, etc. (Note from Bill: A detailed discussion on troubleshooting methodology would be very helpful to students taking electrical engineering online.)
2)Very little discussions about the more mundane things like power supplies, connectors and the like. These trivial items can cause you hours of frustration if you don't think this through. If you want to string things together on a bench, I suppose it does not make difference. However, if you want to operate say QRP mobile in the woods then you need something that has a little bit of thought.
3) Very little discussion about heat sinks and thermal management- This is one of the most neglected areas for most people in electronics (and not just the homebrewer of radio equipment). Here, I recommend the ASME text "Hot Air Rises and Heat Sinks: Everything You Know About Cooling Electronics is Wrong". When I read the discussion about a transistor running hot and extra heat sink compound being applied in the book, I wanted to scream!
One other thing-is there any way I can get an autographed copy of the text?
Thank You very much for this very fun book
Thursday, May 20, 2010
Snappy title, don't you think? I think it could become a TV series, maybe if the Discovery channel someday gets into QRP and homebrew. In his QRP-L message about his latest rig, Michael, AA1TJ, said that he had "spent the morning 'Muntzing' G3XBM's, fine little XBM80-2
transceiver for the MAS (Minimal Arts Session) event." For those of you who don't recognize the verb "to Muntz", Michael is referring to one of the early manufacturers of TV sets, who, in an effort to reduce costs, ruthlessly went through his engineers' designs, throwing out every component that wasn't absolutely necessary. So I think Michael -- who I often refer to as the "Poet Laureate of QRP" -- has given us a new and very useful verb: To Muntz! (This comes in a month in which another very useful word was given to us: G3RJV's "socketry.")
Michael said, "I felt like the guy in the movies yesterday; throwing everything overboard that's not absolutely necessary in order to keep the Zeppelin/balloon aloft long enough to make landfall. :o)" The results speak for themselves. The schematic above and the picture below show Michael's entire transceiver. And he made a bunch of contacts with it.
One word of caution: Minimalist radio is not for the faint of heart. As the parts counts go down, the degree of difficulty for successful contacts goes up.
Check out Michael's page: http://www.aa1tj.com/Menos es MAS.html
Here's a picture of the rig:
Tuesday, May 18, 2010
This was the second time in a week that I've found someone else doing the same nutty thing that I've been doing. The first incident involved G0XAR. I found him transmitting upside down FSK on 30 meters. Again, I am no longer alone...
Note that both of my colleagues in radio eccentricity are from Britain, a land that takes justifiable pride in its eccentric boffins!
Sunday, May 16, 2010
I just finished your Soldersmoke book. I really enjoyed it - but...
I got the radio and electronics bug a bit late and was 23 years old before I got my ham license. I was truly fascinated by it all. Then I started wanting to learn why it all worked. It was truly a challenge to start figuring out how electronic circuits work with nothing more than my average intellect and a few books. I strained my gray matter over the electrons and P and N type material. Finally I decided to ignore it and move on - just put the 'trons into the black box and pick them up on the other side. I eventually became proficient enough to build kits and do some basic troubleshooting. I had SSDRA and a bunch of stuff by Doug DeMaw, but never could get too deep into it. Eventually I had what I believe was a neat miss from lightning and station KC4GIA went silent for a number of years.
Then I found your podcast. I've really enjoyed it. I've slowly started getting back on the air. I've bought my old dream rigs (Drake Twins, B line) and built an ATS3B. But the urge to learn more and progress to the true homebrewer level has taken hold. It's all your fault. I blame you completely. I now have a copy of EMRFD, the latest ARRL Handbook, and even have started trying to figure out LTSpice. Ok, that's also the fault of the Hands On column in QST.
I do have to thank you for the excellent descriptions of the electrons moving through P and N material. I actually think I've got it now. Now if I can figure out all this biasing, and impedance matching, etc. I might get somewhere. Your description of how you have to match impedance through different stages makes sense, but I'm still fuzzy on how to determine the impedance in the 1st place, etc. I'm truly excited by the possibility of learning how to design circuits on my own rather than building by rote. Again - it's all your fault.
Back to the book. I really enjoyed the story of the 17M DSB rig you built in the Azores. It was like an adventure story. Very cool. I'm still a bit vague on why DSB, but you seem to like it, so whatever moves you my friend. I am also intrigued by the satellite contacts. I had always thought you had to spend a small fortune on an az-el rotating antenna array. I'm looking forward to trying it out with normal antennas. My only satellite contacts have been through RS-12 (I think that's the right number) using the 15 and 10 meter bands. I don't think there is anything out there using that mode any more.
I also find it fascinating that a guy who used to live a little over an hour from my QTH in Winchester, VA and is now halfway around the world has had such an impact on my enjoyment of the hobby. If you do end up back in the DC cesspool, I hope to get the chance to meet you.
Final thought - Audio Book! I'm used to you talking to me. There ought to be a way to sell a download or something. I think the book is awesome, and may even become a scribbled in resource at some point, but an audio version would be a good companion to the print version. Just a thought...
Thanks for the motivation. You've brought me back to what's fun in Amateur Radio - learning!
Saturday, May 15, 2010
Friday, May 14, 2010
Hope everyone is having fun at Dayton. I caught G3RJV's talk yesterday via streaming video. As always, inspiring stuff! And I really liked a word he used: socketry. You know, "the PC board, and the box will all the associated SOCKETRY."
Wednesday, May 12, 2010
It was a lot of fun to take this thing very quickly from LTSpice, to the workbench, then to the antenna, with Johan's grabber providing instant feedback. This started out as a one-stage Colpitts oscillator transmitter. But I needed more stability. Indeed, the separate oscillator with the source-follower buffer makes it much more stable. Before, any adjustment to the antenna tuner shifted the frequency. At one point I even suspected that wind blowing the antenna was shifting the frequency -- we are talking about a band that is 100 HERTZ wide, so even a few hz of instability is noticeable. But I find that crystal ovens and other extraordinary measures are not really necessary.
I had one unusual problem with this little rig: As I was doing my initial tests, I noticed that the output signal was sort of jumping up and down. The problem was in the PA. I isolated the problem to the base circuit. At first I thought that some small blob of solder was intermittently messing up the bias voltage (that's quite possible here in the N2CQR lab!). But no! It was that 4700 ohm resistor. It was bad, and kind of intermittently bad! I never had a resistor go south on me like this. It is an ordinary 1/4 resistor. It is not dissipating a lot of power.
I'll keep it around 10140010 today. Check it out on Johan's grabber:
Look for a horizontal lines with little bumps (about 4-5 per minute). That's me.
Tuesday, May 11, 2010
This rig has evolved quite a bit. It started out as a frequency standard for QRSS and was mounted inside a paperback copy of Dan Brown's book. Then I matched the oscillator up with the multi-vibrator pattern generator from one of Hans Summers' rigs. This week I decided that I really needed a buffer and a PA -- I needed a bit more stability. I'll try to post a schematic tomorrow. In the meantime, watch for my little signal on the ON5EX grabber (off to the right). The pattern is small (3 Hz) bumps, about 4-5 per minute.
Saturday, May 8, 2010
The online Transistor Museum has a wonderful new article about this historic event, with details on the rig and the operators. Check it out:
Thanks to AA1TJ for alerting us to this.
Today G-QRP club announced the release of a Limerick kit version of G3RJV's Sudden receiver.
Take a look at the final product and the boards:
Very nice. Read more about this wonderful kit here: http://www.gqrp.com/sudden.htm
Go Limerick! Go Sudden!
Thursday, May 6, 2010
Just to make Hans happy, I switched from a forward biased blue to a reverse biased (upward pointing) red diode. The resulting pattern (below) looks a lot like the pattern shown in the picture in Hans' excellent SPRAT article. This is clearly FSK. The positive voltage from the multivibrator increases revers bias on the LED, DECREASING capacitance and RAISING the oscillator frequency. In the curve of the leading endge of the pattern you can see the voltage from the multivibrator slowly rising. FSK here is "right side up."
Finally I tired a little 1N914 diode forward biased. I was hoping to see some cleaner switching action, but even with this little diode you can see quite a bit of varactor action at work:
I think the switiching would be a lot cleaner and more complete if the voltage from the multivibrator wasn't coming through a 1 meg resistor. But when you put a lower resistance in place of the 1 meg ohm part, you start to mess up the frequency of the multivibrator.
I have to say, my favorite pattern is that from the Blue diode forward biased. Sorry Hans. To each his own...
Wednesday, May 5, 2010
http://blog.makezine.com/archive/altoids_and_tin_cases/ The first one that appears seems to belong somewhere else -- just scroll down to find the tins.
Wiki provides background info:
Altoids are a brand of breath mints that have existed since the turn of the 19th century. Altoids are less widely available in Britain—their country of origin—than in the regions to which they are exported, the standard peppermint mints being the only flavour available and only stocked in relatively few stores. Callard & Bowser-Suchard manufacture and produce Altoids at a plant in Bridgend, Wales, although Wrigley, the brand's owner, announced in mid 2005 they planned to move Altoids' production to an existing plant in Chattanooga, Tennessee, in order to manufacture its products closer to where they are sold.
The history of Altoids dates back to the reign of King George III. The brand was created by a London-based Smith & Company in the 1780s but eventually became part of the Callard & Bowser company in the 1800s. Their advertising slogan has been "The Original Celebrated Curiously Strong (insert flavour here) Mints" for a number of years, referring to the high concentration of peppermint oil used in the original flavour lozenge. The "Story of Altoids" text is printed on the paper liner inside certain tins.
Monday, May 3, 2010
May 3, 2010
Oprah follow-up: On to Martha Stewart and Dr. Phil?
Fencing on a Roman piazza
Breaking an important cable
My WSPR Direct Conversion receiver
Roger Hayward's wonderful ugly AF amp circuit
The beauty of SBL mixers
My DaVinci Code Oscillator goes on the air!
Making my own 555 timer chip (sort of)
LEDs as varactors (or are they colorful switches?)
Black Holes in workshops -- is the LHC to blame?
Altoids: now made in TENNESSEE!
G3RJV's wonderful video
Saturday, May 1, 2010
I hope to get the next podcast out as soon as I can. Maybe tomorrow. I will try to spare you all the gory details. Back to the radios! I've had a very interesting e-mail exchanges with Hans Summers G0UPL about LEDs as varactor diodes and their use in QRSS FSK systems. I'll talk about this in the next podcast.