ECHOLINK and WINE: Works very well

I've been away from Echolink ever since my eeemachines PC went toes up and wiped out the Windows XP operating system. Echolink had always been a bit difficult to get running, even under Windows, so when I returned the eeemachne to life with Ubuntu, I never really even considered trying to get Echolink running on it. There is no Linux version of Echolink. But then, yesterday, somehow I got inspired. Something told me I should give Echolink a try using the Linux WINE Windows emulator. After all, I'd found that LTSpice worked great under WINE. I went to the Echolink download site, and hit the button. Ubuntu Karmic Koala (the version I am using) automatically fired up WINE and put the new windows program in the appropriate place. Echolink started right up. That night I was able to check into the Sunday evening QRP group for the first time in years. It was great. Now I'm on Echolink in the morning, talking to hams in Western Australia. The cheers for Jonathan Taylor, creator of Echolink! And three cheers for Ubuntu (especially Karmic Koala)!

The Arduino Documentary

Arduino The Documentary (2010) English HD from gnd on Vimeo.

Embedded controllers may seem a bit far afield for SolderSmoke. After all, I kind of gave up on surface mount, and have pretty much resigned myself to "hardware defined radios." (Someone sent me a picture of a T-shirt that kind of captured the sentiment: "I PROGRAM IN SOLDER!") But still, for a number of reasons I find Arduino intriguing. Aside from the amazing things you can do with this device, I like the homebrew, hands-on aspect of it. As you will see in the documentary, there is a real spirit of international collaboration in Arduinoland -- Italians, Spaniards, Colombians, Americans all working together on the project (the documentary itself is also available in Spanish). I also like it because it has its roots in Italy. So, even if you are not into embedded controllers, check out the documentary. I think you will like it.

SolderSmoke Podcast #129

January 8, 2010
SolderSmoke Podcast #129

http://soldersmoke.com/soldersmoke129.mp3

Introducing Cappuccio (pictured above)
"On the Cover of the Hot Iron"
Old tech, new tech:
Hammarlund HQ-100
Lafayette HA-600 (A)
WSPR: VK6 on the grey line, also Wake Island, and Alaska
How I fixed a broken GPU chip using a light bulb!
EMRFD's cool mod of the SBL-1 Diode Ring device (from W6JFR)
MAILBAG

Please send me reports on the audio quality. I made some changes...

Black Boxes No More! Cracking Open CPU Chips!

You guys have to see this. These guys have opened up some old CPU chips and have drawn the circuit diagrams for all the transistors. Then they made models of the circuitry. And they can runs programs on the models! From the site:

Have you ever wondered how the chips inside your computer work? How they process information and run programs? Are you maybe a bit let down by the low resolution of chip photographs on the web or by complex diagrams that reveal very little about how circuits work? Then you've come to the right place!

The first of our projects is aimed at the classic MOS 6502 processor. It's similar to work carried out for the Intel 4004 35th anniversary project, though we've taken a different approach to modeling and studying the chip. In the summer of 2009, working from a single 6502, we exposed the silicon die, photographed its surface at high resolution and also photographed its substrate. Using these two highly detailed aligned photographs, we created vector polygon models of each of the chip's physical components - about 20,000 of them in total for the 6502. These components form circuits in a few simple ways according to how they contact each other, so by intersecting our polygons, we were able to create a complete digital model and transistor-level simulation of the chip.

This model is very accurate and can run classic 6502 programs, including Atari games.

http://www.visual6502.org/

I had some technical (operator!) problems with Audacity this morning. Podcast 129 should be out tomorrow morning.

10% Discount Coupon for SolderSmoke -- The Book

http://soldersmoke.com/book.htm

Enter code READ2011 at checkout. (Offer ends January 31, 2011*)

Solar Flux Graph

The projected 2013-2014 peak doesn't look that great, but at least it appears that we are climbing out of the bottom of the cycle.

SolderSmoke Podcast #129 has been recorded and should be out in a day or so.

Propagation Improving

Yesterday spaceweather.com was reporting that a big sunspot was coming around the solar rim. I guess it arrived! Last night my WSPR sig was picked up by VK6XT during what must have been a gray-line situation, but this time with me going into sunset. Then, just about all night I was being picked up by VK2DDI. So, there may be hope for this solar cycle. 2011 seems to be off to a good start!

More WSPR DX

I was pleased to find this report (above) on my screen this weekend. Wake Island.

This morning I saw that yesterday I was picked up by one of the world's most globe-trotting hams: Laurence KL1X (by his remote-controlled station Kl7UK).

GO WSPR!

A Blast from the Past: THE HAMMARLUND HQ-100

I'm sitting here in the shack at 0645 EST on the first Sunday morning in 2011. Coffee is on. And so is my OLD Hammarlund HQ-100. I have it tuned to a friendly AM roundtable on 75 meters. And it sounds GREAT. Nothing like a receiver that is as broad as a barn door to let you appreciate that great AM sound.

This receiver and I have some history. I bought it in the Dominican Republic, probably in 1993, probably from my friend (now SK) Pericles Perdomo. It had suffered the ravages of the Dominican radio environment from both ends: I think I found signs of a lightning surge at the front end, and of a power surge at the AC input. The audio output transformer was bad also. This was one of my first tube-type renovation project. I had a lot of fun with it.

There are no crystal filters in this receiver. If you want to narrow it down, there is a Q-multiplier (so --yikes!-- this receiver is at least in part a regen). In its original configuration the Q multiplier doubled at the BFO, but I guess my anti-regen feelings were at work even then: I took the 100 kc crystal calibrator and put a 453.5 kc crystal in there -- so that calibrator now serves as the BFO. This seems much more civilized.

You can see in the picture that the clock is gone. Mine was in pretty sad shape when I got it. Plus I thought it looked kind of goofy in that otherwise very beautiful front panel. So I took the clock out, patched the hole, and gave the clock to a very grateful Hammarlund collector.

The AM really sounds great. I can see that I'm going to need a 75 meter dipole so I can match this receiver up with my DX-60 VF-1 combo.

If You Could SEE The Night Sky at Radio Frequencies

Image courtesy of NRAO/AUI

SolderSmoke is mainly about radio, but we make frequent detours into astronomy. The picture above nicely combines the two fields. This is what the night sky would look like if our eyes received at radio frequencies! Here's how the National Radio Astronomy Observatory describes their image:

This composite picture shows the radio sky above an optical photograph of the NRAO site in Green Bank, WV. The former 300 Foot Telescope (the large dish standing between the three 85 foot interferometer telescopes and the 140 Foot Telescope) made the 4.85 GHz radio image, which is about 45 degrees wide. Increasing radio brightness is indicated by lighter shades to indicate how the sky would appear to someone with a "radio eye" 300 feet in diameter. The optical and radio skies reveal "parallel universes" containing quite different objects. The extended radio sources concentrated in a band from the lower left to upper right lie in the outer Milky Way. The brightest irregular sources are clouds of hydrogen ionized by luminous stars. Such stars quickly exhaust their nuclear fuel, collapse, and explode as supernovae, whose remnants appear as faint radio rings. Unlike the nearby (less than 1000 light years distant) stars visible to the human eye, almost none of the myriad radio "stars" scattered over the sky are really stars at all. Most are luminous radio galaxies or quasars, and their average distance is over 5,000,000,000 light-years. Radio waves travel at the speed of light, so distant extragalactic sources appear today as they actually were billions of years ago. Radio galaxies and quasars are beacons of information about galaxies and their environs, everywhere in the observable universe, ever since galaxies first formed. Investigator(s): J. J. Condon, J. J. Broderick, and G. A. Seielstad

Higher definition images and lots more info is available here:
http://images.nrao.edu/Miscellaneous/Surveys/321 Three cheers for the NRAO!

So... Think BIG in 2011! Happy New Year and 73 to all!

Storm on Saturn (with radio waves)

There is a big and very unusual storm on Saturn right now. You can see it in the image above. It was taken by amateur astronomer Jim Phillips using an eight inch telescope. I've been out before dawn for the last two mornings trying to see the storm with my 6 inch Dobsonian reflector telescope. I get very nice views of Saturn and Titan, but I can't quite make out the storm. Conditions have not been great, and I'm not sure the storm was in view when I was looking.

The folks at spaceweather.com note that it is generating some static:
Instruments on NASA's Cassini spacecraft are picking up strong bursts of radio static. Apparently, lightning is being generated in multiple cells across the storm front.

Space weather indeed!

Our New SolderGlobe >>>>>>>>>>>>>

I really like this little globe. The red dots record past visits. But the fun part is the flags and city names that pop up showing who is currently looking at the site. Very nice.

You can make the globe spin faster (or backwards) and you can tilt the axis of rotation up and down with your mouse. Give it a spin!