AmateurRadio.com

I’ve just applied for the Notice of Variation to allow me to change my callsign during the period of the Queen’s Diamond Jubilee where it will become GQ4VXE and then during the Olympics when it will become GO4VXE

Should be fun!

The process is simple. As long as you have your OFCOM Lifetime Licence Number! I didn’t and had to scrabble around on the OFCOM site to get that. Once I had it, I had the online forms filled in and the NOVs in the form of PDF documents emailled back to me immediately.

You can apply here

Reading this post from 2E0HTS Simon did give me some interest in SSTV again. Although I didn’t want to do SSTV the traditional way as the images are low quality when QRM is coming in. I heard about digital SSTV modes and discovered now that it is actually not SSTV anymore. The pictures are send digitally and so you receive them they way they were made. This is really a nice mode for someone that has photography as a hobby. So, I had some spare time today to make this digital TV or photoshow happen. I installed Easypal the most used digital SSTV program around. And started on 20m receive, I actually received something but after half a hour still didn’t see any picture. Later on I tried some TX to see if one of the online receivers could get my picture. But unfortenately my signal has not been received, till I saw another received picture online from I6IBE. He did seem to receive my picture and send one in return, but still it didn’t appear on my screen. I don’t know why? But at last I did receive some pictures on 20m mostly from Russian stations. In the evening I switched to 80m 3733KHz LSB and found a crowded frequency and lots of pictures were received. I also discovered most of these stations are using amplifiers and only a almost perfect signal can be decoded. It’s not like analog SSTV were you see noise in the picture when QRM is fading in and out. If you get QRM with digital SSTV you simply miss some bits and you don’t see the picture. There is a possebility to fix the missing parts, but from what I’ve been experiencing so far it’s seldom been used. Conclusion: it was a nice experiment although I didn’t have the time to completely figure out all possebilities of Easypal. For someone with less time for the hobby it’s nice to receive only if you like all kind of pictures. But to make QSOs you really need a lot of time. After all I had a couple of hours radio fun.

Tnx report Ivo, unortenately didn’t receive you myself…

Welcome to Handiham World.

Ice!  Are you ready?

Photo:  Ice and snow cling to the dipole at the WA0TDA station in Minnesota.  The 450 Ohm feedline and the antenna wire are carrying a coating of heavy ice, as are the nearby tree branches.

Photo: Iced birch tree branches pull the antenna wire down.  

Photo:  Heavy ice coats the 450 Ohm ladder line in this close-up.
Here it comes: The annual Spring severe weather season is here in North America.  Tornadic winds hit in the southern Midwest states of Missouri and Kansas last night, while the same huge weather system brought Minnesota freezing rain and snow.  The transition from winter to summer often means that we will be visited by bad weather that can take down antennas and put stations off the air at the very time their communications capability may be needed.  This storm was well-forecast because it was being watched even as it approached the west coast from the Pacific.  Computer modeling lends a new degree of confidence in such forecasts, so it is perhaps a bit easier than ever to be ready.  

The problem for any given amateur radio operator is that forecasts cannot predict exact weather circumstances in a small geographic area. In this particular storm, heavy snow fell north and west of my location but we only got about 3 inches worth.  Our snow was preceded by rain – freezing rain – which coalesced around antenna wires and tree branches.  When the snow came, it added to the mass already collecting on the branches and wires.  This was a prescription for power outages because tree branches would inevitably begin to break under the weight of the ice and fall across power lines. The power lines themselves, if in the clear, seldom collect enough ice to fall on their own. Sure enough, this morning almost 15,000 customers were without power here in the Twin Cities. Since the storm was more severe in the northwest part of the urban area, that was the place with the most power outages. Even so, in my town there were over 400 customers without power. Our power never failed or even flickered, probably partly because of just plain luck and good switching at the power company to keep failed power lines from bringing down the entire system. One thing I looked for specifically when purchasing my property was underground power lines. I have lived in too many neighborhoods where tree branches fell across lines and cut the power in almost every severe storm.

So what can you do to keep your own antenna systems from failing under the weight of snow and ice?

Wire antennas should be installed so that they have some “give” to them. That means that if the wire should be stressed by the extra weight of ice, the antenna will be able to bend with the weight enough to avoid outright failure. There are various methods of making a wire antenna a bit more flexible. The obvious one is to make sure that when the antenna is installed that the wire is not pulled up tight. Sometimes ingenious methods can be designed to allow an antenna anchored in a tree to move freely as the tree moves in the wind. Usually unless the tree is exceptionally flexible it will be enough to simply allow enough slack in the antenna wire to make for reasonable movement.

Rigid metal antennas are another story. Most amateur radio beam antennas are made of aluminum tubing. Some types of aluminum tubing are “aircraft grade” and may flex more than standard tubing before breaking. No matter what kind of aluminum tubing is used, it is not immune to severe damage from ice loading. If the weight of the ice itself bending the aluminum doesn’t break it directly, wind that comes up after the ice is coated onto the elements may very well finish the job and bring the entire structure down in pieces. I am not sure that there is any practical way to prevent this kind of damage in a beam antenna system, but perhaps someone with experience can weigh in on the matter and let us know. Few amateur radio operators have tilt over towers that can perhaps be used to bring the whole antenna down close to the ground with the elements 90° to the surface of the earth so that water will run off of them. But what happens to the horizontal portion of the tower that will then be collecting ice? It’s hard to figure out how to prevent ice damage on a beam antenna system, so keep your insurance paid up.
An antenna that is coated with ice and snow will not necessarily tune correctly. When I tried using the LDG auto tuner this morning to tune my 200 foot wire antenna on a frequency that had been previously “memorized” by the tuner, it behaved exactly as if it were visiting that 75 m frequency for the very first time. The tuner cranked away for a while before finally settling on what had to be a very different combination of capacitance and inductance to allow for a reasonable standing wave ratio. Once the ice melts off the wire, the auto tuner will have to search again for a new combination as things return to normal. One thing to consider is that not all automatic tuners will be able to match an antenna that is heavily loaded with ice and snow. The operator must be aware of this and be careful not to operate with a high standing wave ratio.
The antenna wire itself is not the only thing affected by ice and snow. If you are using open wire feed line as I am, you can expect ice loading on the feed line to contribute to changes in how the antenna behaves on the air. If you use coaxial cable, your only real concern is weight of the ice on the cable itself. Any place feed line comes into the house it should have a “drip loop” so that water can drip off the bottom of the loop of feed line as the ice melts. This prevents the water from following the cable through the wall of the house and into the ham shack.

Your antenna system will be more robust if you use good quality materials to construct it in the first place. Good antenna wire may be more expensive initially, but it will be more likely to stay up under ice loading than some bargain wire. As the old saying goes, “a chain is only as strong as its weakest link”. In terms of a wire antenna system, this means that a cheap insulator could easily be a failure point no matter what kind of expensive wire and feed line you use. Needless to say, you should always take the time to secure wires properly to center and end insulators so that it will not work loose under pressure as ice pulls on the wire.

Following a weather event such as high wind or icing, you should plan to inspect your antenna systems for any possible damage or tree limbs that might’ve fallen against the antenna wire. Any kind of antenna system should always be located well away from power lines so that a failure in either the power line or the antenna will not make one of them come in contact with the other.
Tomorrow it will be March, and that is the month that I usually think of as being the start of this severe weather transition season. Maybe it’s time to take a look at that go-kit and make sure that you are ready.

For Handiham World, I’m…
Patrick Tice, [email protected]
Handiham Manager

In case anyone has seen weird behavior in the RSS feeds or on the Web sites, let me explain:  I have renumbered episodes after #018.  Back then I recorded a couple of updates from OSCON 2010 and called them Episode #018A and Episode #019A.  Not long after that, the discrepancy in numbering started to eat at me.  Now a couple of years later, I have decided to do something about it.  All of the episodes have been renumbered, meaning that we’re a couple of episodes ahead of where we were.  This will probably cause a little bit of confusion in the short term but overall I am happy that it is done.  Nothing else has changed, just the numbering scheme. Thank you for your patience while we go through this brief transition period.

73 de Russ, Linux in the Ham Shack

Yesterday I had an email from Raspberry Pi saying that today there would be an announcement about the the keenly awaited device. Today I took a look at their website and found out that they are almost ready to ship the low cost ARM based devices that run a Linux called Fedora. the specs are available at both RS and Farnells, two component suppliers here in the UK.

In case you couldn’t wait to click through then blow are the specifications lifted straight from the RS website. From what I can gather there will be two variants, one called model A and the other called model B aptly enough. The difference being the addition of LAN and some other undisclosed features on the Model B.

The Raspberry Pi is a credit-card sized computer board that plugs into a TV and a keyboard. It’s a miniature ARM-based PC which can be used for many of the things that a desktop PC does, like spreadsheets, word-processing and games. It also plays High-Definition video.

Features

• Broadcom BCM2835 700MHz ARM1176JZFS processor with FPU and Videocore 4 GPU
• GPU provides Open GL ES 2.0, hardware-accelerated OpenVG, and 1080p30 H.264 high-profile decode
• GPU is capable of 1Gpixel/s, 1.5Gtexel/s or 24GFLOPs with texture filtering and DMA infrastructure
• 256MB RAM
• Boots from SD card, running the Fedora version of Linux
• 10/100 BaseT Ethernet socket
• HDMI socket
• USB 2.0 socket
• RCA video socket
• SD card socket
• Powered from microUSB socket
• 3.5mm audio out jack
• Header footprint for camera connection
• Size: 85.6 x 53.98 x 17mm

Price £21.60

All this for just £21.60! I sound like an advert but if the blurb matches the ability to programme the little blighter (easily) then this must be a concern for the Arduino crowd. Before we all get too excited though the RS website allows you to register interest and you’ll be getting one each at first.

For reasons that will become clear in a future post or series of posts, we’ve been busy lately—don’t worry, it’s a good thing.  I did manage to sneak away from my regular (usually desk-bound analysis) work into the lab and tune-up an eBay-special cavity filter for 903 MHz with our new network analyzer.  It’s really amazing how you can dial these things in if you have the right tools.  This one is a 3-cavity filter about 10x8x3 cm.

Passband insertion loss is about 1.2 dB.  Harmonic rejection at 1.8 GHz is 70 dB down.  I’ll take it.

I also have some eBay-special helical filters that were advertised to be for 432 MHz.  So, I need to cobble up some carrier boards to try them out.  Another day, another project.

A good friend of mine passed away last week after a short illness. Mike Adams, WA2MWT, was a good friend and mentor, but just saying that doesn’t do Mike justice. You can (and should) read his obituary, or this nice article about him from the local paper  to get an idea of what kind of person Mike was, but I wanted to take a few minutes to share some of my personal memories of Mike.

I first met Mike about 12 years ago, right after I was first licensed as KC2FZT. I was encouraged by Joyce, KA2ANF, to attend a meeting of the local ham radio club, the 10-70 Repeater Association, but other than Joyce (who was one of the VEs who administered my exam), I really didn’t know anyone at the meeting. I wandered into the meeting and sat down, feeling a bit like a lost sheep, when Mike came up to me, introduced himself, and asked me to join him and a few others sitting together at a table near the back of the room. Mike helped “translate” some of what was going on and introduced me to others at the table, and generally made me feel welcome. Mike and I seemed to hit it off immediately. Actually, Mike seemed to hit it off with everyone immediately. To paraphrase my son Justin, KC2MCS, “Nobody ever had a bad thing to say about Mike. Everyone just liked him.”

As I found out, Mike was the Emergency Management Coordinator for the Borough of Ramsey, New Jersey, a town about 15 minutes away from where I lived. He was also a regular Net Control Station not only for the local NTS traffic net (NJVN/Late), but he also filled in on several other local area nets. I thought it might be interesting to get involved with NTS, but I didn’t really know how to get started and, like many other new hams, I was very “mic shy”. (As Mike explained to me, it’s “mic shy”, not “mike shy”.) Mike invited me to stop by the Ramsey Office of Emergency Management (OEM) headquarters (better known as the Emergency Operations Center, or EOC) and he’d show me how traffic handling was done.  (Traffic, in this context, has nothing to do with cars and roads, but rather with handling radiogram messages. While for the most part what’s done is for practice, it is a function of the Amateur Radio Service that has proven to be invaluable when other forms of communications are not functioning.) Mike patiently coached a very nervous me through my first NJVN/L check-in at the EOC, and kept on helping me until I was comfortable enough to eventually act as Net Control myself. Mike had a great way to put me at ease when I was nervous. In what became a running joke between us, he’d say “Don’t worry, we’ve all been there.”

Mike also introduced me to other public service aspects of ham radio. He got me involved with supporting numerous public service events, including bike tours and foot races. His encouragement helped me to decide to volunteer one year to support the NY City Marathon as a radio operator, which was an amazing experience.

Mike got me involved with Skywarn and ARES ®  and while I’m not as involved with either of those organizations as I was in the past, I glad that Mike gave me the push that I needed. He also encouraged me to become a member of the Ramsey OEM, which is a little unusual since I don’t live in Ramsey. Of course, I’m not the only one from out of town. Mike explained that one of the reasons why he recruited people from out of town was because that way there would always be someone unaffected by something that happened in the town available to provide assistance. Mike strongly believe that unless you were comfortable that you and your family were safe that you wouldn’t be able to effectively serve others. To that end, he made sure that we always remembered to “look out for number one”. It was that attitude that made me want to help, and I was honored a when I was made a Life Member of the Ramsey OEM a few years ago.

I will miss taking car trips with Mike out to Upton to attend the annual Skywarn coordinators meeting, the trip up to Newington to visit ARRL Headquarters, working with him during the Ramsey Run, the MS-100, and countless other public service events, and I will miss just sitting around the EOC talking with him. I will miss Mike’s sage advice, his wit, and his friendship.

Goodbye my friend.