I have just found a wonderful example of “Chinglish” on the base of the desk charger for a Baofeng UV-5R.

Let me know if you find any better ones!

Julian Moss, G4ILO, is a regular contributor to AmateurRadio.com and writes from Cumbria, England. Contact him at [email protected].

I activated Mt. Evans for Summits on the Air (SOTA) on July 15th. I took the route from Summit Lake to the top early in the morning since thunderstorms were in the forecast for the afternoon. I had the peak to myself for almost half an hour which was unexpected, considering that there is a road all the way to the top. I setup my vertical Buddipole for 20m and started my activation – so far nothing out of the ordinary besides the bad band conditions due to the recent CME.

I was talking to ACØA in Kansas when I spotted a National Forest Ranger running up the path from the parking lot. I could not understand what he was saying since I was

distracted by my ongoing QSO and the lack of oxygen combined with his running up the mountain made his signal about a 22, with highly distorted audio.

He arrived at the summit breathless and stood next to me, courteous enough to let me finish my QSO (or just to catch his breath?). He then introduced himself and informed me that I have to take down the antenna immediately.

My first thoughts were that the antenna was considered some sort of a safety hazard for other visitors but NO. The reason is, he informed me, that you cannot build a structure on Nation Forest land without a permit. Sounds like a sensible rule to me…. who wants to see cabins etc. erected on public land everywhere. I argued that my antenna can hardly be considered a structure and my short survey among the few visitors on the summit (~10 people) came to the same conclusion – nobody considered my antenna a structure but he insisted. Furthermore he instructed me to drive to the Clear Creek Ranger District HQ in Idaho Springs to get a permit. Needless to say that I was not planning to make a ~60 mile round-trip to get a permit for my activities. I already had enough contacts for my Mt. Evans SOTA activation and the fact that I had planned another activation for later in the day I did not want to waste my time arguing and started to pack up. Luckily I had my tape-measure YAGI with me for my next activation and I was hoping it would pass the NOT BEING A STRUCTURE test by the National Forest (to make sure I did not ask).

I tried to follow up with the person in charge for the Clear Creek Ranger District… she is on vacation. Sure glad I did not drive all the way to Idaho Springs.

GOOGLing, I found Forest Rules You Need to Know, published by the Secretary of Agriculture. On page two, under the chapter OTHER PROHIBITED FACTS it indeed prohibits “Constructing, placing, or maintaining any kind of communication equipment without a special use authorization“. Again, that makes sense to me to avoid that every Tom, Dick and Harry sets up his own repeater on public land… it does however not make sense to me for a temporary, mobile/portable antenna as I was using.

It would certainly put a damper on SOTA activations and the upcoming 14er event. I am almost certain that on Field Day a lot of antennas go up on NF land.

I would be interested in your experience and/or opinion and I am planning to follow up with the Clear Creek Ranger District. Maybe I was just dealing with an overly eager Ranger? Stay tuned…

Matt/KØMOS

Matt Schnizer, KØMOS, is a special contributor to AmateurRadio.com and writes from Colorado, USA. Contact him at k0mos at schnizer.com.

Welcome to Handiham World.

Bucket list!

Photo: I found the problem. The confabulator gear is stripped. You’ll need a new one if you want this Vega to make it back to Podunk. 
Hey, readers and listeners! It is certainly high summer here in North America and the temperature is so high and the humidity so oppressive that we are definitely not thinking clearly. That is why we have come up with this “bucket list” which we hope to complete before we die.

1. Landing a single engine plane on the beach.
2. Changing the transmission in a Chevrolet Vega.
3. Making yogurt from scratch.
4. Setting the tone and frequencies on a mobile radio while driving.

Well, if you are like me you have probably done the first three of these things without any particular problem, but you have never been able to safely program a mobile VHF/UHF radio while driving a car. In fact, programming a radio while driving can be a frighteningly dangerous experience, much worse than sampling that first icky-looking spoonful of homemade yogurt or dropping a Vega transmission on your toes. That is why the radio programming is not checked off my bucket list. In fact, programming a radio while driving instead of watching the road is a good way to assure that you will probably die before completing most of the items on your bucket list.
I started thinking about this particular problem when I read the correspondence section of the August QST wherein astute letter writer K2GW talks about making the programming process for VHF/UHF radios more user-friendly. The use of subaudible tones on repeater systems is so common as to be expected, and most of us will have to admit that these systems do an excellent job of preventing the repeater from ever actually being used for anything, but mostly from ever being successfully accessed by anyone trying to keep a car between the ditches while traveling through the area supposedly served by the repeater.
Of course the subaudible tones might be necessary to prevent interference from distant repeaters should there be a band opening or from other nearby RF sources or an alien invasion where the flying saucers transmit on the repeater input. I get that. But the problem remains that unless you are able to preprogram your radio for the repeaters along your route, you are likely going to be out of luck when you try to simply access them by punching a receive frequency into the VFO and letting the radio’s built-in offset function set the transmit frequency according to the band plan. One possible workaround is to listen for activity on the repeater in question and then punch the tone scan function button to try to locate the correct subaudible tone. If this works and you do not end up in the ditch (especially dangerous in Florida where hungry alligators find the ditches quite attractive), then you might be in business. The more likely outcome is that you will drive entirely through the repeater’s coverage zone without hearing any activity.
The ARRL TravelPlus® repeater directory on CD-ROM does provide a way to map and program radios along a planned route, so it is a good resource that allows you to program your radio well in advance of your trip. Programming your radio while sitting in the driveway is one heck of a lot safer than meeting an alligator for lunch. Still, you may need to program a radio while in motion. The safe way to do this is for you to pay full attention to the radio by letting someone else do the driving. When my wife and I take car trips, I feel safe enough fiddling with the radio while she pilots the car. While this division of labor keeps the car out of the ditch, it does not necessarily ensure that one will be able to access or make a contact on a repeater.
One time, on a trip through alligator-free central Illinois, I tried a repeater that I really, really wanted to use and that was programmed into my radio already, because I had looked it up in my repeater directory. I heard the repeater identify and decided to throw out my call sign.
Silence.
Okay, so I upped the power and tried again.
Silence.
Obviously, the subaudible tone that I had programmed was incorrect. So I set the radio to tone scan and hoped for someone to transmit on the repeater. Well, that didn’t happen. I guess I probably could have gone through every possible subaudible tone while kerchunking the repeater and throwing my call sign out, but somehow that didn’t seem to be worthwhile. Instead, I switched to VFO mode and 146.52 MHz where I had a nice QSO with a truck driver who was passing through. The subaudible tone system had certainly done its job of preventing interference and any actual use by mobile stations, that’s for sure. Later, after we got back home from vacation, I discovered that the subaudible tone for that particular repeater was incorrectly listed in the directory.
I’m not sure what the answer to this partly technological and partly behavioral issue is with VHF/UHF repeater systems. All I know is that you cannot make things that difficult to use because prospective users have many other alternative means to communicate and they will vote with their feet and go somewhere else. For example, I can easily bring up the node of my favorite repeater on my Android phone by using the EchoLink application. I recommend doing this while you are sitting in the passenger seat rather than trying to steer the car. Once I am connected on EchoLink, all I need for reliable communications is a cell phone data signal. I can talk to my friends who are regulars on my preferred EchoLink-enabled repeater system.
Would I prefer to use the radio in my car to make a local contact? Certainly! But hey, repeater owners out there – you might consider connecting your repeaters with the world via IRLP or EchoLink and make sure that your frequency and tone information are correctly listed in repeater databases and on your club website. And if any of you local stations are listening on the repeater and hear a mobile station give a call, take a minute to have a short conversation and make a new friend! Maybe the technology will improve to the point that radios will be easy enough to use while driving so that one day I will be able to actually use repeaters I encounter along my mobile route.
Today’s safety tip: Don’t feed the alligators. Also, but not safety-related, the QST audio digest in DAISY format is now available for our blind members in the DAISY section. You can hear me read the correspondence section with the K2GW letter.
The long-range forecast: Speaking of Podunk, localism is an endangered species. As applications for mobile devices like smartphones proliferate, people will listen to the broadcast stations they prefer, avoiding the local stations – especially when they are on the move, traveling by car. When the typical car driver would one time tune around for the local yokel stations along the route, the trend will favor simply staying tuned to the internet station they have always liked. Satellite radio is already making such inroads into localism. The same thing is going to happen to local repeater systems. If the repeater system is not linked, it may be doomed to obscurity. Repeater owners who think EchoLink “isn’t real radio”, take note.

Pat Tice, WA0TDA, is the manager of HANDI-HAM and a regular contributor to AmateurRadio.com. Contact him at [email protected].

I recently confessed blogged about a not-that-well-executed SOTA (Summits on The Air) activation, in How Not to Do a SOTA Activation. This past weekend, I made another run at it with much better results. Still, I did use a slacker low impact approach to the activation.

My hiking partner spouse and I decided to go for a hike on Sunday afternoon. It had been many years since we had climbed up to the fire lookout on Devils Head in Pike National Forest, so that sounded like a great destination. There is an excellent view at the top (fire lookouts tend to be like that) and the weather was awesome. I checked the SOTA list, and sure enough, Devils Head is a legitimate SOTA peak (W0/FR-051).

The hike is about 2.8 miles round trip with an elevation gain of 950 feet. I put this in the category of a good tourist hike…with just enough huffing and puffing to make you think you worked for it but not so much that it kills you. Here’s the topo map and route taken from everytrail.com: 

As I put together my daypack, I tossed in my Yaesu FT-60 handheld radio and a 1/2-wave vertical whip antenna. This was going to be a 2M FM operation only.  (I don’t have anything against HF, but there is something magic about VHF propagation with a little altitude.) Then I sent a quick message to a couple of the local email lists asking for people to try to work me on the summit. We drove to the trailhead and started our hike up the trail, which is heavily used but well maintained.

The fire lookout is not a tower. It sits on top of a large rock formation with stairs leading up the side of the rock.

When we got to the top, we spent some time enjoying the view and catching our breath. As the sign says, the stairs have 143 steps which take you to an elevation of 9748 feet.

I got out the radio and started calling CQ on 146.52 MHz. Ted (NØNKG) came right back to me…I think he probably saw my email message. Over the next half hour, I worked a total of 7 contacts: NØNKG, N2RL, NØGWM, W7RTX, WB9QDL, KØDEN and WXØPIX. I even remembered to bring along a log book and a pen to write it all down.

Bill Ellis staffs the fire lookout for the US Forest Service most of the time during the summer. He handed me a card that certifies that I climbed up to the lookout station. Note that this card indicates that it is the 100th anniversary of the fire lookout! And Bill’s been doing this for 26 years. Cool!

Various people have said that Devils Head is a must do hike in Colorado and I have to agree (whether you are doing a SOTA activation or not). It turns out that I was the second person to activate Devils Head as a SOTA summit, with Chuck (N6UHB) having done it in October 2011. I’ll probably do some more of this since it is a nice blend of ham radio, hiking and enjoying the view from a high spot.

   73, Bob K0NR

Bob Witte, KØNR, is a regular contributor to AmateurRadio.com and writes from Colorado, USA. Contact him at [email protected].

Outdoor temperature reading

We had the hottest day on record today at mid day it climbed to 39C or 102F. When you factored in the humidity it was a nice hot and sticky 47C or 117F.

Mike Weir, VE9KK, is a regular contributor to AmateurRadio.com and writes from New Brunswick, Canada. Contact him at [email protected].

Hans Summers (G0UPL) and Steve Farthing (G0XAR) have recently begun selling a new kit for a QRPp (150mW) beacon that can generate Hellschreiber, various QRSS modes and best of all WSPR. Unlike the ones now sitting unused in a drawer in G4ILO’s shack which have my details programmed in, the Ultimate QRSS Transmitter Kit has a user interface with an LCD panel that allows you to input your own callsign, locator and power output. This means it has resale value – when you get bored you can sell it on and the new owner can program it with his own details.

At the moment, kits are only available for the 30m, 40m and 80m bands, though they can also generate an audio signal that can be used to drive an SSB transmitter.

I asked Hans if they were going to offer a version for 20m, which has become one of the most popular WSPR bands. His reply was that the kits will actually work fine on any frequency between 1MHz and 20MHz, they just require a different crystal and different components in the low pass filter.

A 20m beacon for WSPR would need a 14.097MHz crystal. I searched my junkbox and couldn’t find one. Nor could I find a source for one and having one specially made would be expensive. Perhaps if there is enough demand for a 20m version it will be worth Hans and Steve’s while to have a batch made which will be cheaper.

Julian Moss, G4ILO, is a regular contributor to AmateurRadio.com and writes from Cumbria, England. Contact him at [email protected].

I was enjoying a leisurely sweltering summer Sunday afternoon in the back yard with Evan, Sarah, two Adirondack chairs, a kiddie pool, and the schematics for an IC-290A I have on the bench.  I came in to get a glass of water and while I was inside, I checked my e-mail (since I have some equipment for sale).  No prospective buyers, but I did have a message from Sean, KX9X, that he was working aurora on 6 and 2 meters.  I quickly plugged in the 2-meter rig and swung the beam around to the north.  Sure enough, there were raspy aurora signals all over two meters.  I quickly put N9GX (EN60) in the log for my first ever aurora QSO.  This was at least as cool as working K5QE on 2-meter Es with 10 watts.

So, I fumbled around a drawer and pulled out a cable to connect the TS-700S to the computer and fired up Audacity.  I made this interesting recording of KA1ZE/3.  I started out with the beam to the NE (45 degrees azimuth) with a strong auroral buzz on Stan’s signal.  Then I swung the beam around to the NNW direct path (345 degrees azimuth).  I’m in FM19la and he’s in FN01xt, which is exactly 200 miles (322 km) direct path.  On the direct (forward tropo scatter) path, there is still a hint of aurora, but the tone is a bit purer.  When I turn the rotor there is pretty bad hum from a (not unexpected) ground loop.

In order to better visualize a few things, I ran a short-time Fourier transform (this is the actual technical term for a “waterfall”) on the audio file.  I need to code-up a polyphase implementation of the FFT like that used in Rocky, but there are only so many hours in a day.  Click on the image for full-size.

There are lots of interesting details here.  First, you can see that the auroral scatter is both Doppler-shifted (lower in frequency) and Doppler-broadened (spread out from the central frequency) compared with the direct tropo scatter signal.  Second, you can see the ground-loop-induced hum at the low-frequency end.  Auroral backscatter comes from field-aligned plasma density irregularities embedded in the auroral convection flow.  Because most readers will be allergic to the vector math, we make the (somewhat gross) approximation that KA1ZE and I are transmitting and receiving from the same location.  Now, we can take a stab at estimating the flow velocity from the following equation:

Where delta-f is the Doppler shifted frequency (about 300-Hz from these data), c0 is the speed of light (300,000,000 m/s), f is the carrier frequency (144 MHz), and vflow is the flow velocity.  While we’re making approximations, if we round f up to 150 MHz, the twos cancel and we get the Doppler shift of 300 Hz corresponding to a flow velocity of 300 m/s (670 mi/hr).  Fast!  Because it is lower in frequency than the direct signal, we can also infer that the flow was directed away from us.

There you have it!  Science fair projects with your ham radio.

Ethan Miller, K8GU, is a regular contributor to AmateurRadio.com and writes from Maryland, USA. Contact him at [email protected].