The Vancouver Canucks Fan Zone along Georgia St. for Game 7 of the 2011 Stanley Cup Final was captured at 5:46 pm on June 15, 2011. It is made up of 216 photos (12 across by 18 down) stitched together, taken over a 15-minute span, and is not supposed to represent a single moment in time. The final hi-res file is 69,394 X 30,420 pixels or 2,110 megapixels. Special thanks to Bonita Howard and CBC Real Estate.
Contact Jim Howard, Cherokee County ARES EC, for further details on his “Boot
Camp” to assist Tech Class hams in upgrading to General Class:
“Jim Howard” <email@example.com>
Also, contact Jim W4SDJ for info on ham exam testing on July 25th.
2013 Annual Western Carolina Hamfest
Saturday July 27, 2013
Sponsored by Western Carolina Amateur Radio Society
WHERE: Haywood County Fairgrounds
758 Crabtree Road, Waynesville, NC
(GPS Coordinates: Lat: 35.533414 / Long: -82.960174 )
Gates open at 6:00 AM (you won’t find me there at 6AM!), Doors open at 8:00
AM. Advance tickets are $5.00, Tickets at the gate are $7.00, correct change
Hamfest Flyer and Advance Ticket Order Form:
I’m always skeptical when it comes to simulations. Earlier this week I posted coverage maps of our repeaters to get an idea of where exactly one can be and be able to reach the repeater. However, what good is a coverage map if it isn’t accurate?
Today I had to make a run up to Robbinsville. On the way over I decided to ping the repeater going through Andrews, NC. My mobile rig consists of a Yeasu FT-2900D, 75-watt 2 meter radio and a 5/8 wave antenna, with some terrible coax that I need to replace. So I’m positive my setup is less than optimal.
Likewise very good coverage between my QTH and Murphy along the main highways of US 64 and US74. However, I was curious of the results once I reached Andrews. I was lucky that Charlie, KK4JTF was on the air and was able to hang out and have a QSO while I was driving down the road. Signal reports were pretty much on par with what I was expecting, scratchy but full copy. This was the case until I got past Andrews, about a couple miles past Hardee’s going along 74. My destination was just a few miles outside of the city limits of Robbinsville right off US 129 and gave one last call on the repeater. I was able to open the squelch but was not readable and vice versa. I heard only a portion of Charlie’s transmission and was below the squelch threshold.
So looking at the coverage map and my route, I think we can agree that the coverage map is remarkably accurate. Each pixel on the map is equal to 100 meters x 100 meters, so this doesn’t take into account of mobile flutter. At the VHF frequencies, moving a few feet in any direction can make the difference between an S5 signal to nothing given the terrain and distance. Folks up in Andrews may or may not get into the repeater down here, propagation favors those on the northern parts of Andrews and at the peaks of the mountains. Realistically however, once you get past Andrews it’s time to switch to the KI4AIH repeater.
Overall the coverage map is a reliable way of determining where you can reach the repeater with a decent mobile setup. I will also be looking into producing coverage maps and site to site maps that would determine coverage from handheld and low powered stations from strategic locations. It’s a good thing to know as hand held radios often have a -5 db gain on the “rubber duck” antennas and have a reduced range and yet are very important part of a ham’s arsenal. More on that coming soon.
The H.A.A.R.P Facility in Alaska, known as the High Frequency Analysis And Research Project is to be shut down. Named the largest and most powerful phased array antenna system. Its transmitter at 3.6 million watts with an ERP in the Gigawatts, has been claimed by many conspiracy theorists to do everything from control the weather, burn up Russian ICBM’s even mind control. The demise of the facility according to nworeport is due to environmental causes; the diesel engines used to power the facility are no longer compliant to the Clean Air Act.
Read this great article on nworeport
One of the biggest problems here in the mountains is VHF coverage. In some places 100 watts can’t get you anywhere. Radio Mobile online provides online tools to estimate and produce coverage maps, and from my experience are surprisingly accurate when used appropriately.
The maps below indicate the estimated coverage area. Yellow is a weaker signal, where you can typically expect noise and trouble establishing two way communication, specifically 1 µV (-107 dBm). Green are stronger signals are are areas where you should easily be able to talk on the repeater as well as access it via a handheld, specifically 71 µV (-70 dBm). The reason why there is such a gap between weak and strong is due to the vast differences in receiver sensitivity, noise, antenna setups. So if you are “in the green,” and have trouble getting into the repeater, it may not be because the map isn’t entirely accurate; the purpose isn’t to pinpoint mobile fluttering, but to be as a guide to where you should be able to establish communications.
This is a new, inexpensive USB device, is taking amateur radio operators by storm. SDR radio, or Software Defined Radio, has been around for some time now, however, the cost of these SDR’s have kept many from enjoying the technology. Now you can purchase one of these SDR receivers off the internet at websites such as eBay for less than $20
So you’re probably wondering why this thing comes with a remote control. These are actually intended to be a digital terrestrial TV receiver, and use the DVB-T standard (which by the way won’t work here in the states), however that’s not what we’re wanting them for.
You will need to throw out the software and remote because you won’t need it. You will need some software (which is free) that will allow you to use the DVB-T USB stick as a SDR radio. There are several software packages available that will work with the USB stick, however I am going to provide the easiest steps to get your SDR up and running.
The great thing about these is the wide frequency coverage, some models vary. The USB stick I have will cover from 24 – 2300 MHz, and sensitivity when used with a “real” antenna is comparable to a normal radio in your ham shack. Image rejection from strong signals is not the greatest, however later in this article I will talk about how to reduce the effect.
Windows XP**, Vista, 7 & 8*
Intel Pentium 4 (minimum, read my remarks), Core2Duo/Core i3 or higher
1 GB of RAM or better
200 MB of available disk space (for installation), you will need considerable disk space to make recordings (we’ll talk about that further on).
Windows XP is a bugger, you can make these run under Windows XP, however you wont be able to use the software package I recommended most likely (I received a nasty DLL error), there are a few steps to fix but this might be for the more tech savy ham.
Windows 8 I have not tested, but since apparently Windows 8 shares a similar driver model as Windows 7, it is assumed everything should work fine (feedback requested).
Installation of Software
For most folks who want to jump right in, and not through hoops to get this to work can download a software package that includes:
- RTL2832U Drivers (these make the device work with windows and your SDR application)
- USRP Interface
Now some of this software isn’t needed (such as BorIP), but depending on your usage, it may necessary, and this stuff doesn’t take up that much room.
You can download this package here. All the software is in a ZIP file and you will need to extract the ZIP file to run the setup application.
During the setup you will be asked to setup a device using Zadig. Zadig will setup the USB driver for your SDR. If you don’t see anything that says “Bulk-in, Interface 0” just click on Options and click “Show all devices.”
Choose the Bulk-in, Interface 0 and click on Install Driver (mine shows replace driver because it is already installed on my computer). Once this is completed you will be given to option to install HDSDR or WinRAD (I suggest HDSDR, but there are others that are available)
Once the setup is complete, you may want to restart the computer to ensure everything works.
Basics of HDSDR
- Top – RF waterfall (you can adjust contrast, zoom, and speed)
- Middle – RF scope
- Bottom right – Audio spectrum waterfall
- Audio spectrum scope below waterfall
You will notice that you have two frequencies showing. One is the LO (Local Oscillator) and the other is the frequency you’re tuned to. The easiest way to tune to a frequency is to start typing it in, a box will immediately appear and you will choose kHz or MHz.
Buttons and Keyboard shortcuts
F5 – Soundcard – This allows you to choose and configure your soundcard, most of the time default settings are sufficient. If you have more than one soundcard you may want to change this.
F6 – Bandwidth – This sets the amount of bandwidth that the SDR will use. For SSB, or Narrow FM you may want to use 24000. While wider bandwidth modes such as AM, FM (including FM Stereo) you will want to set to the highest setting of 192,000. NOTE: If you do not see an option for 192k, then your soundcard cannot sample at this rate.
F7 – Options – This is the big one. This menu allows you to fully configure HDSDR. Anything from changing the sample rate, customizing the display and so on. Which bring us to the next section.
F1 – Help/Update – Contains links to help and information about HDSDR
F11 – Full Screen – Toggles back and forth from full screen.
F2 – Start/Stop – Starts and stops the SDR reciever
F3 – Minimize – Minimizes HDSDR to the taskbar
F4 – Exit – Exits the HDSDR application
A couple of tips
In addition to typing in the frequency you want to receive you can tune and fine tune the frequency by placing the cursor over the numeric display using the scroll wheel. You can apply a NB (Noise blanker), as well as IF and RF noise blankers. In CW mode you can set HDSDR to follow the CW signal in addition to other filtering.
CPU Speed and Performance
You will need a fast processor to take advantage of the higher sample rates and wide bandwidth modes. On slower, older computers, you may notice jitter and break-ups in the audio. If this is the case set the SDR to a lower sample rate. Depending on the software package you use, the sample rate can range from 1.0 Msps to 3.2 Msps. When using the Extio_RTL.dll (not used in the setup I’ve outlined) you can set the sample rate as low as .25 Msps. The sample rates translate into MHz of bandwidth, 3.2 Msps is equivalent to 3.2 MHz. This means when set at 3.2 you can look at 3.2 MHz at a time.
Recording and Disk Space
If you decide to record the RF from your SDR you will find that this uses disk space very quickly. Recording our weekly net, which lasts around 30 minutes will use over 20 GB of disk space at the 3.2 Msps sample rate. If disk space is low consider switching to a lower sample rate before recording. The recordings are in a WAV format, however, these WAV files (which are normally just an audio file) can only be played back by HDSDR. You may find that your recordings are broken up into several files, as the file size limits for a WAV file are 2 GB.
Image rejection is that ugly thing where a strong signal appears all over the radio dial. This can be combated by adjusting the gain. Also note that if you are using the extio_rtl.dll file (not used in the above setup) there is an automatic gain control, however adjusting may still be needed in some cases.
The antenna that comes with your SDR is not very good, in fact you might find that you don’t pick up much other than our local repeater and the couple FM broadcast stations. There are several options here. You can improve the existing antenna by attaching a longer element, using an adapter to use a different antenna, or simply cut the wire and solder a SO239 connector to attach a good antenna. W4GUD, Howard, says that the sensitivity of the SDR is comparable to a regular receiver when a suitable antenna is used.
Upconverters & Other sources
It is possible to get the good stuff below 24 MHz by using an up converter. An upconverter converts HF frequencies to a frequency that the SDR can use. Calibration of HDSDR is required when using the upconverter for HF reception. These upconverters are available at www.nooelec.com
You can also find more information about decoding certain digital modes and use other SDR software to take full advantage of the DVB-T USB stick. KF4QCB, James has provided some links with good stuff, be sure to check them out.
I encourage everyone to look into these, and remember if you run into trouble we’re here to help, that is what being a ham is all about.
Not that CW has gone out of style, however, the scope of Amateur Radio has changed. Along with being the last mile for communications during natural disasters, Amateur Radio can serve as a back for the Internet and provide all digital communication. Read on at technewsdaily.