Author Archives: Administrator

My New Shack Home QTH

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Progress is taking a pace in the completion of my new purpose built radio shack/home office. Some say I’ve been banished finally to life in the garden whereas I would argue the serenity of peach and purposeful entertainment ….oh and some work thrown in I guess!

Plans are for HF, VHF and UHF antennas to be located and installed behind the shack. I have a purpose built store room on the far side of the shack which will house remote tuners if required, rotator gear and other ham radio ‘bits’ as my better half calls it all.

I really hoping that when it come to installing equipment in particular my antenna systems and perhaps the rest of the gear I might call upon a few members who might want to help me with that. I’m also more than happy to ‘loan’ out my shack for other members to use and perhaps experiment with particularly when it comes to VHF/UHF developments.

I intend to purchase a hex beam for HF and then work on my home brew projects.  Currently have 4 home brew antennas waiting for modification before I decide which one’s to install when the shack is ready….VHF(UHF) Parabeam (late 80’s) will need rotator … a must, a J pole (slim Jim design)..that’s going up somewhere, and some old CB stuff …an original 5/8th wave vertical Hygain Super Penatrator (left over from my CB days), an original Avanti Astro Plane (basically a co-inductive J pole that has a capacitance hat and is omnidirectional), a modified dipole that intend to use on 6m. I am about to take delivery of another beat up old Avanti PDL2 beam (a basic bi-polarised double fed antenna). These were legendary (as were Moonraker beams) back in the day. I intend to modify it for Ham use not sure which bands yet but considering VHF/UHF after reading Andrews post. A fellow Ham has modified his for 6m.

Busy but fun times ahead. Looking forward to it.

Mark M6KMJ

Receiving Packets from the ISS

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One of my main interests in amateur radio involves picking up radio signals from satellites and (one day) talking to astronauts on the space station. Getting a contact with the ISS may be difficult, but there is an easier thing to have a go at first. The space station is fitted with an AX.25 APRS (Automated Packet Reporting System) repeater which transmits on VHF. The repeater is nearly always activated, and sends out packets roughly every couple of seconds.

Hardware Setup

There are several types of hardware setups you can use to pick up the space station’s packet repeater. Handheld yagi antennas are a common choice, and omnidirectional antennas can also be used. Personally I use the following setup:

  • RTL-SDR Dongle (wideband receiver)
  • Crossed Dipole Satellite Antenna

Satellite Antenna

 

This is the antenna I have been using. It is a 2-element crossed yagi tuned to 137mhz. Originally it was designed to pick up signals from weather satellites, but it receives a good signal from the ISS packet repeater (145.825mhz).

I believe it is also possible to receiving packets from the space station using an omnidirectional antenna. My Kenwood VHF radio was also picking up data packets on a good pass, using a 2m Slim Jim.

The antenna is fed with about 10m of RG-58 coax into the radio shack window. The cable is then plugged into my Realtek Software Defined Radio (discussed in my earlier post) using a MCX to SO259 pigtail adapter.

SDR Setup

 

Software Used

  • SDR# – The first piece of software that I used is called SDR# (SDR-Sharp). It is used to control my SDR dongle, and tune into the frequency transmitted by the ISS’ APRS repeater (145.825mhz). A full guide to installing and setting up the software can be found in my previous post. Download Link
  • VB-Cable – This is a virtual audio cable, used to send the audio from SDR# to the packet decoding software. Download Link
  • QTMM APRS Decoder – This is the software that decodes the APRS packets. Download Link

Software Setup

First you need to set up VB-Cable to send the audio output of SDR# to the AX.25 Decoder.

  • Download VB-Cable from the above linkVB-Cable Download
  • Extract the .zip file
  • Run “VBCABLE_Setup_x64.exe” as an administrator (don’t use x64 version if you are using 32bit windows)Running as admin
  • Click on “Install Driver”Install Driver
  • Accept the unverified driver warningUnverified Driver Warning
  • Restart when prompted
  • Go into the sound settings (right click on volume icon, click “sound”)Sound Settings
  • Click on “CABLE Input”, and click on “Set Default”

Now that the virtual audio cable is setup, you will need to is set up SDR#. Tune the radio to 145.825mhz, and set the mode to NFM. You can adjust the squelch control but that is not required. Set the bandwidth to around 10khz.

Remember, due to the Doppler Effect, the signal will move as the satellite moves across the sky. You will need to adjust the frequency regularly to compensate for this.

Now, your SDR# window should look something like this:

SDR# Windows

Finally, extract and open qtmm, which decodes the APRS packets. The file that runs the program is called “afsk1200dec.exe

You will need to do two things:

  • Select the appropriate audio input (“Virtual Audio Cable” or “CABLE Input“)
  • Hit the play button

The program should be displaying “Decoder Running” in the bottom corner, like this:

Decoder

That’s it, all you need to do now is wait for the space station to fly past.

Orbit Tracking

In order to receive data from the ISS, you need to wait until it flies overhead. Enter your locator into Amsat’s Pass Predictor to get a list of passes. You’re looking for something with a maximum elevation as close to 90° possible. At my QTH I get a couple of good passes a day, and have had as close as 89° of elevation.

There is also orbit prediction software available, such as Orbitron, which I have found useful.

I also recommend keeping an eye on an ISS tracker, so you know the exact position of the ISS. The space station also has a high definition camera streaming live, which you  can view from here.

What To Expect

When the ISS flies overhead, you should expect up to about 10 minutes of data reception. On my best attempt, I’ve received data between Cork, Ireland and Frankfurt, Germany. The signals will appear as bursts of digital data, repeating every few seconds or so.

SDR Setup

The decoded data is the raw form of the APRS packets. Some will contain GPS co-ordinates, whereas others will just be CQ calls or messages. Every now and again the ISS will transmit it’s ID, which will appear as “ARISS – International Space Station.”

Here an example of some decoded messages from the ISS repeater:

18:42:27$ fm RS0ISS-0 to CQ-0 UIv PID=F0
>ARISS – International Space Station

18:42:44$ fm EI8ETB-0 to CQ-0 via RS0ISS-0 UI PID=F0
=5151.51N/00826.55W-Thomas IO51SU Cork {UISS54}

Make sure to also listen out on 145.800mhz, the voice downlink used by the ISS. I haven’t heard anything yet, but if the astronauts do use their amateur radio set, it will be on this frequency (145.200mhz uplink / 145.800mhz downlink).

Conclusion

I hope that you have as much luck as myself when trying to receive data from the ISS. If you have any questions then please leave a comment below, or catch me on a club night. I always have my laptop and SDR with me, if you want to have a look.

-Peter Barnes (M6KVA)

Software Defined Radio

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The RTL-SDR is an inexpensive software defined radio dongle based on the RTL2832u chipset. The dongle was designed to be used as a digital video and radio receiver, but with some custom firmware can be re-purposed as a wideband software defined radio receiver.

Effectively this means that for under £10, you can get a radio scanner capable of receiving between around 22mhz and 1.8ghz. I started playing around with my SDR long before I became interested in amateur radio, and here are some of my favorite uses:

These are just a few of the capabilities of the dongle. A longer list can be found on the RTLSDR website.

Where to get a dongle

The SDR dongle is available all over the internet, and in a few different versions. The most common one I’ve seen (and the one I use) is listed as RTL2832u + R820T. I bought itfrom Ebay, and it cost me just under £10 at the time.

Here is a link to a search on Ebay, which should come up with the right thing. Ebay search link

The product image should look something like this:

RTL SDR Dongle - Product Image

Antenna

The SDR dongle usually comes with an included whip antenna for picking up FM radio signals. The dongle has a MCX (Micro Coaxial) connector on it, which can be easily adapted to a SO259 connector (link). Personally I use my dongle with a discone antenna in the loft for general wideband reception, and with a crossed dipole satellite antenna for receiving data from satellites. More information about my antenna setup can be found on my QRZ profile.

Software Setup

The most commonly used SDR software is called SDR# (SDR-Sharp). The installation process is relatively simple, and includes drivers for the dongle. Do not install any of the included software that comes with the dongle.

  1. Download the software from airspy.com/downloadDownload Page
  2. Extract the zip file
  3. Run the “install-rtlsdr.bat” which will download the latest driversinstall-rtlsdr.bat screenshot
  4. Plug in the SDR dongle, and wait for Windows to attempt to install drivers.
  5. In the sdrsharp folder, right click on the file called “Zadig.exe” and select “Run as Administrator”
  6. When the Zadig application opens, click “Options” and select “List All Devices”List All Devices Screenshot
  7. Select “Bulk-In, Interface (Interface 0)” from the drop down list. If RTL2832U or RTL2832UHIDIR show as options, these are also fine to use.Bulk-In sreenshot
  8. Check that WinUSB is shown in the box above “Replace Driver” and then click “Replace Driver.” Your computer may warn you about using unverified drivers, but it is safe to install the drivers regardless.Driver Warning
  9. Run “SDRSharp.exe”
  10. Press the settings button in the top-left corner, and set the gain (requires some experimentation to be set correctly)
  11. Press the play button in the top-left corner

Now SDR# should be set up and functioning correctly. If you have any issues, have a look at the Quick Start Guide, or leave a comment below.

SDR Sharp Guide

SDR Sharp GUI

This is the SDR# User Interface. In the middle is the Spectrum Analyser and Waterfall, and on the left are all the settings for the program.

Firstly you’ll need to correctly set the gain. To do this, hit the play button in the top left and tune the radio to a frequency with some signals (such as 99.5mhz). Then open the settings menu (cogwheel in the top-left corner) and have a play with the gain control. The correct settings varies from dongle to dongle, but the general advice is to set it as high as you can without noticing an increase in the noise floor.

Using SDR#

SDR# ControlThis is the Radio control panel. It contains the most commonly used settings.

At the top, there is a list of modes that you can select.

Below this are bandwidth, squelch, step size controls.

More information on SDR# can be found on the SDR# quick start guide

 

Conclusion

I hope this provides you with some useful information about the RTL SDR dongle. It was money well spent for me, as I have used my SDR for loads of different applications, and it was probably the main thing that got me interested in amateur radio. Hopefully you find this guide useful, and if anyone has any questions, just post them in the comments below.

-Peter Barnes (M6KVA)

SDR & GNU Radio

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I’ve been using SDR and in particular, GNU Radio a lot recently. If anyone else is interested in comparing notes / experiments it would be great to catch up.

GNU Radio’s flow graph method of constructing working ‘devices’ (pictured below) has been particularly useful and interesting, especially as a novice.

GNU Radio screenshot

Editing a GNU Radio flowgraph in the GNU Radio Companion

New callsign – M6JNY

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My new callsign has also ‘arrived’: M6JNY. It took a while to choose, as my 2 dozen or so first choices had already gone!

To echo Nick’s (M6KKJ) comments: Many, many thanks to all members who helped me qualify. Particularly those who volunteered weekends and non-club nights.

Looking forward to catching some of you ‘on air’ soon.

Jon (M6JNY)

 

 

Got it!

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Hi all,

I just wanted to post that I got my new call sign – M6KKJ

In case you are wondering why KKJ – My kids names are Kieran, Kirsty and Jessica.

Special thanks go to Peter and Paul for their unending patience in helping organise my training, Rex for his uncanny CW excellence, Andrew for taking me through VHF and not forgetting Rob and Steven for helping me through HF.

To the rest of the club – Many thanks for being such a friendly and supportive group and making me feel so welcome.

Now, time to dust off the soldering iron as 2E0 is calling already.

Nick – M6KKJ

D STAR

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Rather inspired on by Peter’s G4OST talk on D Star capablities wondered if any other member might like to join me in ‘further investigation’ perhaps even a club interest group!?  I like the idea of broader band capabilties and use of internet gateways particularly as technology advances. I spend a lot of time working away and like the idea of a simple desk top set up that sees to be relitively low cost and easy to port.

I have also come by (as you do) a very cheap I Com IC E2820 FM Transciever (link) with DV mode capabilities and with it’s software module (UT-123) pre-installed. John G6HIV (Essex) was selling one radio as he has two in the shack already using D Star.

Like to try that out at our (a) next on-air night if anyone else is up for that ? Be a bit of stab into the unknown for me although I do use ecolink a far bit?!…. but I like my technology so should be ok.I’ll bring the radio anyway and we can go from there.

Catch you all at club

Best

Mark

 

 

DIY Wouxun Programming Cable

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I use a Wouxun KG-UVD1P handheld radio for all my operations. A few extra features can be used with the addition of a programming cable. These include:

  • Expanding the Tx and Rx range of the radio
  • Programming HAM repeaters into the memory
  • Changing some advanced settings

The cable required currently costs £5.69 from Ebay (link). Looking at the specification of the cable, I decided to look into the option of making one myself.

Parts List

Build

The build process is very simple. Three connections need to be made, as shown in the below diagram.

Circuit Diagram

As I used a 2.5mm to 3.5mm cable, I simply cut it in half, and used a multimeter to match the wires up to the correct connections on the plug. I used some heat-shrink to make everything look nice, and then I was finished. I made sure to check the connections before using the cable.

Image of the cable I madeUsage

In order to use the cable, you need to install a driver, and Wouxun programming software.

  • Download and extract the Windows 8/8.1/10 driver from Prolific’s website (link).
  • Open “Device Manager”
  • You should see “Prolific USB-to-Serial Comm Port” under the “Ports” submenu
  • Right click on the device, and click “Properties”

Screenshot of Device Manager

  • Go to the “Driver” tab and click “Update Driver…”
  • Click “Browse my computer for driver software”
  • Choose “Let me pick from a list of device drivers on my computer”
  • Click “Have Disk”
  • Navigate to the driver that you downloaded earlier, and choose the “ser2pl.inf” file
  • Click “OK” to install the driver

Once that is done, you should be set to go. You can download the Wouxun programming software from their website (link). To program the radio, plug in both headphone jacks, and turn the radio on. Wouxun’s programming software will work automatically and is fairly easy to use.

Conclusion

Despite being slightly harder to set up than the official cable, this DIY option is much cheaper and does the job. Hopefully you find this guide useful, and if anyone has any questions, just post them in the comments below.

-Peter Barnes

HF Net

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Guys we have dabbled with having an agreed HF net in the past. I for one would like to see us have a regular QST HF net on a designated day, time etc. Has anyone got any thoughts on this…band…frequency…day etc. I’d also like to put forward a suggestion that we consider a mobile HF net at some point. Even dabble with HF mobile set ups etc for those that are not mobile yet or even considered it. Comments??? Mark M6KMJ