Amateur radio antennas, circuits, techniques and related topics. By Peter Parker VK3YE/AK3YE.
Newer material appears at https://vk3ye.com and https://youtube.com/vk3ye .
A very simple antenna for the 432 MHz (70cm) band. Can be built in minutes but provides a little gain. Not as good as a beam but worthwhile for casual SSB and WSPR work.
PS: Find hints and tips for working DX in Minimum QRP. It's the top-selling manual on the equipment, antennas, operating and strategy of successful QRP operating. And its techniques work for 100 watts as well. It's available for under $US 5 each in electronic form. Or you can get a paperback version. Visit VK3YE Radio Books to find out more.
First part of this new video is mainly of interest to VK viewers as it discusses our unofficial SSB calling frequency of 28.490 MHz. Second part demonstrates a few pedestrian mobile contacts made on (and off) the beach.
PS: I've now written six books on various aspects of amateur radio. Whether you experiment with antennas, enjoy QRP or are starting out in radio there's a book for you. Find out more here.
PS: I've now written six books on various aspects of amateur radio. Whether you experiment with antennas, enjoy QRP or are starting out in radio there's a book for you. Find out more here.
A video worth watching from EEV Blog explaining near and far field.
Applicable for RF work and EMC compliance testing.
PS: Do you sometimes come across terms that you're unfamiliar with? The Illustrated International Ham Radio Dictionary can help. Available in both ebook and paperback it's great value. Find out more here.
A quick video where I make a tuned circuit (for around 50 MHz) and test it. Firstly with a noise source and receiver and then with a Nano VNA. Tuned circuits have many applications in radio including antenna traps and receiver front ends.
PS: I've now written six books on various aspects of amateur radio. Whether you experiment with antennas, enjoy QRP or are starting out in radio there's a book for you. Find out more here.
Some tyes of antennas are used in other facets of radio but don't commonly find their way into the ham world. One of those is the bi-quad. It's basically two quad loops in parallel but configured so it looks like a bow tie (vertically polarised version). They're most common for 2.4 GHz wi-fi work where they can be made from a piece of wire soldered to an antenna connector. A reflector behind gives some extra gain and directivity. If you have a little more room there is such a thing as a double bi-quad (4 squares instead of 2) for even more gain.
You can make one from wire for 70cm if you scale the dimensions up. My own quick experiments have been promising though there's far less activity here on 70cm (especially digital modes) than 2m.
Anyway here's some links to follow up if you're interested.
PS: Find hints and tips for working DX in Minimum QRP. It's the top-selling manual on the equipment, antennas, operating and strategy of successful QRP operating. And its techniques work for 100 watts as well. It's available for under $US 5 each in electronic form. Or you can get a paperback version. Visit VK3YE Radio Books to find out more.
Here's another portable antenna to try. It uses a pair of TV rabbits ears. Because what I had didn't spread out to a very wide angle, I removed them from their holders and attached them to a piece of plastic chopping board. And because they were only 1m each long I added some loading to allow operation on 50 MHz (which needs about 1.35 to 1.4 m length each).
Then more turns were added to give 28 MHz operation. This makes sense because 28 MHz is normally open when 50 MHz is and overall there's more activity on 28 MHz. So if you move the coil tap you get a portable dual band antenna.
The video describes it a bit more and demonstrates a 1000km plus SSB contact on 28 MHz. You could likely get more bands by adding more turns but efficiency will gradually fall. This design is a good option for 27 MHz CBers looking for something they can take portable but which folds up to a small space.
Would I use it in preference to the loop I already have for 28 & 50 MHz? Probably not. Not because performance is lacking but because it's a bit unwieldy to use while walking around. PS: Want to learn about portable antennas? You'll find many ideas and projects in the top-selling Hand-carried QRP antennas.
This is an antenna I'd like to experiment with but haven't got around to it. It's basically a two element beam. The reflector is straight while the drive element is V-shaped. This is potentially a handy way of getting a bit of gain on bands like 10 and 15 metres. They seem to have been most described by European hams.
Some links here:
G4ZU website (G4ZU is a silent key and his antenna work is summarised here)
A quick video where an unexpected noise source that interfered with 28 MHz reception was identified. Watch to find out more!
PS: I've now written six books on various aspects of amateur radio. Whether you experiment with antennas, enjoy QRP or are starting out in radio there's a book for you. Find out more here.
Want a quick video to show someone whose expressed an interest in amateur radio? Here's one from the ARRL.
PS: Want to read about antennas? Consider this selection of antenna books. They are affiliate links meaning that I receive a small commission (at no extra cost to you) if you decide to purchase.
PS: I've now written six books on various aspects of amateur radio. Whether you experiment with antennas, enjoy QRP or are starting out in radio there's a book for you. Find out more here.
No apologies for more on 28 MHz as the band's been open a lot lately. While sporadic-E mainly happens in the summer there is also a smaller burst in winter. So northern hemisphere folk can join in the fun.
This video gives some tips on how you can find out when the band is open to avoid missing out on the action.
PS: Heard about my new book? It's the Australian Ham Radio Handbook. It's now available both as an ebook and paperback. Find out more here!
Something that's hit amateur radio antenna experimentation by storm in the last 6 months or so is the availability of very small and very cheap vector network analysers. Previously considered expensive test equipment, they are now within reach of (and can be put in) every pocket.
They are a bit clunky to use and their user interface isn't great (especially if you have fat fingers). And they won't be as accurate as expensive gear. However they open up a world of measurement that amateurs with a non-professional electronics background did not necessarily have.
Use as an antenna analyser is an example application. You could also try connecting anything that exhibits varying reactance across different frequencies, for instance coil and capacitor combinations.
Anyway if you've just got one or are about to take the plunge then these video resources could be handy.
PS: I've now written six books on various aspects of amateur radio. Whether you experiment with antennas, enjoy QRP or are starting out in radio there's a book for you. Find out more here.
The rest of Australia was sweltering but yesterday was nice weather here. So I went for a 5km walk along the beach, taking 10 metres with me. The video shows what I worked during the good conditions.
PS: Find hints and tips for working DX in Minimum QRP. It's the top-selling manual on the equipment, antennas, operating and strategy of successful QRP operating. And its techniques work for 100 watts as well. It's available for under $US 5 each in electronic form. Or you can get a paperback version. Visit VK3YE Radio Books to find out more.
About 8 years ago, before the FT8 mode was invented, I built a simple receiving converter. When used with a laptop computer with SDR software it could receive signals on segments of the 80 and 40 metre amateur bands.
It was very crude. For example there was no image rejection. Therefore signals on the lower side of the centre frequency would also appear above (with inverted sideband) and vice versa. Anyway yesterday I got it out to see how it would work on FT8. It did! More in this video!
PS: Find hints and tips for working DX in Minimum QRP. It's the top-selling manual on the equipment, antennas, operating and strategy of successful QRP operating. And its techniques work for 100 watts as well. It's available for under $US 5 each in electronic form. Or you can get a paperback version. Visit VK3YE Radio Books to find out more.
On Sunday I went to a Maker Faire not far from here. This video is some of the highlights. Yes, there are still lots of people doing things with electronics!
PS: Heard about my new book? It's the Australian Ham Radio Handbook. It's now available both as an ebook and paperback. Find out more here!
Those who tinker often like to squeeze the best performance out of their creation. It might be accelaration or fuel economy from their vehicles, output power from a linear amplifier or gain from an antenna.
Something else in this category is pulling range with a variable crystal oscillator (VXO). Normally they can only be shifted by a few kilohertz. However there's ways, from keeping capacitances down, adding series inductance to using parallel crystals, that extend pulling range. The cnallenge in this case is to maximise pulling range while keeping your signal acceptably stable. And pulling above a crystal's marked frequency can be harder than pulling below it.
This video is of a VXO experiment. I use 7.023 MHz crystals, a frequency commonly supplied with the cheap 'Pixie' QRP transceiver kits.
Have you ever built a VXO? What pulling range did you get? Please let me know in the comments below.
PS: Find hints and tips for working DX in Minimum QRP. It's the top-selling manual on the equipment, antennas, operating and strategy of successful QRP operating. And its techniques work for 100 watts as well. It's available for under $US 5 each in electronic form. Or you can get a paperback version. Visit VK3YE Radio Books to find out more.
This time I'm at home using about the most modest antenna you can get - a vertical dipole for 50 MHz (which doubles as an extended double zepp on 2m). I try various modes on 6m with 5w from an FT817. Very happy with the results.
And for more on the antenna enjoy this video.
PS: I've now written six books on various aspects of amateur radio. Whether you experiment with antennas, enjoy QRP or are starting out in radio there's a book for you. Find out more here.
Some weekend listening to 27 MHz CB & 28 MHz amateur activity. Signals were heard from up to about 1500km distant. I was using a small Digitech HF receiver capable of SSB reception.
PS: Heard about my new book? It's the Australian Ham Radio Handbook. It's now available both as an ebook and paperback. Find out more here!
Northern hemisphere readers are going into winter while us down here are entering summer. Which brings more daylight to be out and about plus enhanced sporadic-E propagation. Yesterday was a great example with sporadic E all the way up to 144 MHz.
Video shows me out and about on 28 MHz SSB working various stations up to approx 1500km distance.
PS: Want to learn about portable antennas? You'll find many ideas and projects in the top-selling Hand-carried QRP antennas.