Canvey Island, Essex, England Justin@g0ksc.co.uk
Twin boom quad
144MHz LFA Yagis
144MHz LFA Yagis

Low Noise LFA Yagis designed by G0KSC free to build for personal use.

144MHz LFA Yagis
70cms LFA Yagis
70cms LFA Yagis
Twin-Boom G0KSC Quads
G0KSC Twin-Boom Quads
Twin-Boom G0KSC Quads
G0KSC Custom Dish feeds - Above installation @ HB9Q
Custom low-noise dish feeds
Custom low-noise dish feeds
G0KSC Custom Dish Feeds

Above installation @ HB9Q

G0KSC Custom Dish feeds - Above installation @ HB9Q
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Read Time: 3 - 6 minutes
A 3el 12.5/50 Ohm 50MHz Optimised Wideband Low impedance (OWL) Yagi

Premium commercial versions of this antenna at Innovantennas

The OWL by G0KSC provides the benefits of both OWA (Optimised wideband Array) 50 Ohm antennas with those of traditional low impedance antennas. More information on the OWL can be found in the CONSTRUCTION menu above.

Do not look at the gain figure of this antenna and compare with other 6 element 50MHz Yagis. Compare the gain, F/B and bandwidth together against other antennas of a similar boom length. With 7.75dBi and a boom less than 1.3M long, this antenna will be a winner for field days and the rural Ham radio operator.

PLEASE NOTE:

  • Special attention should be taken in ensuring the element spacing and sizes are absolutley correct upon a 12.5 Ohm Yagi
  • If SWR is not perfect, D1 may also need to be adjusted. An analyser is reccomended for use when finalising 12.5 Ohm OWL Yagis
  • Visit 'Making the OWL Match' for more information on the recommended matching methods
  • Please add 2mm to each element to allow for insulator correction if using G0KSC insulators. Other insulators may require different correction, Email me for details
  • A Folded dipole can be added in order to give this antenna a 50 Ohm feedpoint.

The 3el mini Yagi at G0KSC's 2010 summer holiday location, Cornwall UK

Performance UK/USA Version

Forward Gain:                           7.48dBi at 50.250MHz

Front to Back Ratio:                   25.57dBi at 50.250MHz

Peak Gain:                                 7.49dBi

Peak F/B:                                    25.88dB

Bandwidth:                               500KHZ below 1.2:1

Build Dimensions for UK/USA Version

Element           Spacing in metres  Half element Length in metres            Element Notes

Reflector               0                        1.5055                                  12.7mm 1/2 inch Diameter tube

DE                       .311                    1.403 (FD)                            12.7mm  1/2 inch Tube

D1                       1.200                  1.331                                   12.7mm 1/2 inch Diameter tube

Build Dimensions for European Version

Element           Spacing in metres Half element Length in metres            Element Notes

Reflector               0                       1.506                                       12mm Diameter tube

DE                       .311                   1.404 (FD)                                12mm Diameter tube

D1                      1.200                  1.332                                        12mm Diameter tube

NOTE: This antenna is fitted with a Folded dipole made form a G0KSC Stauff clamp either side of a 30/32mm square boom holding either 12mm or 1/2inch tube. The end sections are 10mm or 3/8 inch bent sections adjusted for best SWR.

Fantastic Azimuth plot of this 3el 50MHz OWL Yagi

The Elevation plot is really clean too. A quiet antenna compared with most!

SWR for this folded dipole fed OWL

Layout of this folded dipole OWL Yagi antenna

 

 

Read Time: 3 - 6 minutes

Premium commercial versions of G0KSC antennas at InnovAntennas

 The OWL Yagi was developed first by G0KSC in 2010. Before then it was believe low impedance meant a narrow band Yagi! More information can be found here

 

The Folded Dipole for 12.5 Ohm OWL Yagis = 50 Ohm Yagi !!

One of the reasons I choose to model most OWL Yagis with a 12.5 Ohm Split dipole feed, is that good quality 50 Ohm Coax can be obtained easily to create the coaxial transformers in order to give a good 50 Ohm connection for your feedline. However, there is another, much more practical and more efficient way to do this; the folded dipole.

 

A 5 element 50MHz OWL at G8FJG fitted with a folded dipole for a 50 Ohm direct feed antenna

 

Adding a folded dipole provides several advantages. First of all, you do not need to calculate any coaxial transformers or hope that the manufacturer's velocity factors are correct and true. Additionally, the folded dipole can be arranged above and below the boom in order that your remaining parasitic elements can run through the boom (as in the above example by G8FJG) this saves cost and weight through not having to have additional antenna element mounts/hardware. The antennas are best to be insulated even though passing through the boom although either method may be chosen. One important consideration when feeding elements through the boom is a correction factor will need to be applied. This means that by passing the elements through the boom they are electrically shortern and need then to be longer than the published sizes. The amount by which the lengths should alter depends on both the boom thickness and wether or not the elements are insulated.

 

A Construction/Layout chart for a 3el 6m OWL with folded dipole

 

There are many resources on the Internet that help with boom correction. However, if you wish to contact me about your individual needs, i will be more than happy to help. Do also read HERE for more information and steps required to build a successful Yagi project.

 

Don't be put off by the thought of adding a folded dipole as my methods are very easy (like the LFA) and provides the ability for adjustment too in order that fine tuning can be conducted in order to achieve best SWR.

 

The Easy-to-build folded dipole using a Stauff clamp either side of a square boom

 

The easiest way to achieve the folded dipole is as in the above picture. I have used a 1.25inch square boom and mounted a Stauff clamp (available for purchase on this site if you cannot find locally) with in this case, 2 x lengths of 1/2 inch 18 swg tube. One has a gap with a solid nylon rod inserted with a 6mm gap which is hidden by the clamp, the other is a one piece tube of the same length. At the end sections, I have bent 3/8 inch tube as is done with the LFA loop (more information here ) in order to provide a trombone effect; the end sections can slide in and out of the bigger 1/2 inch tubes in order that adjustment can be made for best SWR.

 

What I did not realise until I started experimenting with the folded dipole is the width and height is not hyper critical. where the above example is spread across a 1.25inch square boom, if a 1.5 inch boom where used, the loop end would simply have to be brought in a few mm's in order to achieve best SWR. Likewise with 1 inch, the end sections would end up being a little longer. Furthermore, The insertion of the folded dipole takes very few changes in order to perform correctly having removed a split dipole from the 12.5 Ohm Yagi. Within a 144MHz example, the ends of the folded dipole will end up being between 15-30mm shorter than those of a split dipole (assuming a 1.25inch square boom). However, whatever the band, adjusting the loop larger and smaller will result in finding the correct and best position for minimum return loss and best SWR. Therefore although I will publish some of the sizes required for certain 12.5 Ohm OWLs to have folded dipoles, it is quite easy to work it out for yourself by trial and error by simply making the folded dipole larger and smaller until you achieve best SWR.

 

A 9el OWL fitted with an adjustable folded dipole for a 50 Ohm feed point

 

Other Folded Dipole Advantages

The folded dipole provides a couple more nice-to-have attributes. One of these is the reduction in noise that this arrangement offers, a reduction in rain static and generally, a reduction in most man-made noise. Sky temperature and also the antennas G/T figures are improved too further improve weak signal performance and by feeding the dipole on top of the boom rather than underneath the boom,  again these performance figures are bettered.

Finally, in addition to the suggested stability increases a folded dipole should offer, simple baluns can be added to the folded dipole driven OWL too. This includes the simple choke (although not prefered) through to the G0KSC 'Antenna Balun' so called as it becomes an integral part of the antenna.

The antenna balun is simple and does not have losses or power handling restrictions like other baluns. All that is required is a rod, tube or wire of 1/4 wave length to be run form the feedpoint of the antenna (where the coax cable inner core is connected) to a point on the boom where the rod, tube cable finishes.

VE7XDT installed the 'flat bar' version of the Antenna Balun on his 4 x 2m LFA Yagis

 

The above example by VE7XDT shows one way in which the Antenna Balun can be installed. Provided the balun does not move out of line with the boom, no pattern distortion should occur. More information on the G0KSC Antenna Balun can be found HERE.

 

If you like the look of a model you see on this site but do not have folded dipole dimensions for it or the tube sizes you wish to use, please contact me and I will help you. the Email me on this website does not always work (sorry) for Email me direct at justin 'at' G0KSC .co .uk

 

More folded dipole examples below. Enjoy your antenna!

 

 

An 8 element 144MHz OWL fitted with a folded dipole for less noise and a 50 Ohm feedpoint

 

 

G0KSC built this folded dipole example when first experimenting with the FD/OWL combination

 

 

M0WBM built this example using insulated 'above boom' elements rather than insulated through the boom