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: 2 - 4 minutes

G0KSC SC28-6-4D 15el 28/50/70Mhz Tri-band Yagi Antenna with a 5.092 Metre Length Boom

Important notes About this Antenna

Only experienced builders should attempt to build this antenna. element lengths and spacing (in particular on 70Mhz) are critical to the antenna performing as it should so be warned!

About this antenna

This is antenna is a triband OWA interlaced Yagi beam antenna designed with only one feed point to enable the user to feed just one coax feed into the shack from the antenna/mast. A simple coaxial relay or switch can be used to switch between 28/50 (most HF rigs have 28/50 on the same socket) and 70Mhz.The antenna provides 4 elements on 28Mhz, 5 elements on 50Mhz and 6 elements on 70Mhz. However, as with any Dual or triband interlaced Yagi, this is a compromise antenna and therefore, none of the inidividual antennas will perform as well as monoband Yagis for each band of the smae number of elements. Do keep this in mind if you choose to build this one.

The design is intended for the amateur that has limited space on the tower/mast to install multiple antennas and if the indivdual prefers the above mentioned bands, this this antenna will be ideal and certainly I have not seen anything like it available on the Internet or commercially.

Read this section carefully

This time, whilst I am not a fan of tapered Yagis, this one is and uses both 1/2 inch (12.7mm) and  3/8 inch (9.6mm) tubing. The centre of each element is 1/2 inch and the 3/8 slot in each end. If the antenna is being installed permenantly, it is recommended tospot wled the joints with a TIG to ensure no resistance or issues at a later stage.

the 1/2 centre sections are positioned in the centre of the boom in order that half the 1/2 inch length of tube will protude either side of the boom. The measurements for the 3/8 section should be cut twice and slotted in each end.

The 28Mhz centre sections are 4 metre lengths of 1/2 inch tubing (2 metres either side of the boom) whilst the 50Mhz centre pieces are 2 metres (1 metre either side). The 70Mhz elements are 1/2 inch tubing ONLY and have no taper.

Download the .nec file

In order to make this easier for people to understand the design (and perhaps improve it, let me know if you do, it has take many hours so far and I am sure lots of improvements can be made, especially the 70Mhz pattern!) I have placed the .nec file upon the download section of this site. If you do not have it, download 4nec2 software (on the download page too) in order to view and edit the file.

Sizing and spacing are as follows:

Dimensions in Metres

Element spacing:

  • Ref 28     =    -.679
  • Ref 6      =     -.05
  • Ref 4      =      .366
  • Driven 28=     1.23 (this element is feed with coax)
  • Driven 6 =      1.131
  • Driven 4 =      1.334
  • D1-28    =      2.186
  • D1-6     =      1.785
  • D1-4     =      1.985
  • D2-28   =      4.413
  • D2-6     =      2.34
  • D2-4     =      2.565
  • D3-6     =      4.256
  • D3-4     =      3.16
  • D4-4     =      4.08

Element sizes per end tip (3/8 inch section end tips for 28/50Mhz, whole element length in 1/2inch tubing to 70Mhz. See details above):

  • Ref 28    =       .629
  • Ref 6     =        .44
  • Ref 4     =        1.045
  • Driven 28=      .568      
  • Driven 6 =       .445
  • Driven 4 =       1.023
  • D1-28    =       .420
  • D1-6      =      .391
  • D1-4      =      1.018
  • D2-28    =      .268
  • D2-6      =      .385
  • D2-4      =      .983
  • D3-6      =      .38
  • D3-4      =      .965
  • D4-4      =      .995

Performance figures @ 28.500Mhz:

  • Froward Gain: 8.77dBi free space
  • Front to Back: 17.41dB
  • Radiation angle at 10 Metres above ground: 15 degrees

Performance figures @ 50.250Mhz:

  • Froward Gain: 9.58dBi free space
  • Front to Back: 16.24dB
  • Radiation angle at 10 Metres above ground: 10 degrees

Performance figures @ 70.250Mhz:

  • Froward Gain: 9.76dBi free space
  • Front to Back: 11.1dB
  • Radiation angle at 10 Metres above ground: 5 degrees

 

For construction information see 'G0KSC insulators' and the UKSMG article from the main menu on the home page. 

Antenna performance details listed below on 28Mhz, 50Mhz and 70Mhz.Any questions please mail me, I like to hear from you!

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Read Time: 2 - 4 minutes
G0KSC SC42014W 14el 420-440Mhz OWA Yagi Antenna with a 1.843 Metre Length Boom

A Great Antenna for FM Dstar and Analogue Repeater working with no re-tuning required

This Yagi has been focused for maximum performance between 420Mhz and 440Mhz with an SWR of no more than 1.1. It gives excellent performance on the CW and SSB portions although the pattern is no so clean as a result of the ultra-wide bandwidth.

Remember, this is a very wide band Yagi although it only has 14 elements it provides good forward gain and excellent front to back. Performance of this antenna is very good with maximised radiation efficiency for direct 50 Ohm feed. For each 100 Watts input, at least 99Watts are radiated so this is idea for QRP (where very Watt counts) or QRO as the power limit for this antenna is your coax rating! Take a look at the images below.

Front to Back ratio has been tuned to allow you to still hear signals from behind although well down on the forward signal. This will ensure any rearward DX will be heard too!

 The SC42014W above the SC14407L built by Baris TA7W

Hi Justin,

I finished installation of my antennae. It's performing AMAZING, doing
great job. I am supriosed to see that the SWR is flat all way down the
band.

I used commercial anennas before but didn't act like this SWR wise.
Please find the photos of my setup attached to this email. My plan is
writing down all my experience on my BLOG (sorry but Turkish :
http://blog.barisdinc.net but you will find lots of photos of my
construction step there, hopefully tomorrow)

best 73's de TA7W
baris

Minor errors in measurement during the construction of this antenna WILL NOT have a big impact on it's performance due to this antennas non critical design.

Dimensions in Metres

Element spacing:

  • Ref =      0
  • Driven = .129
  • D1 =      .180
  • D2 =      .291
  • D3 =      .425
  • D4 =      .606
  • D5 =      .730
  • D6=       .869
  • D7=       1.018
  • D8=       1.167
  • D9=       1.393
  • D10=     1.58
  • D11=     1.686
  • D12=     1.843

Element sizes per element half:

  • Ref =       .168
  • Driven =   .165
  • D1 =        .146
  • D2 =        .140
  • D3 =        .1355
  • D4 =        .135
  • D5 =        .1275
  • D6 =        .129
  • D7=         .118
  • D8=         .1315
  • D9=         .1355
  • D10=       .131
  • D11=       .132
  • D12=       .1295

Performance figures @ 430Mhz:

  • Froward Gain: 14.62dBi free space 
  • Front to Back: 26.8dB
  • Radiation angle at 7 Metres above ground: 3 degrees

Element diameter:

Each element is made out of single piece 1/2 inch (12.7mm) aluminum tubing Each element half length needs to be doubled in order to gain your total element size. No difference is length needs to be calculated for the 1inch or 1,1/4 inch boom as the elements sit high enough above the boom for the boom to have no influence.

NOTE:

You can build this antenna with 13mm diameter tubing using the same parameters above. Slightly higher front to back ratio and forward gain will be seen along with a narrower SWR curve.

For construction information see 'G0KSC insulators' and the UKSMG article from the main menu on the home page.