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 - 3 minutes
G0KSC SC04011L 11el 70Mhz  OWA Yagi Antenna with a 12.08 Metre Length Boom

This is a nice DX bean for 70Mhz. As always it has a nice flat SWR curve and is built with in a non-critical format so any small errors you make whilst constructing will not have a huge impact on performance.

I recommend this to be built from a 5 metre length of 1.5 inch box section aluminum with a 1.25 inch 5 metre length cut in to and slotted into each end. This will need additional support

Dimensions in Metres

Element spacing:

  • Ref =       0
  • Driven =  .739
  • D1 =       1.11
  • D2 =      2.091
  • D3 =      3.157
  • D4 =      3.926
  • D5 =      5.407
  • D6 =      7.211
  • D7 =      8.979
  • D8 =      10.732
  • D9 =      12.08

Element sizes per element half:

  • Ref =       1.05
  • Driven =   1.021
  • D1 =        .981
  • D2 =        .955
  • D3 =        .895
  • D4 =        .921
  • D5 =        .921
  • D6 =        .91
  • D7 =        .908
  • D8 =        .921
  • D9 =        .923

Performance figures @ 70.250Mhz:

  • Froward Gain: 15.3dBi free space
  • Front to Back: 27.67dB
  • Radiation angle at 10 Metres above ground: 10 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.

 

 

Read Time: 2 - 3 minutes
G0KSC SC04010L 10el 70Mhz  OWA Yagi Antenna with a 10.715 Metre Length Boom

This is a nice DX bean for 70Mhz. As always it has a nice flat SWR curve and is built with in a non-critical format so any small errors you make whilst constructing will not have a huge impact on performance.

I recommend this to be built from a 5 metre length of 1.25 inch box section aluminum with a 1 inch 5 metre length cut in to and slotted into each end.This should not need any support

Dimensions in Metres

Element spacing:

  • Ref =       0
  • Driven =  .558
  • D1 =       .79
  • D2 =      1.67
  • D3 =      3.024
  • D4 =      4.468
  • D5 =      6.081
  • D6 =      7.729
  • D7 =      9.46
  • D8 =      10.715

Element sizes per element half:

  • Ref =       1.051
  • Driven =   1.025
  • D1 =        .980
  • D2 =        .962
  • D3 =        .942
  • D4 =        .931
  • D5 =        .921
  • D6 =        .916
  • D7 =        .924
  • D8 =        .914

Performance figures @ 70.250Mhz:

  • Froward Gain: 14.82dBi free space
  • Front to Back: 26.72dB
  • Radiation angle at 10 Metres above ground: 10 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.