I've been experimenting with a simple directional coupler made from spliced satellite TV coax, which could be used with a suitable signal source to measure antenna SWR / Return loss.

In this example the design has been chosen to permit measurement of the SWR of an ADB-S antenna operating at 1090MHz in a 75 Ohm system.

For measurements in a 50 Ohm system, 50 Ohm coax and loads should be used.

The design is based on these principles:-

http://www.microwavejournal.com/articles/3083-finite-element-analysis-of-rf-couplers-with-sliced-coaxial-cable



http://micro.apitech.com/pdf/wireline/DesignGuide.pdf

Although it works, I'm not sure that the performance is stable enough to give repeatable results.



Method:-

Two short lengths of 75ohm sat coax.

Cut outer insulation away from center of each length of cable for about 1".

Cut away 1/2 of braid to expose one side of coax inner on each cable.

Slice insulation away to expose inner conductor on each cable.

Add thin insulation over inner conductor (I used Kapton tape).

Lay the cables next to each other so that the exposed inner conductors are as close as possible.

Make sure the inners and braids are not shorting to each other.

Lay outer braids over each other and bind together with uninsulated wire.

Tape both coaxes together as tightly as possible.



Use one coax as main line between RF source and antenna.

Use other line as coupler, 75ohm load on coax end nearest RF source, measuring device on end nearest antenna.

Leave antenna disconnected and measure RF level as reference.

Connect antenna or load and measure new level.

Difference in values = return loss = SWR.



http://194.75.38.69/app/DG03-111.pdf



You can test the accuracy of the bridge by connecting a 3dB and / or a 6dB attenuator to the antenna port, leave the other end of the attenuator open or short circuit.



3dB attenuator = 6dB return loss

6dB attenuator = 12dB return loss

