Waveguide Terminations

Waveguide terminations for electromagnetic energy that is often passed through a waveguide to transfer the energy from a source into space are used. As previously mentioned, the impedance of a waveguide does not match the impedance of space, and without proper impedance matching, standing waves cause a large decrease in the efficiency of the waveguide.





Any abrupt change in impedance causes standing waves, but when the change in impedance at the end of a waveguide is gradual, almost no standing waves are formed. Gradual changes in impedance can be obtained by waveguide terminations with a funnel-shaped HORN, such as the three types illustrated in the figures below views A, B, and C. The type of horn used depends upon the frequency and the desired radiation pattern.

Waveguide-horns-E-PLANE-SECTORAL-HORN

View A: Waveguide horns E PLANE SECTORAL HORN.


Waveguide-horns-H-PLANE-SECTORAL-HORN

View B: Waveguide horns H PLANE SECTORAL HORN.


Waveguide horns PYRAMID HORN.

View C: Waveguide horns PYRAMID HORN.


As you may have noticed, horns are really simple antennas. They have several advantages over other impedance-matching devices, such as their large bandwidth and simple construction. The use of horns as antennas will be discussed further when microwave antennas are covered.

Waveguide terminations are used in a resistive load that are matched to the characteristic impedance of the waveguide. The resistive load is most often called a DUMMY LOAD, because its only purpose is to absorb all the energy in a waveguide without causing standing waves.

There is no place on waveguide terminations for a fixed resistor; therefore, several special arrangements are used to terminate waveguides. One method is to fill the end of the waveguide with a graphite and sand mixture, as illustrated in the figure below view A. When the fields enter the mixture, they induce a current flow in the mixture which dissipates the energy as heat. Another method view B, is to use a high-resistance rod placed at the center of the E field. The E field causes current to flow in the rod, and the high resistance of the rod dissipates the energy as a power loss, again in the form of heat.

Terminating-waveguides

View A: Terminating-waveguides.


Terminating-waveguides2

View B: Terminating-waveguides.


Terminating-waveguides3

View C: Terminating-waveguides.


Terminating-waveguides4

View D: Terminating-waveguides.


Still another method for terminating a waveguide is the use of a wedge of highly resistive material, as shown in view C above. The plane of the wedge is placed perpendicular to the magnetic lines of force. When the H lines cut through the wedge, current flows in the wedge and causes a power loss. As with the other methods, this loss is in the form of heat. Since very little energy reaches the end of the waveguide, reflections are minimum.

All of the terminations discussed so far are designed to radiate or absorb the energy without reflections. In many instances, however, all of the energy must be reflected from the end of the waveguide. The best way to accomplish this is to permanently weld a metal plate at the end of the waveguide, as shown in view D.

(back) (top) (next) (return to waveguides page)

Become a loyal member to our site. It's free!

Enter your E-mail Address
Enter your First Name (optional)
Then

Don't worry — your e-mail address is totally secure.
I promise to use it only to send you Learn-about-electronics.

Site Search

Custom Search




Subscribe to me on YouTube



Translate your page

If English is not your first language you can Translate the text on this page to any one of the languages found in the drop down menu. Select your language from the list for an instant translation.


Looking for something unique for your project? Choose from the drop down menu for quick access to the item you seek.




Related Pages

soldering circuit board

TheSolderBlob.com

Basic Electronics image

Become an Electronics Technician

UnitConversion.org

Convert most anything with this utility

Coaxial cable

Find your wire and cable here!


Sponsored Sites

Sponsor Policy

Adobe Dreamweaver CS5

SBI! Proof

Learn more about SBI here!

Diy-Audio-Guide.com

www.Diy-Audio-Guide.com

www.Home-PC-Help.com

www.Home-PC-Help.com


If you like this site please pay it forward. Donations are welcome.