Standing Wave Ration (SWR)

When a transmitter sends radio  frequency energy down a transmission line to an antenna, some of that energy can be reflected back up the transmission line from the antenna towards the transmitter.

The amount of energy reflected is determined by how well the impedances of the antenna,  the transmission line, and the transmitter match.  The reflected rf energy can enter the transmitter and damage the final radio frequency amplifier stage.

The standing wave ratio, (SWR), is a measure of how much of the RF is reflected by the antenna.  An SWR or 1:1 indicates that none of the RF is reflected.  With an SWR of 1:1, the transmission line, (feedline), and antenna are perfectly matched.  Ratios higher than 1:1 such as 1.5:1 or 2:1 indicate that there is an impedance mismatch and that RF is being reflected back up to the transmitter.  Remember, SWR depends on how well the impedances of the antenna, (also called the load), and the transmission line are matched.

In modern transmitters, there is often a circuit that will begin to reduce transmit power if an SWR of 2:1 or greater is detected.  This is done to protect the circuits in the transmitter.

Here is an excellent video from Bell Labs circa 1959 explaining SWR.

Exam Questions

What, in general terms, is standing wave ratio (SWR)?

A. A measure of how well a load is matched to a transmission line

B. The ratio of high to low impedance in a feedline

C. The transmitter efficiency ratio

D. An indication of the quality of your station’s ground connection

What reading on an SWR meter indicates a perfect impedance match between the antenna and the feedline?

A. 2 to 1

B. 1 to 3

C. 1 to 1

D. 10 to 1

What is the approximate SWR value above which the protection circuits in most solidstate transmitters begin to reduce transmitter power?

A. 2 to 1

B. 1 to 2

C. 6 to 1

D. 10 to 1

What does an SWR reading of 4:1 mean?

A. An antenna loss of 4 dB

B. A good impedance match

C. An antenna gain of 4

D. An impedance mismatch

What instrument other than an SWR meter could you use to determine if a feedline and

antenna are properly matched?

A. Voltmeter

B. Ohmmeter

C. Iambic pentameter

D. Directional wattmeter

Why is it important to have a low SWR in an antenna system that uses coaxial cable

feedline?

A. To reduce television interference

B. To allow the efficient transfer of power and reduce losses

C. To prolong antenna life

D. All of these choices are correct

What might cause erratic changes in SWR readings?

A. The transmitter is being modulated

B. A loose connection in an antenna or a feedline

C. The transmitter is being over-modulated

D. Interference from other stations is distorting your signal