Take a Bite out of Interference with "Shark Fin" LPDA Antennas

Shark fin antenna

Directional antennas for wireless microphones have a tough job. Not only do they provide moderately high gain and good rejection from interfering signals in a compact size, but they need to do so over a very wide band, 470-698 MHz. While many different designs are capable of this, for many years the most popular design has been the triangle shaped UHF LPDA antenna.

LPDAs, also known as shark fin antennas, were first built by a group of engineers in the late 50s at the University of Illinois “Antenna Lab.” They were researching designs that could accommodate larger bandwidths without appreciably increasing the size of an antenna. They found a surprisingly simple construction of individual dipole elements spaced along a rod logarithmically based on the difference between each dipole tooth (hence a logarithmic periodic dipole array, or “LPDA”) gave excellent performance over a wide frequency range.

The LPDA was quickly adopted for wideband UHF and VHF TV band use, among other things. The rooftop TV receivers still seen today are often LPDA, sometimes alongside their less compact cousin, the Yagi antenna. Since wireless microphones operate in the TV white space, UHF LPDAs are a natural choice for a directional antenna of modest expense.

LPDA antennas

LPDA and Yagi antennas on a rooftop in Israel. Photo Courtesy Erin Fickle.

Most of the major microphone manufacturers offer this type of antenna as a common external accessory. They might be billed as shark fins, or paddle antennas, but open them up and you’ll find a good ole’ LPDA inside, usually printed from conductive material on a circuit board instead of made from wire or metal bars. Virtually all pro sound segments use them, from live sound, to broadcast, film, and installed sound.

For best performance, they are deployed in matched pairs for use with diversity receivers. Spacing two paddles apart by a 1/4 wave or more gives good directionality as well as reduction of multi-path interference. They can also be orientated for vertical or horizontal polarization, depending on the polarization of the transmitting antenna.

 

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Leading image courtesy Travelbag.

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