0 introduction – ETS-Lindgren 3140B Hybrid Log Periodic and Bowtie (BiConiLog) User Manual

1.0 Introduction

The ETS-Lindgren

Model 3140B BiConiLog

TM

is a

high-field antenna in the

bow tie/log periodic family,

providing the highest

field-to-power ratio at low

frequencies of any of the

BiConiLog antennas. The

Model 3140B is designed

specifically to generate the field

levels required for

immunity/susceptibility tests

required by standards such as

IEC/EN 61000-4-3 using the

lowest amount of input power

possible.

A BiConiLog antenna combines a broadband biconical-like bow tie antenna with

a standard log periodic dipole array (LPDA) to replace the traditional use of two

antennas in the 26 MHz to 3000 MHz electromagnetic compatibility (EMC) test

frequency range. Many EMC antennas are variations of a standard tuned dipole,

which must be nearly half a wavelength long to transmit or receive energy most

efficiently; at 26 MHz, a tuned dipole would have to be approximately 5.3 meters

long, 4.6 meters long at 30 MHz, and 2.8 meters long at 50 MHz. This is

unwieldy for many anechoic chambers and test sites. The end plates of the

Model 3140B T bow ties make the bow tie antenna segment look like an antenna

twice as long as the actual 1.6 meter length. The result is about a 10 dB

improvement in low frequency transmit gain compared to a regular bow tie of the

same length.

Although bow ties have been used for all of the elements on some log periodic

antenna designs in the past, in EMC applications the advantage gained is an

extension of the useful low frequency range of the typical LPDA from 100 MHz

down to 26 MHz. At 26 MHz, an efficient single dipole type antenna must be over

five meters long, whereas suitable performance is obtained here with a 1.6 meter

bow tie. A simple wire outline bow tie antenna is narrowband compared to a

sheet bow tie or biconical, so struts are added to the Model 3140B bow ties to

better simulate the broadband sheet bow tie.

Introduction

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