ANTENNA PARAMETERS – Study Material

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ANTENNA PARAMETERS – Study Material

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Radiation intensity of an antenna is closely related to the direction of the beam focused and the efficiency of the beam towards that direction. In this chapter, let us have a look at the terms that deal with these topics.

Directivity

According to the standard definition, “The ratio of maximum radiation intensity of the subject antenna to the radiation intensity of an isotropic or reference antenna, radiating the same total power is called the directivity.”

An Antenna radiates power, but the direction in which it radiates matters much. The antenna, whose performance is being observed, is termed as subject antenna.

Its radiation intensity is focused in a particular direction, while it is transmitting or receiving. Hence, the antenna is said to have its directivity in that particular direction.

  • The ratio of radiation intensity in a given direction from an antenna to the radiation intensity averaged over all directions, is termed as directivity.
  • If that particular direction is not specified, then the direction in which maximum intensity is observed, can be taken as the directivity of that antenna.
  • The directivity of a non-isotropic antenna is equal to the ratio of the radiation intensity in a given direction to the radiation intensity of the isotropic source.

Mathematical Expression

The radiated power is a function of the angular position and the radial distance from the circuit. Hence, it is expressed by considering both the terms θ and Ø.

Directivity=Maximum radiation intensity of subject antennaRadiation intensity of an isotropic antennaDirectivity=Maximum radiation intensity of subject antennaRadiation intensity of an isotropic antenna

D=ϕ(θ,ϕ)max(from subject antenna)ϕ0(from an isotropic antenna)D=ϕ(θ,ϕ)max(from subject antenna)ϕ0(from an isotropic antenna)

Where

  • ϕ(θ,ϕ)maxϕ(θ,ϕ)maxis the maximum radiation intensity of subject antenna.
  • ϕ0ϕ0is the radiation intensity of an isotropic antenna (antenna with zero losses).

Aperture Efficiency

According to the standard definition, “Aperture efficiency of an antenna, is the ratio of the effective radiating area (or effective area) to the physical area of the aperture.”

An antenna has an aperture through which the power is radiated. This radiation should be effective with minimum losses. The physical area of the aperture should also be taken into consideration, as the effectiveness of the radiation depends upon the area of the aperture, physically on the antenna.

Mathematical Expression

The mathematical expression for aperture efficiency is as follows −

εA=AeffApεA=AeffAp

where

  • εAεAis Aperture Efficiency.
  • AeffAeffis effective area.
  • ApApis physical area.

Antenna Efficiency

According to the standard definition, “Antenna Efficiency is the ratio of the radiated power of the antenna to the input power accepted by the antenna.”

Simply, an Antenna is meant to radiate power given at its input, with minimum losses. The efficiency of an antenna explains how much an antenna is able to deliver its output effectively with minimum losses in the transmission line.

This is otherwise called as Radiation Efficiency Factor of the antenna.

Mathematical Expression

The mathematical expression for antenna efficiency is given below −

ηe=PradPinputηe=PradPinput

Where

  • ηeηeis the antenna efficiency.
  • PradPradis the power radiated.
  • PinputPinputis the input power for the antenna.

Gain

According to the standard definition, “Gain of an antenna is the ratio of the radiation intensity in a given direction to the radiation intensity that would be obtained if the power accepted by the antenna were radiated isotropically.”

Simply, gain of an antenna takes the directivity of antenna into account along with its effective performance. If the power accepted by the antenna was radiated isotropically (that means in all directions), then the radiation intensity we get can be taken as a referential.

  • The term antenna gaindescribes how much power is transmitted in the direction of peak radiation to that of an isotropic source.
  • Gainis usually measured in dB.
  • Unlike directivity, antenna gain takes the losses that occur also into account and hence focuses on the efficiency.

Mathematical Expression

The equation of gain, G is as shown below.

G=ηeDG=ηeD

Where

  • Gis gain of the antenna.
  • ηeηeis the antenna’s efficiency.
  • Dis the directivity of the antenna.

Units

The unit of gain is decibels or simply dB.

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