User's Manual

pulsAR radio Operator’s Manual

6-2

In practice, even omni-directional antennas take advantage of directionality by focusing their

sensitivity and power in the horizontal plane. Rather than waste performance by sending signals into

space or into the ground, the omni-directional antenna redirects its power and sensitivity from these

directions, increasing performance in the horizontal plane.

In point-to-point applications, where the direction of communication is known and fixed, a highly

focused directional antenna can be used to provide maximum sensitivity and power. In addition,

because of its decreased sensitivity in all directions but the desired one, the directional antenna

improves performance by rejecting signals not coming from the desired direction. This provides an

effective increase in signal-to-noise performance.

A sector antenna has a wider “spread” than a directional (generally between 60 to 120 degrees) which

makes it a cross between an omni-directional and a directional. This is useful in a point to multipoint

configuration where multiple sites are grouped in the same general area. The installer can then make

use of the higher sensitivity and power but also take advantage of the wider beam pattern and

improved front to back ratio.

6.1.3 Gain

“Gain” specifies the receive and transmit performance of any antenna compared to a theoretical

“isotropic” antenna or “spherical radiator”. The objective of a directional antenna design is to

achieve gain, by improving sensitivity and effective radiating power in specific directions.

Gain is measured and stated in decibels, abbreviated dB. The decibel is a logarithmic unit that

represents the magnitude of a signal relative to a specific reference level. A signal 3 dB greater than

another has twice as much power, 6 dB represents a fourfold power increase, 9 dB represents an 8-

fold increase, etc. For antenna gain the units are usually written as “dBi”, because it measures the

increase in signal power relative to an “isotropic” radiating element.

One type of directional antenna available from Afar Communications is called a “semi parabolic”.

This antenna has a gain of 24 dBi (at 2.4 GHz), representing power and sensitivity levels 256 times

greater than those of an isotropic antenna.

For omni-directional coverage from fixed locations, Afar Communications Inc. provides collinear

antennas. The collinear design achieves gain by increased focus in comparison with the dipole

design. At 2.4 GHz the standard collinear antenna used with the pulsAR radio provides 9 dBi gain,

representing an eight-fold power and sensitivity increase.

6.1.4 Polarization

Another important concept for antenna performance is polarization. An antenna radiates radio waves

that vibrate in a specific plane, normally horizontal or vertical. Polarization refers to the restriction of

wave vibration to a single plane.

NOTE

Do not confuse polarization with directionality. The plane of wave

vibration has nothing to do with the direction of wave propagation.

For example, an antenna that focuses its energy in the horizontal

plane may be vertically or horizontally polarized.