Installation Guide

Radio Site Planning Hardware Installation Guide

5-10 Airspan Networks Inc. 02030311-08

5.8.2. Omni-Directional Antennas

In some scenarios, where capacity demand is relatively low, external omni-

directional antenna use at the Base Station may seem attractive. However, it is

recommended to avoid using omni-directional antennas (if possible), due to the

following disadvantages that these antennas pose compared to directional antennas:

 Higher sensitivity to external interferences.

 Higher sensitivity to multipath, resulting in the following:

 The root mean square (RMS) delay spread at the Base Station is substantially

higher.

 Multipath interference at the CPE side (when using omni-directional antenna

at the Base Station) is substantially higher. In fact, when using an omni-

directional antenna, the existence of clear Fresnel zone between BSR and

SPR/IDR is insufficient to eliminate multipath interference, since multipath,

in this case, can be caused by reflections originating from obstacles outside

the Fresnel zone.

 Higher sensitivity to alignment. Since the omni-directional antenna gain is

achieved by narrowing the vertical beam width, a relatively low deviation in the

antenna alignment will result in severe signal attenuation.

5.8.3. Operating in 900 MHz

The performance of ASWipLL 900 operating in the 900 MHz band, may vary

dramatically depending on the polarization of antennas, i.e. vertical or horizontal.

Therefore, it is recommended that the operator, during installation, compare the

performance between horizontal and vertical polarization of external antennas, and

use the polarization providing the best performance.

Note: Some antennas support both horizontal and vertical polarization:

- Yagi

- 9 dBi antenna (Cat. No. 35000008)

- 6.5 dBi antenna (Cat. No. 35000009)