Terrain and signal strength – GE GFK-2489 User Manual

6-4 TranSphere TS Wireless Extended Range IP Networking Transceivers – January 2008 GFK-2489

6

Terrain and Signal Strength

While the 900 MHz and 2400 MHz license-free bands offer many advantages for data
transmission services, signal propagation is affected by attenuation from obstructions such as
terrain, foliage or buildings in the transmission path.

A line-of-sight transmission path between the central transceiver and its associated
transceiver site(s) is highly desirable and provides the most reliable communications link.

Much depends on the minimum signal strength that can be tolerated in a given system.
Although the exact figure differs from one system to another, a Received Signal Strength
Indication (RSSI) of –100 dBm or stronger provides acceptable performance in many
systems. While the equipment works at lower-strength signals, signals stronger than – 90
dBm provide a fade margin of 15 dB to account for variations in signal strength that may occur
from time to time. RSSI can be measured with a terminal connected to the transceiver COM1
port. See Aiming Directive Antennas for Maximum RSSI for details.

A Word About Radio Interference

Because the transceivers share the radio-frequency spectrum with other services and Part 15
(license-free) devices in the U.S.A, near 100% error-free communications may not be
achieved in a given location, and some level of interference should be expected. However,
flexible design and hopping techniques should allow adequate performance, as long as care
is taken in choosing station location, configuration of radio parameters, and software or
protocol techniques.

In general, keep the following points in mind when setting up your communications network:

▪

Systems installed in rural areas are least likely to encounter interference; those in
suburban and urban environments are more likely to be affected by other devices
operating in the license-free frequency band and by adjacent licensed services.

▪

Use a directional antenna at remote sites whenever possible. Although these antennas
may be more costly than omnidirectional types, they confine the transmission and
reception pattern to a comparatively narrow lobe, which minimizes interference to (and
from) stations located outside the pattern.

▪

If interference is suspected from a nearby licensed system (such as a paging transmitter),
it may be helpful to use horizontal polarization of all antennas in the network. Because
most other services use vertical polarization in this band, an additional 20 dB of
attenuation to interference can be achieved by using horizontal polarization.