The optimal site location for antennas for 4G routers and cellular modules plays a significant role in determining the overall
cellular link performance. Routers located at the farthest coverage points might have 10 to 50 percent of the bandwidth available
compared to routers located closer to the cellular base station tower, away from obstructions, and with an unobstructed view
of the cellular tower.
Because antennas transmit and receive radio signals over the air, the signal propagation and antenna performance may be adversely
affected by the surrounding environment, including physical obstructions. Radio frequency (RF) interference may also occur
between wireless systems located close to each other, especially if the antennas of these systems are located close to each
other. Interference may also occur when antennas are in close proximity to cable clutter or other sources of radio interference.
Follow these guidelines to ensure the best possible performance:
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When you use cellular antennas such as 3G UMTS, 4G/LTE, 4G/LTEA (LTE Advanced), and 5G NR FR1 with a modular router and a
pluggable module, try to mount the antennas a certain distance away from the router. For example, in indoor deployments, an
appropriate extension cable and antenna stand can be utilized. For outdoor installations, choose a suitable outdoor antenna,
and mount it away from obstructions such that the antennas have a direct view of the cellular tower. The antenna's performance,
and therefore that of the router, will not be optimal if mounted directly on a pluggable module. Primary reasons for possible
degradation of performance include:
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The router antenna's view of the cellular base station tower being obstructed by Ethernet cables, power cables, USB cables,
and walls.
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Possible coupling of digital noise from inside the router to the antenna when unshielded Ethernet cables are used.
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Keep antennas away from electrical and signal cable clutter. Metal conductors inside cables may block an antenna's view of
the base station. Additionally, unshielded (and even shielded cables in some cases) may radiate signals that interfere with
RF signal reception.
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We recommend that all the cellular antennas for the IR1800 are oriented vertically to ensure polarization match. While polarization
of the signal may change because it is reflected from obstructions, when the view is unobstructed, vertical polarization is
optimal.
Note
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When cellular FDD Band 5 is deployed with 3G WCDMA, 4G/LTE, or 4G/LTEA C/A, such as with P-LTE-US or P-LTEA-EA pluggable
modules on certain carriers, ensure that both the Main and Aux cellular antennas are physically separated from the IR1800
chassis by a minimum of 5 feet (1.5 meters). This is applicable only to the P-LTE-xx receiver operation in Band 5 in a narrow
875-MHz frequency range. No significant effect has been observed on the P-LTE-xx cellular Band 5 receiver when antennas are
separated from the chassis by more than 5 feet (1.5 meters). This information does not apply when the receive signal does
not overlap 875 MHz, such as when operating on other bands, or other frequencies within FDD Band 5.
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For optimal MIMO performance, set the cellular Main and Aux antennas apart by at least 20 inches (50 cm). At the lowest LTE
frequency of 617 MHz, 20 inches represents 1 wavelength. Spacing of half (or 0.5) wavelength or 10 inch (25 cm) results in
good MIMO performance.
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Setting the Main and Aux LTE antennas less than 10 inches apart may result in significantly reduced MIMO performance.
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Placing the antennas too close to each other, for example 3 inches, results in the antennas significantly detuning from their
original designed performance because of antenna coupling.
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Wherever possible, mount the IR1800 router with the pluggable LTE module and the antenna where the cellular base station or
tower are within sight and without physical obstructions. Barriers along the line of sight between the router and the local
base station degrades the wireless radio signals. Install the IR1800, pluggable modules, and antennas above floor level in
office environments, or near the ceiling, for better performance because most obstructions tend to be near the floor level.
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The density of the materials used in a building's construction determines the number of walls the signal must pass through
while still maintaining adequate coverage. Consider the following before choosing the location for installing the antenna:
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Paper and vinyl walls have very little effect on signal penetration.
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Solid and precast concrete walls limit signal penetration to one or two walls without degradation of coverage.
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Concrete and wood block walls limit signal penetration to three or four walls.
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A signal can penetrate five or six walls constructed of drywall or wood.
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A thick metal wall or wire-mesh stucco wall causes signals to reflect back and causes poor penetration.
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Avoid mounting an antenna next to a column or vertical support. This might create a shadow zone and reduce the coverage area.
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Keep the antenna away from reflective metal objects such as heating and air-conditioning ducts, large ceiling trusses, building
superstructures, and major power cabling runs. If necessary, use an extension cable to relocate the antenna away from these
obstructions.
This radio transmitter [IC:2461A-WPWIFI6] has been approved by Innovation, Science and Economic Development Canada to operate
with the antenna types listed in this guide, with the maximum permissible gain indicated. Antenna types that are not included
in this list and have a gain greater than the maximum gain indicated for any type listed are strictly prohibited for use with
the IR1800 Series router.
Le présent émetteur radio [IC:2461A-WPWIFI6] a été approuvé par Innovation, Sciences et Développement économique Canada pour
fonctionner avec les types d'antenne énumérés ci-dessous et ayant un gain admissible maximal. Les types d'antenne non inclus
dans cette liste, et dont le gain est supérieur au gain maximal indiqué pour tout type figurant sur la liste, sont strictement
interdits pour l'exploitation de l'émetteur.