Cell - Cellular Digital modem Antennas, Cables, and Connectors


DataRemote Antennas, Cables, and Connectors

DataRemote supplies antennas and antenna accessories for most cellular applications, including antennas for industrial and harsh or extreme environments. All antennas shown have been tested and approved for use with DataRemote cellular modems.

 

ANTENNAS, CABLES, AND CONNECTORS

Product No.

Description

DRA-BS18005 Ruggedized omni base station antenna for 1900 MHz, 5 db gain pole or wall mount, N connector
DRA-BS8005A Ruggedized omni base station antenna for 800 MHz, 4 db gain pole or wall mount, TNC connector
DRA-BSDB18U8 Ruggedized Dual-band omni base station antenna for 800/1900 MHz unity gain pole mount, N connector
DRA-A1383B-25 General purpose 3 db gain antenna for 800 MHz, pole, wall or trunk mount, N connector
DRA-A2183B-06-01 General purpose 3 db gain antenna for 800 MHz, magnetic mount, 12' cable, TNC connector
DRA-ASPD914TGPS Low profile combination cellular 800 MHz/GPS trunk lip mount with 25' cables, TNC & SMA
DRA-RD800 "Rubber Duckie" style flexible antenna with 0-90 deg. adjustable hinge, 800 MHz, TNC
DRA-RD1900 "Rubber Duckie" style flexible antenna with 0-90 deg. adjustable hinge, 1900 MHz, TNC
DRA-00135 Mini-Mag Dual band low profile, 800/1900 MHz, magnetic mount, 8' cable with TNC
3 element yagi directional, 6 db gain, 800 Mhz, N connector
DRA-Y3385AO6 5 element yagi directional, 9 db gain, 800 Mhz, N connector
DRA-Y3387AO6 7 element yagi directional, 10.2 db gain, 800 Mhz, N connector
DRA-Y221910A 10 element yagi directional, 10 db gain, 1900 MHz, N connector
DRA-Y441912 12 element yagi directional, 10 db gain, 1900 MHz, N connector
DRA-NP800 Low profile, 5/8" high, 4.5" dia, 800 MHz, with 15' cable, specify connector
DRA-NP1900 Low profile, 5/8" high, 4.5" dia, 1900 MHz, with 15' cable, specify connector
DRA-A25382B Low profile 1 1/2" high, 4" dia, Dual Band, 800 and 1900 MHz with 10' cable, specify connector
DRA-GPSU15GSMA GPS mag mount, 27db gain, low profile, 3/4" high, 4 1/2" dia., with 14' RG174 and SMA connector
DRC-RG58/U Coaxial cable for custom length cables, specify length-up to 80'

Note: Antennas shown are the most common types used in most applications.
Alternative antenna solutions are available for special applications.
Antennas with no cable specified are supplied with DRC-STD, specify any custom connector requirements.


 

WARNING:

TO PREVENT DAMAGE, SERIOUS INJURY, OR EVEN DEATH, NEVER INSTALL AN ANTENNA NEAR HIGH VOLTAGE POWER LINES.

 6.1       Antenna Installation Instructions

  The type of antenna and quality of the antenna installation are critical elements in determining the clarity and reliability of the cellular signal transmission and reception between the cell modem and the cellular system tower.  The circumstances of any given installation need to be carefully considered to achieve optimal antenna placement.  Prior to discussing the various factors to consider in an antenna placement, a few facts concerning antennas may be useful.

  One of the identifying characteristics of an antenna is its “gain”. Some of the terms you will run into are “unity gain”, “ 3dB gain”, “12dB gain”, etc.  A brief explanation of these terms is necessary.  Antennas are NOT capable of amplifying an RF signal.  However, they can be designed to concentrate the radiated power in a specific pattern or direction.  In this way, the range of the transmitter can be increased, since the transmitted power is concentrated in useful directions.

  The gain of an antenna is a figure that is referenced to a true Omni directional antenna.  This type of antenna radiates the transmitted power in all directions.  If the radiated power was visible, it would look like a globe surrounding the antenna.  This type of antenna is referred to as a “unity gain” antenna.

  An improvement over the “unity gain” antenna is the “High gain” antenna.  This antenna is also “Omni-directional “, but the transmitted power is concentrated in the horizontal plane instead of being wasted in the vertical plane.  Because of this RF power concentration, a 3-watt transmitter would have the range of a 6-watt transmitter using a “unity gain” antenna, or an Effective Radiated Power (E.R.P.) of 6 watts.    

Gain factor is the way the radiation pattern lays down on the horizon  - with more power - lower to the horizon - the transceiver has a more effective gain to the cellular system tower.

Gain factor is the way the radiation pattern lays down on the horizon  - with more power - lower to the horizon - the transceiver has a more effective gain to the cellular system tower.


Yagi antennas
For a very remote installation, a directional antenna (may be desired.  This type of antenna concentrates the transmitted power in the direction it is pointed.  These antennas can be designed to have a wide “beam-width” or a narrow “beam-width”.  The narrower the “beam-width”, the higher the gain of the antenna.
 

It is critical that directional antennas be pointed directly at the cell site.  The direction of the nearest cell site can be determined by contacting the cellular carrier for your area.
 

6.2             Antenna Installation Guidelines

  There are a number of factors to consider when selecting the type of antenna and antenna placement location.  A few of the factors include:

·         the distance to the nearest cell site

·         the degree of down-tilt used on the cell site antenna array

·         the type of terrain and foliage between the antenna and cell site

·         the existence of man-made obstacles such as buildings and/or water towers between the antenna and cell site or radio interference.

·         the distance between the Cell modem antenna placement and the cellular system tower

·         the height of the antenna above ground level

·         the type and length of cable used to attach the antenna to the Cell modem

  

6.2.1    Know the location(s) of the closest cell site(s).  The cellular carrier can provide the appropriate location information.  This information will assist you in positioning antennas and enable you to do a path check between the cell site and your location for any man-made or natural obstacles.

6.2.2    Man-made and natural obstacles such as buildings, water towers, mountains, hills and trees can cause the cellular signal to deteriorate or even block the signal.  Raising the antenna, relocating the antenna, or choosing a higher gain antenna may improve reception.

6.2.3    The antenna should be placed as close to the CS-832 as possible when beginning to evaluate possible locations.  If a high quality connection is not possible in close proximity to the CS-832, then different placement locations should be tried.  Depending upon signal strength, the antenna may need to be mounted external to the building.  

6.2.4        The type and placement needs of the antenna can vary significantly over a small distance (as little as a few feet horizontally and/or vertically), so different antenna placement locations should be tried if a high quality connection between the cellular system and the Cell modem is not established or ahs a high error rate.  

6.2.5    Always elevate the antenna as high as possible so that it has a clear path to the cell site.  

6.2.6    If the installation location is well within the range of the cell site, a unity gain antenna or a 3dB gain antenna should be sufficient for an acceptable signal strength. However, if the installation is on the “fringe” or just outside the range of the cell site, a higher gain, directional antenna may be needed to establish an acceptable connection.  

6.2.7    The antenna cable should be laid as straight as possible with no kinks, twists or bends. If the cable has be to coiled, keep the radius of the coils as large as possible.

6.2.8    The antenna and cable should be as far away from any other transmission sources as possible to minimize potential interference from those sources.  Other transmission sources include other antennas, radio frequency (RF) generators and AC power lines.

6.2.9    If attempts to establish a high quality connection are unsuccessful, relocation of the entire installation may be necessary.  Prior to moving the entire installation, attempt to access a different cell site through the use of directional high gain antenna.  Even though the cell site may be farther away, the different direction may avoid man-made or natural obstacles that are blocking the cellular signal.  

6.2.10  Remember that while the distance that the Cell modem unit can be from the antenna is limited, the distance from the CS-832 to the meter/telephone equipment to which it is connected can be 1000 feet or more.  Thus, the Cell modem  does not have to be located with the meter/telephone equipment to function properly.  This aspect of the equipment gives significant additional flexibility in the installation process.

6.2.11  No matter what type of antenna is being used, propagation patterns vary, as does reception.  You may want to try different locations to achieve the best results, even if a given location appears adequate.  Once the best antenna type and location is determined, permanently mount the antenna.

Elevated Feed

Omni antennas are designed for most cellular installations.  These antennas can be mounted under a variety of scenarios and will provide adequate signal strength for data applications in most areas.  You should use an antenna that does not require a ground plane and should be mounted as high as possible with a direct line of sight to the nearest cellular site with the shortest coax lead possible.

Mount the antenna VERTICALLY on a solid surface in a location so that its perimeter is clear of any metal objects and/or obstacles.

Yagi

Point the antenna towards the cell site.  Make sure the elements (the bars on the antenna) are positioned vertically.  It should be in a location so that the transmission path is clear of any nearby metal objects and/or obstacles.

 

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Informational Pages

Jump to Cellular Digital coverage map

   Jump to CDPD coverage map   

  Jump to AMPS and Digital  coverage map

   Jump to PDF file on 3G page 

  Jump to What is CDMA page

  Jump to What is MNP-10EC page

  Jump to What is Throughput X-Cellerator TX-Cel page
 

jump to other Cellular Modem and informational pages

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ARC ELECTRONICS
a DCE Company

301-924-7400 EXT 25 x 17

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