huawei wlan antennas datasheet (03-dec-2012)
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8/13/2019 Huawei WLAN Antennas Datasheet (03-Dec-2012
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Huawei WLAN Antennas Datasheet
Description
1) In this document, the antenna coverage distances (excluding the network bridge antennas) meet the
requirement of the 39 MHz link rate. The indoor scenario refers to half-open office areas and outdoor
scenario refers to open rural areas. The coverage distances are recommended values based on the theoretical
calculation and practical test. If the target area is beyond the coverage of an antenna, the antenna is not
recommended. The antennas use the 802.11n HT20 mode to transmit signals to laptops supporting 802.11n.
2) The transmit power of an antenna is the largest transmit power of an AP.
3) The recommended coverage distances are only for your inference. For details, consult with network planning
experts.
4) The appendixes list the specifications of other components and the antenna patterns. For details about
antennas, see the data sheets provided by the antenna manufactures.
5) The gains and lobe widths in this document are typical values. The actual values are within a range, for
example, 19 ± 1 dBi and 60 ± 5°. For specifications, see the data sheets.
Introduction
Antennas are indispensable on a wireless LAN (WLAN). Different applications pose different requirements on
antennas. Huawei provides a series of antennas specially designed for APs to meet customers' requirements in
different applications.
This document describes antenna types and how to choose an appropriate antenna in each application.
Antenna Types and Applications
When you choose antennas for your devices, consider the following factors: coverage pattern, coverage distance,
ease for installation, installation position and method, appearance, and cost effectiveness. Different customers may
focus on one or more factors. To meet requirements in different applications, Huawei provides a series of antennas,
including eye-pleasant built-in antennas, fully-covered omnidirectional antennas, highly-focused directional
antennas, cost-effective cross-polarized antennas, and extremely-powerful dual-band antennas. The antennas are
installed by one of the following methods: connected to APs by RF cables, mounted on the ceilings, mounted on
the poles, mounted on the walls, and installed directly on APs (whip antennas). Antennas can be installed indoors
or outdoors.
Antennas used in different scenarios have specific parameter specifications, and two important specifications are
lobe width and gain. The lobe width determines the antenna's coverage range and the gain determines the antenna's
coverage distance.
Table 1: Antennas available in different scenarios
Antenna Pattern Scenario Antenna Type Antenna Feature Omnidirectional
antenna
Omnidirectional
horizontalcoverage
Indoor omnidirectional
coverage scenarios, such asoffices, lecture halls, and
Ceiling-mounted
omnidirectionalantenna
Omnidirectional
coverage and ceilingmounted
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Table 1: Antennas available in different scenarios
Antenna Pattern Scenario Antenna Type Antenna Feature conference rooms Whip antenna Easy to install on an AP
Built-in antenna Installed in an AP,
eye-pleasant Outdoor omnidirectional
coverage scenarios, such as
open areas, squares, and
parks
Pole-mounted
omnidirectional
antenna Omnidirectional
coverage and pole
mounted Dual-band
antenna
Working at dual
frequency bands,
flexible usage Directional
antenna Directional
coverage and
high gain Indoor application scenarios,
such as corridors and two
inner walls Plate directional
antenna High gain and
directional coverage Outdoor application
scenarios, such as oil wells
and open suburb, P2P and
P2MP backhaul
Plate directional
antenna High gain and
directional coverage Plate
cross-polarized
antenna High gain and
directional coverage;
reducing the antenna
quantity by half
Ceiling-mounted Omnidirectional Antenna
A ceiling-mounted omnidirectional antenna is mounted on the ceiling and connected to an AP by a cable. The
antenna can provide omnidirectional indoor coverage and the antenna pattern is nearly a circle in the horizontal
direction. The ceiling-mounted omnidirectional antenna applies to open offices, conference rooms, lecture halls, or
outdoors. The required antenna quantity is determined by the network planning.
Table 3: Ceiling-mounted omnidirectional antenna Antenna Model Frequency
Band Scenario Installation
Manner Gain
(dBi)
Coverage
Distance (m) AP Model
27010210 2.4 GHz Indoor Ceiling
mounted 3 60 AP6310SN
Pole-mounted Omnidirectional Antenna
A pole-mounted omnidirectional antenna is mounted on a pole and connected to an AP by a cable. The antenna
can provide omnidirectional indoor coverage and the antenna pattern is nearly a circle in the horizontal direction.
The pole-mounted omnidirectional antenna applies to outdoors, such as squares and parks.
Note:The antennas 27160363 and 27010913 have the same gain but different sizes. They support different angles
and pole sizes. For specifications, see the appendixes and data sheets.
Table 4: Pole-mounted omnidirectional antennas
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Antenna Model Frequency
Band Scenario Installation
Manner Quantity for
Each AP Gain
(dBi)
Coverage
Distance (m) AP Model
27010215 2.4 GHz Outdoor Pole mounted 2 11 1500AP6510DN/
AP6610DN
27160363 2.4 GHz Outdoor Pole
mounted 2 8 1000
AP6510D
N/AP6610
DN
27010913 2.4 GHz Outdoor Pole
mounted 2 8 1000
AP6510D
N/AP6610
DN
Plate Directional Antenna
Directional antennas increase gains in the directions at which electromagnetic fields focus. Different from
omnidirectional antennas, directional antennas form major lobes in certain directions with high gains, while other
directions have low gains. Directional antennas apply to scenarios that require small coverage angles but long
coverage distances. Typical scenarios include corridors in hospitals or airports, and oil wells. These antennas also
apply to someP2P and P2MP backhaul scenarios.
Note:The antennas 27010902 and 27010219 have similar gains but different sizes. They support different angles
and pole sizes. For specifications, see the appendixes and data sheets.
Table 5: Directional antennas Antenna Model Frequency
Band Scenario Installation
Manner Quantity for
Each AP Gain
(dBi)
Coverage
Distance (m) AP Model
27010209 2.4 GHz Indoor Wall
mounted 1 7 80 AP6310SN
27010902 2.4 GHz Outdoor Pole
mounted 2 14.5 2000AP6510DN/
AP6610DN
27010219 2.4 GHz Outdoor Pole
mounted 2 15.5 2500AP6510DN/
AP6610DN
27010223 2.4 GHz Outdoor Pole
mounted 2 17 3000AP6510DN/
AP6610DN
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27010912 5 GHz Outdoor Pole
mounted 2 15 800AP6510DN/
AP6610DN
Plate Cross-polarized Antenna
A plate cross-polarized antenna transmits signals through two channels at the same time to perform comparable
functions of two stand-alone antennas. For example, a 2×2 MIMO AP needs only one cross-polarized antenna for
one frequency band, but needs two common polarized antennas for the same frequency band. The cross-polarized
antenna has two polarization ports: +45° and – 45° polarization ports. The purchase and installation costs for
cross-polarized antennas are low. As fewer antennas are used, antenna installation and layout are easier.
Table 6: Cross-polarized antennas
Antenna Model Frequency
Band Scenario Installation
Manner Quantity for
Each AP Gain
(dBi)
Coverage
Distance (m) AP Model
27010812 2.4 GHz Outdoor Pole
mounted 1 11 1500AP6510DN/
AP6610DN
27010898 2.4 GHz Outdoor Pole
mounted 1 17 3000AP6510DN/
AP6610DN
27010889 5 GHz Outdoor Pole
mounted 1 11.5 500AP6510DN/
AP6610DN
Dual-Band Antenna
Dual-band antennas work in both 2.4 GHz and 5 GHz frequency bands. APs supporting these two frequency bands
need only one dual-band antenna. Dual-band antennas feature omnidirectional coverage and low gains, reducing
the maximum power density while providing the same transmit power. Dual-band antennas apply to outdoor APs
and are mainly sold to countries require CE/FCC certification.
Table 8: Dual-band antenna Antenna Model Scenario Installation
Manner Quantity for
Each AP Gain (dBi)Coverage
Distance (m) AP Model
27010956 Outdoor Directly connected
to the AP 43 [email protected] GHz
5 dBi@5 GHz
200@5 GHz
AP6510DN/
AP6610DN
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Appendix 1: Antenna Specifications Part Number
Lobe Width Gain
(dBi) Dimensions (mm) Connector Pole
Diameter
(mm) VSWR Antenna
Weight (g) Horizonta
l (degree) Vertical
(degree) 27010209 88 47 7 210 x 180 x 44 N-female N/A 1.5 430
27010210 360 N/A 3 Φ186 x 85 N-female N/A 1.5 275
27010215 360 9 11 Length < 1100 N-female 35-50 1.4 976
27010219 120 7 15.5 970 x 140 x 587/16DIN or
N-female46-75 1.5 4500
27010223 90 7 17 970 x 140 x 587/16DIN or
N-female50-115 1.5 5000
27010812 60 30 12 250 x 155 x 60 N-female x 2 30-50 1.45 < 1000
27010889 60 30 11.5 230 x 145 x 55 N-female x 2 35-114 1.8 1300
27010890 15 15 19 250 x 250 x 25 N-female x 2 35-114 1.8 1300
27010898 65 7.5 16.5 875 x 176 x 63 N-female x 2 48-135 1.5 4200
27010902 110 6 14.5 1140 x 114 x 54 N-female 48-135 1.5 3400
27010912 100 5.5 16 547 x 250 x 18 N-female 48-135 1.7 1800
27010913 360 11.5 8 Φ29 x 720 N-female 48-135 1.5 500
GHz360 45 4 Φ25 x 173 N-male N/A 2 166
27010956@5
GHz
360 25 5 Φ25 x 173 N-male N/A 2 166
27160363 360 14 8 Φ38.5 x 630 N-female 35-50 1.5 600
27011015 5 5 28 Φ600 N-female x 2 40-114 1.5 7000
27011016 9 9 23 Φ400 N-female x 2 40-114 2 3000
Note: Specifications of all components are listed in the data sheets provided by manufacturers. The gains and lobe
widths in this document are typical values. The actual values are within a range, for example, 19 ± 1 dBi and 60 ±
5°. For specifications, see the data sheets.
Appendix 2: Antenna Patterns Part
Number Horizontal Pattern Vertical Pattern
27010209
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Appendix 2: Antenna Patterns Part
Number Horizontal Pattern Vertical Pattern
27010219
27010223
27010812
27010898
Blue part Red part
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Appendix 2: Antenna Patterns Part
Number Horizontal Pattern Vertical Pattern
27010902
Blue part Red part
27010912
Blue part Red part
27010913
Blue part Red part
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Appendix 2: Antenna Patterns Part
Number Horizontal Pattern Vertical Pattern
27010956
@2.4 GHz
27010956
@5 GHz
Note: All the antenna patterns are provided in the data sheets of manufacturers