TE Connectivity Linx ANT-2.4-WRT-CCC, Manual

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DATA AND DEVICES

/ ANT-2.4-WRT-CCC

ANT-2.4-WRT-CCC

2.4 GHz External Panel-Mount Antenna

The ANT-2.4-WRT is a low-profile, panel-mount dipole antenna designed for 2.4 GHz ISM frequency band applications such as

Bluetooth® and ZigBee®.
The ANT-2.4-WRT antenna’s compact size allows it to be mounted in applications requiring a low profile and external antenna

performance, such as wireless vending and traffic control equipment.
The ANT-2.4-WRT antenna is designed with an integrated counterpoise that eliminates the need for additional ground plane in the

product, making it ideal for applications with non-conductive or RF transparent enclosures.
Connector options for the ANT-2.4-WRT antenna are: SMA plug (male pin), RP-SMA plug (female socket), MHF1/U.FL-type plug

(female socket), or MHF4-type plug (female socket).

FEATURES

ORDERING INFORMATION

APPLICATIONS

• Performance at 2.4 GHz

– VSWR:

≤

1.5

– Peak Gain: 9.1 dBi

– Efficiency: 66%

• Low-profile

– Height: 10.0 mm (0.40 in)

– Diameter: 19.0 mm (0.75 in)

• Mounts permanently with pressure sensitive

adhesive ring and provided nut

• Single-band WiFi/WLAN/802.11

– WiFi 4

• 2.4 GHz ISM applications

– Bluetooth®

– ZigBee®

•  U-NII and ISM applications
•  Internet of Things (IoT) devices
•  Smart Home networking
•  Sensing and remote monitoring

Part Number

Description

ANT-2.4-WRT-UFL-100

Antenna, 100 mm (3.94 in) of 1.32 mm coaxial cable, MHF1/U.FL-type plug (female socket)

ANT-2.4-WRT-UFL-150

Antenna, 150 mm (5.91 in) of 1.32 mm coaxial cable, MHF1/U.FL-type plug (female socket)

ANT-2.4-WRT-UFL

Antenna, 216 mm (8.50 in) of 1.32 mm coaxial cable, MHF1/U.FL-type plug (female socket)

ANT-2.4-WRT-MHF4

Antenna, 216 mm (8.50 in) of 1.13 mm coaxial cable, MHF4-type plug (female socket)

ANT-2.4-WRT-RPS

Antenna, 216 mm (8.50 in) of RG-174 coaxial cable, RP-SMA plug (female socket)

ANT-2.4-WRT-SMA-150

Antenna, 150 mm (5.91 in) of RG-174 coaxial cable, SMA plug (male pin)

ANT-2.4-WRT-SMA

Antenna, 216 mm (8.50 in) of RG-174 coaxial cable, SMA plug (male pin)

Available from Linx Technologies and select distributors and representatives.

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Summary of Contents for Linx ANT-2.4-WRT-CCC

Page 1: ...Efficiency 66 Low profile Height 10 0 mm 0 40 in Diameter 19 0 mm 0 75 in Mounts permanently with pressure sensitive adhesive ring and provided nut Single band WiFi WLAN 802 11 WiFi 4 2 4 GHz ISM app...

Page 2: ...5 1 g 0 18 oz ANT 2 4 WRT RPS RP SMA plug RG 174 10 2 mm 0 40 in 216 mm 7 0 g 0 25 oz ANT 2 4 WRT SMA SMA plug RG 174 10 2 mm 0 40 in 150 mm 6 1 g 0 22 oz 216 mm 7 0 g 0 25 oz Electrical specificatio...

Page 3: ...tions Figure 2 ANT 2 4 WRT Series Antenna Recommended Enclosure Mounting Dimensions RECOMMENDED MOUNTING The recommended enclosure mounting dimensions are shown in Figure 2 The ANT 2 4 WRT series ante...

Page 4: ...smitter power reflected back from the antenna Figure 5 ANT 2 4 WRT VSWR Free Space RETURN LOSS Return loss Figure 6 represents the loss in power at the antenna due to reflected signals Like VSWR a low...

Page 5: ...gure 7 ANT 2 4 WRT Peak Gain Free Space AVERAGE GAIN Average gain Figure 8 is the average of all antenna gain in 3 dimensional space at each frequency providing an indication of overall performance wi...

Page 6: ...elative to the power radiated at the antenna expressed as a percentage where a higher percentage indicates better performance at a given frequency Figure 9 ANT 2 4 WRT Series Antenna Radiation Efficie...

Page 7: ...with typical PDF viewing software zooming into radiation patterns is possible to reveal fine detail 2400 MHz TO 2500 MHz 2450 MHz XZ Plane Gain YZ Plane Gain XY Plane Gain XZ Plane Gain YZ Plane Gain...

Page 8: ...o VSWR across the antenna bandwidth VSWR describes the power reflected from the antenna back to the radio A lower VSWR value indicates better antenna performance at a given frequency Reflected power i...

Page 9: ...a bandwidth is shown in Figure 14 Peak gain represents the maximum antenna input power concentration across 3 dimensional space and therefore peak performance at a given frequency but does not conside...

Page 10: ...n efficiency Figure 16 shows the ratio of power delivered to the antenna relative to the power radiated at the antenna expressed as a percentage where a higher percentage indicates better performance...

Page 11: ...typical PDF viewing software zooming into radiation patterns is possible to reveal fine detail 2400 MHz TO 2500 MHz 2450 MHz XZ Plane Gain YZ Plane Gain XY Plane Gain XZ Plane Gain YZ Plane Gain XY P...

Page 12: ...ducts should make their own evaluation to determine the suitability of each such product for the specific application TE Connectivity warrants to the original end user customer of its products that it...

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