ANT-DB1-WRT-MHF4

$12.20

Product AttributeAttribute Value
Manufacturer:Linx Technologies
Product Category:Antennas
Product Type:2.4GHz Antenna – 2.4GHz, 5GHz, Bluetooth, WiFi, WLAN, Zigbee
Product:Outdoor Antennas
Type:Passive Antennas
Minimum Frequency:2400 MHz
Maximum Frequency:7125 MHz
Protocol – WiFi – 802.11:802.11, 802.11 ax, 802.11 n, WiFi 4, WiFi 5, WiFi 6
Protocol – Sub GHz:IoT, ISM, U-NII
Mechanical Style:Module
Style:Dome
Gain:3.2 dBi, 6.8 dBi, 7 dBi
Bandwidth:100 MHz, 150 MHz
Impedance:50 Ohms
VSWR:1.9, 3.7, 4
Power Rating:5 W
Minimum Operating Temperature:– 40 C
Maximum Operating Temperature:+ 90 C
Electrical Type:Dipole
Number of Bands:3 Band
Mounting Style:Direct / Permanent Mount
Termination Style:Connector
Antenna Connector Type:MHF4 Female
Center Frequency:2.4 GHz, 5 GHz, 6 GHz
Application:Single Band, Dual Band, ISM Applications, IoT Devices, Smart Home Networking, Sensing, Remote Monitoring, U-NII
Length:10 mm
Cable Type:216 mm RF1.32
Packaging:Bulk
Brand:Linx Technologies
Cable Length:216 mm
Diameter:19 mm
Frequency:2.4 GHz, 5 GHz
Frequency Range:2400 MHz to 2485 MHz, 5150 MHz to 5850 MHz, 5925 MHz to 7125 MHz
Polarization:Linear
Factory Pack Quantity:50
Subcategory:Antennas
Wavelength:1/2 Wave

 

Additional Details

Product Compliance

USHTS:8517700000

ECCN:EAR99

More Information

Linx Technologies WRT Dual-Band Antennas
WRT Dual-Band Antennas
Linx Technologies WRT Dual-Band Antennas upholds inheritance 2.4GHz Wi-Fi and 5.8GHz band applications in a solitary conservative recieving wire. These radio wires are introduced through a little opening in the walled in area and incorporate a coordinated shut cell PSA ring to seal against the nook. The WRT radio wires highlight a 8.5″ long cajole link with a RP-SMA, SMA, or u.FL/MHF-viable connector. These position of safety recieving wires with alter safe plans are ideally suited for testing applications like remote distributing, security, traffic, and power hardware. The double band WRT radio wires are accessible in ANT-DB1-WRT and ANT-DB1-WRT-MON variations.