HBR Wideband 4G & NB-IoT Hinged Antenna, 700 to 2700 MHz
VHT-6926-2
VHT-6926-2
End of Life (No Longer Stocked)

This compact terminal antenna is designed to connect directly to any wireless modem that uses an SMA interface. It covers the global 3G + 4G LTE range from 700 to 2700 MHz, including NB-IoT and LTE-M bands such as B8, B20, and B28.

VHT-6926-2 is an economical ground plane independent terminal antenna covering 2G, 3G and 4G frequencies between 698 to 960 and 1710 to 2655 MHz bands. Designed for terminals and routers, the antenna offers an articulated SMA connector for flexible positioning and a sleek profile for low visual impact.

This antenna has reached End of Life and is only available as a custom order.

Recommended Use

This antenna is most commonly used in large-scale rollouts, having excellent performance over the lower 700 to 900 MHz LTE / IoT bands which can be challenging to achieve in this type of design.

A comprehensive laboratory test report is available on request.

Frequency Range [ ? ]700 to 2700 MHz
Polarisation [ ? ]
Max. Input Power [ ? ]10 W
Input Impedance50 Ω
MIMO [ ? ]
PIM, 3rd Order [ ? ]
Frequency Range [ ? ] Peak Gain [ ? ] VSWR [ ? ] Efficiency Average Gain Inter-Port [ ? ] El. [ ? ]
698 to 960 MHz 1.0 dBi
< 3.5:1
1710 to 2655 MHz 3.0 dBi
< 2.5:1
developer_board

Physical Specification

Operating Temperature-40 to 65 °C
Weight
194 g
Construction
Dimensions
172.6 x 18 mm (L x ø)
Mounting
Terminal, attaches to SMA Female
Ingress Protection
RF Connections Cable Length Notes
1x Female
Connects directly to a user device

About the Supplier

HB Radiofrequency engineer high performance 3G, 4G, and 5G components such as antennas, cable assemblies, and RF connectors. Equipment is sourced through the company's extensive global vendor network, providing best-in-class performance. HB Radiofrequency forms an essential unit within the Halberd Bastion enterprise, a wholly Australian-owned company with diversified business units across telecommunications procurement, manufacturing, and projects.