Omnidirectional Antenna Operates at 300 GHz

Model SAO-2943040345-03-S1 is an omnidirectional antenna that operates from 297 to 303 GHz. The vertically polarized antenna offers 360 degrees of azimuth coverage with 3 dBi typical gain and ±2 dBi angular gain flatness. The vertical beam width is 45 degrees. The antenna feed is WR-03 waveguide with a UG-387/U-M anti-cocking flange.

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Eravant
www.eravant.com

Waveguide Standard Gain Horns

Fairview Microwave has announced the launch of its new low frequency waveguide standard gain horns, designed specifically for test and measurement applications. The new line is well suited for characterizing antennas and wireless systems. Models are available in WR-510, WR-650 and WR-770 sizes, both 10 dBi and 15 dBi gain options, and type-N female connectors. The waveguide standard gain horns support frequency ranges down to 320 MHz, addressing a significant gap in the market for low frequency testing solutions.

Fairview Microwave
www.fairviewmicrowave.com

Surface-Mount 90° Hybrid

Mlcable released the new 0.8 to 2.7 GHz high power surface-mount 90-degree hybrid. It has low insertion loss (0.5 dB maximum), excellent VSWR (1.35:1 maximum), extremely good amplitude unbalance (±0.65 dB maximum) and phase unbalance (±5 degrees maximum), high isolation (17 dB minimum) and 200 W power handling capability with excellent stability and heat dissipation ability in a small package. It is suitable for power amplifier, power combining network, antenna feed network, modulator and phase shifter applications.

MIcable Inc.
www.micable.cn

Wireless InSite®

Non-terrestrial wireless networks play a critical role in providing service to locations not covered by terrestrial 5G networks. Wireless InSite® models satellite coverage, simulating the satcom channel to capture important effects such as terrain masking, shadowing due to foliage and multipath fading, which are essential to a proper evaluation of the link budget. Ray-tracing models can be used to identify cases where terrestrial coverage needs to be supplemented with a LEO satellite overlay to improve NB-IoT coverage in rural areas.

Remcom
www.remcom.com