Waveguide Probe Antenna 8 dBi Gain, 90GHz-140GHz Frequency Range

key features and applications of waveguide probe antennas

Directional Radiation Pattern: Waveguide probe antennas typically exhibit a highly directional radiation pattern. The specific radiation pattern depends on the design and size of the waveguide probe, as well as the frequency of operation. This directional radiation allows precise aiming and focusing of the transmitted or received signal.

Broadband Performance: Waveguide probe antennas can be designed to operate over a wide frequency range. The operating bandwidth depends on the specific design and the operating modes within the waveguide. Broadband performance makes waveguide probe antennas suitable for applications requiring broad frequency coverage.

High Power Handling Capability: The waveguide probe antenna is capable of handling high power levels. The waveguide structure provides a robust and reliable platform for transmitting and receiving high-power electromagnetic signals without significant performance degradation.

Low Loss: Waveguide probe antennas typically have low loss, resulting in high efficiency and improved signal-to-noise ratio. The waveguide structure minimizes signal loss for better propagation and reception of electromagnetic waves.

Compact design: Waveguide probe antennas can be of compact and relatively simple design. They are usually made of metal materials such as brass, aluminum or copper, so they are durable and cost-effective.