Carlos A. Leal-Sevillano scite author profile

The design, method of fabrication and experimental validation of a pseudo-elliptical four-poles asymmetric response filter at 100 GHz with 10% of fractional bandwidth is presented. The designed filter is part of an image radar system and must fulfill stringent specifications. The proposed topology and method of fabrication improves the out of band rejection above the pass band in comparison with other classical structures, while keeping a low insertion loss level. A two-fold geometry for implementing a transmission zero is proposed, avoiding the excitation of the first higher order mode and easing the manufacturing without any tuning element. A low-cost milling process is used for the fabrication of the device. The final design fulfills the desired specifications and presents 0.6 dB of insertion loss level at 100 GHz. The excellent agreement between simulations and measurements at this frequency band in both, return loss and insertion loss, is pointed out.

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Carlos A. Leal-Sevillano

A 225 GHz Circular Polarization Waveguide Duplexer Based on a Septum Orthomode Transducer Polarizer

A Pseudo-Elliptical Response Filter at W-Band Fabricated With Thick SU-8 Photo-Resist Technology

Orthomode Transducers With Folded Double-Symmetry Junctions for Broadband and Compact Antenna Feeds

Silicon Micromachined Canonical ${\hbox{E}}$-Plane and ${\hbox{H}}$-Plane Bandpass Filters at the Terahertz Band

Low-Loss Elliptical Response Filter at 100 GHz

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