Triple-mode asymmetric filters in a rectangular waveguide

A new triple mode in-line principle for filter application that pro¨ides a ¨ersatile configuration is de¨eloped. The position in the z-axis of the cross section that includes the coupling screws is considered as a parameter of design. In addition, the length of the ca¨ity is used as a tuning element

In this paper, a complete design procedure is presented for an original structure of evanescent-mode filters which does not require special tuning techniques or subsequent optimization procedures beyond the design method itself. The method covers the cases of both rectangular and circular waveguide

A local-modes technique is employed for the rigorous full-wave computer-aided analysis of rectangular waveguide components with continuous variations of the transverse cross section along the propagation direction. Fields in the varying waveguide sections are expanded as a sum of the modes of the lo

## Abstract A novel compact and high‐isolation triple‐band coplanar‐waveguide bandpass filter designed at 1.30, 2.03, and 2.74 GHz is presented. More than one transmission zero between the three passbands is realized to improve the selectivity of the filter and to achieve a high isolation higher th