Design of a New Capacitive Load Cross-Coupled Cavity Filter

Abstract: This paper presents a new design method for a capacitor-loaded cross-coupled cavity filter, which significantly increases the power capacity of the cavity filter while improving out-of-band rejection. The filter uses a coaxial resonator at the open end of the donut capacitive-load. A triangular form of cavity structure is used for the full-cavity arrangement to reduce the size of the filter. In order to validate the design, a filter with a center frequency of 2.08 GHz and bandwidth of 80 MHz was designed, proc… Show more

“…3(a) shows the layout of the structure. The isolation gap that separates the metal patch from the higher ground plane creates a large capacitive load because of the developed fringing fields [39]. At the same time, resonators 1 and 2 generate two poles at a higher frequency in comparison to the whole resonator itself as shown in Fig.…”

Customizable Substrate Integrated Waveguide Based Dual Pole Band Pass Filter for X Band Application

“…3(a) shows the layout of the structure. The isolation gap that separates the metal patch from the higher ground plane creates a large capacitive load because of the developed fringing fields [39]. At the same time, resonators 1 and 2 generate two poles at a higher frequency in comparison to the whole resonator itself as shown in Fig.…”

Customizable Substrate Integrated Waveguide Based Dual Pole Band Pass Filter for X Band Application