Explicit design formulae for wideband bandpass filters

## Abstract This article presents a wideband bandpass filter (BPF) designed using novel multimode resonators (MMRs). The MMR is formed by combining two quarter‐wavelength (λ/4) stepped‐impedance resonators (SIRs) in a structure‐shared fashion. The fundamental resonant frequency of the inherent λ/4

## Abstract A novel wideband bandpass filter for ultra‐wideband system application is proposed, designed, and implemented on the basis of a modified stepped impedance resonator structure. The modified stepped impedance resonator can not only generate multiple‐resonant peaks within the ultra‐wideban

## Abstract This article presents a design for wideband bandpass filters using a microstrip cavity coupler. The broadband nature of the cavity‐coupled designs is fully exploited for this application. Two additional circuits are introduced to improve the stopband performance of the cavity‐coupled ba

## Abstract In this paper, a compact three‐poles hairpin line wideband bandpass filter with several embedded open stubs to improve the stopband is designed and implemented on print circuit board substrate. This filter at center frequency f~0~ of 4.25 GHz has presented almost very good measured char

## Abstract In this article, a millimeter‐wave ultra‐wideband (UWB) bandpass filter is proposed and implemented by cascading two dual‐mode square ring resonators loaded with λ~0~/4 and 3λ~0~/4 open tuning stubs, aiming at transmitting the signals in the UWB passband of 22–29 GHz. Formulae based on

## Abstract This letter presents the accurate design of a compact ultra‐wideband bandpass filter with a bandwidth from 400 to 900 MHz. The measured results demonstrate an insertion loss of <0.98 dB and a return loss of 14.9 dB. Furthermore, the theoretical, simulated, and experimental performances