Design of an elliptic-function bandpass filter using microstrip spiral resonators

## Abstract In this letter, a dual‐band bandpass filter is proposed by consisting of spiral‐shaped microstrip resonators. Meanwhile, a skew‐symmetric tapped feed structure is applied to introduce two transmission zeros on both sides of individual passbands, and thereby improve the filter selectivit

power of 1.8 dBm was measured in the transmitter at an injection current of 50 mA. Based on the BPM simulation, the overall optical coupling loss of the transmitter part is 8.4 dB, which includes an LD-PLC coupling loss of 6.0 dB, a filter loss of 1.4 dB, and a PLC-fiber coupling loss of 1.0 dB. Whe

## Abstract This letter presents a novel approach for designing quad‐band bandpass filter with independently controlled center frequencies.Assembled resonator constructed by a stepped impedance resonator (SIR) and a stub‐loaded SIR is employed to obtain quad‐band responses. The SIR is designed to o

## Abstract In this letter, a highly selective microstrip bandpass filter using triangular open‐loop resonators with improved cross‐coupled structure is designed, fabricated, and measured. The new cross coupling structure is implemented by inserting two L‐shaped stubs into the triangular open‐loop

## Abstract This letter presents very small LC resonator‐based bandpass filters on an organic substrate for wireless system applications. Because of the lack of a fabrication process for high‐capacitance density capacitors on the applicable substrate, the proposed bandpass filter designs are based

## Abstract In this article, a novel type of dual‐band bandpass filter (DBBPF) is proposed by using microstrip composite resonators, and its design method is developed based on the lumped‐element equivalent circuit of the filter. Both the midband frequencies and the passband widths of the dual band