Novel compact bandpass filters with wide controllable fractional bandwidth

GHz are for the notch frequency and the radiation patterns at 3.96 and 8.18 GHz are for the passband frequency. The measured radiation patterns at the passband frequency are about the same for the antenna both with and without the U-slot. The measured results show that the radiation patterns in the

## Abstract The re‐entrant coupling structure is applied in a parallel‐coupled microstrip filter design to ensure a wide bandwidth, compactness, and the suppression of spurious. Fan design graphs are provided to determine the dimensions of each coupled stage. The features and advantages of the prop

## Abstract Two compact bandpass filters composed of the lumped elements in various coplanar waveguide (CPW) forms have been presented in this study. The filters were designed to operate at the frequency of 2.45 GHz. The behaviors of these filters can be simulated by the equivalent lumped‐element c

## Abstract This paper presents a simple printed microstrip low‐pass filter with advantages of compact size, low insertion loss, and wide rejection bandwidth. The filter design has been optimized using a genetic algorithm (GA), and a good agreement between the simulation and measurement results has

## Abstract A dual‐band microstrip bandpass filter with controllable bandwidth is proposed by using new dual‐band resonators. The resonator consists of a pair of shunt open stubs, including a stepped‐impedance open stub. The open stubs produce three transmission zeros, which result in sharp attenua

## Abstract One novel compact ultra‐wideband filter having high‐frequency selectivity and wide stopband is developed by using microstrip stub‐loaded dual‐mode resonator couples. Open stub‐loaded and short stub‐loaded are used to widen the passband of filter without aperture‐enhanced coupled line st