A novel compact microstrip lowpass filter using a meander open-loop resonator

## Abstract A novel compact microstrip lowpass filter using __N‐__turn meander line structure is proposed. This low pass filter provides a transmission zero near the passband edge and low passband insertion loss. Both the cutoff frequency and transmission zero can be easily controlled by changing t

GHz. For this reason, the spacing t was selected to be 1.0 mm for the prototype constructed here. The radiation characteristics of the constructed prototype were also studied. Figures 7 and8 plot the measured radiation patterns at the center frequencies (2442 and 5500 MHz) for the 2.4-GHz and 5.2/5

## Abstract A novel compact microstrip lowpass filter integrating a bandstop structure in an open‐loop resonator is proposed. The lowpass filter has the advantages of compact size, wide rejection in the stop‐band, and three transmission zeros in the stop‐band for suppressing the harmonics. A demons

## Abstract In this paper, a design technique that includes a synthesis procedure and a realization method for a microstrip open‐loop resonator filter with two passbands is described. Transmission zeros of the filter‐transfer function are employed to split a single passband into two passbands, and

## Abstract We report a novel miniaturized microstrip bandpass filter with a meander‐line resonator which exhibits a much smaller size. A very compact prototype, having a size of about λ~g0~/8×λ~g0~/8 at a center frequency of 2.445 GHz, was designed and fabricated for a 2.4 GHz bluetooth applicatio

## Abstract A novel compact microstrip bandpass filter using a triangular resonator is proposed. The bandpass filter has the characteristic of the quasi‐elliptical response, and several transmission zeros in the stopband are realized in order to improve the selectivity of the passband. A demonstrat