A novel compact low-pass filter using defected ground structure

## Abstract A novel compact microstrip low‐pass filter (LPF) is proposed in this article. The proposed LPF is composed of semicircle‐defected ground structures (S‐DGS) and semicircle stepped‐impedance shunt stubs (S‐SISS). An equivalent lumped L‐C circuit model is also presented. With the S‐DGS and

## Abstract A novel ϕ‐shape defected ground structure (DGS) is proposed in this article.Low‐pass filters are designed using the ϕ‐shape DGS with H shape open stubs line. Single, two‐cascaded and three‐cascaded ϕ‐shape DGS low‐pass filters are designed, simulated, fabricated, and measured. The reson

## Abstract In this paper, an equivalent‐circuit model of a defected ground structure (DGS) is applied to explain the characteristics of the DGS. The parameters of the circuit model are extracted from the EM‐simulation results. A novel three‐pole lowpass filter is proposed and optimized by using th

## Abstract A novel microstrip low‐pass filter utilizing defected ground structure (DGS) units is presented in this article. A DGS unit is simulated with different physical dimensions in order to show variation of attenuation pole and cut‐off frequency. Next, a low‐pass filter using proposed DGS un

## Abstract A novel compact microstrip bandpass filter using a dumbbell‐shaped defected ground structure (DGS) etched in ground plane under microstrip line is proposed. The bandpass characteristic is easy to obtain by adjusting the bandgaps of the DGS resonators. The filter has the advantages of co

## Abstract A novel compact microstrip low‐pass filter is proposed using defected ground structure and spurline. The measured passband to stopband attenuation slope is more than 73 dB/GHz. Electrical length of the filter is less than 20% of the guided wavelength at 3 dB cutoff frequency. Measured s