UWB microstrip filter design using a time-domain technique

## Abstract A transmission‐line configuration consisting of equal‐length two‐section open stubs, serial lines, and short stubs is employed to emulate the Z‐domain transfer function of a wideband band‐pass filter. Both mitering and slots are used to reduce the discontinuity effect caused by the abru

## Abstract In this study, firstly, a novel U‐shaped defected ground structure(UDGS) cell is proposed to hold both wide band gap and excellent slow‐wave characteristic. The design, simulation, and fabrication of compact ultra wideband(UWB) low pass filters (LPFs) using two UDGSs and a compensated m

## Abstract In this paper, design of a compact coplanar‐waveguide (CPW) bandpass filter (BPF) for low band (3–5 GHz) of ultra wide band (UWB) application is presented. The filter has design freedoms to obtain the proper bandwidth by tuning the frequencies of the transmission zeros at the passband e

## Abstract A novel technique for the solution of electromagnetics problems in the time domain is proposed. In this technique, wavelet‐like functions are used as the basis set for the field components. The time‐domain algorithm is derived and examples using the technique are presented. Comparisons

## 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 In this letter, we have presented a new design methodology for microstrip stepped impedance filter.An artificial neural network has been used to learn the nonlinear relationship between the design specifications and physical dimensions of the required filter. The performance of filter d