A novel differential equation model for a microstrip low-pass filter

## Abstract Two novel low‐pass filters (LPFs) of wide stop‐band are proposed in this paper. One filter is implemented by a photonic band‐gap (PBG) microstrip structure with T‐junction opened stubs and its frequency characteristics are discussed. The other filter is implemented by a PBG microstrip s

## Abstract A low pass strip line filter is fabricated by microstrip line design. This substitute method is validated by simulated and tested results. This method can be used in the design of TEM planar passive circuits. © 2007 Wiley Periodicals, Inc. Microwave Opt Technol Lett 49: 1175–1178, 2007;

## Abstract This article deals with novel microstrip low‐pass filter (LPF) design method using defected ground structure (DGS). The DGS allows significant length reduction of inductive microstrip lines, thus overall filter dimensions are reduced. Chebyshev prototype filter design is described and c

## 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 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

## 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