A wideband EBG structure with 1D compact microstrip resonant cell

## Abstract This paper presents a novel, compact, low‐insertion‐loss, sharp‐rejection, wideband microstrip bandpass filter. The filter is based on a ring resonator with direct‐connected orthogonal feed lines, and uses two stepped‐impedance open stubs to construct a wideband passband with two sharp

## Abstract This article proposes a novel wideband bandpass filter using a novel microstrip multiple‐mode resonator (MMR). This MMR is composed of a section of open‐ended microstrip‐line and an asymmetric compact microstrip resonant cell (ACMRC) connected to the open‐ended microstrip‐line section a

## Abstract A compact triple U‐shaped slots etched on the microstrip ground are used to implement a novel low‐pass filter.A rectangular open stub and a radius stub are used to produce transmission zeros and thus result in wide stopband. Good low‐pass performance and wide stopband characteristics ca

## Abstract Some novel compact microstrip resonant cells (CMRCs) are proposed and analyzed. With specific patterns etched on the microstrip line, these cells exhibit different characteristics of slow wave and bandstop. CMRCs are incorporated into a low‐current‐consumption transmitting/receiving (TX

## Abstract A new type of compact one dimensional (1D) microstrip photonic bandgap (PBG) used for filters is presented. A semiconductor‐based structure of a miniature band‐stop filter with three cells is simulated, realized, and measured. Basic agreement between the experimental and simulated resul

## Abstract A novel EBG structure is proposed for a tunable and wide stop band (band gap). Although the proposed EBG, which consists of two microstrip open‐loop resonators located back to back, has only one unit cell inserted into the microstrip; it produces the characteristics of the general EBG s