A microstrip bandgap filter with the photonic band gap resonators

## 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 novel ultra‐wide band bandpass filter with notched band is presented.Multi‐mode resonator is realized using a stepped‐impedance slotline. The resonator is orthogonally coupled to the microstrip feed lines, and ultra‐wide passband is obtained. Microstrip open loop resonators are loaded

## Abstract In this paper, two different uniform photonic band‐gap (PBG) structures used as stopband filters for microstrip lines at 5.4 GHz are proposed and compared in terms of the pattern shapes' effect on the S‐parameters. This suggests the use of a 1D pattern to reduce the transversal size of

## Abstract A dual‐band microstrip bandpass filter is proposed. With the assistance of modified short‐circuit quarter‐wavelength resonators, the dual‐band bandpass filter can be developed. Theoretical analysis and design procedures are provided; the prototypical bandpass filter with dual passbands

A novel, planar inverted-F antenna with a slotted T-shaped ground plane is proposed. It is shown that introducing a cross-shaped slot onto the T-shaped ground can greatly broaden the bandwidth without affecting the operating frequency. The measured bandwidth of the proposed antenna is from 1950 to 2

## 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