New cross-coupled filter design using improved hairpin resonators

## Abstract Cross‐coupled hairpin filter design using electrical‐coupling with asymmetric feed on ceramics was reported. The band‐pass filters are designed at center frequency of 2.0 (GHz) with bandwidth of 10%. In addition, this article presents an analytical technique for positioning the location

of the top patch (60 and 15 mm in this design), can be easily controlled. Also note that the top patch and the triangular-feed patch can be easily constructed together by line-cutting or stamping a single metal plate (a 0.3-mm copper plate is used in this study), which is then bent by 90°following t

## Abstract In this letter, a highly selective microstrip bandpass filter using triangular open‐loop resonators with improved cross‐coupled structure is designed, fabricated, and measured. The new cross coupling structure is implemented by inserting two L‐shaped stubs into the triangular open‐loop

## Abstract In this letter, a novel miniaturized split‐ring resonator (SRR) structure is introduced in designing high‐frequency selectivity and stopband expanded bandpass filter (BPF) with four transmission zeros.Such fundamental resonators consist of a pair of half‐wavelength hairpin‐shaped ring r

## Abstract In this letter, a multilayered dual‐band bandpass filter (BPF) using cross‐coupled stepped impedance resonators (SIRs) is designed and implemented. By determining the impedance ratio (K) and physical length (α) of the SIRs, the dual‐band response at 2.4/5.2 GHz can be achieved. Cross‐co