Miniaturization of hairpin bandpass filters using high-permittivity substrate

Some aspects of stability and numerical dissipation of the finite-difference time-domain (FDTD) technique including passive and active lumped elements, IEEE Trans Microwave

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 Using high permittivity ceramic substrates and capacitive coupling to miniaturize the sizes of Butterworth bandpass filters are investigated. The selectivity and stopband rejection of the designed filters can be improved significantly by utilizing a skew‐symmetric (zero degree) feed str

## Abstract A miniature monoblock bandpass filter with combline‐type, quarter‐wavelength, and capacitive coupling is investigated. The coupling analysis and equivalent circuit consist of the transmission lines, and lumped elements are presented to predict the filter performance. A filter design tec

## Abstract Dual‐band planar bandpass filter, using two microstrip rectangular ring resonators, is proposed for wireless LAN system such as IEEE 802.11 systems (2.4 or 5 GHz). The miniaturized bandpass filter is implemented using a high permittivity dielectric substrate. The full‐wave simulator IE3