Miniaturization of ring resonator bandpass filters using dielectric ceramic substrates

The miniaturization of ring bandpass filters by employing high-permittivity ceramic substrates (with respective dielectric constants of 9.7 and 23.5) are investigated. Microwave dielectric ceramics with high permittivity are commonly applied in several microwave communication components. With the ad

## Abstract A four‐pole open‐loop resonator bandpass filter fabricated on high dielectric constant (Zn~0.9~Mg~0.1~)TiO~3~ ceramic substrates is presented. The full‐wave simulator IE3D is utilized to calculate the coupling coefficients of each basic coupling structure and simulate S‐parameters of th

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

## Abstract A dual‐mode bandpass filter (BPF) using the degenerate modes of a meander square‐ring structure printed on the high‐permittivity substrate is proposed. The dual‐mode resonator is based on a square‐ring loaded with two meander strips at the coupling sides. The filter is printed on the Al

## Abstract This letter presents very small LC resonator‐based bandpass filters on an organic substrate for wireless system applications. Because of the lack of a fabrication process for high‐capacitance density capacitors on the applicable substrate, the proposed bandpass filter designs are based