An artificial dielectric resonator that can enhance a relative dielectric constant in a basic mode is provided. The artificial dielectric resonator 1 has a first series metal strip group 2 including a plurality of metal strips 20 each in a thin sheet shape arranged with microscopic gaps 20G provided in a longitudinal direction, and a second series metal strip group 3 including a plurality of metal strips 30 each in a thin sheet shape arranged with microscopic gaps 30G provided in a longitudinal direction, the first series metal strip group 2 and the second series metal strip group 3 are disposed close to each other in a thickness direction of the metal strips 20 and 30, and the metal strip 20 or 30 of one metal strip group 2 or 3 is disposed to face and cross gap 30G or 20G of the other metal strip group 3 or 2.

An artificial dielectric resonator that can enhance a relative dielectric constant in a basic mode is provided. The artificial dielectric resonator 1 has a first series metal strip group 2 including a plurality of metal strips 20 each in a thin sheet shape arranged with microscopic gaps 20G provided in a longitudinal direction, and a second series metal strip group 3 including a plurality of metal strips 30 each in a thin sheet shape arranged with microscopic gaps 30G provided in a longitudinal direction, the first series metal strip group 2 and the second series metal strip group 3 are disposed close to each other in a thickness direction of the metal strips 20 and 30, and the metal strip 20 or 30 of one metal strip group 2 or 3 is disposed to face and cross gap 30G or 20G of the other metal strip group 3 or 2.

Aspects of the disclosure are directed to a bandpass filter including a first, second, third and fourth resonators, wherein the second and third resonators are in parallel, wherein the first resonator includes a first and second terminals, wherein the second resonator includes a second resonator top terminal and a second resonator bottom terminal, wherein the third resonator includes a third resonator top terminal and a third resonator bottom terminal, wherein the fourth resonator includes a third terminal and a fourth terminal; wherein the first terminal is coupled to the second resonator top terminal, wherein the second terminal is coupled to the third resonator top terminal, wherein the third terminal is coupled to the third resonator bottom terminal, wherein the fourth terminal is coupled to the second resonator bottom terminal; a first inductor coupled to the first and third terminals; and a second inductor coupled to the second and fourth terminals.

A coaxial transmission line, e.g. a coaxial cable, includes an inner electrical conductor, an outer electrical conductor, a dielectric region between the inner electrical conductor and the outer electrical conductor, and an electrically thin resistive layer within the dielectric region and concentric with the inner electrical conductor and the outer electrical conductor. The electrically thin resistive layer is a resistive layer configured to be transparent to a subtantially transverse-electromagnetic (TEM) mode of transmission, while absorbing higher order modes of transmission.

A tunable dual-band resonator and a tunable dual-band band-pass filter using the tunable dual-band resonator. The dual-band resonator is structured such that a stub is added to each half-wavelength resonator provided with half-wavelength resonator protrusions (capacity-component adjust parts). The dual-band resonator is made up of an odd-number mode resonator in a shape including a ground conductor disposed on the back surface of a dielectric body, and a strip conductor disposed on the top surface thereof, and an even-number mode resonator in such a shape as to be formed when the stub is connected to an end face on the opposite side of the open-end of the strip, characterized in that a dielectric rod circular in cross section is provided in the space above the respective stubs, and another dielectric rod circular in cross section is provided in the space above the half-wavelength resonator protrusions.

A broadband ring resonator including a substrate, a conductive trace on the substrate comprising a first end and a second end, wherein the conductive trace encloses an interior region except for a gap between the first end and the second end, and at least one radial stub integrated into the conductive trace and a method of enhancing a bandwidth of a split ring resonator including acquiring a substrate, forming a conductive trace on the substrate comprising a first end and a second end, wherein the conductive trace encloses an interior region except for a gap between the first end and the second end, and integrating at least one radial stub into the conductive trace.

This filter comprises a plurality of resonators, each of which comprises a via electrode section and /a capacitor electrode. A first via electrode section, which is provided to a first resonator located in the center of a dielectric substrate, is divided into a first partial electrode section and a second partial electrode section, and each of the plurality of resonators other than the first resonator is provided with one undivided via electrode section.

Provided is a TM-mode dielectric filter including a housing, a support structure, a dielectric resonant rod, a cover plate, a buffer pad, and a plurality of tuning assemblies. A resonant cavity is disposed on the housing, the support structure is disposed on a bottom of the resonant cavity, one end of the dielectric resonant rod is mounted on the support structure, multiple adjustment holes are disposed on the dielectric resonant rod, the cover plate is connected to the housing and covers an opening of the resonant cavity, the buffer pad is disposed in the resonant cavity, covers another end of the dielectric resonant rod, and is sandwiched between the dielectric resonant rod and the cover plate, and the plurality of tuning assemblies is disposed on the cover plate, and each adjustment hole of the multiple adjustment holes is configured with a corresponding one of the plurality of tuning assemblies.

A filter is provided with: a plurality of resonators each comprising a via-electrode portion formed in a dielectric substrate, and a capacitor electrode that faces a first shielding conductor and is connected to one end of the via-electrode portion; and a first capacitively coupled structure which includes a first electrode pattern connected to the first capacitor electrode of the first resonator), and a second electrode pattern which is connected to the second capacitor electrode of the second resonator and of which at least a part overlaps at least a part of the first electrode pattern in plan view.

A multi-layered resonator circuit structure and a multi-layered filter circuit structure. The multi-layered resonator circuit structure includes a multi-layered substrate, a plurality of resonators and a plurality of conductive components. The multi-layered substrate has a top surface, a bottom surface, and a ground layer. The top surface and the bottom surface face away from each other. The ground layer is located between the top surface and the bottom surface. A part of the plurality of resonators is/are disposed on the top surface. Another part of the plurality of resonators is/are disposed on the bottom surface. The plurality of conductive components is located in the multi-layered substrate. The plurality of resonators is electrically connected to the ground layer, respectively, via the plurality of conductive components.