Add to ORKGInternational audienceThis paper describes a concept of stepped impedance resonators (SIR) built from two coaxial structures fitted inside one another. The resonator is built out of a succession of two coaxial sections in cascade, where the ground conductor of the first one is the central core of the next, or vice-versa. An advantageous property of SIR is that they allow a substantial reduction in size, while keeping away the first harmonic and without strongly degrading the quality factor. After describing the theoretical behavior of the resonator, we will then present the specific properties of this approach in second order filter, conceived, and realized in the UHF band. With this example, we will also address flexibility and tunability ...
In this article, a new compact dual-band bandpass filter was introduced. The filter utilized two ope...
A classical topic in Telecommunication Engineering is filter design at microwave frequencies. It con...
The wireless industry has seen exceptional development over the past few decades due to years of sus...
International audienceThis paper describes a concept of stepped impedance resonators (SIR) built fro...
International audienceThis paper describes a concept of air miniature SIR coaxial resonator built fr...
A miniaturized substrate-integrated coaxial line (SICL) bandpass filter with improved upper stopband...
AbstractThis paper presents the resonator bandpass filter design using the proposed stepped-impedanc...
A folded stepped impedance resonator (SIR) modified by adding an inner quasi-lumped SIR stub is used...
In this paper, different configurations of transmission lines loaded with stepped impedance resonato...
International audienceThis paper presents a method of electric tunability using varactor di...
This article reports a novel inset resonator configuration for coaxial filter applications with quas...
A new class of compact, high-Q, tunable coaxial filters is presented in this paper based on a novel ...
We report several types of coplanar waveguide tri-section stepped-impedance resonator (SIR) structur...
A bandpass filter resonating at ∼1.4 Μm and based on a dual-frequency-selective surface design is fa...
The paper is devoted to an investigation of two-conductor suspended-substrate resonators. For the pu...
In this article, a new compact dual-band bandpass filter was introduced. The filter utilized two ope...
A classical topic in Telecommunication Engineering is filter design at microwave frequencies. It con...
The wireless industry has seen exceptional development over the past few decades due to years of sus...
International audienceThis paper describes a concept of stepped impedance resonators (SIR) built fro...
International audienceThis paper describes a concept of air miniature SIR coaxial resonator built fr...
A miniaturized substrate-integrated coaxial line (SICL) bandpass filter with improved upper stopband...
AbstractThis paper presents the resonator bandpass filter design using the proposed stepped-impedanc...
A folded stepped impedance resonator (SIR) modified by adding an inner quasi-lumped SIR stub is used...
In this paper, different configurations of transmission lines loaded with stepped impedance resonato...
International audienceThis paper presents a method of electric tunability using varactor di...
This article reports a novel inset resonator configuration for coaxial filter applications with quas...
A new class of compact, high-Q, tunable coaxial filters is presented in this paper based on a novel ...
We report several types of coplanar waveguide tri-section stepped-impedance resonator (SIR) structur...
A bandpass filter resonating at ∼1.4 Μm and based on a dual-frequency-selective surface design is fa...
The paper is devoted to an investigation of two-conductor suspended-substrate resonators. For the pu...
In this article, a new compact dual-band bandpass filter was introduced. The filter utilized two ope...
A classical topic in Telecommunication Engineering is filter design at microwave frequencies. It con...
The wireless industry has seen exceptional development over the past few decades due to years of sus...