Add to ORKGThis article presents an analysis of metamaterial resonators coupled with microstrip transmission line. The behavior of complementary electric-LC resonators loaded on a microstrip line is analyzed using the equivalent circuit model. In this paper, it is shown that a special type of these resonators show a dual-mode behavior when excited through the electromagnetic field around the microstrip transmission lines. The bandstop and bandpass configurations of these dual mode resonators loaded with microstrip lines are introduced and analyzed. Their potential applications are highlighted through designing a displacement sensor and a dual-mode bandpass filter prototypes
We report the results of an investigation into dual-mode operation of microstrip loop resonator base...
In this article, a novel compact dual-mode resonator formed by a square loop having folded arms and ...
CIMITECIn this paper, it is demonstrated that the so-called electric-LC (ELC) resonators, and their ...
Abstract not available.Amir Ebrahimi, Withawat Withayachumnankul, Said F. Al-Sarawi, and Derek Abbot
A new type of dual-mode microstrip square-loop resonator that produces asymmetrical frequency respon...
A compact microstrip dual-mode resonator is proposed for asymmetric response filter applications. Th...
In order to reduce the size of dual-mode microstrip filters by keeping excellent performance, novel ...
This paper is focused on magnetic-LC (MLC) resonators, namely, slotted resonators that can be consid...
A compact dual-band microstrip bandpass filter is proposed using dual-mode resonators. Two microstri...
A compact dual-band microstrip bandpass filter is proposed using dual-mode resonators. Two microstri...
A novel dual-mode microstrip filter operating at 900 MHz is proposed using degenerate modes of a mic...
Abstract—This paper presents a new dual-mode stub-loaded resonator, which consists of a microstrip r...
We report the results of an investigation into dual-mode operation of microstrip loop resonator base...
A new type of dual-mode resonator that produces asymmetrical frequency responses is proposed. The ef...
A novel dual-mode microstrip filter operating at 900 MHz is proposed using degenerate modes of a mic...
We report the results of an investigation into dual-mode operation of microstrip loop resonator base...
In this article, a novel compact dual-mode resonator formed by a square loop having folded arms and ...
CIMITECIn this paper, it is demonstrated that the so-called electric-LC (ELC) resonators, and their ...
Abstract not available.Amir Ebrahimi, Withawat Withayachumnankul, Said F. Al-Sarawi, and Derek Abbot
A new type of dual-mode microstrip square-loop resonator that produces asymmetrical frequency respon...
A compact microstrip dual-mode resonator is proposed for asymmetric response filter applications. Th...
In order to reduce the size of dual-mode microstrip filters by keeping excellent performance, novel ...
This paper is focused on magnetic-LC (MLC) resonators, namely, slotted resonators that can be consid...
A compact dual-band microstrip bandpass filter is proposed using dual-mode resonators. Two microstri...
A compact dual-band microstrip bandpass filter is proposed using dual-mode resonators. Two microstri...
A novel dual-mode microstrip filter operating at 900 MHz is proposed using degenerate modes of a mic...
Abstract—This paper presents a new dual-mode stub-loaded resonator, which consists of a microstrip r...
We report the results of an investigation into dual-mode operation of microstrip loop resonator base...
A new type of dual-mode resonator that produces asymmetrical frequency responses is proposed. The ef...
A novel dual-mode microstrip filter operating at 900 MHz is proposed using degenerate modes of a mic...
We report the results of an investigation into dual-mode operation of microstrip loop resonator base...
In this article, a novel compact dual-mode resonator formed by a square loop having folded arms and ...
CIMITECIn this paper, it is demonstrated that the so-called electric-LC (ELC) resonators, and their ...