Modified resonant frequency computation for tunable equilateral triangular microstrip patch

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Date

2010

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Publisher

Ieice-inst Electronics information Communications Eng

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Department of Electrical & Electronics Engineering
Department of Electrical and Electronics Engineering (EE) offers solid graduate education and research program. Our Department is known for its student-centered and practice-oriented education. We are devoted to provide an exceptional educational experience to our students and prepare them for the highest personal and professional accomplishments. The advanced teaching and research laboratories are designed to educate the future workforce and meet the challenges of current technologies. The faculty's research activities are high voltage, electrical machinery, power systems, signal and image processing and photonics. Our students have exciting opportunities to participate in our department's research projects as well as in various activities sponsored by TUBİTAK, and other professional societies. European Remote Radio Laboratory project, which provides internet-access to our laboratories, has been accomplished under the leadership of our department with contributions from several European institutions.

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Abstract

In this paper, a new closed form expression is developed to accurately estimate the resonant frequency of an equilateral triangular patch. The proposed computation is also extended to the two-layer structure in order to define the air-gap tuning effect on the resonant frequency. The theory established in this paper is compared with the experimental and theoretical results available in the literature. The results of this study show a considerable improvement achieved over the previous theories within very small percentage errors for almost all cases.

Description

Can/0000-0002-9001-0506

Keywords

microstrip antenna, resonant frequency, triangular patch

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Citation

9

WoS Q

Q4

Scopus Q

Q4

Source

Volume

7

Issue

7

Start Page

500

End Page

505

URI

https://doi.org/10.1587/elex.7.500
 https://hdl.handle.net/20.500.14411/1471

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