Rogosinski Lemması ile ilgili Süren Nokta Empedans Fonksiyonları için Carathéodory Eşitsizliği

Örnek, Bülent Nafi; Düzenli̇, Timur

doi:10.24012/dumf.860229

DÜMF Mühendislik Dergisi

2021

DOI: 10.24012/dumf.860229

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Rogosinski Lemması ile ilgili Süren Nokta Empedans Fonksiyonları için Carathéodory Eşitsizliği

Bülent Nafi Örnek¹,

Timur Düzenli̇²

Abstract: Bu makalede, Carathéodory eşitsizliğinin bir sınır versiyonu, pozitif reel fonksiyonlar açısından incelenmiştir. Buna göre, Z(s) süren nokta empedans fonksiyonu; s düzleminin sağ yarı düzleminde tanımlanmış, ( ) = 2 + 1 ( − 1) + 2 ( − 1) 2 + ⋯ olarak verilen analitik bir fonksiyondur. Z(s) fonksiyonunun sanal eksen üzerinde s = 0 sınır noktasında da analitik olduğu varsayılarak, Rogosinski lemması yardımıyla, Z(s) 'nin türevinin modülü için yeni eşitsizlikler elde edilmiştir. Ayrıca, sunulan eşitsizliklerin ke… Show more

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2022

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Applications of the Carathéodory’s Inequality for Driving Point Impedance Functions

Düzenli̇¹,

Örnek²

2022

European Journal of Science and Technology

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In this study, the Carathéodory's Inequality, which is a highly popular topic of complex analysis theory, has been applied to electrical engineering to obtain novel driving point impedance functions. In electrical engineering, driving point impedance functions correspond to positive real functions and they are used for representation of the spectral characteristics of a particular circuit. Accordingly, boundary version of the Carathéodory's inequality has been considered here assuming that the driving point empedance function, 𝑍(𝑠) has a fractional function structure with 0 < ℜ𝑍(𝑠) ≤ 𝐴 for ℜ𝑠 ≥ 0 and it is analytic in the right half plane. At the end of the analyses, new driving point impedance functions have been obtained and they have been presented with their spectral characteristics. According to simulation results, it is possible to say that the frequency responses of the obtained generic driving point impedance functions have spiky filter structures where the number of the spikes in the frequency response of these filters depend on a pre-defined parameter, 𝑛.

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Applications of the Carathéodory’s Inequality for Driving Point Impedance Functions

Düzenli̇¹,

Örnek²

2022

European Journal of Science and Technology

Self Cite

View full text Add to dashboard Cite

show abstract

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Rogosinski Lemması ile ilgili Süren Nokta Empedans Fonksiyonları için Carathéodory Eşitsizliği

Cited by 1 publication

References 16 publications

Applications of the Carathéodory’s Inequality for Driving Point Impedance Functions

Applications of the Carathéodory’s Inequality for Driving Point Impedance Functions

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