Calculating area of fractional-order memristor pinched hysteresis loop

Ya-Juan Yu; Bo-Cheng Bao; Hui-Yan Kang; Min Shi

Calculating area of fractional-order memristor pinched hysteresis loop

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Author(s): Ya-Juan Yu¹ ; Bo-Cheng Bao² ; Hui-Yan Kang¹ ; Min Shi³
- Affiliations: 1: School of Mathematics and Physics , Changzhou University , Changzhou 213164, Jiangsu , People's Republic of China ;
  2: School of Information Science and Engineering , Changzhou University , Changzhou 213164, Jiangsu , People's Republic of China ;
  3: Institute of Advanced Technology, Nanjing University of Posts and Telecommunications , Nanjing 210016 , People's Republic of China
Source: Volume 2015, Issue 11, November 2015, p. 325 – 327
DOI: 10.1049/joe.2015.0154 , Online ISSN 2051-3305

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This is an open access article published by the IET under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0/)

Received 29/09/2015, Accepted 16/10/2015, Published 22/10/2015

A fractional-order current-controlled memristor pinched hysteresis loop area is calculated in this study. The area is divided into two parts: one equals to the half of instantaneous power and the other is the part memory of the memristor. Moreover, two parts of the area are affected not only by the cosine components, but also by the sine components. The voltage of the fractional-order current-controlled memristor is no longer an odd function with respect to time and the coefficient of cos(ωt) in its Fourier series is zero. In a closed loop, the average power and the memory rely only on sine harmonics of the voltage. Meanwhile, the power and the memory are related to the order of the fractional-order derivative.

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Calculating area of fractional-order memristor pinched hysteresis loop

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