In this research, we generalize a family of electronic parametric oscillators in the fractional domain by using a state of the art circuit element namely fractional memristor. Such family of parametric oscillators is the memristor based Wien family which is an extension of the normal Wien family. Noted that such normal Wien family is one family of the simplest second-order nonparametric oscillators. We derive the equations of the range of oscillating frequency, sustained oscillating frequency, sustained oscillating condition and the output voltage by using our mathematical model of the fractional memristor as the basis. With the obtained results and numerical simulations, the effects of the fractional memristor to the generalized parametric...
This monograph covers some selected problems of positive and fractional electrical circuits composed...
In this paper a modified third order Wien bridge oscillator with fractional order memristor is propo...
Memristor-based oscillators are of recent interest, and hence, in this paper, we introduce a new Wie...
Memristor is a new electrical element which has been predicted and described in 1971 by Leon O. Chua...
Memristor is a new electrical element which has been predicted and described in 1971 by Leon O. Chua...
This book introduces the basic fundamentals, models, emulators and analyses of mem-elements in the c...
This article addresses three classes of fractional oscillators named Class I, II and III. It is know...
In this work, the analytical expressions of memristances, related parameters, and time domain behavi...
A memristor diode bridge chaotic circuit is proposed in this paper. The proposed oscillator has only...
In this work, a new fractional-order sinusoidal oscillator is proposed. The proposed oscillator cons...
Memristor is a non-linear circuit element in which voltage-current relationship is determined by the...
Copyright © 2013 Hongmin Deng, Qionghua Wang. This is an open access article distributed under the C...
This brief leads the synthesis of fractional-order memristor (FOM) emulator circuits. To do so, a no...
© 2021 World Scientific Publishing Company.In this study, a new sinusoidal fractional oscillator cir...
In this study, a new voltage-mode fractional-order oscillator using two unity-gain voltage buffers, ...
This monograph covers some selected problems of positive and fractional electrical circuits composed...
In this paper a modified third order Wien bridge oscillator with fractional order memristor is propo...
Memristor-based oscillators are of recent interest, and hence, in this paper, we introduce a new Wie...
Memristor is a new electrical element which has been predicted and described in 1971 by Leon O. Chua...
Memristor is a new electrical element which has been predicted and described in 1971 by Leon O. Chua...
This book introduces the basic fundamentals, models, emulators and analyses of mem-elements in the c...
This article addresses three classes of fractional oscillators named Class I, II and III. It is know...
In this work, the analytical expressions of memristances, related parameters, and time domain behavi...
A memristor diode bridge chaotic circuit is proposed in this paper. The proposed oscillator has only...
In this work, a new fractional-order sinusoidal oscillator is proposed. The proposed oscillator cons...
Memristor is a non-linear circuit element in which voltage-current relationship is determined by the...
Copyright © 2013 Hongmin Deng, Qionghua Wang. This is an open access article distributed under the C...
This brief leads the synthesis of fractional-order memristor (FOM) emulator circuits. To do so, a no...
© 2021 World Scientific Publishing Company.In this study, a new sinusoidal fractional oscillator cir...
In this study, a new voltage-mode fractional-order oscillator using two unity-gain voltage buffers, ...
This monograph covers some selected problems of positive and fractional electrical circuits composed...
In this paper a modified third order Wien bridge oscillator with fractional order memristor is propo...
Memristor-based oscillators are of recent interest, and hence, in this paper, we introduce a new Wie...