A Family of Binary Memristor-Based Low-Pass Filters With Controllable Cut-Off Frequency

The nanoscale size and controllable memristance of Memristor (MR) have shown evident superiorities for structuring new integrated circuits with different functions. With regards to the reported MR based filters, their cut-off frequencies could be hardly hot-line controlled on purposes. In this paper...

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Veröffentlicht in:IEEE access 2020, Vol.8, p.60199-60209
Hauptverfasser: Li, Dongkun, Zhang, Jianwen, Yu, Dongsheng, Xu, Ruidong, Iu, Herbert H. C., Fernando, Tyrone, Wang, Xiaoyuan
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container_start_page 60199
container_title IEEE access
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creator Li, Dongkun
Zhang, Jianwen
Yu, Dongsheng
Xu, Ruidong
Iu, Herbert H. C.
Fernando, Tyrone
Wang, Xiaoyuan
description The nanoscale size and controllable memristance of Memristor (MR) have shown evident superiorities for structuring new integrated circuits with different functions. With regards to the reported MR based filters, their cut-off frequencies could be hardly hot-line controlled on purposes. In this paper, by using the boundary values of memristance, a method for hot-line adjusting cut-off frequencies is newly proposed by inputting a preset DC voltage together with the to-be-filtered signal, without the requirement of extra memristance write circuits, which is hence beneficial for integrated implementation. The floating MR emulator is firstly presented and the saturation operation of its memristance is interpreted. A family of MR based low-pass filters with controllable cut-off frequency are proposed by combining the connection nodes of a memristive circuit network Z with the op amp. Two circuits of the low-pass filter family are chosen for demonstration, and the cut-off frequency and passband gain are calculated. Square and sinusoidal voltage signals are used to test the performance of the proposed low-pass filter family. Both the simulation and experimental results show that the proposed filters can achieve cut-off frequency adjustment with good filtering performance.
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A family of MR based low-pass filters with controllable cut-off frequency are proposed by combining the connection nodes of a memristive circuit network Z with the op amp. Two circuits of the low-pass filter family are chosen for demonstration, and the cut-off frequency and passband gain are calculated. Square and sinusoidal voltage signals are used to test the performance of the proposed low-pass filter family. 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subjects Circuits
controllable cut-off frequency
Cutoff frequency
Electric potential
emulator
Emulators
Frequency control
Integrated circuits
Low pass filters
low-pass filter
Mathematical model
Memristor
Memristors
Resistors
Stability
Voltage
Voltage control
title A Family of Binary Memristor-Based Low-Pass Filters With Controllable Cut-Off Frequency
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