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Open Access

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Notice

nThis is an unedited manuscript accepted for publication and provided as an Article in Press for early access at the author’s request. The article will undergo copyediting, typesetting, and galley proof review before final publication. Please be aware that errors may be identified during production that could affect the content. All legal disclaimers of the journal apply.n

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Year : 2025 [if 2224 equals=””]14/10/2025 at 5:15 PM[/if 2224] | [if 1553 equals=””] Volume : 03 [else] Volume : 3[/if 1553] | [if 424 equals=”Regular Issue”]Issue : [/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] 02 | Page :

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Sudhir Singh, Manoj Josh, Rahul Kumar Gupta, Stuti Sachan, suman Chaudhary,

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Student, Assistant Professor, Assistant Professor, Student, Student, Department of Electronics and Communication Engineering, JSS Academy of Technical Education, Department of Electronics and Communication Engineering, JSS Academy of Technical Education, Noida, Department of Electronics and Communication Engineering, JSS Academy of Technical Education, Noida,, Department of Electronics and Communication Engineering, JSS Academy of Technical Education, Noida,, Department of Electronics and Communication Engineering, JSS Academy of Technical Education, Noida, Uttar Pradesh, Uttar Pradesh, Uttar Pradesh, Uttar Pradesh, Uttar Pradesh, India, India, India, India, India

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Abstract

nThis study presents a small, energy-efficient memristor emulator made for use at high frequencies. The proposed circuit has a simple design that only includes three n-type MOSFETs and a grounded capacitor. This means that there is no need for active components or DC biasing. This streamlined architecture not only makes things easier, but it also uses very little power, with dynamic and static power measured at 15.82 μW and 65.6 μW, respectively. The design copies the most important memristive behaviour, especially the pinched hysteresis loop in the current-voltage relationship, even at frequencies up to 100 MHz. The emulator was made with 90 nm CMOS technology and works well across a wide range of frequencies. The emulator not only has a small size and low power use, but it also works well in a wide range of operating conditions. Its ability to keep the pinched hysteresis loop that memristive systems have, even at high frequencies, shows how reliable and faithful it is. This design is especially good for use in high-speed neuromorphic computing systems, signal processing circuits, and non-volatile memory applications. Using only three nMOS transistors and a grounded capacitor makes it easier to make and more scalable. Overall, the suggested emulator is a useful and effective way to solve problems with high-frequency analog computing platforms.nn

Keywords: Memristor emulator, energy-efficient circuit, high-frequency operation, MOSFET-only design, pinched hysteresis behavior, grounded capacitor, neuromorphic computing, in-memory processing, SRAM integration

n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Electrical and Communication Engineering Technology ]

[/if 424][if 424 equals=”Special Issue”][This article belongs to Special Issue under section in International Journal of Electrical and Communication Engineering Technology (ijecet)][/if 424][if 424 equals=”Conference”]This article belongs to Conference [/if 424]

How to cite this article:
nSudhir Singh, Manoj Josh, Rahul Kumar Gupta, Stuti Sachan, suman Chaudhary. [if 2584 equals=”][226 wpautop=0 striphtml=1][else]A High Frequency and Power Efficient Memristor Emulator and Its Application[/if 2584]. International Journal of Electrical and Communication Engineering Technology. 14/10/2025; 03(02):-.

How to cite this URL:
nSudhir Singh, Manoj Josh, Rahul Kumar Gupta, Stuti Sachan, suman Chaudhary. [if 2584 equals=”][226 striphtml=1][else]A High Frequency and Power Efficient Memristor Emulator and Its Application[/if 2584]. International Journal of Electrical and Communication Engineering Technology. 14/10/2025; 03(02):-. Available from: https://journals.stmjournals.com/ijecet/article=14/10/2025/view=0

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References n

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Chua L. Memristor—The missing circuit element. IEEE Trans Circuit Theory. 1971;18(5):507-19. doi:10.1109/TCT.1971.1083337
Waser R, Aono M. Nanoionics-based resistive switching memories. Nat Mater. 2007;6(11):833-40. doi:10.1038/nmat2023. PMID:17972938
Strukov DB, Snider GS, Stewart DR, Williams RS. The missing memristor found. Nature. 2008;453(7191):80-3. doi:10.1038/nature06932. Erratum in: Nature. 2009;459(7250):1154. PMID:18451858
Sánchez-López C, Mendoza-López J, Carrasco-Aguilar MA, Muñiz-Montero C. A floating analog memristor emulator circuit. IEEE Trans Circuits Syst II Exp Briefs. 2014;61(5):309-13. doi:10.1109/TCSII.2014.2312806
Ranjan R, Sharma P, Singh SP, Raj N, Kumari B, Khateb F. Memristor emulator circuit using multiple-output OTA and its experimental results. J Circuits Syst Comput. 2019;28(3):1950166. doi:10.1142/S0218126619501664
Carrasco-Aguilar M, Sanchez-Lopez C, Morales-López F. Current-controlled grounded memristor emulator circuit based on analog multiplier. J Appl Res Technol. 2022;20(3):347-54. doi:10.22201/icat.24486736e.2022.20.3.932
Raj N, Ranjan R, Khateb F. Flux-controlled memristor emulator and its experimental results. IEEE Trans Very Large Scale Integr (VLSI) Syst. 2020;28(4):1050-61. doi:10.1109/TVLSI.2020.2966292
Ranjan RK, Raj N, Bhuwal N, Khateb F. Single DVCCTA-based high frequency incremental/decremental memristor emulator and its application. AEU Int J Electron Commun. 2017;82:106-12. doi:10.1016/j.aeue.2017.07.039
Yeşil , Babacan Y, Kaçar F. Design and experimental evolution of memristor with only one D and one capacitor. IEEE Trans Comput Aided Des Integr Circuits Syst. 2019;38(6):1123-32. doi:10.1109/TCAD.2018.2834399
Vista J, Ranjan A. Flux controlled floating memristor employing VDTA: incremental or decremental operation. IEEE Trans Comput Aided Des Integr Circuits Syst. 2021;40(2):364-72. doi:10.1109/TCAD.2020.2999919
Prasad SS, Kumar P, Ranjan RK. Resistorless memristor emulator using CFTA and its experimental verification. IEEE Access. 2021;9:64065-75. doi:10.1109/ACCESS.2021.3075341
Kanyal G, Kumar P, Paul SK, Kumar A. OTA-based high frequency tunable resistorless grounded and floating memristor emulator. AEU Int J Electron Commun. 2018;92:61-7. doi:10.1016/j.aeue.2018.05.027
Ranjan RK, Sagar S, Roushan S, Kumari B, Rani N, Khateb F. High-frequency floating memristor emulator and its experimental results. IET Circuits Devices Syst. 2019;13(3):292-302. doi:10.1049/iet-cds.2018.5191
Bhardwaj K, Srivastava M. Wide-band compact floating memristor emulator configuration with electronic/resistive adjustability. Microelectron J. 2021;117:105284.
doi:10.1016/j.mejo.2021.105284
Yeşil , rasad Y , Kumar , Raj , harma K, riyadarshini B, Ranjan RK, et al. compact floating and grounded memristor model using single active element. AEU Int J Electron Commun. 2022;157:154426. doi:10.1016/j.aeue.2022.154426

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DOI: https://doi.org/10.37591/IJECET.v03i02.0

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[if 424 not_equal=””][else]Ahead of Print[/if 424] Subscription Original Research

International Journal of Electrical and Communication Engineering Technology

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Volume	03
[if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424]	02
Received	05/07/2025
Accepted	08/09/2025
Published		14/10/2025
Retracted
Publication Time	101 Days

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A High Frequency and Power Efficient Memristor Emulator and Its Application