Araştırma Makalesi
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Elektronik Olarak Ayarlanabilen FDCCII Tabanlı Yeni Memkapasitör Emülatör Devresi

Yıl 2023, , 127 - 134, 30.04.2023
https://doi.org/10.46387/bjesr.1259980

Öz

Memkapasitör ve memindüktör elemanları henüz üretilmediğinden uygulama alanlarını incelemek için emülatör devreleri kullanılmaktadır. Bu makalede, yeni bir FDCCII tabanlı topraklanmış memkapasitör emülatör devresi sunulmaktadır. Önerilen devre, bir FDCCII, bir çarpan, üç kapasitör ve iki MOSFET'ten oluşmaktadır. Bu iki MOSFET, devrede elektronik direnç olarak kullanılmaktadır. Memkapasitansın değişken kısmı elektronik olarak ayarlanabilir ve önerilen devre artan-azalan olarak ayarlanabilir yapıdadır. Ayrıca literatürdeki birçok memkapasitör emülatör çalışmasından daha az aktif eleman içermektedir. Önerilen devre LTspice programında tasarlanmış ve frekans tepkisi, sıcaklık ve Monte Carlo analizleri yapılmıştır. Ayrıca elektronik direnç, çeşitli değerlerde simüle edilerek devrenin elektronik olarak ayarlanabilir olduğu gösterilmiştir. Simülasyon sonuçları, makalede sunulan matematiksel sonuçlarla tutarlıdır.

Destekleyen Kurum

TÜBİTAK

Proje Numarası

119E458

Kaynakça

  • L.O. Chua “Memristor—The Missing Circuit Element”, IEEE Transactions on Circuit Theory, vol. 18, no. 5, pp. 507–519, 1971.
  • D.B. Strukov, G.S. Snider, D.R. Stewart, and R.S. Williams “The missing memristor found”, Nature, vol. 453, no. 7191, pp. 80–83, 2008.
  • D.S. Yu, Y. Liang, H.H.C. Iu, and Y.-H. Hu “Mutator for transferring a memristor emulator into meminductive and memcapacitive circuits”, Chinese Physics B, vol. 23, no. 7, p. 070702, 2014.
  • D.S. Yu, Y. Liang, H. Chen, and H.H.C. Iu “Design of a practical memcapacitor emulator without grounded restriction”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 60, no. 4, pp. 207–211, 2013.
  • X.Y. Wang, A.L. Fitch, H.H.C. Iu, and W.G. Qi “Design of a memcapacitor emulator based on a memristor”, Phys Lett A, vol. 376, no. 4, pp. 394 399, Jan. 2012.
  • Y.V. Pershin and M. Di Ventra “Memristive circuits simulate memcapacitors and meminductors”, Electron Lett, vol. 46, no. 7, p. 517, 2010.
  • D. Biolek and V. Biolkova “Mutator for transforming memristor into memcapacitor”, Electron Lett, vol. 46, no. 21, p. 1428, 2010.
  • D. Yu, Y. Liang, H.H.C. Iu, and L.O. Chua “A universal mutator for transformations among memristor, memcapacitor, and meminductor”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 61, no. 10, pp. 758–762, Oct. 2014.
  • F.J. Romero, D.P. Morales, A. Godoy, F G. Ruiz, I. M. Tienda, A. Ohata, N. Rodriguez “Memcapacitor emulator based on the Miller effect”, International Journal of Circuit Theory and Applications, vol. 47, no. 4, pp. 572–579, Apr. 2019.
  • Z.G. Çam Taşkıran, M. Sağbaş, U.E. Ayten, and H. Sedef “A new universal mutator circuit for memcapacitor and meminductor elements”, AEU - International Journal of Electronics and Communications, vol. 119, 2020.
  • [11] A. Singh and S.K. Rai “VDCC-Based Memcapacitor/Meminductor Emulator and Its Application in Adaptive Learning Circuit”, Iranian Journal of Science and Technology - Transactions of Electrical Engineering, vol. 45, no. 4, pp. 1151–1163, Dec. 2021.
  • F. Wang and F. Wang “Floating Memcapacitor Based on Knowm Memristor and Its Dynamic Behaviors”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 69, no. 12, pp. 5134–5138, 2022.
  • A. Sinha, B. Aggarwal, S.K. Rai, and S. Gautam “Current Conveyor Transconductance Amplifier (CCTA) based Grounded Memcapacitor Emulator”, International Journal of Electrical and Electronics Research, vol. 10, no. 3, pp. 442–446, 2022.
  • M.P. Sah, C. Yang, R.K. Budhathoki, H. Kim, and H. J. Yoo “Implementation of a memcapacitor emulator with off-the-shelf devices”, Elektronika ir Elektrotechnika, vol. 19, no. 8, pp. 54–58, 2013.
  • Q. Zhao, C. Wang, and X. Zhang “A universal emulator for memristor, memcapacitor, and meminductor and its chaotic circuit”, Chaos, vol. 29, no. 1, p. 013141, 2019.
  • P.K. Sharma, R.K. Ranjan, F. Khateb, and M. Kumngern “Charged controlled MEM-element emulator and its application in a chaotic system”, IEEE Access, vol. 8, pp. 171397–171407, 2020.
  • D. Yu, X. Zhao, T. Sun, H.H.C. Iu, and T. Fernando “A simple floating mutator for emulating memristor, memcapacitor, and meminductor”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 67, no. 7, pp. 1334–1338, 2020.
  • M.E. Fouda and A.G. Radwan “Charge controlled memristor-less memcapacitor emulator”, Electron Lett, vol. 48, no. 23, p. 1454, 2012.
  • A.L. Fitch, H.H.C. Iu, and D.S.Yu “Chaos in a memcapacitor based circuit”, Proceedings - IEEE International Symposium on Circuits and Systems, no. 3, pp. 482–485, 2014.
  • F. Yuan and Y. Li “A chaotic circuit constructed by a memristor, a memcapacitor and a meminductor”, Chaos, vol. 29, no. 10, 2019.
  • A. Yesil and Y. Babacan “Electronically Controllable Memcapacitor Circuit with Experimental Results”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 68, no. 4, pp. 1443–1447, 2021.
  • N. Raj, R.K. Ranjan, and A. James “Chua’s Oscillator With OTA Based Memcapacitor Emulator”, IEEE Trans Nanotechnol, vol. 21, pp. 213–218, 2022.
  • F. Yuan, Y. Li, G. Wang, G. Dou, and G. Chen “Complex Dynamics in a Memcapacitor-Based Circuit”, Entropy, vol. 21, no. 2, p. 188, Feb. 2019.
  • M. Konal and F. Kacar “Electronically Tunable Memcapacitor Emulator Based on Operational Transconductance Amplifiers”, Journal of Circuits, Systems and Computers, vol. 30, no. 05, p. 2150082, Apr. 2021.
  • D. Biolek, M. di Ventra, and Y.V. Pershin “Reliable SPICE simulations of memristors, memcapacitors and meminductors”, Radioengineering, vol. 22, no. 4, pp. 945–968, 2013.
  • M. Di Ventra, Y.V. Pershin, and L.O. Chua “Circuit Elements With Memory: Memristors, Memcapacitors, and Meminductors”, Proceedings of the IEEE, vol. 97, no. 10, pp. 1717–1724, 2009.
  • A.A. El-Adawy, A.M. Soliman, and H.O. Elwan “A novel fully differential current conveyor and applications for analog VLSI”, IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing, vol. 47, no. 4, pp. 306–313, 2000.

FDCCII Based New Memcapacitor Emulator Circuit with Electronically Tunable

Yıl 2023, , 127 - 134, 30.04.2023
https://doi.org/10.46387/bjesr.1259980

Öz

Since memcapacitor and meminductor elements have not been produced yet, emulator circuits are used to examine their application areas. In this paper, a new FDCCII-based grounded memcapacitor emulator circuit is presented. The proposed circuit consists of one FDCCII, one multiplier, three capacitors and two MOSFETs. These two MOSFETs are utilized as electronic resistors in the circuit. The variable part of memconductance can be adjusted electronically and the proposed memcapacitor possesses an incremental-decremental adjustable structure. Moreover, it contains fewer active elements than many memcapacitor emulator studies in the literature. The proposed circuit was designed in LTspice, and frequency response, temperature, and Monte Carlo analyses were performed. In addition, the electronic resistor has been simulated at various values, demonstrating that the circuit is electronically adjustable. The simulation results are consistent with the mathematical results presented in the article.

Proje Numarası

119E458

Kaynakça

  • L.O. Chua “Memristor—The Missing Circuit Element”, IEEE Transactions on Circuit Theory, vol. 18, no. 5, pp. 507–519, 1971.
  • D.B. Strukov, G.S. Snider, D.R. Stewart, and R.S. Williams “The missing memristor found”, Nature, vol. 453, no. 7191, pp. 80–83, 2008.
  • D.S. Yu, Y. Liang, H.H.C. Iu, and Y.-H. Hu “Mutator for transferring a memristor emulator into meminductive and memcapacitive circuits”, Chinese Physics B, vol. 23, no. 7, p. 070702, 2014.
  • D.S. Yu, Y. Liang, H. Chen, and H.H.C. Iu “Design of a practical memcapacitor emulator without grounded restriction”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 60, no. 4, pp. 207–211, 2013.
  • X.Y. Wang, A.L. Fitch, H.H.C. Iu, and W.G. Qi “Design of a memcapacitor emulator based on a memristor”, Phys Lett A, vol. 376, no. 4, pp. 394 399, Jan. 2012.
  • Y.V. Pershin and M. Di Ventra “Memristive circuits simulate memcapacitors and meminductors”, Electron Lett, vol. 46, no. 7, p. 517, 2010.
  • D. Biolek and V. Biolkova “Mutator for transforming memristor into memcapacitor”, Electron Lett, vol. 46, no. 21, p. 1428, 2010.
  • D. Yu, Y. Liang, H.H.C. Iu, and L.O. Chua “A universal mutator for transformations among memristor, memcapacitor, and meminductor”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 61, no. 10, pp. 758–762, Oct. 2014.
  • F.J. Romero, D.P. Morales, A. Godoy, F G. Ruiz, I. M. Tienda, A. Ohata, N. Rodriguez “Memcapacitor emulator based on the Miller effect”, International Journal of Circuit Theory and Applications, vol. 47, no. 4, pp. 572–579, Apr. 2019.
  • Z.G. Çam Taşkıran, M. Sağbaş, U.E. Ayten, and H. Sedef “A new universal mutator circuit for memcapacitor and meminductor elements”, AEU - International Journal of Electronics and Communications, vol. 119, 2020.
  • [11] A. Singh and S.K. Rai “VDCC-Based Memcapacitor/Meminductor Emulator and Its Application in Adaptive Learning Circuit”, Iranian Journal of Science and Technology - Transactions of Electrical Engineering, vol. 45, no. 4, pp. 1151–1163, Dec. 2021.
  • F. Wang and F. Wang “Floating Memcapacitor Based on Knowm Memristor and Its Dynamic Behaviors”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 69, no. 12, pp. 5134–5138, 2022.
  • A. Sinha, B. Aggarwal, S.K. Rai, and S. Gautam “Current Conveyor Transconductance Amplifier (CCTA) based Grounded Memcapacitor Emulator”, International Journal of Electrical and Electronics Research, vol. 10, no. 3, pp. 442–446, 2022.
  • M.P. Sah, C. Yang, R.K. Budhathoki, H. Kim, and H. J. Yoo “Implementation of a memcapacitor emulator with off-the-shelf devices”, Elektronika ir Elektrotechnika, vol. 19, no. 8, pp. 54–58, 2013.
  • Q. Zhao, C. Wang, and X. Zhang “A universal emulator for memristor, memcapacitor, and meminductor and its chaotic circuit”, Chaos, vol. 29, no. 1, p. 013141, 2019.
  • P.K. Sharma, R.K. Ranjan, F. Khateb, and M. Kumngern “Charged controlled MEM-element emulator and its application in a chaotic system”, IEEE Access, vol. 8, pp. 171397–171407, 2020.
  • D. Yu, X. Zhao, T. Sun, H.H.C. Iu, and T. Fernando “A simple floating mutator for emulating memristor, memcapacitor, and meminductor”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 67, no. 7, pp. 1334–1338, 2020.
  • M.E. Fouda and A.G. Radwan “Charge controlled memristor-less memcapacitor emulator”, Electron Lett, vol. 48, no. 23, p. 1454, 2012.
  • A.L. Fitch, H.H.C. Iu, and D.S.Yu “Chaos in a memcapacitor based circuit”, Proceedings - IEEE International Symposium on Circuits and Systems, no. 3, pp. 482–485, 2014.
  • F. Yuan and Y. Li “A chaotic circuit constructed by a memristor, a memcapacitor and a meminductor”, Chaos, vol. 29, no. 10, 2019.
  • A. Yesil and Y. Babacan “Electronically Controllable Memcapacitor Circuit with Experimental Results”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 68, no. 4, pp. 1443–1447, 2021.
  • N. Raj, R.K. Ranjan, and A. James “Chua’s Oscillator With OTA Based Memcapacitor Emulator”, IEEE Trans Nanotechnol, vol. 21, pp. 213–218, 2022.
  • F. Yuan, Y. Li, G. Wang, G. Dou, and G. Chen “Complex Dynamics in a Memcapacitor-Based Circuit”, Entropy, vol. 21, no. 2, p. 188, Feb. 2019.
  • M. Konal and F. Kacar “Electronically Tunable Memcapacitor Emulator Based on Operational Transconductance Amplifiers”, Journal of Circuits, Systems and Computers, vol. 30, no. 05, p. 2150082, Apr. 2021.
  • D. Biolek, M. di Ventra, and Y.V. Pershin “Reliable SPICE simulations of memristors, memcapacitors and meminductors”, Radioengineering, vol. 22, no. 4, pp. 945–968, 2013.
  • M. Di Ventra, Y.V. Pershin, and L.O. Chua “Circuit Elements With Memory: Memristors, Memcapacitors, and Meminductors”, Proceedings of the IEEE, vol. 97, no. 10, pp. 1717–1724, 2009.
  • A.A. El-Adawy, A.M. Soliman, and H.O. Elwan “A novel fully differential current conveyor and applications for analog VLSI”, IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing, vol. 47, no. 4, pp. 306–313, 2000.
Toplam 27 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Elektrik Mühendisliği
Bölüm Araştırma Makaleleri
Yazarlar

Muhammet Oğuz Korkmaz 0000-0002-4589-4824

Abdullah Yesil 0000-0002-0607-8226

Proje Numarası 119E458
Yayımlanma Tarihi 30 Nisan 2023
Yayımlandığı Sayı Yıl 2023

Kaynak Göster

APA Korkmaz, M. O., & Yesil, A. (2023). FDCCII Based New Memcapacitor Emulator Circuit with Electronically Tunable. Mühendislik Bilimleri Ve Araştırmaları Dergisi, 5(1), 127-134. https://doi.org/10.46387/bjesr.1259980
AMA Korkmaz MO, Yesil A. FDCCII Based New Memcapacitor Emulator Circuit with Electronically Tunable. Müh.Bil.ve Araş.Dergisi. Nisan 2023;5(1):127-134. doi:10.46387/bjesr.1259980
Chicago Korkmaz, Muhammet Oğuz, ve Abdullah Yesil. “FDCCII Based New Memcapacitor Emulator Circuit With Electronically Tunable”. Mühendislik Bilimleri Ve Araştırmaları Dergisi 5, sy. 1 (Nisan 2023): 127-34. https://doi.org/10.46387/bjesr.1259980.
EndNote Korkmaz MO, Yesil A (01 Nisan 2023) FDCCII Based New Memcapacitor Emulator Circuit with Electronically Tunable. Mühendislik Bilimleri ve Araştırmaları Dergisi 5 1 127–134.
IEEE M. O. Korkmaz ve A. Yesil, “FDCCII Based New Memcapacitor Emulator Circuit with Electronically Tunable”, Müh.Bil.ve Araş.Dergisi, c. 5, sy. 1, ss. 127–134, 2023, doi: 10.46387/bjesr.1259980.
ISNAD Korkmaz, Muhammet Oğuz - Yesil, Abdullah. “FDCCII Based New Memcapacitor Emulator Circuit With Electronically Tunable”. Mühendislik Bilimleri ve Araştırmaları Dergisi 5/1 (Nisan 2023), 127-134. https://doi.org/10.46387/bjesr.1259980.
JAMA Korkmaz MO, Yesil A. FDCCII Based New Memcapacitor Emulator Circuit with Electronically Tunable. Müh.Bil.ve Araş.Dergisi. 2023;5:127–134.
MLA Korkmaz, Muhammet Oğuz ve Abdullah Yesil. “FDCCII Based New Memcapacitor Emulator Circuit With Electronically Tunable”. Mühendislik Bilimleri Ve Araştırmaları Dergisi, c. 5, sy. 1, 2023, ss. 127-34, doi:10.46387/bjesr.1259980.
Vancouver Korkmaz MO, Yesil A. FDCCII Based New Memcapacitor Emulator Circuit with Electronically Tunable. Müh.Bil.ve Araş.Dergisi. 2023;5(1):127-34.