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Effect Of Ballistic Modle Of Cntfet On 4X1 Multiplexer And Demultiplexer Design

Y. Varthamanan*, Kannan .V**

* Research Scholar, Sathyabama University, Chennai, Tamilnadu, India.

** Principal, Jeppiaar Institute of Technology, Kunnam, Tamilnadu, India.

Periodicity:March - May'2013
DOI : https://doi.org/10.26634/jele.3.3.2256

Abstract

This paper discuss about the CNTFET influence on the performance of the 4X1 multiplexer. Power analysis has been performed using HSPICE simulation software and the results are obtained for the 2X1 and 4X1 multiplexer transient behavior and the power consumption obtained is 0.8 and 1.6 nano watts respectively. Comparative analysis has been performed with the conventional demultiiplexer design to validate the proposed design performance.

Keywords

CNTFET, Demultiplexer, Reversible Logic, Power.

How to Cite this Article?

Varthamanan, Y., and Kannan, V. (2013). Effect of Ballistic Modle of CNTFET on 4x1 Multiplexer and Demultiplexer Design. i-manager’s Journal on Electronics Engineering, 3(3), 27-30. https://doi.org/10.26634/jele.3.3.2256

References

[1]. G. Amaratunga, (2003). “Watching the nanotube,” IEEE Spectrum, pp. 28–32, Sept. 2003.

[2]. P. G. Collins and P. Avouris, (2000). “Nanotubes for electronics,” Scientific American, pp. 62–69, Dec. 2000.

[3]. P. G. Collins, M. S. Arnold, and P. Avouris, (2001). “Engineering carbon nanotubes and nanotube circuits using electrical breakdown,” Science, Vol. 292, Apr. 2001.

[4]. V. Derycke, R. Martel, J. Appenzeller, and P. Avouris, (2001). “Carbon nanotube inter- and intramolecular logic gates,” Nano Letters, Vol. 0, No. 0, A - D, 2001.

[5]. J. R. Heath and M. A. Ratner. (2003). “Molecular Electronics,” Physics Today, pp. 43–49, May 2003.

[6]. J. Jiao, E. Einarsson, D. W. Tuggle, L. Love, J. Prado, and G. M. Coia, (2003). “High-yield synthesis of carbon coils on tungsten substrates and their behavior in the presence of an electric field,” Journal of Materials Research, Vol. 18, No. 11, pp. 2580–2587, Nov. 2003.

[7]. K. Likharev, (2003). “Hybrid semiconductor-molecular nanoelectronics,” The Industrial Physicist, pp. 20–23, June/July 2003.

[8]. A. N. Al-Rabadi, (2004). “Carbon nano tube (CNT) circuits,” in Proc. of the Post- Binary Ultra Large Scale Integration (ULSI) Workshop, Toronto, Canada, May19, 2004, pp. 44–49.

[9]. S. Iijima, (1991). “Helical microtubles of graphitic carbon,” Nature 354, pp. 56–58, 1991.

[10]. Fabien (2006). Pr´egaldiny et.al., ”Compact Modeling and Applications of CNTFETs for Analog and Digital Circuit Design”, IEEE Trans. Elec.dev., pp. 1030–1033, 2006.

[11]. Fabien Pr´egaldiny et.al., (2006). “Design Oriented Compact Models for CNTFETs”, IEEE Trans. Elec.dev., 2006.

[12]. Paul L.McEuen, Michael Fuhrer, Hongkun Park, (2002). “Single walled carbon nano tube Electronics”, IEEE Trans. on Nano Technology, 2002.

[13]. S. Heinze, J. Tersoff, R. Martel, V. Derycke, J.Appenzeller, and P.Avouris, (2002). “Carbon nanotubes as Schottky barrier transistors”, Phys. Rev.Lett., Vol. 89, No. 10, pp. 106 801-1–106 801-4, 2002.

[14]. M. Dresselhaus, G. Dresselhaus, Carbon Nanotubes: Synthesis, Structure, Properties and Applications.

[15]. R. Martel, V. Derycke, J. Appenzeller, S. Wind, and Ph. Avouris , (2002). Carbon Nanotube Field-Effect Transistors and Logic Circuits.

[16]. V.J.K. Kishor Sonti, V. Kannan, (2012). 'Performance Analysis of PHEMT Low Noise Amplifier Design Based on RT Duroid Substrate, European Journal of Scientific Research, Vol. 90, No 3, pp.425-430, November, 2012.

[17]. www.wikipedia.org

Effect Of Ballistic Modle Of Cntfet On 4X1 Multiplexer And Demultiplexer Design

Abstract

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