MODELING OF HYBRID MOS FOR THE IMPLEMENTATION OF SWITCHED CAPACITOR FILTER USING SINGLE ELECTRON TRANSISTOR

  • Brijendra Mishra Department of Electronics and Communication Engineering Amity School of Engineering and Technology (ASET) Amity University Madhya Pradesh (AUMP) Gwalior, India
  • Vivek Singh Kushwah Department of Electronics and Communication Engineering Amity School of Engineering and Technology (ASET) Amity University Madhya Pradesh (AUMP) Gwalior, India
  • Rishi Sharma MEMS and Microsensor Group, CEERI, Pilani, Rajasthan, India
Keywords: Single Electron Transistor, Switched Capacitor Filter, Coulomb blockade, Quantum Dot

Abstract

In digital integrated circuit architectures, transistors serve as circuit switches to charge and discharge capacitors to the required logic voltage levels. A transistor is a three terminal semiconductor device used to amplify and switch electronic signals and electrical power. It has been observed that the Scaling down of electronic device sizes has been the fundamental strategy for improving the performance of ultra-large-scale integrated circuits (ULSIs). Metaloxide-semiconductor field-effect transistors (MOSFETs) have been the most prevalent electron devices for ULSI applications. A better device will be formed with the help of new technology, with high operating speed low and power consumption, which can be the future of electronics industry. A methodology for the electric simulation of MOS/SET hybrid circuits will be developed. As a result of this, a functional model for the single-electron transistor will obtain and Implement Switched Capacitor Filter with the help of designed hybrid MOS. The SET model can be easily coded in any hardware description language.

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Published
2018-02-28
How to Cite
Mishra, B., Kushwah, V. S., & Sharma, R. (2018). MODELING OF HYBRID MOS FOR THE IMPLEMENTATION OF SWITCHED CAPACITOR FILTER USING SINGLE ELECTRON TRANSISTOR. International Journal of Engineering Technologies and Management Research, 5(2), 294-300. https://doi.org/10.29121/ijetmr.v5.i2.2018.659