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Moon-Young Jeong, Moon-Young Jeong; Bong-Hoon Lee, Bong-Hoon Lee; Yoon-Ha Jeong, Yoon-Ha Jeong

Design Considerations for Low-Power Single-Electron Transistor Logic Circuits

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  • Media type: E-Article
  • Title: Design Considerations for Low-Power Single-Electron Transistor Logic Circuits
  • Contributor: Moon-Young Jeong, Moon-Young Jeong; Bong-Hoon Lee, Bong-Hoon Lee; Yoon-Ha Jeong, Yoon-Ha Jeong
  • imprint: IOP Publishing, 2001
  • Published in: Japanese Journal of Applied Physics
  • Language: Not determined
  • DOI: 10.1143/jjap.40.2054
  • ISSN: 0021-4922; 1347-4065
  • Keywords: General Physics and Astronomy ; General Engineering
  • Origination:
  • Footnote:
  • Description: <jats:p> We have investigated design considerations for low-power single-electron transistor (SET) logic circuits. Supply-voltage scaling is introduced as a method for reducing the power consumption of SET circuits. A detailed analysis of the effects of supply-voltage scaling is given on the basis of the behavior of a complementary capacitively coupled SET inverter circuit. It has been shown that the hysteresis caused by the supply-voltage-dependent threshold voltage of a SET quickly disappears as the temperature rises, and does not ruin the desired inverting operation at a practical operation temperature. Also shown is the considerable impact of the supply-voltage scaling on reducing the power expended by leakage and short-circuit. From the results of power-delay product and delay time, it has been shown that the supply-voltage scaling should be carried out within 20% of maximum supply-voltage to maintain overall circuit performance. </jats:p>