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Subthreshold performance of pocket-implanted silicon-on-insulator CMOS devices and circuits for ultra-low-power analogue/mixed-signal applications

Subthreshold performance of pocket-implanted silicon-on-insulator CMOS devices and circuits for ultra-low-power analogue/mixed-signal applications

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  • Author(s): S. Chakraborty 1 ; A. Mallik 2 ; C.Kr. Sarkar 3
    • View affiliations
    • Affiliations: 1: Tyfone Communications Development (India) Pvt. Ltd., Bangalore, India
      2: Department of Electronic Science, University of Calcutta, Kolkata, India
      3: Department of Electronics and Telecommunication Engineering, Jadavpur University, Kolkata, India
  • Source: Volume 5, Issue 4, July 2011, p. 343 – 350
    DOI:  10.1049/iet-cds.2010.0299 , Print ISSN 1751-858X, Online ISSN 1751-8598
© The Institution of Engineering and Technology
Published

Analogue circuits based on subthreshold operation of the devices are very attractive as they show significantly better performance in terms of both power dissipation and voltage gain. A systematic investigation, with the help of extensive process and device simulations, of the effects of halo doping [both double-halo and single-halo or lateral asymmetric channel (LAC)] on the subthreshold analogue performance of 100 nm silicon-on-insulator CMOS devices and circuits is reported for the first time. Although the halo doping is found to improve the subthreshold performance in general, the improvement is significant for a low tilt angle of the halo implant. The optimisation of the analogue performance is made for the halo devices by varying the tilt angle of the halo implant. CMOS amplifiers made with the halo-implanted devices are found to have higher voltage gain over their conventional counterpart, and a more than 70% improvement in the voltage gain is observed when both n- and p-channel transistors in the amplifier are LAC devices.

Inspec keywords: CMOS analogue integrated circuits; amplifiers; silicon-on-insulator; low-power electronics; mixed analogue-digital integrated circuits

Other keywords: voltage gain; LAC devices; device simulations; ultralow-power analogue-mixed-signal applications; double-halo doping; lateral asymmetric channel; size 100 nm; single-halo doping; n-channel transistors; pocket-implanted silicon-on-insulator CMOS devices; power dissipation; subthreshold analogue performance; analogue circuits; p-channel transistors; CMOS amplifiers; halo-implanted devices

Subjects: Mixed analogue-digital circuits; CMOS integrated circuits; Metal-insulator-semiconductor structures; Amplifiers

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