A novel high-speed low-power sense-amplifier-based flip-flop for digital circuits application

Ang Yuan; Huidong Zhao; Zhi Li; Shushan Qiao

doi:10.1587/elex.20.20230446

This article has now been updated. Please use the final version.

A novel high-speed low-power sense-amplifier-based flip-flop for digital circuits application

Ang Yuan, Huidong Zhao, Zhi Li, Shushan Qiao

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Keywords: flip-flop, low-power, sense-amplifier, low-voltage operation

JOURNAL FREE ACCESS Advance online publication

Article ID: 20.20230446

DOI https://doi.org/10.1587/elex.20.20230446

The final version of this article is now available: Vol. 20 (2023), No. 23 pp. 20230446-20230446

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Abstract

This paper proposes a novel sense-amplifier-based flip-flop (SAFF) applied in low-power, high-speed operation. With the employment of the pre-charge control technique and shut-off transistor, the power and delay of the proposed SAFF are significantly reduced. Furthermore, the proposed SAFF can provide low-voltage operation. Post-layout simulation results based on the SMIC 55 nm CMOS process show that the proposed SAFF achieves a 28.9% reduction in the CLK-to-Q delay and a 53.2% decrease in power (25% input data switching activity) and the power-delay-product of the proposed SAFF shows 3.0× improvement compared with the conventional SAFF.

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