An Ultra-low-power True Single-phase Clocking Flip-flop with Improved Hold time Variation using Logic Structure Reduction Scheme

Ming-Yan Tsai,Ming-Hwa Sheu,Jin-Fa Lin,Po-Yu Kuo

doi:10.1109/iscas.2018.8350985

An Ultra-low-power True Single-phase Clocking Flip-flop with Improved Hold time Variation using Logic Structure Reduction Scheme

Ming-Yan Tsai, Ming-Hwa Sheu + Show 2 more

https://doi.org/10.1109/iscas.2018.8350985

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Publication Date: May 1, 2018

Citations: 8

#True Single-phase Clocking Flip-flop #Transmission Gate Flip-flop + Show 8 more

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Abstract

In this paper, an ultra-low-power true single-phase clocking flip-flop (FF) design is proposed. The design follows a master-slave-type logic structure and features a hybrid logic design comprising both static-CMOS logic and pass-transistor logic (PTL). In the design, a logic structure reduction scheme is employed to reduce the number of transistors for achieving low power and short delay performance. Comparing with the conventional transmission gate flip-flop (TGFF), the proposed flip-flop reduced power-delay product (PDP) by 62.3% under 12.5% data switching activity. Moreover, the circuit also achieves better hold time variation and is implemented with TSMC 90-nm CMOS technology.

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