Low-Voltage and Low-Power True-Single-Phase 16-Transistor Flip-Flop Design

Low-Voltage and Low-Power True-Single-Phase 16-Transistor Flip-Flop Design

A low-voltage and low-power true single-phase flip-flop that minimum the total transistor count by using the pass transistor logic circuit scheme is proposed in this paper. Optimization measures lead to a new flip-flop design with better various performances such as speed, power, energy, and layout...

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Veröffentlicht in:Sensors (Basel, Switzerland) Switzerland), 2022-07, Vol.22 (15), p.5696
Hauptverfasser: Lin, Jin-Fa, Hong, Zheng-Jie, Wu, Jun-Ting, Tung, Xin-You, Yang, Cheng-Hsueh, Yen, Yu-Cheng
Format: Artikel
Sprache:eng
Schlagworte:
Design
Electric potential
flip-flop
Flip-flops
Internet of Things
Layouts
Logic circuits
low power
low voltage
pass transistor logic
Semiconductor devices
Simulation
Transistor logic
Transistors
Voltage
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Beschreibung
Zusammenfassung:A low-voltage and low-power true single-phase flip-flop that minimum the total transistor count by using the pass transistor logic circuit scheme is proposed in this paper. Optimization measures lead to a new flip-flop design with better various performances such as speed, power, energy, and layout area. Based on post-layout simulation results using the TSMC CMOS 180 nm and 90 nm technologies, the proposed design achieves the conventional transmission-gate-based flip-flop design with a 53.6% reduction in power consumption and a 63.2% reduction in energy, with 12.5% input data switching activity. In order to further the performance parameters of the proposed design, a shift-register design has been realized. Experimental measurements at 0.5 V/0.5 MHz show that this proposed design reduces power consumption by 47.3% while achieving a layout area reduction of 30.5% compared to the conventional design.
ISSN:1424-8220
1424-8220
DOI:10.3390/s22155696