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Low Power Rail to Rail D Flip-Flop Using Current Mode Logic Structure

Publication Type : Conference Paper

Publisher : 2020 4th International Conference on Electronics, Materials Engineering Nano-Technology (IEMENTech)

Source : 2020 4th International Conference on Electronics, Materials Engineering Nano-Technology (IEMENTech), IEEE, Kolkata, India (2020)

Url : https://ieeexplore.ieee.org/abstract/document/9270082

Campus : Bengaluru

School : School of Engineering

Department : Electronics and Communication

Year : 2020

Abstract : A storage element can be constructed using Current Mode Logic (CML) circuit. Folded CML D flipflop with improved switching activity circuit suffers from static power dissipation due to always ON load PMOSFETs. To reduce this static power dissipation, a positive edge triggered Low Power Rail to Rail D Flip-Flop (LPRR_DFF) using Rail to Rail D latch technique is proposed in this work. The design of Folded CML D Latch, Rail to Rail D Latch with differential buffer, Folded CML D Flip-Flop with improved switching activity and the proposed LPRR_DFF structures are implemented, simulated and analysed using gpdk45 MOSFET models of Cadence Virtuoso Spectre simulator at the power supply of 1 V at 45 nm technology. The average power, Data to Q delay (TDQ), Clock to Q delay (TCQ) and the transistor count of Rail to Rail D Latch with differential buffer is reduced by 99.8%,76.48%, 39.38% and 10% respectively, as compared to the Folded CML D Latch. The average power, Clock to Q delay (TCQ) and the transistor count of proposed LPRR_DFF is reduced by 99.8%, 1.03% and 36.36% respectively, as compared to the Folded CML D Flip-Flop with improved switching activity.

Cite this Research Publication : S. Mutukuri and Pande, K. S., “Low Power Rail to Rail D Flip-Flop Using Current Mode Logic Structure”, in 2020 4th International Conference on Electronics, Materials Engineering Nano-Technology (IEMENTech), Kolkata, India, 2020.

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