International Journal of Science, Engineering and Computer Technology

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Design and Analysis of CMOS J-K Flip-Flop and Basic Adiabatic Circuits


Affiliations
1 Department of Electronics and Communication, PPIMT, Hisar, Haryana, India
     

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This paper, presents the design of CMOS based J-K flip-flop and ECRL (Efficient Charge Recovery Logic) based inverter and basic AND logic gate using adiabatic technique. The ECRL is more suitable for the design of flip-flops and sequential circuits, as it uses fewer transistors than the conventional CMOS implementation and other adiabatic techniques. Design of ECRL based adiabatic J-K flip-flop using MICROWIND 3.5 tool with 25 nm technology is also proposed. VERILOG simulations show that the energy loss of the adiabatic circuits is greatly reduced as compared to the conventional CMOS implementation.

Keywords

CMOS Digital Circuits, Adiabatic Circuits, ECRL, Flip-Flops, Power Dissipation.
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  • Design and Analysis of CMOS J-K Flip-Flop and Basic Adiabatic Circuits

Abstract Views: 250  |  PDF Views: 3

Authors

Priti Sindhu
Department of Electronics and Communication, PPIMT, Hisar, Haryana, India
Suman Rani
Department of Electronics and Communication, PPIMT, Hisar, Haryana, India

Abstract


This paper, presents the design of CMOS based J-K flip-flop and ECRL (Efficient Charge Recovery Logic) based inverter and basic AND logic gate using adiabatic technique. The ECRL is more suitable for the design of flip-flops and sequential circuits, as it uses fewer transistors than the conventional CMOS implementation and other adiabatic techniques. Design of ECRL based adiabatic J-K flip-flop using MICROWIND 3.5 tool with 25 nm technology is also proposed. VERILOG simulations show that the energy loss of the adiabatic circuits is greatly reduced as compared to the conventional CMOS implementation.

Keywords


CMOS Digital Circuits, Adiabatic Circuits, ECRL, Flip-Flops, Power Dissipation.