A 0.8 V  0.23 nW 1.5 ns Full-Swing Pass-Transistor XOR Gate in 130 nm CMOS

Nabihah Ahmad; Rezaul Hasan

doi:10.1155/2013/148518

Active and Passive Electronic Components (Jan 2013)

A 0.8 V 0.23 nW 1.5 ns Full-Swing Pass-Transistor XOR Gate in 130 nm CMOS

Nabihah Ahmad,
Rezaul Hasan

Affiliations

Nabihah Ahmad: Center for Research in Analog and VLSI microsystem Design (CRAVE), School of Engineering and Advanced Technology (SEAT), Massey University, Auckland 0632, New Zealand
Rezaul Hasan: Center for Research in Analog and VLSI microsystem Design (CRAVE), School of Engineering and Advanced Technology (SEAT), Massey University, Auckland 0632, New Zealand

DOI: https://doi.org/10.1155/2013/148518
Journal volume & issue: Vol. 2013

Abstract

Read online

A power efficient circuit topology is proposed to implement a low-voltage CMOS 2-input pass-transistor XOR gate. This design aims to minimize power dissipation and reduce transistor count while at the same time reducing the propagation delay. The XOR gate utilizes six transistors to achieve a compact circuit design and was fabricated using the 130 nm IBM CMOS process. The performance of the XOR circuit was validated against other XOR gate designs through simulations using the same 130 nm CMOS process. The area of the core circuit is only about 56 sq · µm with 1.5659 ns propagation delay and 0.2312 nW power dissipation at 0.8 V supply voltage. The proposed six-transistor implementation thus compares favorably with other existing XOR gate designs.

Published in Active and Passive Electronic Components

ISSN: 0882-7516 (Print); 1563-5031 (Online)
Publisher: Hindawi Limited
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: https://www.hindawi.com/journals/apec/

About the journal