An Improved SOI CMOS Technology Based Circuit Technique for Effective Reduction of Standby Subthreshold Leakage

Manish Kumar,Md Anwar Hussain,Sajal K Paul

doi:10.4236/cs.2013.46056

Manish Kumar, Md Anwar Hussain + Show 1 more

Open Access

https://doi.org/10.4236/cs.2013.46056

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Journal: Circuits and Systems	Publication Date: Jan 1, 2013
Citations: 24	License type: CC BY 4.0

Affiliation: Indian Institute of Technology Dhanbad

Abstract

Silicon-on-insulator (SOI) CMOS technology is a very attractive option for implementing digital integrated circuits for low power applications. This paper presents migration of standby subthreshold leakage control technique from a bulk CMOS to SOI CMOS technology. An improved SOI CMOS technology based circuit technique for effective reduction of standby subthreshold leakage power dissipation is proposed in this paper. The proposed technique is validated through design and simulation of a one-bit full adder circuit at a temperature of 27℃, supply voltage, VDD of 0.90 V in 120 nm SOI CMOS technology. Existing standby subthreshold leakage control techniques in CMOS bulk technology are compared with the proposed technique in SOI CMOS technology. Both the proposed and existing techniques are also implemented in SOI CMOS technology and compared. Reduction in standby subthreshold leakage power dissipation by reduction factors of 54x and 45x foraone-bit full adder circuit was achieved using our proposed SOI CMOS technology based circuit technique in comparison with existing techniques such as MTCMOS technique and SCCMOS technique respectively in CMOS bulk technology. Dynamic power dissipation was also reduced significantly by using this proposed SOI CMOS technology based circuit technique. Standby subthreshold leakage power dissipation and dynamic power dissipation were also reduced significantly using the proposed circuit technique in comparison with other existing techniques, when all circuit techniques were implemented in SOI CMOS technology. All simulations were performed using Microwindver 3.1 EDA tool.

Highlights

In recent years, the demand for reducing the standby subthreshold leakage power has grown significantly
This paper presents migration of standby subthreshold leakage control technique from a bulk CMOS to SOI CMOS technology
This paper has presented migration of standby subthreshold leakage control technique from a bulk CMOS to SOI CMOS technology

Summary

Introduction

The demand for reducing the standby subthreshold leakage power has grown significantly This tremendous demand is mainly due to the fast growth of battery-operated portable applications such as notebook and laptop computers, personal digital assistants, cellular phones, and other portable communication devices, which remain in the standby state for a significant time interval. This leakage power dissipation is mainly noticeable in electronic portable battery operated systems having burst-mode type integrated circuits, where computation occurs for only short intervals and the system spends the majority of time in standby state [1]. Leakage power dissipation arises from the leakage currents flowing through the transistor when there are no input transitions

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