Design of low power SRAM- based ubiquitous sensor for wireless body area networks-Reference-Cited by-同舟云学术

Design of low power SRAM- based ubiquitous sensor for wireless body area networks

Published:2021-11-18 Issue:5 Volume:17 Page:611-621
ISSN:1742-7371
Container-title:International Journal of Pervasive Computing and Communications
language:en
Short-container-title:IJPCC

Author:

Neeraj Kumar,Mahaboob Basha Mohammed,Gundala Srinivasulu

Abstract

Purpose Smart ubiquitous sensors have been deployed in wireless body area networks to improve digital health-care services. As the requirement for computing power has drastically increased in recent years, the design of low power static RAM-based ubiquitous sensors is highly required for wireless body area networks. However, SRAM cells are increasingly susceptible to soft errors due to short supply voltage. The main purpose of this paper is to design a low power SRAM- based ubiquitous sensor for healthcare applications. Design/methodology/approach In this work, bias temperature instabilities are identified as significant issues in SRAM design. A level shifter circuit is proposed to get rid of soft errors and bias temperature instability problems. Findings Bias Temperature Instabilities are focused on in recent SRAM design for minimizing degradation. When compared to the existing SRAM design, the proposed FinFET-based SRAM obtains better results in terms of latency, power and static noise margin. Body area networks in biomedical applications demand low power ubiquitous sensors to improve battery life. The proposed low power SRAM-based ubiquitous sensors are found to be suitable for portable health-care devices. Originality/value In wireless body area networks, the design of low power SRAM-based ubiquitous sensors are highly essential. This design is power efficient and it overcomes the effect of bias temperature instability.

Publisher

Emerald

Subject

General Computer Science,Theoretical Computer Science

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