Networked architecture for hybrid electrical energy storage systems

DAC Design Automation Conference 2012 Pub Date : 2012-06-03 DOI:10.1145/2228360.2228453

Younghyun Kim, Sangyoung Park, N. Chang, Q. Xie, Yanzhi Wang, Massoud Pedram

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引用次数: 19

Abstract

A hybrid electrical energy storage (HEES) system that consists of multiple, heterogeneous electrical energy storage (EES) elements is a promising solution to achieve a cost-effective EES system because no storage element has ideal characteristics. The state-of-the-art HEES systems are based on a shared-bus charge transfer interconnect (CTI) architecture. Consequently, they are quite limited in scalability which is a function of the number of EES banks. This paper is the first introduction of a HEES system based on a networked CTI architecture, which is highly scalable and is capable of accommodating multiple, concurrent charge transfers. The paper starts by presenting a router architecture for the networked CTI and an effective on-line routing algorithm for multiple charge transfers. In the proposed algorithm, negotiated congestion (NC) routing for multiple charge transfers is performed and any lack of routing resources is addressed by merging two or more charge transfers while maximizing the overall energy efficiency by setting the optimal voltage level for the shared CTI. Examples of the proposed networked CTI are presented and the efficacy of the routing algorithm is demonstrated on a mesh-grid networked CTI.

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混合电能存储系统的网络化体系结构

混合电能存储(HEES)系统由多个异构电能存储(EES)元件组成，是实现具有成本效益的电能存储系统的一种有前途的解决方案，因为没有一种存储元件具有理想的特性。最先进的HEES系统基于共享总线电荷传输互连(CTI)架构。因此，它们在可扩展性方面非常有限，这是EES银行数量的函数。本文首次介绍了基于网络化CTI架构的HEES系统，该系统具有高度可扩展性，能够容纳多个并发电荷传输。本文首先提出了一种用于网络化CTI的路由器结构和一种有效的多电荷传输在线路由算法。在提出的算法中，为多个电荷传输执行协商拥塞(NC)路由，并且通过合并两个或多个电荷传输来解决路由资源的缺乏，同时通过为共享CTI设置最佳电压水平来最大化整体能源效率。给出了所提出的网络化CTI的实例，并在网格网络化CTI上验证了路由算法的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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DAC Design Automation Conference 2012

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