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A Systems Approach to Lithium-Ion Battery Management (Anglais) Relié – 1 octobre 2013

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The advent of lithium ion batteries has brought a significant shift in the area of large format battery systems. Previously limited to heavy and bulky lead-acid storage batteries, large format batteries were used only where absolutely necessary as a means of energy storage. The improved energy density, cycle life, power capability, and durability of lithium ion cells has given us electric and hybrid vehicles with meaningful driving range and performance, grid-tied energy storage systems for integration of renewable energy and load leveling, backup power systems and other applications. This book discusses battery management system (BMS) technology for large format lithium-ion battery packs from a systems perspective. This resource covers the future of BMS, giving us new ways to generate, use, and store energy, and free us from the perils of non-renewable energy sources. This book provides a full update on BMS technology, covering software, hardware, integration, testing, and safety.

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Amazon.com: 1 commentaire
Par COSMIC TRAVELER - Publié sur Amazon.com
Format: Relié
This is an outstanding book indeed, for those needing an effective battery management system. Author Phillip Weicker, has done a great job of writing a book that contains a description of the characteristics of different types of battery systems that are expected to be a safe and reliable source of energy, that deliver the high performance that battery cells and chemistries have to offer.

Author Weicker, begins with a description of how lithium-ion batteries operate by the same electrochemical fundamentals as all batteries; but, a few important distinctions are important to consider in the development of battery management systems for lithium-ion based systems. Next, the author explains how large-format systems may be created using small-capacity cells such as the common cylindrical 18650 and 26650, or any other types of cells. In addition, he defines the black-box as describing all of the interfaces that the battery management system will have with both the battery cells; additional battery components, such as sensors and contactors; and, the host applications. The author also states that it may be possible to implement the simplest systems using a selection of definite-purpose integrated circuits, but this architecture is more commonplace with smaller systems operating at lower voltages intended for consumer electronics applications. Then, he continues by explaining why a number of battery voltages could be measured within a large-format system, including individual cells, groups, or modules of cells, all the way up to the entire series-connected string. The author then addresses why in many systems, contactor control is a vital function that must be implemented with diligence. Next, he covers important decisions that the battery management system must make are the rate of charge to optimize the utility of the system life of the batteries, overall efficiency, other factors, and when to terminate charging. In addition, the author cautions that battery management system designers should be aware of important differences in the safety aspects of ac and dc high-voltage systems. He also presents an overview of the network technologies commonly used; as well as, the types of information that are usually transferred via a communications bus. Then, the author discusses the reasons for having a representative equivalent circuit model and a number of methods to construct these models. Next, he focuses on possible approaches for identifying an appropriate model for obtaining values for the parameters to accurately represent the battery cells. Then, the author continues by explaining why in many applications, the power limit algorithm is potentially even more important than the state of change calculation. The author then addresses why in order to maintain battery performance over a long service life in a large-format battery system, it is usually necessary to implement a charge balancing strategy to account for differences in cell performance. Finally, he explains how more complicated modeling tools will be able to be implemented in battery management systems of the future.

With each new wave of battery improvements, battery management systems will need to keep up with the changes described in this book. In addition, this book also explains how the field of large-format battery systems is only the beginning; and, many new developments await in the area of battery management systems.
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