Smart Battery Controller for Lithium Sulfur Dioxide Batteries

Each year, the U.S. Army purchases millions of lithium sulfur dioxide batteries for use in portable electronics equipment. Because of their superior rate capability and service life over a wide variety of conditions, lithium batteries are the power source of choice for military equipment. There is n...

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Hauptverfasser:	Atwater, Terrill, Bard, Arnold, Testa, Bruce, Shader, William
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Sprache:	eng
Schlagworte:	ARMY CELLS CIRCUITS CURRENTS DIOXIDES DISPOSAL ELECTRIC BATTERIES Electrical and Electronic Equipment Electrochemical Energy Storage ELECTRONICS ENERGY INTEGRATED CIRCUITS LABORATORIES LITHIUM MILITARY EQUIPMENT MISSIONS Physical Chemistry POWER PROTOTYPES RATES SELECTION SMART BATTERY CONTROLLERS STORAGE STORAGE BATTERIES SULFUR TEMPERATURE TEST AND EVALUATION TEST EQUIPMENT VENTING WASTES
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creator	Atwater, Terrill Bard, Arnold Testa, Bruce Shader, William
description	Each year, the U.S. Army purchases millions of lithium sulfur dioxide batteries for use in portable electronics equipment. Because of their superior rate capability and service life over a wide variety of conditions, lithium batteries are the power source of choice for military equipment. There is no convenient method of determining the available energy remaining in partially used lithium batteries; hence, users do not take full advantage of all the available battery energy. Currently, users replace batteries before each mission, which leads to premature disposal, and results in the waste of millions of dollars in battery energy every year. Another problem of the lithium battery is that it is necessary to ensure complete discharge of the cells when the useful life of the battery has been expended, or when a hazardous condition exists; a hazardous condition may result in one or more of the cells venting. The Electronics Technology and Devices Laboratory has developed a working prototype of a smart battery controller (SBC) that addresses these problems.
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Because of their superior rate capability and service life over a wide variety of conditions, lithium batteries are the power source of choice for military equipment. There is no convenient method of determining the available energy remaining in partially used lithium batteries; hence, users do not take full advantage of all the available battery energy. Currently, users replace batteries before each mission, which leads to premature disposal, and results in the waste of millions of dollars in battery energy every year. Another problem of the lithium battery is that it is necessary to ensure complete discharge of the cells when the useful life of the battery has been expended, or when a hazardous condition exists; a hazardous condition may result in one or more of the cells venting. 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subjects	ARMY CELLS CIRCUITS CURRENTS DIOXIDES DISPOSAL ELECTRIC BATTERIES Electrical and Electronic Equipment Electrochemical Energy Storage ELECTRONICS ENERGY INTEGRATED CIRCUITS LABORATORIES LITHIUM MILITARY EQUIPMENT MISSIONS Physical Chemistry POWER PROTOTYPES RATES SELECTION SMART BATTERY CONTROLLERS STORAGE STORAGE BATTERIES SULFUR TEMPERATURE TEST AND EVALUATION TEST EQUIPMENT VENTING WASTES
title	Smart Battery Controller for Lithium Sulfur Dioxide Batteries
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