| Description |
1 online resource (410 pages) |
| Contents |
Intro -- Battery Management System and its Applications -- Contents -- Preface -- About the Authors -- Part I Introduction -- 1 Why Does a Battery Need a BMS? -- 1.1 General Introduction to a BMS -- 1.1.1 Why a Battery Needs a BMS -- 1.1.2 What Is a BMS? -- 1.1.3 Why a BMS Is Required in Any Energy Storage System -- 1.1.4 How a BMS Makes a Storage System Efficient, Safe, and Dependable -- 1.2 Example of a BMS in a Real System -- 1.2.1 LabView Based BMS -- 1.2.2 PLC Based BMS -- 1.2.3 Microprocessor Based BMS -- 1.2.4 Microcontroller Based BMS -- 1.3 System Failures Due to the Absence of a BMS |
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1.3.1 Dreamline Boeing Fire Incidences -- 1.3.2 Fire Accident at the Hawaii Grid Connected Energy Storage -- 1.3.3 Fire Accidents in Electric Vehicles -- References -- 2 General Requirements (Functions and Features) -- 2.1 Basic Functions of a BMS -- 2.1.1 Key Parameter Monitoring -- 2.1.2 Battery State Analysis -- 2.1.3 Safety Management -- 2.1.4 Energy Control Management -- 2.1.5 Information Management -- 2.2 Topological Structure of a BMS -- 2.2.1 Relationship Between a BMC and a Cell -- 2.2.2 Relationship Between a BCU and a BMC -- References -- 3 General Procedure of the BMS Design |
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3.1 Universal Battery Management System and Customized Battery Management System -- 3.1.1 Ideal Condition -- 3.1.2 Feasible Solution -- 3.1.3 Discussion of Universality -- 3.2 General Development Flow of the Power Battery Management System -- 3.2.1 Applicable Standards for BMS Development -- 3.2.2 Boundary of BMS Development -- 3.2.3 Battery Characteristic Test Is Essential to BMS Development -- 3.3 Core Status of Battery Modeling in the BMS Development Process -- References -- Part II Li-Ion Batteries -- 4 Introduction to Li-Ion Batteries |
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4.1 Components of Li-Ion Batteries: Electrodes, Electrolytes, Separators, and Cell Packing -- 4.2 Li-Ion Electrode Manufacturing -- 4.3 Cell Assembly in an Li-Ion Battery -- 4.4 Safety and Cost Prediction -- References -- 5 Schemes of Battery Testing -- 5.1 Battery Tests for BMS Development -- 5.1.1 Test Items and Purpose -- 5.1.2 Standardization of Characteristic Tests -- 5.1.3 Some Issues on Characteristic Tests -- 5.1.4 Contents of Other Sections of This Chapter -- 5.2 Capacity and the Charge and Discharge Rate Test -- 5.2.1 Test Methods -- 5.2.2 Test Report Template |
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5.3 Discharge Rate Characteristic Test -- 5.3.1 Test Method -- 5.3.2 Test Report Template -- 5.4 Charge and Discharge Equilibrium Potential Curves and Equivalent Internal Resistance Tests -- 5.4.1 Test Method for Discharge Electromotive Force Curve and Equivalent Internal Resistance -- 5.4.2 Test Method for Charge Electromotive Force Curve and Equivalent Internal Resistance -- 5.4.3 Discussion of the Test Method -- 5.4.4 Test Report Template -- 5.5 Battery Cycle Test -- 5.5.1 Features of Battery Cycle Test -- 5.5.2 Fixed Rate Cycle Test Method |
| Summary |
"Battery Management System (BMS) is an essential part of any energy storage systems. It controls battery charging, discharging, manages optimum operating conditions, governs the safety limits, runs the battery charge and health algorithms, monitors battery parameters and communicates with other associated devices. BMS or similar monitoring and control system is strongly recommended for other electrical energy systems such as fuel cell, supercapacitor, superbat capacitor or other hybrid combinations of electrical energy storage systems. BMS allows system to be efficient and lets application use the stored energy up to the safe operating limit. It makes energy storage cost effective for short-term application such as consumer electronics. With an efficient control over optimum charge and discharge range, BMS adequately extends the life of energy storage."-- Provided by publisher |
| Notes |
5.5.3 Cycle Test Schemes Based on Standard Working Conditions |
| Bibliography |
Includes bibliographical references and index |
| Notes |
Print version record |
| Subject |
Battery management systems.
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Battery management systems
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| Form |
Electronic book
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| Author |
Vezzini, Andrea
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Fan, Yuqian
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Khare, Neeta
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Xu, You
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Wei, Liangliang
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| ISBN |
9781119154020 |
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1119154022 |
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1119154014 |
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9781119154013 |
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