Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Auteur(s) : Jiang, Jiuchun
Titre(s) : Fundamentals and applications of lithium-ion batteries in electric drive vehicles [Texte électronique] / Jiuchun Jiang, Caiping Zhang
Publication : Singapore : John Wiley & Sons Inc., 2015
Description matérielle : 1 online resource
Note(s) : Includes bibliographical references and index. - Print version record and CIP data provided by publisher.
A theoretical and technical guide to the electric vehicle lithium-ion battery management
system Covers the timely topic of battery management systems for lithium batteries.
After introducing the problem and basic background theory, it discusses battery modeling
and state estimation. In addition to theoretical modeling it also contains practical
information on charging and discharging control technology, cell equalisation and
application to electric vehicles, and a discussion of the key technologies and research
methods of the lithium-ion power battery management system. The author systema
Autre(s) auteur(s) : Zhang, Caiping (Chemist). Fonction indéterminée
Sujet(s) : Véhicules électriques -- Batteries
Véhicules électriques hybrides -- Batteries
Indice(s) Dewey :
629.250 2 (23e éd.) = Moteurs électriques (technologie des véhicules motorisés)
Identifiants, prix et caractéristiques : ISBN 9781118414798
Identifiant de la notice : ark:/12148/cb44653680z
Notice n° :
FRBNF44653680
(notice reprise d'un réservoir extérieur)
Table des matières : Cover; Table of Contents; Title page; About the Authors; Foreword; Preface; 1 Introduction;
1.1 The Development of Batteries in Electric Drive Vehicles; 1.2 Development of Battery
Management Technologies; 1.3 BMS Key Technologies; References; 2 Performance Modeling
of Lithium-ion Batteries; 2.1 Reaction Mechanism of Lithium-ion Batteries; 2.2 Testing
the Characteristics of Lithium-ion Batteries; 2.3 Battery Modeling Method; 2.4 Simulation
and Comparison of Equivalent Circuit Models; 2.5 Battery Modeling Method Based on
a Battery Discharging Curve; 2.6 Battery Pack Modeling; References.
3 Battery State Estimation3.1 Definition of SOC; 3.2 Discussion on the Estimation
of the SOC of a Battery; 3.3 Battery SOC Estimation Algorithm Application; 3.4 Definition
and Estimation of the Battery SOE; 3.5 Method for Estimation of the Battery Group
SOE and the Remaining Energy; 3.6 Method of Estimation of the Actual Available Energy
of the Battery; References; 4 The Prediction of Battery Pack Peak Power; 4.1 Definition
of Peak Power; 4.2 Methods for Testing Peak Power; 4.3 Peak Power; 4.4 Available Power
of the Battery Pack; References.
5 Charging Control Technologies for Lithium-ion Batteries5.1 Literature Review on
Lithium-ion Battery Charging Technologies; 5.2 Key Indicators for Measuring Charging
Characteristics; 5.3 Charging External Characteristic Parameters of the Lithium-ion
Battery; 5.4 Analysis of Charging Polarization Voltage Characteristics; 5.5 Improvement
of the Constant Current and Constant Voltage Charging Method; 5.6 Principles and Methods
of the Polarization Voltage Control Charging Method; 5.7 Summary; References; 6 Evaluation
and Equalization of Battery Consistency; 6.1 Analysis of Battery Consistency.
6.2 Evaluation Indexes of Battery Consistency6.3 Quantitative Evaluation of Battery
Consistency; 6.4 Equalization of the Battery Pack; 6.5 Summary; References; 7 Technologies
for the Design and Application of the Battery Management System; 7.1 The Functions
and Architectures of a Battery Management System; 7.2 Design of the Battery Parameters
Measurement Module; 7.3 Design of the Battery Equalization Management Circuit; 7.4
Data Communication; 7.5 The Logic and Safety Control; 7.6 Testing the Stability of
the BMS; 7.7 Practical Examples of BMS; Index; End User License Agreement.