Fundamentals and Application of Lithium ion Batteries in Electric Drive Vehicles 1st Edition by Jiuchun Jiang, Caiping Zhang ISBN 978-1118414781 1118414781

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Product details: 

ISBN 10:  1118414781

ISBN 13: 978-1118414781

Author: Jiuchun Jiang, Caiping Zhang 

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 systematically expounds the theory knowledge included in the lithium-ion battery management systems and its practical application in electric vehicles, describing the theoretical connotation and practical application of the battery management systems. Selected graphics in the book are directly derived from the real vehicle tests. Through comparative analysis of the different system structures and different graphic symbols, related concepts are clear and the understanding of the battery management systems is enhanced.

Contents include: key technologies and the difficulty point of vehicle power battery management system; lithium-ion battery performance modeling and simulation; the estimation theory and methods of the lithium-ion battery state of charge, state of energy, state of health and peak power; lithium-ion battery charge and discharge control technology; consistent evaluation and equalization techniques of the battery pack; battery management system design and application in electric vehicles.

A theoretical and technical guide to the electric vehicle lithium-ion battery management system
Using simulation technology, schematic diagrams and case studies, the basic concepts are described clearly and offer detailed analysis of battery charge and discharge control principles
Equips the reader with the understanding and concept of the power battery, providing a clear cognition of the application and management of lithium ion batteries in electric vehicles
Arms audiences with lots of case studies
Essential reading for Researchers and professionals working in energy technologies, utility planners and system engineers.

Table of contents: 

1. Introduction

• The Development of Batteries in Electric Drive Vehicles

  • The Goals

  • Trends in Development of the Batteries

  • Application Issues of LIBs

  • Significance of Battery Management Technology

• Development of Battery Management Technologies

  • No Management

  • Simple Management

  • Comprehensive Management

• BMS Key Technologies

2. Performance Modeling of Lithium-ion Batteries

• Reaction Mechanism of Lithium-ion Batteries

• Testing the Characteristics of Lithium-ion Batteries

  • Rate Discharge Characteristics

  • Charge and Discharge Characteristics Under Operating Conditions

  • Impact of Temperature on Capacity

  • Self-Discharge

• Battery Modeling Method

  • Equivalent Circuit Model

  • Electrochemical Model

  • Neural Network Model

• Simulation and Comparison of Equivalent Circuit Models

  • Model Parameters Identification Principle

  • Implementation Steps of Parameter Identification

  • Comparison of Simulation of Three Equivalent Circuit Models

• Battery Modeling Method Based on a Battery Discharging Curve

• Battery Pack Modeling

  • Battery Pack Modeling

  • Simulation of Battery Pack Model

3. Battery State Estimation

• Definition of SOC

  • The Maximum Available Capacity

  • Definition of Single Cell SOC

  • Definition of the SOC of Series Batteries

• Discussion on the Estimation of the SOC of a Battery

  • Load Voltage Detection

  • Electromotive Force Method

  • Resistance Method

  • Ampere-hour Counting Method

  • Kalman Filter Method

  • Neural Network Method

  • Adaptive Neuro-Fuzzy Inference System

  • Support Vector Machines

• Battery SOC Estimation Algorithm Application

  • The SOC Estimation of a PEV Power Battery

  • Power Battery SOC Estimation for Hybrid Vehicles

• Definition and Estimation of the Battery SOE

  • Definition of the Single Battery SOE

  • SOE Definition of the Battery Groups

• Method for Estimation of the Battery Group SOE and the Remaining Energy

• Method of Estimation of the Actual Available Energy of the Battery

4. The Prediction of Battery Pack Peak Power

• Definition of Peak Power

  • Peak Power Capability of Batteries

  • Battery Power Density

  • State of Function of Batteries

• Methods for Testing Peak Power

  • Test Methods Developed by Americans

  • The Test Method of Japan

  • The Chinese Standard Test Method

  • The Constant Power Test Method

  • Comparison of the Above-Mentioned Testing Methods

• Peak Power

  • The Relation between Peak Power and Temperature

  • The Relation between Peak Power and SOC

  • Relationship between Peak Power and Ohmic Internal Resistance

• Available Power of the Battery Pack

  • Factors Influencing Available Power

  • The Optimized Method of Available Power

5. Charging Control Technologies for Lithium-ion Batteries

• Literature Review on Lithium-ion Battery Charging Technologies

  • The Academic Significance of Charging Technologies of Lithium-ion Batteries

  • Development of Charging Technologies for Lithium-ion Batteries

• Key Indicators for Measuring Charging Characteristics

  • Charge Capacity

  • Charging Efficiency

  • Charging Time

• Charging External Characteristic Parameters of the Lithium-ion Battery

  • Current

  • Voltage

  • Temperature

• Analysis of Charging Polarization Voltage Characteristics

  • Calculation of the Polarization Voltage

  • Analysis of Charging Polarization in the Time Domain

  • Characteristic Analysis of the Charging Polarization in the SOC Domain

  • The Impact of Different SOCs and DODs on the Battery Polarization

• Improvement of the Constant Current and Constant Voltage Charging Method

  • Selection of the Key Process Parameters in the CCCV Charging Process

  • Optimization Strategy for the CCCV Charging

• Principles and Methods of the Polarization Voltage Control Charging Method

  • Principles

  • Implementation Methods

  • Comparison of the Constant Polarization Charging Method and the Traditional Charging Method

• Summary

6. Evaluation and Equalization of Battery Consistency

• Analysis of Battery Consistency

  • Causes of Batteries Inconsistency

  • The Influence of Inconsistency on the Performance of the Battery Pack

• Evaluation Indexes of Battery Consistency

  • The Natural Parameters Influencing Parallel Connected Battery Characteristics

  • Parameters Influencing the Battery External Voltage

  • Method for Analysis of Battery Consistency

• Quantitative Evaluation of Battery Consistency

  • Based on the External Voltage

  • Based on the Capacity Utilization Rate of the Battery Pack

  • Based on the Energy Utilization Rate of the Battery Pack

• Equalization of the Battery Pack

  • Equalization Based on the External Voltage of a Single Cell

  • Equalization Based on the Maximum Available Capacity

  • Equalization Based on the Maximum Available Energy

  • Equalization Based on the SOC of the Single Cells

  • Control Strategy for the Equalizer

  • Effect Confirmation

• Summary

7. Technologies for the Design and Application of the Battery Management System

• The Functions and Architectures of a Battery Management System

  • Functions of the Battery Management System

  • Architecture of the Battery Management System

• Design of the Battery Parameters Measurement Module

  • Battery Cell Voltage Measurement

  • Temperature Measurement

  • Current Measurement

  • Total Voltage Measurement

  • Insulation Measurement

• Design of the Battery Equalization Management Circuit

  • The Energy Non-Dissipative Type

  • The Energy Dissipative Type

• Data Communication

  • CAN Communication

  • A New Communication Mode

• The Logic and Safety Control

  • Power-Up Control

  • Charge Control

  • Temperature Control

  • Fault Alarm and Control

• Testing the Stability of the BMS

  • Dielectric Resistance

  • Insulation Withstand Voltage Performance

  • Test on Monitoring Functions of BMS

  • SOC Estimation

  • Battery Fault Diagnosis

  • Security and Protection

  • Operating at High/Low Temperatures

  • Resistance Tests (High-Temperature, Low-Temperature, Salt Spray, Wet-Hot, Vibration, Polarity Reverse, Electromagnetic Radiation Immunity)

• Practical Examples of BMS

  • Pure Electric Bus (Beijing Olympic Games)

  • Pure Electric Vehicles (JAC Tongyue)

  • Hybrid Electric Bus (FOTON Plug-In Range Extended Electric bus)

  • Hybrid Passenger Car Vehicle (Trumpchi)

  • The Trolley Bus with Two Kinds of Power

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Tags: Jiuchun Jiang, Caiping Zhang, Fundamentals and Application, Electric Drive