Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté. Image fixe : sans médiation
Auteur(s) : Weicker, Phillip
Titre(s) : A systems approach to lithium-ion battery management [Texte imprimé] / Phillip Weicker
Publication : Boston : Artech house, cop. 2014
Description matérielle : 1 vol. (299 p.) : ill. ; 24 cm
Collection : Artech house power engineering series
Lien à la collection : Artech house power engineering series
Comprend : Machine generated contents note: 1.Introduction ; 1.1.Battery Management Systems
and Applications ; 1.2.State of the Art ; 1.3.Challenges ; 2.Lithium-Ion Battery
Fundamentals ; 2.1.Battery Operation ; 2.2.Battery Construction ; 2.3.Battery Chemistry
; 2.4.Safety ; 2.5.Longevity ; 2.6.Performance ; 2.7.Integration ; 3.Large-Format
Systems ; 3.1.Definition ; 3.2.Balance of Plant ; 3.3.Load Interface ; 3.4.Variation
and Divergence ; 3.5.Application Parameters ; 4.System Description ; 4.1.Typical
Inputs ; 4.2.Typical Outputs ; 4.3.Typical Functions ; 4.4.Summary ; 5.Architectures
; 5.1.Monolithic ; 5.2.Distributed ; 5.3.Semi-Distributed ; 5.4.Connection Methods
; 5.5.Additional Scalability ; 5.6.Battery Pack Architectures ; 5.7.Power Supply
; 5.8.Control Power ; 5.9.Computing Architecture ; 6.Measurement ; 6.1.Cell Voltage
Measurement ; 6.2.Current Measurement ; 6.2.1.Current Sensors ; 6.2.2.Current Sense
Measurement ; 6.3.Synchronization of Current and Voltage ; 6.4.Temperature Measurement
; 6.5.Measurement Uncertainty and Battery Management System Performance ; 6.6.Interlock
Status ; 7.Control ; 7.1.Contactor Control ; 7.2.Soft Start or Precharge Circuits
; 7.3.Control Topologies ; 7.4.Contactor Opening Transients ; 7.5.Chatter Detection
; 7.6.Economizers ; 7.7.Contactor Topologies ; 7.8.Contactor Fault Detection ;
8.Battery Management System Functionality ; 8.1.Charging Strategies ; 8.1.1.CC/CV
Charging Method ; 8.1.2.Target Voltage Method ; 8.1.3.Constant Current Method ;
8.2.Thermal Management ; 8.3.Operational Modes ; 9.High-Voltage Electronics Fundamentals
; 9.1.High-Voltage DC Hazards ; 9.2.Safety of High-Voltage Electronics ; 9.3.Conductive
Anodic Filaments ; 9.4.Floating Measurements ; 9.4.1.Y-Capacitance ; 9.5.HV Isolation
; 9.6.ESD Suppression on Isolated Devices ; 9.7.Isolation Detection ; 10.Communications
; 10.1.Overview ; 10.2.Network Technologies ; 10.2.1.I2C/SPI ; 10.2.2.RS-232 and
RS-485 ; 10.2.3.Local Interconnect Network ; 10.2.4.CAN ; 10.2.5.Ethernet and TCP/IP
; 10.2.6.Modbus ; 10.2.7.FlexRay ; 10.3.Network Design ; 11.Battery Models ; 11.1.Overview
; 11.2.Thevenin Equivalent Circuit ; 11.3.Hysteresis ; 11.4.Coulombic Efficiency
; 11.5.Nonlinear Elements ; 11.6.Self-Discharge Modeling ; 11.7.Physics-Based Battery
Models ; 11.7.1.Doyle-Fuller-Newman Model ; 11.7.2.Single Particle Model ; 11.8.State-Space
Representations of Battery Models ; References ; 12.Parameter Identification ;
12.1.Brute-Force Approach ; 12.2.Online Parameter Identification ; 12.3.SOC/OCV
Characterization ; 12.4.Kalman Filtering ; 12.5.Recursive Least Squares ; 12.6.Electrochemical
Impedance Spectroscopy ; 13.Limit Algorithms ; 13.1.Purpose ; 13.2.Goals ; 13.3.Limit
Strategy ; 13.4.Determining Safe Operating Area ; 13.5.Temperature ; 13.6.SOC/DOD
; 13.7.Cell Voltage ; 13.8.Faults ; 13.9.First-Order Predictive Power Limit ; 13.10.Polarization-Dependent
Limit ; 13.11.Limit Violation Detection ; 13.12.Limits with Multiple Parallel Strings
; 14.Charge Balancing ; 14.1.Balancing Strategies ; 14.2.Balancing Optimization
; 14.3.Charge Transfer Balancing ; 14.3.1.Flying Capacitor ; 14.3.2.Inductive Charge
Transfer Balancing ; 14.3.3.Transformer Charge Balancing ; 14.4.Dissipative Balancing
; 14.5.Balancing Faults ; 15.State-of-Charge Estimation Algorithms ; 15.1.Overview
; 15.2.Challenges ; 15.3.Definitions ; 15.4.Coulomb Counting ; 15.5.SOC Corrections
; 15.6.OCV Measurements ; 15.7.Temperature Compensation ; 15.8.Kalman Filtering
; 15.9.Other Observer Methods ; Reference ; 16.State-of-Health Estimation Algorithms
; 16.1.State of Health ; 16.2.Mechanisms of Failure ; 16.3.Predictive SOH Models
; 16.4.Impedance Detection ; 16.4.1.Passive Methods ; 16.4.2.Active Methods ; 16.5.Capacity
Estimation ; 16.6.Self-Discharge Detection ; 16.7.Parameter Estimation ; 16.8.Dual-Loop
System ; 16.9.Remaining Useful Life Estimation ; 16.10.Particle Filters ; Reference
; 17.Fault Detection ; 17.1.Overview ; 17.2.Failure Detection ; 17.2.1.Overcharge/Overvoltage
; 17.2.2.Over-Temperature ; 17.2.3.Overcurrent ; 17.2.4.Battery Imbalance/Excessive
Self-Discharge ; 17.2.5.Internal Short Circuit Detection ; 17.2.6.Detection of Lithium
Plating ; 17.2.7.Venting Detection ; 17.2.8.Excessive Capacity Loss ; 17.3.Reaction
Strategies ; References ; 18.Hardware Implementation ; 18.1.Packaging and Product
Development ; 18.2.Battery Management System IC Selection ; 18.3.Component Selection
; 18.3.1.Microprocessor ; 18.3.2.Other Components ; 18.4.Circuit Design ; 18.5.Layout
; 18.6.EMC ; 18.7.Power Supply Architectures ; 18.8.Manufacturing ; 19.Software
Implementation ; 19.1.Safety-Critical Software ; 19.2.Design Goals ; 19.3.Analysis
of Safety-Critical Software ; 19.4.Validation and Coverage ; 19.5.Model Implementation
; 19.6.Balancing ; 19.7.Temperature Impact on State of Charge Estimation ; 20.Safety
; 20.1.Functional Safety ; 20.2.Hazard Analysis ; 20.3.Safety Goals ; 20.4.Safety
Concepts and Strategies ; 20.5.Reference Design for Safety ; 21.Data Collection
; 21.1.Lifetime Data Gathering ; 22.Robustness and Reliability ; 22.1.Failure Mode
Analysis ; 22.2.Environmental Durability ; 22.3.Abuse Conditions ; 22.4.Reliability
Engineering ; 23.Best Practice ; 23.1.Engineering System Development ; 23.2.Industry
Standards ; 23.3.Quality ; 24.Future Developments ; 24.1.Subcell Modeling ; 24.2.Adaptive
Algorithms ; 24.3.Advanced Safety ; 24.4.System Integration.
Sujet(s) : Chargeurs de batteries
Piles au lithium
Indice(s) Dewey :
621.312 424 (23e éd.) = Piles secondaires
Identifiants, prix et caractéristiques : ISBN 978-1-60807-659-8. - ISBN 1-60807-659-8 (rel.)
Identifiant de la notice : ark:/12148/cb43673665b
Notice n° :
FRBNF43673665
(notice reprise d'un réservoir extérieur)