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Affiner la recherche Interroger des sources externesAdvanced signal processing handbook / Stergios Stergiopoulos
Titre : Advanced signal processing handbook : theory and implementation for radar, sonar, and medical imaging Real time system Type de document : texte imprimé Auteurs : Stergios Stergiopoulos, Auteur Editeur : Boca Raton; London; New York : CRC Press Année de publication : 2001 Collection : The Electrocal ana Signal Processing Series Importance : 666 p. Présentation : couv. ill. en en coul Format : 26 cm. ISBN/ISSN/EAN : 978-0-84933-691-1 Langues : Anglais (eng) Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : Advances in digital signal processing algorithms and computer technology have combined to produce real-time systems with capabilities far beyond those of just few years ago. Nonlinear, adaptive methods for signal processing have emerged to provide better array gain performance, however, they lack the robustness of conventional algorithms. The challenge remains to develop a concept that exploits the advantages of both-a scheme that integrates these methods in practical, real-time systems.
The Advanced Signal Processing Handbook helps you meet that challenge. Beyond offering an outstanding introduction to the principles and applications of advanced signal processing, it develops a generic processing structure that takes advantage of the similarities that exist among radar, sonar, and medical imaging systems and integrates conventional and nonlinear processing schemes.Note de contenu : Contents
1 Signal Processing Concept Similarities among Sonar, Radar,and Medical Imaging Systems Stergios Stergiopoulos
1.2 Overview of a Real-Time System
1.3 Signal Processor
1.4 Data Manager and Display Sub-System
SECTION I General Topics on Signal Processing
2 Adaptive Systems for Signal Process
2.1 The Filtering Problem
2.2 Adaptive Filters
2.3 Linear Filter Structures
2.4 Approaches to the Development of Linear Adaptive Filtering Algorithms
2.5 Real and Complex Forms of Adaptive Filters
2.6 Nonlinear Adaptive Systems: Neural Networks
2.7 Applications
2.8 Concluding Remarks
3 Gaussian Mixtures and Their Applications to Signal Processing
3.2 Mathematical Aspects of Gaussian Mixtures
3.3 Methodologies for Mixture Parameter Estimation
3.4 Computer Generation of Mixture Variables
3.5 Mixture Applications
3.6 Concluding Remarks
4 Matched Field Processing — A Blind System Identification Technique
4.2 Blind System Identification
4.3 Cross-Relation Matched Field Processor
4.4 Time-Frequency Matched Field Processor
4.5 Higher Order Matched Field Processors
4.6 Simulation and Experimental Examples
5 Model-Based Ocean Acoustic Signal Processing
5.2 Model-Based Processing
5.3 State-Space Ocean Acoustic Forward Propagators
5.4 Ocean Acoustic Model-Based Processing Applications
6 Advanced Beamformers Stergios Stergiopoulos
6.2 Background
6.3 Theoretical Remarks
6.4 Optimum Estimators for Array Signal Processing
6.5 Advanced Beamformers
6.6 Implementation Considerations
6.7 Concept Demonstration: Simulations and Experimental Results
7 Advanced Applications of Volume Visualization Methods in Medicine
7.1 Volume Visualization Principles
7.2 Applications to Medical Data
Appendix Principles of Image Processing: Pixel Brightness Transformations,Image Filtering and Image Restoration
8 Target Tracking
8.2 Discussion of the Problem
8.3 Statistical Models
8.4 Bayesian Track Maintenance
8.5 Suboptimal Realization
8.6 Selected Applications
9 Target Motion Analysis (TMA)
9.2 Features of the TMA Problem
9.3 Solution of the TMA Problem
SECTION II Sonar and Radar System Applications
10 Sonar Systems
10.2 Underwater Propagation
10.3 Underwater Sound Systems: Components and Processes
10.4 Signal Processing Functions
10.5 Advanced Signal Processing
10.6 Application
11 Theory and Implementation of Advanced Signal Processing for Active and Passive Sonar Systems
11.2 Theoretical Remarks
11.3 Real Results from Experimental Sonar Systems
12 Phased Array Radars Nikolaos Uzunoglu
12.2 Fundamental Theory of Phased Arrays
12.3 Analysis and Design of Phased Arrays
12.4 Array Architectures
SECTION III Medical Imaging System Applications
13 Medical Ultrasonic Imaging Systems John M. Reid
13.2 System Fundamentals
13.3 Tissue Properties’ Influence on System Design
13.4 Imaging Systems
14 Basic Principles and Applications of 3-D Ultrasound Imaging
14.2 Limitations of Ultrasonography Addressed by 3-D Imaging
14.3 Scanning Techniques for 3-D Ultrasonography
14.4 Reconstruction of the 3-D Ultrasound Images
14.5 Sources of Distortion in 3-D Ultrasound Imaging
14.6 Viewing of 3-D Ultrasound Images
14.7 3-D Ultrasound System Performance
14.8 Use of 3-D Ultrasound in Brachytherapy
14.9 Trends and Future Developments
15 Industrial Computed Tomographic Imaging
15.2 CT Theory and Fundamentals
15.3 Selected Applications
15.5 Future Work
16 Organ Motion Effects in Medical CT Imaging Applications
16.2 Motion Artifacts in CT
16.3 Reducing Motion Artifacts
16.4 Reducing Motion Artifacts by Signal Processing — A Synthetic Aperture Approach
17 Magnetic Resonance Tomography — Imaging with a Nonlinear System
17.2 Basic NMR Phenomena
17.3 Relaxation
17.4 NMR Signal
17.5 Signal-to-Noise Ratio
17.6 Image Generation and Reconstruction
17.7 Selective Excitation
17.8 Pulse Sequences
17.9 Influence of Motion
17.10 Correction of Motion During Image Series
17.11 Imaging of Flow
17.12 MR Spectroscopy
17.13 System Design Considerations and Conclusions
18 Functional Imaging of Tissues by Kinetic Modeling of Contrast Agents in MRI
18.2 Contrast Agent Kinetic Modeling
18.3 Measurement of Contrast Agent Concentration
18.4 Application of T1 Farm to Bolus Tracking
19 Medical Image Registration and Fusion Techniques: A Review
19.2 Medical Image Registration
19.3 Medical Image Fusion
20 The Role of Imaging in Radiotherapy Treatment Planning
20.2 The Role of Imaging in the External Beam Treatment Planning
20.3 Introduction to Imaging Based Brachytherapy
20.4 ConclusionAdvanced signal processing handbook : theory and implementation for radar, sonar, and medical imaging Real time system [texte imprimé] / Stergios Stergiopoulos, Auteur . - Boca Raton; London; New York : CRC Press, 2001 . - 666 p. : couv. ill. en en coul ; 26 cm.. - (The Electrocal ana Signal Processing Series) .
ISBN : 978-0-84933-691-1
Langues : Anglais (eng)
Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : Advances in digital signal processing algorithms and computer technology have combined to produce real-time systems with capabilities far beyond those of just few years ago. Nonlinear, adaptive methods for signal processing have emerged to provide better array gain performance, however, they lack the robustness of conventional algorithms. The challenge remains to develop a concept that exploits the advantages of both-a scheme that integrates these methods in practical, real-time systems.
The Advanced Signal Processing Handbook helps you meet that challenge. Beyond offering an outstanding introduction to the principles and applications of advanced signal processing, it develops a generic processing structure that takes advantage of the similarities that exist among radar, sonar, and medical imaging systems and integrates conventional and nonlinear processing schemes.Note de contenu : Contents
1 Signal Processing Concept Similarities among Sonar, Radar,and Medical Imaging Systems Stergios Stergiopoulos
1.2 Overview of a Real-Time System
1.3 Signal Processor
1.4 Data Manager and Display Sub-System
SECTION I General Topics on Signal Processing
2 Adaptive Systems for Signal Process
2.1 The Filtering Problem
2.2 Adaptive Filters
2.3 Linear Filter Structures
2.4 Approaches to the Development of Linear Adaptive Filtering Algorithms
2.5 Real and Complex Forms of Adaptive Filters
2.6 Nonlinear Adaptive Systems: Neural Networks
2.7 Applications
2.8 Concluding Remarks
3 Gaussian Mixtures and Their Applications to Signal Processing
3.2 Mathematical Aspects of Gaussian Mixtures
3.3 Methodologies for Mixture Parameter Estimation
3.4 Computer Generation of Mixture Variables
3.5 Mixture Applications
3.6 Concluding Remarks
4 Matched Field Processing — A Blind System Identification Technique
4.2 Blind System Identification
4.3 Cross-Relation Matched Field Processor
4.4 Time-Frequency Matched Field Processor
4.5 Higher Order Matched Field Processors
4.6 Simulation and Experimental Examples
5 Model-Based Ocean Acoustic Signal Processing
5.2 Model-Based Processing
5.3 State-Space Ocean Acoustic Forward Propagators
5.4 Ocean Acoustic Model-Based Processing Applications
6 Advanced Beamformers Stergios Stergiopoulos
6.2 Background
6.3 Theoretical Remarks
6.4 Optimum Estimators for Array Signal Processing
6.5 Advanced Beamformers
6.6 Implementation Considerations
6.7 Concept Demonstration: Simulations and Experimental Results
7 Advanced Applications of Volume Visualization Methods in Medicine
7.1 Volume Visualization Principles
7.2 Applications to Medical Data
Appendix Principles of Image Processing: Pixel Brightness Transformations,Image Filtering and Image Restoration
8 Target Tracking
8.2 Discussion of the Problem
8.3 Statistical Models
8.4 Bayesian Track Maintenance
8.5 Suboptimal Realization
8.6 Selected Applications
9 Target Motion Analysis (TMA)
9.2 Features of the TMA Problem
9.3 Solution of the TMA Problem
SECTION II Sonar and Radar System Applications
10 Sonar Systems
10.2 Underwater Propagation
10.3 Underwater Sound Systems: Components and Processes
10.4 Signal Processing Functions
10.5 Advanced Signal Processing
10.6 Application
11 Theory and Implementation of Advanced Signal Processing for Active and Passive Sonar Systems
11.2 Theoretical Remarks
11.3 Real Results from Experimental Sonar Systems
12 Phased Array Radars Nikolaos Uzunoglu
12.2 Fundamental Theory of Phased Arrays
12.3 Analysis and Design of Phased Arrays
12.4 Array Architectures
SECTION III Medical Imaging System Applications
13 Medical Ultrasonic Imaging Systems John M. Reid
13.2 System Fundamentals
13.3 Tissue Properties’ Influence on System Design
13.4 Imaging Systems
14 Basic Principles and Applications of 3-D Ultrasound Imaging
14.2 Limitations of Ultrasonography Addressed by 3-D Imaging
14.3 Scanning Techniques for 3-D Ultrasonography
14.4 Reconstruction of the 3-D Ultrasound Images
14.5 Sources of Distortion in 3-D Ultrasound Imaging
14.6 Viewing of 3-D Ultrasound Images
14.7 3-D Ultrasound System Performance
14.8 Use of 3-D Ultrasound in Brachytherapy
14.9 Trends and Future Developments
15 Industrial Computed Tomographic Imaging
15.2 CT Theory and Fundamentals
15.3 Selected Applications
15.5 Future Work
16 Organ Motion Effects in Medical CT Imaging Applications
16.2 Motion Artifacts in CT
16.3 Reducing Motion Artifacts
16.4 Reducing Motion Artifacts by Signal Processing — A Synthetic Aperture Approach
17 Magnetic Resonance Tomography — Imaging with a Nonlinear System
17.2 Basic NMR Phenomena
17.3 Relaxation
17.4 NMR Signal
17.5 Signal-to-Noise Ratio
17.6 Image Generation and Reconstruction
17.7 Selective Excitation
17.8 Pulse Sequences
17.9 Influence of Motion
17.10 Correction of Motion During Image Series
17.11 Imaging of Flow
17.12 MR Spectroscopy
17.13 System Design Considerations and Conclusions
18 Functional Imaging of Tissues by Kinetic Modeling of Contrast Agents in MRI
18.2 Contrast Agent Kinetic Modeling
18.3 Measurement of Contrast Agent Concentration
18.4 Application of T1 Farm to Bolus Tracking
19 Medical Image Registration and Fusion Techniques: A Review
19.2 Medical Image Registration
19.3 Medical Image Fusion
20 The Role of Imaging in Radiotherapy Treatment Planning
20.2 The Role of Imaging in the External Beam Treatment Planning
20.3 Introduction to Imaging Based Brachytherapy
20.4 ConclusionRéservation
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Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 23 00-07-08 Livre Bibliothèque de Génie Electrique- USTO Documentaires Disponible 23
Titre : Battery technology handbook Type de document : texte imprimé Auteurs : H.A. Kiehne, Auteur Mention d'édition : 2 ed. Editeur : New York; Basel : Marcel Dekker Année de publication : 2003 Collection : Electrical and coputer engineering Importance : 515 p. Présentation : couv. ill. en en coul Format : 26 cm. ISBN/ISSN/EAN : 978-0-8247-4249-2 Langues : Anglais (eng) Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : This practical reference remains the most comprehensive guide to the fundamental theories, techniques, and strategies used for battery operation and design. It includes new and revised chapters focusing on the safety, performance, quality, and enhancement of various batteries and battery systems. From automotive, electrochemical, and high-energy applications to system implementation, selection, and standardization, the Second Edition presents expert discussions on electrochemical energy storage, the advantages of battery-powered traction, the disposal and recycling of used batteries...the environmental impact of portable bettery systems...and battery system characteristics and components. Note de contenu : Contents
I. Fundamentals and Theory, Running Techniques, Applications, and Outlook: Traction Batteries, Stationary Batteries, and Charging Methods
1 Electrochemical Energy Storage
1.2 The Electrochemical Cell and the Cell Reaction
1.3 Fundamental Laws
1.4 Heat Effects
1.5 General Terms and Characteristics
1.6 Battery Parameters
1.7 General Aspects of Electrochemical Energy Storage
1.8 Fundamental Aspects of Existing Battery Systems
1.9 Final Remarks
2 Batteries for Electrically Powered Industrial Trucks
2.2 Demands of the Market
2.3 Standardized Designs
2.4 Energy/Weight and Energy/Volume Ratios
2.5 Service Life and Economy
2.6 Charging Techniques
2.7 Maintenance
3 Power Supply Concepts for Driverless Industrial Trucks
3.1 The Importance of Driverless Industrial Trucks
3.2 Load Placed on Traction Batteries by Driverless Industrial Trucks
3.3 Traction Batteries for Driverless Industrial Trucks
3.4 Optimization of Temperature
3.5 The Choice of Battery
3.6 Development of a Concept of Power Supply
3.7 Current State of Charging Technology
4 Batteries for Electric Road Vehicles
4.2 Energy and Raw Materials
4.3 Solution to the Range Problem
4.4 Battery Requirements: Contributions to Solving the Problem
4.5 Alternatives to Lead-Acid Systems
4.6 Battery Systems of the Near Future
4.7 High-Temperature Batteries and Fuel Cells
4.8 Economic Viability
4.9 Outlook
5 Battery-Powered Traction: The User’s Point of View
5.2 General Remarks
5.3 Advantages of Battery-Powered Traction
5.4 Demands on Batteries
5.5 Construction and Selection Criteria of Traction Batteries
5.6 Charging of Traction Batteries
5.7 Organization of Charge Operation
5.8 Peripheral Equipment
5.9 Quality Assurance of Batteries and Chargers
5.10 Maintenance and Upkeep
6 Safety Standards for Stationary Batteries and Battery Installations
6.2 Safety Standard DIN VDE 0510: “Accumulators and Battery Installations”
6.3 DIN VDE 0510 Part 1 (draft): “General”
6.4 DIN VDE 0510 Part 2: “Stationary Batteries and Battery Installations”
6.5 DIN VDE 0510 Part 3: “Traction Batteries for Electric Vehicles”
6.6 DIN VDE 0510 Part 5 (draft): “Batteries on Board Crafts or Vehicles”
6.7 DIN VDE 0510 Part 6: “Portable Batteries”
6.8 DIN VDE 0510 Part 4 (draft): “SLI—Starter Batteries”
6.9 International Standardization
7 Batteries for Stationary Power Supply
7.2 Stationary Batteries
7.3 Cell and Plate Design
7.4 Characteristics
7.5 Selection of Stationary Batteries
7.6 Maintenance
7.7 Pole Sealing
7.8 Delivery Design
7.9 Future Aspects
8 The Operation of Batteries
8.2 The Development of Power Supply for Telecommunications
8.3 Product Development and Products in Use
8.4 Concept of Energy Reserve
8.5 Operation Conditions
8.6 Battery Installation
8.7 Purchasing and Quality Management
8.8 Maintenance Activities in Battery Plants
8.9 Operation Experience
9 Motor Vehicle Starter Batteries
9.1 The European Market
9.2 Tasks of a Motor Vehicle Starter Battery
9.3 Construction of a Vehicle Starter Battery
9.4 Active Masses of the Electrodes
9.5 The Manufacturing Process
9.6 Dimensions and Detailed Specifications
9.7 Mounting Position in the Motor Vehicle
9.8 Electrical Properties
9.9 Standardization of Battery Characteristics
9.10 New Development Requirements
9.11 Valve-Regulated Lead-Acid Batteries
9.12 Trends and Requirements for New Board-Net Batteries
9.13 Battery Sensor for Dynamic Energy Management
10 High Energy Batteries
10.2 ZEBRA Battery (Na/NiCl2)
10.3 NaS Battery
10.4 Lithium-Ion Battery
10.5 Lithium-Polymer Battery
10.6 Other Battery Systems
10.7 Battery Overview
10.8 Fuel Cells
11 Solar Electric Power Supply with Batteries
11.2 Dimensioning a Solar Electric System
11.3 Design of Solar Electric Systems
11.4 Aspects for the Choice of the Battery
11.5 Designs of Operating Systems
11.6 Influence of Geographic Position
12 Charging Methods and Techniques: General Requirements and Selection of Chargers
12.1 The Battery’s Requirements for the Charger
12.2 Technical Data and Terms
12.3 Characteristic Curves
12.4 Employment of Charging Methods
12.5 Comparing Charging Methods for Lead Batteries
12.6 Installation Costs of Charging Devices
12.7 Guidelines for the Selection of Chargers
12.8 Special Demands and Recommendations for the Choice of Charge
13 Technical Aspects of Chargers and Current Transformers and Methods for Supervision
13.1 Application of Battery Chargers
13.2 Characteristic Voltages of Lead-Acid and NiCd Batteries
13.3 Construction and Function of Battery Chargers
13.4 Chargers for Traction Batteries and Stationary Batteries in Switch Operation
13.5 Chargers for Stationary Batteries in Parallel Operation
13.6 Surveillance and Additional Devices
13.7 Harmonic Oscillations and Reactive Power
13.8 Inverters for Ascertained Power Supply of Three-Phase Consumers
14 Standards and Regulations for Batteries and Battery Plants
14.1 Significance of Standards
14.2 National German Standards and Regulations
14.3 International Standards
14.4 Product Standards, Testing Standards, and Safety Standards
14.5 Standards for Dry Batteries (Selection)
14.6 Standards for Starter Batteries (Selection)
14.7 Standards for Traction Batteries (Selection)
14.8 Standards for Stationary Lead-Acid Batteries (Selection)
14.9 Standards for Portable Maintenance-Free, Valve-Regulated led-acid (VRLA) cells
14.10 Standards for Alkaline Accumulators (Selection)
14.11 VDE Regulations (Selection)
14.12 Other German Standards and Guidelines
14.13 Other International Standards and Committees
14.14 Significance of Standards and Regulations Regarding Manufacturer liability
II. Portable Batteries
15 Batteries, an Overview and Outlook
15.1 Terms, Definitions, and Characterizing Marks
15.2 Construction, Sizes, and Marking
15.3 The Alkaline Manganese Cell
15.4 Regeneration/Recharging
15.5 A New Generation of Batteries: Lithium Primary Batteries
15.6 Outlook
16 Feasibility Study for Appliances
16.1 Battery-Operated Appliances
16.2 Calculations to Estimate Capacity
16.3 Capacity of a Battery
16.4 The Most Important Load Profiles of Electric Appliances
16.5 Influence of Self-Discharge and Temperature
16.6 Design Requirement Study
16.7 Description of Available Portable Batteries
16.8 National and International Standardization
16.9 The Interchange-Program NiCd Cells and Primary Cells
16.10 Guidelines for Use and Maintenance
17 Maintenance-Free Lead Batteries with Immobilized Electrolyte
17.2 Fundamentals
17.3 Construction
17.4 Systems and Properties
17.5 Electrical Properties
17.6 Battery Types and Applications
17.7 Standards
18 Lithium Batteries: The Latest Variant of Portable Electrical Energy
18.2 The Name “Lithium Battery”
18.3 The Lithium Battery’s Special Advantages
18.4 Chemistry and Physics of Lithium Primary Batteries
18.5 Designs and Technology of Primary Lithium Batteries
18.6 Examples of Lithium Primary Battery Systems
18.7 Secondary Lithium Batteries
18.8 Disposal of Lithium Batteries
19 The Disposal of Portable Batteries
19.1 Portable Battery Systems and Their Relevance to the Environment
19.2 Recycling Procedures and Level of Recycling
19.3 The German Battery Decree
19.4 The Manufacturers’ Common Collection System
20 History
20.1 Early Beginnings
20.2 Primary and Secondary Cells
20.3 Fuel Cells and High Temperature Cells
ReferencesBattery technology handbook [texte imprimé] / H.A. Kiehne, Auteur . - 2 ed. . - New York; Basel : Marcel Dekker, 2003 . - 515 p. : couv. ill. en en coul ; 26 cm.. - (Electrical and coputer engineering) .
ISBN : 978-0-8247-4249-2
Langues : Anglais (eng)
Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : This practical reference remains the most comprehensive guide to the fundamental theories, techniques, and strategies used for battery operation and design. It includes new and revised chapters focusing on the safety, performance, quality, and enhancement of various batteries and battery systems. From automotive, electrochemical, and high-energy applications to system implementation, selection, and standardization, the Second Edition presents expert discussions on electrochemical energy storage, the advantages of battery-powered traction, the disposal and recycling of used batteries...the environmental impact of portable bettery systems...and battery system characteristics and components. Note de contenu : Contents
I. Fundamentals and Theory, Running Techniques, Applications, and Outlook: Traction Batteries, Stationary Batteries, and Charging Methods
1 Electrochemical Energy Storage
1.2 The Electrochemical Cell and the Cell Reaction
1.3 Fundamental Laws
1.4 Heat Effects
1.5 General Terms and Characteristics
1.6 Battery Parameters
1.7 General Aspects of Electrochemical Energy Storage
1.8 Fundamental Aspects of Existing Battery Systems
1.9 Final Remarks
2 Batteries for Electrically Powered Industrial Trucks
2.2 Demands of the Market
2.3 Standardized Designs
2.4 Energy/Weight and Energy/Volume Ratios
2.5 Service Life and Economy
2.6 Charging Techniques
2.7 Maintenance
3 Power Supply Concepts for Driverless Industrial Trucks
3.1 The Importance of Driverless Industrial Trucks
3.2 Load Placed on Traction Batteries by Driverless Industrial Trucks
3.3 Traction Batteries for Driverless Industrial Trucks
3.4 Optimization of Temperature
3.5 The Choice of Battery
3.6 Development of a Concept of Power Supply
3.7 Current State of Charging Technology
4 Batteries for Electric Road Vehicles
4.2 Energy and Raw Materials
4.3 Solution to the Range Problem
4.4 Battery Requirements: Contributions to Solving the Problem
4.5 Alternatives to Lead-Acid Systems
4.6 Battery Systems of the Near Future
4.7 High-Temperature Batteries and Fuel Cells
4.8 Economic Viability
4.9 Outlook
5 Battery-Powered Traction: The User’s Point of View
5.2 General Remarks
5.3 Advantages of Battery-Powered Traction
5.4 Demands on Batteries
5.5 Construction and Selection Criteria of Traction Batteries
5.6 Charging of Traction Batteries
5.7 Organization of Charge Operation
5.8 Peripheral Equipment
5.9 Quality Assurance of Batteries and Chargers
5.10 Maintenance and Upkeep
6 Safety Standards for Stationary Batteries and Battery Installations
6.2 Safety Standard DIN VDE 0510: “Accumulators and Battery Installations”
6.3 DIN VDE 0510 Part 1 (draft): “General”
6.4 DIN VDE 0510 Part 2: “Stationary Batteries and Battery Installations”
6.5 DIN VDE 0510 Part 3: “Traction Batteries for Electric Vehicles”
6.6 DIN VDE 0510 Part 5 (draft): “Batteries on Board Crafts or Vehicles”
6.7 DIN VDE 0510 Part 6: “Portable Batteries”
6.8 DIN VDE 0510 Part 4 (draft): “SLI—Starter Batteries”
6.9 International Standardization
7 Batteries for Stationary Power Supply
7.2 Stationary Batteries
7.3 Cell and Plate Design
7.4 Characteristics
7.5 Selection of Stationary Batteries
7.6 Maintenance
7.7 Pole Sealing
7.8 Delivery Design
7.9 Future Aspects
8 The Operation of Batteries
8.2 The Development of Power Supply for Telecommunications
8.3 Product Development and Products in Use
8.4 Concept of Energy Reserve
8.5 Operation Conditions
8.6 Battery Installation
8.7 Purchasing and Quality Management
8.8 Maintenance Activities in Battery Plants
8.9 Operation Experience
9 Motor Vehicle Starter Batteries
9.1 The European Market
9.2 Tasks of a Motor Vehicle Starter Battery
9.3 Construction of a Vehicle Starter Battery
9.4 Active Masses of the Electrodes
9.5 The Manufacturing Process
9.6 Dimensions and Detailed Specifications
9.7 Mounting Position in the Motor Vehicle
9.8 Electrical Properties
9.9 Standardization of Battery Characteristics
9.10 New Development Requirements
9.11 Valve-Regulated Lead-Acid Batteries
9.12 Trends and Requirements for New Board-Net Batteries
9.13 Battery Sensor for Dynamic Energy Management
10 High Energy Batteries
10.2 ZEBRA Battery (Na/NiCl2)
10.3 NaS Battery
10.4 Lithium-Ion Battery
10.5 Lithium-Polymer Battery
10.6 Other Battery Systems
10.7 Battery Overview
10.8 Fuel Cells
11 Solar Electric Power Supply with Batteries
11.2 Dimensioning a Solar Electric System
11.3 Design of Solar Electric Systems
11.4 Aspects for the Choice of the Battery
11.5 Designs of Operating Systems
11.6 Influence of Geographic Position
12 Charging Methods and Techniques: General Requirements and Selection of Chargers
12.1 The Battery’s Requirements for the Charger
12.2 Technical Data and Terms
12.3 Characteristic Curves
12.4 Employment of Charging Methods
12.5 Comparing Charging Methods for Lead Batteries
12.6 Installation Costs of Charging Devices
12.7 Guidelines for the Selection of Chargers
12.8 Special Demands and Recommendations for the Choice of Charge
13 Technical Aspects of Chargers and Current Transformers and Methods for Supervision
13.1 Application of Battery Chargers
13.2 Characteristic Voltages of Lead-Acid and NiCd Batteries
13.3 Construction and Function of Battery Chargers
13.4 Chargers for Traction Batteries and Stationary Batteries in Switch Operation
13.5 Chargers for Stationary Batteries in Parallel Operation
13.6 Surveillance and Additional Devices
13.7 Harmonic Oscillations and Reactive Power
13.8 Inverters for Ascertained Power Supply of Three-Phase Consumers
14 Standards and Regulations for Batteries and Battery Plants
14.1 Significance of Standards
14.2 National German Standards and Regulations
14.3 International Standards
14.4 Product Standards, Testing Standards, and Safety Standards
14.5 Standards for Dry Batteries (Selection)
14.6 Standards for Starter Batteries (Selection)
14.7 Standards for Traction Batteries (Selection)
14.8 Standards for Stationary Lead-Acid Batteries (Selection)
14.9 Standards for Portable Maintenance-Free, Valve-Regulated led-acid (VRLA) cells
14.10 Standards for Alkaline Accumulators (Selection)
14.11 VDE Regulations (Selection)
14.12 Other German Standards and Guidelines
14.13 Other International Standards and Committees
14.14 Significance of Standards and Regulations Regarding Manufacturer liability
II. Portable Batteries
15 Batteries, an Overview and Outlook
15.1 Terms, Definitions, and Characterizing Marks
15.2 Construction, Sizes, and Marking
15.3 The Alkaline Manganese Cell
15.4 Regeneration/Recharging
15.5 A New Generation of Batteries: Lithium Primary Batteries
15.6 Outlook
16 Feasibility Study for Appliances
16.1 Battery-Operated Appliances
16.2 Calculations to Estimate Capacity
16.3 Capacity of a Battery
16.4 The Most Important Load Profiles of Electric Appliances
16.5 Influence of Self-Discharge and Temperature
16.6 Design Requirement Study
16.7 Description of Available Portable Batteries
16.8 National and International Standardization
16.9 The Interchange-Program NiCd Cells and Primary Cells
16.10 Guidelines for Use and Maintenance
17 Maintenance-Free Lead Batteries with Immobilized Electrolyte
17.2 Fundamentals
17.3 Construction
17.4 Systems and Properties
17.5 Electrical Properties
17.6 Battery Types and Applications
17.7 Standards
18 Lithium Batteries: The Latest Variant of Portable Electrical Energy
18.2 The Name “Lithium Battery”
18.3 The Lithium Battery’s Special Advantages
18.4 Chemistry and Physics of Lithium Primary Batteries
18.5 Designs and Technology of Primary Lithium Batteries
18.6 Examples of Lithium Primary Battery Systems
18.7 Secondary Lithium Batteries
18.8 Disposal of Lithium Batteries
19 The Disposal of Portable Batteries
19.1 Portable Battery Systems and Their Relevance to the Environment
19.2 Recycling Procedures and Level of Recycling
19.3 The German Battery Decree
19.4 The Manufacturers’ Common Collection System
20 History
20.1 Early Beginnings
20.2 Primary and Secondary Cells
20.3 Fuel Cells and High Temperature Cells
ReferencesExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 937 00-07-21 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 937
Titre : Electrical Installations Handbook : Power Supply and Distribution, Protective Measures, Electromagnetic Compatibility, Electrical Installation Equipment and Systems, Application Examples for Electrical Installation Systems, Building Management Type de document : texte imprimé Auteurs : Günter G. Seip, Auteur Mention d'édition : 3rd. ed. Editeur : Germany : Publicis MCD Verlag Année de publication : 2000 Importance : 728 p. Présentation : couv. ill. en coul., ill. Format : 24,9 cm. ISBN/ISSN/EAN : 978-3-89578-061-5 Langues : Anglais (eng) Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : The Third Edition of this classic reference is designed to provide authoritative guidance for engineers and technicians who have responsibility for planning, designing, building and operating electrical installation systems.
The extensively revised scope includes a comprehensive overview of conventional and state-of-the-art installation equipment and its current usage. Special emphasis is placed on equipment with communication capability and the way in which this equipment is networked to the instabus EIB? bus system for a wide range of applications in residential and commercial buildings. The construction, dimensioning and protection of electrical distribution systems are treated taking into account the latest developments in systems engineering.
In view of the electricity market deregulation and globalization and the associated standardization initiatives that are underway, reference has been made, where appropriate, to international, European and German norms, regulations and standards.
This single volume edition is extensively illustrated throughout and includes a broad range of example applications of electrical installation systems.Note de contenu : Contents
1 Power Supply and distribution
2 Protective measures
3 Electromagnetic compatibility (EMC)
4 Electrical installation equipment and systems
5 Application examples of electrical installation engineering
6 Building management system
7 Appendix
-IndexElectrical Installations Handbook : Power Supply and Distribution, Protective Measures, Electromagnetic Compatibility, Electrical Installation Equipment and Systems, Application Examples for Electrical Installation Systems, Building Management [texte imprimé] / Günter G. Seip, Auteur . - 3rd. ed. . - Germany : Publicis MCD Verlag, 2000 . - 728 p. : couv. ill. en coul., ill. ; 24,9 cm.
ISBN : 978-3-89578-061-5
Langues : Anglais (eng)
Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : The Third Edition of this classic reference is designed to provide authoritative guidance for engineers and technicians who have responsibility for planning, designing, building and operating electrical installation systems.
The extensively revised scope includes a comprehensive overview of conventional and state-of-the-art installation equipment and its current usage. Special emphasis is placed on equipment with communication capability and the way in which this equipment is networked to the instabus EIB? bus system for a wide range of applications in residential and commercial buildings. The construction, dimensioning and protection of electrical distribution systems are treated taking into account the latest developments in systems engineering.
In view of the electricity market deregulation and globalization and the associated standardization initiatives that are underway, reference has been made, where appropriate, to international, European and German norms, regulations and standards.
This single volume edition is extensively illustrated throughout and includes a broad range of example applications of electrical installation systems.Note de contenu : Contents
1 Power Supply and distribution
2 Protective measures
3 Electromagnetic compatibility (EMC)
4 Electrical installation equipment and systems
5 Application examples of electrical installation engineering
6 Building management system
7 Appendix
-IndexExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 56 00-07-10 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 56
Titre : Emi/emc computational modeling handbook Type de document : texte imprimé Auteurs : Bruce Archambeault, Auteur ; Colin Brench, Auteur ; Omar M. Ramahi, Auteur Mention d'édition : 2nd. ed. Editeur : Boston : Kluwer Academic Publishers Année de publication : 2001 Collection : The kluwer International Series in Engineering and Computer Science Importance : 315 p. Présentation : couv. ill.,ill. Format : 24 cm. ISBN/ISSN/EAN : 978-0-7923-7462-6 Langues : Anglais (eng) Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : The application of computational electromagnetics to real-world EMI/EMC engineering is an emerging technology. With the advancement in electronics, EMI/EMC issues have greatly increased in complexity. As a result, it is no longer possible to rely exclusively on traditional techniques and expect cost-effective solutions. The first edition of this book introduced computational electromagnetics to EMI/EMC engineering. This second edition continues the introduction of computational electromagnetics to EMI/EMC engineering, but also adds new modeling techniques, namely the Partial Element Equivalent Circuit method and the Transmission Line Matrix method, and updates to the science of EMI/EMC modeling that have occurred since the first edition was published.
This book combines the essential elements of electromagnetic theory, computational techniques, and EMI/EMC engineering as they apply to computational modeling for EMI/EMC applications. It is intended to provide an understanding for those interested in incorporating modeling techniques in their work. A variety of modeling techniques are needed for anyone interested in using computational modeling in the real world. This book includes an introduction of all the popular modeling techniques, such as the Finite-Difference Time-Domain method, the Method of Moments, the Finite Element Method, the Partial Element Equivalent Circuit method and the Transmission Line Matrix method.
EMI/EMC Computational Modeling Handbook, Second Edition will serve many different levels of readers. It will serve as a basic introduction to modeling as applied to EMI/EMC problems for the engineer interested in getting started, and it will help the person already using modeling as a tool to become more effective in using different modeling techniques. It will also be useful for the engineer who is familiar with computational techniques and wishes to apply them to EMI/EMC applications. This book can also be used as a text to help students of electromagnetic theory and application better understand real-world challenges facing engineers.Note de contenu : Contents
1 Introduction.
- 2 Electromagnetic Theory and Modeling.
- 3 The Finite-Difference Time-Domain Method.
- 4 Method of Moments.
- 5 The Finite Element Method.
- 6 Preparation for Modeling.
- 7 Creating EMI/EMC Models.
- 8 Special Topics in EMI/EMC Modeling.
- 9 Model Validation.
- 10 Standard EMI/EMC Problems for Software Evaluation.
- 11 Advanced Modeling Techniques
- IndexEmi/emc computational modeling handbook [texte imprimé] / Bruce Archambeault, Auteur ; Colin Brench, Auteur ; Omar M. Ramahi, Auteur . - 2nd. ed. . - Boston : Kluwer Academic Publishers, 2001 . - 315 p. : couv. ill.,ill. ; 24 cm.. - (The kluwer International Series in Engineering and Computer Science) .
ISBN : 978-0-7923-7462-6
Langues : Anglais (eng)
Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : The application of computational electromagnetics to real-world EMI/EMC engineering is an emerging technology. With the advancement in electronics, EMI/EMC issues have greatly increased in complexity. As a result, it is no longer possible to rely exclusively on traditional techniques and expect cost-effective solutions. The first edition of this book introduced computational electromagnetics to EMI/EMC engineering. This second edition continues the introduction of computational electromagnetics to EMI/EMC engineering, but also adds new modeling techniques, namely the Partial Element Equivalent Circuit method and the Transmission Line Matrix method, and updates to the science of EMI/EMC modeling that have occurred since the first edition was published.
This book combines the essential elements of electromagnetic theory, computational techniques, and EMI/EMC engineering as they apply to computational modeling for EMI/EMC applications. It is intended to provide an understanding for those interested in incorporating modeling techniques in their work. A variety of modeling techniques are needed for anyone interested in using computational modeling in the real world. This book includes an introduction of all the popular modeling techniques, such as the Finite-Difference Time-Domain method, the Method of Moments, the Finite Element Method, the Partial Element Equivalent Circuit method and the Transmission Line Matrix method.
EMI/EMC Computational Modeling Handbook, Second Edition will serve many different levels of readers. It will serve as a basic introduction to modeling as applied to EMI/EMC problems for the engineer interested in getting started, and it will help the person already using modeling as a tool to become more effective in using different modeling techniques. It will also be useful for the engineer who is familiar with computational techniques and wishes to apply them to EMI/EMC applications. This book can also be used as a text to help students of electromagnetic theory and application better understand real-world challenges facing engineers.Note de contenu : Contents
1 Introduction.
- 2 Electromagnetic Theory and Modeling.
- 3 The Finite-Difference Time-Domain Method.
- 4 Method of Moments.
- 5 The Finite Element Method.
- 6 Preparation for Modeling.
- 7 Creating EMI/EMC Models.
- 8 Special Topics in EMI/EMC Modeling.
- 9 Model Validation.
- 10 Standard EMI/EMC Problems for Software Evaluation.
- 11 Advanced Modeling Techniques
- IndexExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 595 00-07-18 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 595
Titre : Guide des circuits integrés : lineaire TTL CMOS, brochages et caracteristiques Type de document : texte imprimé Auteurs : Collectif, Auteur Mention d'édition : 3 ème. ed. Editeur : Paris : Publitronic-Elektor Année de publication : 1986 Importance : 240 p. Présentation : couv. ill. en en coul Format : 21 cm. ISBN/ISSN/EAN : 978-2-86661-021-0 Langues : Français (fre) Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : Une bibliothèque de recueils de caractéristiques (data sheet books) comporte, lorsqu'elle est bien fournie, des dizaines, voire des centaines de volumes que leur prix met hors de portée de la bourse d'un amateur. Mais comment fera-t-il pour se remettre en mémoire la fonction de telle broche d'un régulateur de tension du type 723? Où vérifiera-t-il la tension d'alimentation d'un ampli audio du type TDA 2020? Ou encore la tension maximale sur la sortie en collecteur ouvert d'un inverseur TTL du type 7406? Et l'abaque pour le réseau RC d'un multivibrateur monostable CMOS du type 4538? Désormais, pour répondre à ces questions-là et bien d'autres encore, il suffira de feuilleter le GUIDE DES CIRCUITS INTEGRES préparé par l'équipe de rédaction d'Elektor. 62 circuits intégrés linéaires, 131 circuits intégrés TTL et 76 circuits intégrés CMOS y sont décrits par le menu; certains d'entre eux sont donnés avec l'un ou l'autre schéma d'application, et les familles TTL et CMOS sont introduites par une description des caractéristiques communes, assortie de conseils d'utilisation et de remarques sur les cas d'espèce. Après le multimètre, le fer à souder et l'oscilloscope, ce Recueil de caractéristiques de circuits intégrés figure en bonne place sur la liste des outils indispensables sur l'établi de l'électronicien. Note de contenu : Table des matières
Circuits intégrés linéaires
Circuits intégrés TTL
Circuits intégrés CMOSGuide des circuits integrés : lineaire TTL CMOS, brochages et caracteristiques [texte imprimé] / Collectif, Auteur . - 3 ème. ed. . - Paris : Publitronic-Elektor, 1986 . - 240 p. : couv. ill. en en coul ; 21 cm.
ISBN : 978-2-86661-021-0
Langues : Français (fre)
Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : Une bibliothèque de recueils de caractéristiques (data sheet books) comporte, lorsqu'elle est bien fournie, des dizaines, voire des centaines de volumes que leur prix met hors de portée de la bourse d'un amateur. Mais comment fera-t-il pour se remettre en mémoire la fonction de telle broche d'un régulateur de tension du type 723? Où vérifiera-t-il la tension d'alimentation d'un ampli audio du type TDA 2020? Ou encore la tension maximale sur la sortie en collecteur ouvert d'un inverseur TTL du type 7406? Et l'abaque pour le réseau RC d'un multivibrateur monostable CMOS du type 4538? Désormais, pour répondre à ces questions-là et bien d'autres encore, il suffira de feuilleter le GUIDE DES CIRCUITS INTEGRES préparé par l'équipe de rédaction d'Elektor. 62 circuits intégrés linéaires, 131 circuits intégrés TTL et 76 circuits intégrés CMOS y sont décrits par le menu; certains d'entre eux sont donnés avec l'un ou l'autre schéma d'application, et les familles TTL et CMOS sont introduites par une description des caractéristiques communes, assortie de conseils d'utilisation et de remarques sur les cas d'espèce. Après le multimètre, le fer à souder et l'oscilloscope, ce Recueil de caractéristiques de circuits intégrés figure en bonne place sur la liste des outils indispensables sur l'établi de l'électronicien. Note de contenu : Table des matières
Circuits intégrés linéaires
Circuits intégrés TTL
Circuits intégrés CMOSExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 368 00-07-07 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 368
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