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Détail de l'éditeur
Éditeur McGraw Hill
localisé à Boston, Massachusetts, New York
Documents disponibles chez cet éditeur
Affiner la recherche Interroger des sources externesEMI Troubleshooting Techniques / Michel Mardiguian
Titre : EMI Troubleshooting Techniques Type de document : texte imprimé Auteurs : Michel Mardiguian, Auteur Editeur : Boston, Massachusetts, New York : McGraw Hill Importance : 301 p. Présentation : couv. ill. en coul., ill. Format : 23,3 cm. ISBN/ISSN/EAN : 978-0-07-134418-0 Langues : Anglais (eng) Catégories : ELECTROTECHNIQUE Index. décimale : 10-06 Electromagnétisme Résumé : The EMI/RFI problems stop here. When you've got an electrical "noise" or interference problem this reference is all you need to diagnose and solve it in a hurry. EMI Troubleshooting Techniques presents an orderly, methodical approach to locating the cause of and correcting EMI/RFI breakdowns. It gives you hands-on, optimal solutions whether your task is design, lab testing, or on-site troubleshooting, no matter what type of electronic equipment you're handling. Written by veteran EMC designer/troubleshooter Michel Mardiguian, this efficiency-boosting guide is just what you're looking for in a practical solutions kit--and more. It offers: a solution matrix that helps you pinpoint the right fix quickly; a walk-through chart that simplifies the troubleshooting process; EMI-reduction components categorized by indications, applications, and limitations; practical alternatives to lab testing methods; consideration of real-life issues such as costs, time constraints, and accessibility; solutions for most electronic environments. Whether the EMI in a car's automatic-locking mechanism, a medical diagnostic tool, or a computer motherboard, and whether you're developing, prototyping, testing, diagnosing, or applying fixes, there's only one EMI reduction kit virtually guaranteed to help you avoid dead ends and wasted time: EMI Troubleshooting Techniques. Note de contenu : Table of Contents
Chapter 1 Introduction: Brush-Up on EMI/EMC Basics.
Chapter 2 Optimal Selection of EMI Fixes.
Chapter 3 Diagnostic and Troubleshooting techniques, and instrumentation
Chapter 4 Conduction Type Fixes
Chapter 5 Capacitive type of EMC solutions
Chapter 6 Inductive series-loss EMC solutions
Chapter 7 Power Line Filters.
Chapter 8 Power Line Isolation Transformers, power Conditioners, and uninterruptible power sppliesUPS.
Chapter 9 Signal Line Isolation Transformers.
Chapter 10 Transient Suppressors.
Chapter 10 Bonding, Ground continuity and RF Impedance Reduction
Chapter 12 Radiation-type Fixes.
Chapter 13 EMI problems during EMC tests: pradtical hints
-APPENDIXESEMI Troubleshooting Techniques [texte imprimé] / Michel Mardiguian, Auteur . - Boston, Massachusetts, New York : McGraw Hill, [s.d.] . - 301 p. : couv. ill. en coul., ill. ; 23,3 cm.
ISBN : 978-0-07-134418-0
Langues : Anglais (eng)
Catégories : ELECTROTECHNIQUE Index. décimale : 10-06 Electromagnétisme Résumé : The EMI/RFI problems stop here. When you've got an electrical "noise" or interference problem this reference is all you need to diagnose and solve it in a hurry. EMI Troubleshooting Techniques presents an orderly, methodical approach to locating the cause of and correcting EMI/RFI breakdowns. It gives you hands-on, optimal solutions whether your task is design, lab testing, or on-site troubleshooting, no matter what type of electronic equipment you're handling. Written by veteran EMC designer/troubleshooter Michel Mardiguian, this efficiency-boosting guide is just what you're looking for in a practical solutions kit--and more. It offers: a solution matrix that helps you pinpoint the right fix quickly; a walk-through chart that simplifies the troubleshooting process; EMI-reduction components categorized by indications, applications, and limitations; practical alternatives to lab testing methods; consideration of real-life issues such as costs, time constraints, and accessibility; solutions for most electronic environments. Whether the EMI in a car's automatic-locking mechanism, a medical diagnostic tool, or a computer motherboard, and whether you're developing, prototyping, testing, diagnosing, or applying fixes, there's only one EMI reduction kit virtually guaranteed to help you avoid dead ends and wasted time: EMI Troubleshooting Techniques. Note de contenu : Table of Contents
Chapter 1 Introduction: Brush-Up on EMI/EMC Basics.
Chapter 2 Optimal Selection of EMI Fixes.
Chapter 3 Diagnostic and Troubleshooting techniques, and instrumentation
Chapter 4 Conduction Type Fixes
Chapter 5 Capacitive type of EMC solutions
Chapter 6 Inductive series-loss EMC solutions
Chapter 7 Power Line Filters.
Chapter 8 Power Line Isolation Transformers, power Conditioners, and uninterruptible power sppliesUPS.
Chapter 9 Signal Line Isolation Transformers.
Chapter 10 Transient Suppressors.
Chapter 10 Bonding, Ground continuity and RF Impedance Reduction
Chapter 12 Radiation-type Fixes.
Chapter 13 EMI problems during EMC tests: pradtical hints
-APPENDIXESExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 30 10-06-04 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 30
Titre : Handbook of Transformer Design and Applications Type de document : texte imprimé Auteurs : William M. Flanagan, Auteur Mention d'édition : 2nd. ed. Editeur : Boston, Massachusetts, New York : McGraw Hill Année de publication : 1993 Importance : 496 p. Présentation : couv. ill. en coul., ill. Format : 23,4 cm. ISBN/ISSN/EAN : 978-0-07-021291-6 Langues : Anglais (eng) Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : Covering the spectrum of transformer technology, Flanagan's Handbook has become the essential resource for electrical engineers, magnetic component designers, and technicians.
Throughly revised and updated, the second edition reflects dramatic technological advances. A new chapter examines the many ways
computers have revolutionized transformer design and analysis and analysis and looks at a variety of computer applications . Novel applications of transformers to power conversion processes are scrutinized, and the section on inverter transformers has been enlarged to reflect major developments in power supplies.
Additional contents include: a review of magnetic devices; circuit analysis and equivalent circuits; a step-by-step procedure for designing a core and coil to meet specific circuit parameters; circuits performance of power, audio, wideband, and pulse transformers; ferromagnetic materials; mechanical considerations and manufacturing processes; heat and insulation; multiple-phase and rectifier transformers; static magnetic devices other than transformers and quality control.
Emphasis is placed on optimum results at minimum cost. Numerous examples and 200 illustrations-including schematics, graphs and data tables-clarify key concepts.Note de contenu : Contents
Chapter 1 : Magnetic and Electric Fundamentals
Chapter 2 : Circuit Analysis
Chapter 3 : Circuit Performance of Power Transformers
Chapter 4 : Circuit Performance of Audio and Wideband Transformers
Chapter 5 : Circuit Performance of Pulse Transformers
Chapter 6 : The Use of Ferromagnetic Materials in Transformers
Chapter 7 : Mechanical Considerations
Chapter 8 : Insulation Systems
Chapter 9 : Thermal Considerations
Chapter 10 : Design Procedures
Chapter 11 : Multiple-Phase Transformers
Chapter 12 : Rectifier Transformers
Chapter 13 : Inverter Transformers
Chapter 14 : Static Magnetic Devices Other Than Transformers
Chapter 15 : Magnetic Device Economics
Chapter 16 : Procurement Practice
Chapter 17 : Magnetic Device Specifications and Quality Assurance
Chapter 18 : Computer Applications
-IndexHandbook of Transformer Design and Applications [texte imprimé] / William M. Flanagan, Auteur . - 2nd. ed. . - Boston, Massachusetts, New York : McGraw Hill, 1993 . - 496 p. : couv. ill. en coul., ill. ; 23,4 cm.
ISBN : 978-0-07-021291-6
Langues : Anglais (eng)
Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : Covering the spectrum of transformer technology, Flanagan's Handbook has become the essential resource for electrical engineers, magnetic component designers, and technicians.
Throughly revised and updated, the second edition reflects dramatic technological advances. A new chapter examines the many ways
computers have revolutionized transformer design and analysis and analysis and looks at a variety of computer applications . Novel applications of transformers to power conversion processes are scrutinized, and the section on inverter transformers has been enlarged to reflect major developments in power supplies.
Additional contents include: a review of magnetic devices; circuit analysis and equivalent circuits; a step-by-step procedure for designing a core and coil to meet specific circuit parameters; circuits performance of power, audio, wideband, and pulse transformers; ferromagnetic materials; mechanical considerations and manufacturing processes; heat and insulation; multiple-phase and rectifier transformers; static magnetic devices other than transformers and quality control.
Emphasis is placed on optimum results at minimum cost. Numerous examples and 200 illustrations-including schematics, graphs and data tables-clarify key concepts.Note de contenu : Contents
Chapter 1 : Magnetic and Electric Fundamentals
Chapter 2 : Circuit Analysis
Chapter 3 : Circuit Performance of Power Transformers
Chapter 4 : Circuit Performance of Audio and Wideband Transformers
Chapter 5 : Circuit Performance of Pulse Transformers
Chapter 6 : The Use of Ferromagnetic Materials in Transformers
Chapter 7 : Mechanical Considerations
Chapter 8 : Insulation Systems
Chapter 9 : Thermal Considerations
Chapter 10 : Design Procedures
Chapter 11 : Multiple-Phase Transformers
Chapter 12 : Rectifier Transformers
Chapter 13 : Inverter Transformers
Chapter 14 : Static Magnetic Devices Other Than Transformers
Chapter 15 : Magnetic Device Economics
Chapter 16 : Procurement Practice
Chapter 17 : Magnetic Device Specifications and Quality Assurance
Chapter 18 : Computer Applications
-IndexExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 149 00-07-13 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 149
Titre : Switchmode Power Supply Handbook Type de document : texte imprimé Auteurs : Keith H. Billings, Auteur Mention d'édition : 2nd. ed. Editeur : Boston, Massachusetts, New York : McGraw Hill Année de publication : 1999 Importance : 450 p. Présentation : couv. ill. en coul., ill. Format : 23,1 cm. ISBN/ISSN/EAN : 978-0-07-006719-6 Langues : Anglais (eng) Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : Unarguably the leading hands-on guide in this rapidly expanding area of electronics, Keith Billings' new revision of his Switchmode Power Supply Handbook brings state-of-the-art techniques and developments to engineers at all levels. Offering sound working knowledge of the latest in topologies and clear, step-by-step approaches to component decisions, this Handbook gives power supply designers practical, solutions-oriented design guidance free of unnecessarily complicated mathematical derivations and theory. This thoroughly updated Handbook features many new fully worked examples, as well as numerous nomograms--everything you need to design today's smaller, faster, and cooler systems. Turn to just about any page, and you'll find cutting-edge design expertise on electronic ballast, power factor correction, new thermal management techniques, transformers, chokes, input filters, EMI control, converters, snubber circuits, auxiliary systems, and much more. The most comprehensive book on power supply design available anywhere, Switchmode Power Supply Handbook is the industry standard, now fully updated for the 21st century. Note de contenu : Contents
PART 1: FUNCTIONS AND REQUIREMENTS COMMON TO MOST DIRECT-OFF-LINE SWITCHMODE POWER SUPPLIES
Chapter 1: COMMON REQUIREMENTS: AN OVERVIEW
Chapter 2: AC POWERLINE SURGE PROTECTION
Chapter 3: ELECTROMAGNETIC INTERFERENCE (EMI) IN SWITCHMODE POWER SUPPLIES
Chapter 4: FARADAY SCREENS
Chapter 5: FUSE SELECTION
Chapter 6: LINE RECTIFICATION AND CAPACITOR INPUT FILTERS FOR DIRECT-OFF-LINE SWITCHMODE POWER SUPPLIES
Chapter 7: INRUSH CONTROL
Chapter 8: START-UP METHODS
Chapter 9: SOFT START AND LOW-VOLTAGE INHIBIT
Chapter 10: TURN-ON VOLTAGE OVERSHOOT PREVENTION
Chapter 11: OVERVOLTAGE PROTECTION
Chapter 12: UNDERVOLTAGE PROTECTION
Chapter 13: OVERLOAD PROTECTION
Chapter 14: FOLDBACK (REENTRANT) OUTPUT CURRENT LIMITING
Chapter 15: BASE DRIVE REQUIREMENTS FOR HIGH-VOLTAGE BIPOLAR TRANSISTORS
Chapter 16: PROPORTIONAL DRIVE CIRCUITS FOR BIPOLAR TRANSISTORS
Chapter 17: ANTISATURATION TECHNIQUES FOR HIGH-VOLTAGE TRANSISTORS
Chapter 18: SNUBBER NETWORKS
Chapter 19: CROSS CONDUCTION
Chapter 20: OUTPUT FILTERS
Chapter 21: POWER FAILURE WARNING CIRCUITS
Chapter 22: CENTERING (ADJUSTMENT TO CENTER) OF AUXILIARY OUTPUT VOLTAGES ON MULTIPLE-OUTPUT CONVERTERS
Chapter 23: AUXILIARY SUPPLY SYSTEMS
Chapter 24: PARALLEL OPERATION OF VOLTAGE-STABILIZED POWER SUPPLIES
PART 2: DESIGN: THEORY AND PRACTICE
Chapter 1: MULTIPLE-OUTPUT FLYBACK SWITCHMODE POWER SUPPLIES
Chapter 2: FLYBACK TRANSFORMER DESIGN
Chapter 3: REDUCING TRANSISTOR SWITCHING STRESS
Chapter 4: SELECTING POWER COMPONENTS FOR FLYBACK CONVERTERS
Chapter 5: THE DIAGONAL HALF-BRIDGE FLYBACK CONVERTER
Chapter 6: SELF-OSCILLATING DIRECT-OFF-LINE FLYBACK CONVERTERS
Chapter 7: APPLYING CURRENT-MODE CONTROL TO FLYBACK CONVERTERS
Chapter 8: DIRECT-OFF-LINE SINGLE-ENDED FORWARD CONVERTERS
Chapter 9: TRANSFORMER DESIGN FOR FORWARD CONVERTERS
Chapter 10: DIAGONAL HALF-BRIDGE FORWARD CONVERTERS
Chapter 11: TRANSFORMER DESIGN FOR DIAGONAL HALF-BRIDGE FORWARD CONVERTERS
Chapter 12: HALF-BRIDGE PUSH-PULL DUTY-RATIO-CONTROLLED CONVERTERS
Chapter 13: BRIDGE CONVERTERS
Chapter 14: LOW-POWER SELF-OSCILLATING AUXILIARY CONVERTERS
Chapter 15: SINGLE-TRANSFORMER TWO-TRANSISTOR SELF-OSCILLATING CONVERTERS
Chapter 16: TWO-TRANSFORMER SELF-OSCILLATING CONVERTERS
Chapter 17: THE DC-TO-DC TRANSFORMER CONCEPT
Chapter 18: MULTIPLE-OUTPUT COMPOUND REGULATING SYSTEMS
Chapter 19: DUTY-RATIO-CONTROLLED PUSH-PULL CONVERTERS
Chapter 20: DC-TO-DC SWITCHING REGULATORS
Chapter 45: HIGH-FREQUENCY SATURABLE REACTOR POWER REGULATOR (MAGNETIC DUTY RATIO CONTROL)
Chapter 22: CONSTANT-CURRENT POWER SUPPLIES
Chapter 23: VARIABLE LINEAR POWER SUPPLIES
Chapter 24: SWITCHMODE VARIABLE POWER SUPPLIES
Chapter 25: SWITCHMODE VARIABLE POWER SUPPLY TRANSFORMER DESIGN
PART 3: APPLIED DESIGN
Chapter 1: INDUCTORS AND CHOKES IN SWITCHMODE SUPPLIES
Chapter 2: HIGH-CURRENT CHOKES USING IRON POWDER CORES
Chapter 3: CHOKE DESIGN USING IRON POWDER TOROIDAL CORES
Chapter 4: SWITCHMODE TRANSFORMER DESIGN (GENERAL PRINCIPLES)
Chapter 5: OPTIMUM 150-W TRANSFORMER DESIGN EXAMPLE USING NOMOGRAMS
Chapter 6: TRANSFORMER STAIRCASE SATURATION
Chapter 7: FLUX DOUBLING
Chapter 8: STABILITY AND CONTROL-LOOP COMPENSATION IN SMPS
Chapter 9: THE RIGHT-HALF-PLANE ZERO
Chapter 10: CURRENT-MODE CONTROL
Chapter 11: OPTOCOUPLERS
Chapter 12: RIPPLE CURRENT RATINGS FOR ELECTROLYTIC CAPACITORS IN SWITCHMODE POWER SUPPLIES
Chapter 13: NONINDUCTIVE CURRENT SHUNTS
Chapter 14: CURRENT TRANSFORMERS
Chapter 15: CURRENT PROBES FOR MEASUREMENT PURPOSES
Chapter 16: THERMAL MANAGEMENT IN SWITCHMODE POWER SUPPLIES
PART 4: SUPPLEMENTARY
Chapter 1: ACTIVE POWER FACTOR CORRECTIONSwitchmode Power Supply Handbook [texte imprimé] / Keith H. Billings, Auteur . - 2nd. ed. . - Boston, Massachusetts, New York : McGraw Hill, 1999 . - 450 p. : couv. ill. en coul., ill. ; 23,1 cm.
ISBN : 978-0-07-006719-6
Langues : Anglais (eng)
Catégories : GÉNÉRALITÉ Index. décimale : 00-07 HandBook Résumé : Unarguably the leading hands-on guide in this rapidly expanding area of electronics, Keith Billings' new revision of his Switchmode Power Supply Handbook brings state-of-the-art techniques and developments to engineers at all levels. Offering sound working knowledge of the latest in topologies and clear, step-by-step approaches to component decisions, this Handbook gives power supply designers practical, solutions-oriented design guidance free of unnecessarily complicated mathematical derivations and theory. This thoroughly updated Handbook features many new fully worked examples, as well as numerous nomograms--everything you need to design today's smaller, faster, and cooler systems. Turn to just about any page, and you'll find cutting-edge design expertise on electronic ballast, power factor correction, new thermal management techniques, transformers, chokes, input filters, EMI control, converters, snubber circuits, auxiliary systems, and much more. The most comprehensive book on power supply design available anywhere, Switchmode Power Supply Handbook is the industry standard, now fully updated for the 21st century. Note de contenu : Contents
PART 1: FUNCTIONS AND REQUIREMENTS COMMON TO MOST DIRECT-OFF-LINE SWITCHMODE POWER SUPPLIES
Chapter 1: COMMON REQUIREMENTS: AN OVERVIEW
Chapter 2: AC POWERLINE SURGE PROTECTION
Chapter 3: ELECTROMAGNETIC INTERFERENCE (EMI) IN SWITCHMODE POWER SUPPLIES
Chapter 4: FARADAY SCREENS
Chapter 5: FUSE SELECTION
Chapter 6: LINE RECTIFICATION AND CAPACITOR INPUT FILTERS FOR DIRECT-OFF-LINE SWITCHMODE POWER SUPPLIES
Chapter 7: INRUSH CONTROL
Chapter 8: START-UP METHODS
Chapter 9: SOFT START AND LOW-VOLTAGE INHIBIT
Chapter 10: TURN-ON VOLTAGE OVERSHOOT PREVENTION
Chapter 11: OVERVOLTAGE PROTECTION
Chapter 12: UNDERVOLTAGE PROTECTION
Chapter 13: OVERLOAD PROTECTION
Chapter 14: FOLDBACK (REENTRANT) OUTPUT CURRENT LIMITING
Chapter 15: BASE DRIVE REQUIREMENTS FOR HIGH-VOLTAGE BIPOLAR TRANSISTORS
Chapter 16: PROPORTIONAL DRIVE CIRCUITS FOR BIPOLAR TRANSISTORS
Chapter 17: ANTISATURATION TECHNIQUES FOR HIGH-VOLTAGE TRANSISTORS
Chapter 18: SNUBBER NETWORKS
Chapter 19: CROSS CONDUCTION
Chapter 20: OUTPUT FILTERS
Chapter 21: POWER FAILURE WARNING CIRCUITS
Chapter 22: CENTERING (ADJUSTMENT TO CENTER) OF AUXILIARY OUTPUT VOLTAGES ON MULTIPLE-OUTPUT CONVERTERS
Chapter 23: AUXILIARY SUPPLY SYSTEMS
Chapter 24: PARALLEL OPERATION OF VOLTAGE-STABILIZED POWER SUPPLIES
PART 2: DESIGN: THEORY AND PRACTICE
Chapter 1: MULTIPLE-OUTPUT FLYBACK SWITCHMODE POWER SUPPLIES
Chapter 2: FLYBACK TRANSFORMER DESIGN
Chapter 3: REDUCING TRANSISTOR SWITCHING STRESS
Chapter 4: SELECTING POWER COMPONENTS FOR FLYBACK CONVERTERS
Chapter 5: THE DIAGONAL HALF-BRIDGE FLYBACK CONVERTER
Chapter 6: SELF-OSCILLATING DIRECT-OFF-LINE FLYBACK CONVERTERS
Chapter 7: APPLYING CURRENT-MODE CONTROL TO FLYBACK CONVERTERS
Chapter 8: DIRECT-OFF-LINE SINGLE-ENDED FORWARD CONVERTERS
Chapter 9: TRANSFORMER DESIGN FOR FORWARD CONVERTERS
Chapter 10: DIAGONAL HALF-BRIDGE FORWARD CONVERTERS
Chapter 11: TRANSFORMER DESIGN FOR DIAGONAL HALF-BRIDGE FORWARD CONVERTERS
Chapter 12: HALF-BRIDGE PUSH-PULL DUTY-RATIO-CONTROLLED CONVERTERS
Chapter 13: BRIDGE CONVERTERS
Chapter 14: LOW-POWER SELF-OSCILLATING AUXILIARY CONVERTERS
Chapter 15: SINGLE-TRANSFORMER TWO-TRANSISTOR SELF-OSCILLATING CONVERTERS
Chapter 16: TWO-TRANSFORMER SELF-OSCILLATING CONVERTERS
Chapter 17: THE DC-TO-DC TRANSFORMER CONCEPT
Chapter 18: MULTIPLE-OUTPUT COMPOUND REGULATING SYSTEMS
Chapter 19: DUTY-RATIO-CONTROLLED PUSH-PULL CONVERTERS
Chapter 20: DC-TO-DC SWITCHING REGULATORS
Chapter 45: HIGH-FREQUENCY SATURABLE REACTOR POWER REGULATOR (MAGNETIC DUTY RATIO CONTROL)
Chapter 22: CONSTANT-CURRENT POWER SUPPLIES
Chapter 23: VARIABLE LINEAR POWER SUPPLIES
Chapter 24: SWITCHMODE VARIABLE POWER SUPPLIES
Chapter 25: SWITCHMODE VARIABLE POWER SUPPLY TRANSFORMER DESIGN
PART 3: APPLIED DESIGN
Chapter 1: INDUCTORS AND CHOKES IN SWITCHMODE SUPPLIES
Chapter 2: HIGH-CURRENT CHOKES USING IRON POWDER CORES
Chapter 3: CHOKE DESIGN USING IRON POWDER TOROIDAL CORES
Chapter 4: SWITCHMODE TRANSFORMER DESIGN (GENERAL PRINCIPLES)
Chapter 5: OPTIMUM 150-W TRANSFORMER DESIGN EXAMPLE USING NOMOGRAMS
Chapter 6: TRANSFORMER STAIRCASE SATURATION
Chapter 7: FLUX DOUBLING
Chapter 8: STABILITY AND CONTROL-LOOP COMPENSATION IN SMPS
Chapter 9: THE RIGHT-HALF-PLANE ZERO
Chapter 10: CURRENT-MODE CONTROL
Chapter 11: OPTOCOUPLERS
Chapter 12: RIPPLE CURRENT RATINGS FOR ELECTROLYTIC CAPACITORS IN SWITCHMODE POWER SUPPLIES
Chapter 13: NONINDUCTIVE CURRENT SHUNTS
Chapter 14: CURRENT TRANSFORMERS
Chapter 15: CURRENT PROBES FOR MEASUREMENT PURPOSES
Chapter 16: THERMAL MANAGEMENT IN SWITCHMODE POWER SUPPLIES
PART 4: SUPPLEMENTARY
Chapter 1: ACTIVE POWER FACTOR CORRECTIONExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 148 00-07-14 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 148
