Electric power distribution, automation, protection, and control:
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| Format: | Buch |
| Sprache: | English |
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Boca Raton [u.a.]
CRC Press
2008
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| Online-Zugang: | Inhaltsverzeichnis Table of contents only Inhaltsverzeichnis |
| Beschreibung: | XVII, 360 S. Ill. |
| ISBN: | 9780849368356 0849368359 |
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| 100 | 1 | |a Momoh, James A. |d 1950- |e Verfasser |0 (DE-588)103525638X |4 aut | |
| 245 | 1 | 0 | |a Electric power distribution, automation, protection, and control |c James A. Momoh |
| 264 | 1 | |a Boca Raton [u.a.] |b CRC Press |c 2008 | |
| 300 | |a XVII, 360 S. |b Ill. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 7 | |a Controle automático |2 larpcal | |
| 650 | 7 | |a Distribuição de energia elétrica (automação) |2 larpcal | |
| 650 | 4 | |a Electric power distribution |x Automation | |
| 650 | 4 | |a Electric power distribution |x Automatic control | |
| 650 | 0 | 7 | |a Elektrische Energieübertragung |0 (DE-588)4134708-0 |2 gnd |9 rswk-swf |
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Datensatz im Suchindex
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| adam_text | ELECTRIC POWER DISTRIBUTION, AUTOMATION, PROTECTION, AND CONTROL JAMES
A. MOMOH HOWARD UNIVERSITY, WASHINGTON DC, USA LSSP) CRC PRESS V^ J
TAYLOR & FRANCIS CROUP BOCA RATON LONDON NEW YORK CRC PRESS IS AN
IMPRINT OF THE TAYLOR & FRANCIS CROUP, AN INFORMA BUSINESS CONTENTS
PREFACE XV AUTHOR XVII CHAPTER 1 INTRODUCTION TO DISTRIBUTION AUTOMATION
SYSTEMS 1 1.1 HISTORICAL BACKGROUND 1 1.2 DISTRIBUTION SYSTEM TOPOLOGY
AND STRUCTURE 2 1.3 DISTRIBUTION AUTOMATION (DA) AND CONTROL 5 1.4
SUMMARY 6 CHAPTER 2 COMPUTATIONAL TECHNIQUES FOR DISTRIBUTION SYSTEMS 9
2.1 INTRODUCTION 9 2.2 COMPLEX POWER CONCEPTS 9 2.2.1 POWER EQUATIONS 11
2.2.1.1 RESISTIVE ELEMENT 11 2.2.1.2 INDUCTIVE ELEMENT 12 2.2.1.3
CAPACITIVE ELEMENT 12 2.2.2 SINGLE-PHASE POWER FORMULATIONS 13 2.2.3
BALANCED THREE-PHASE POWER FORMULATIONS 14 2.3 BALANCED VOLTAGE TO
NEUTRAL-CONNECTED SYSTEM 15 2.3.1 WYE- OR Y-CONNECTED SYSTEM 15 2.3.2
DELTA- OR A-CONNECTED SYSTEM 16 2.4 POWER RELATIONSHIP FOR 3$
Y-A-CONNECTED SYSTEM 18 2.5 PER-UNIT SYSTEM 19 2.5. I CONVERSION OF A
PER UNIT FROM A NEW BASE OF REFERENCE 20 2.5.2 PER-UNIT FORMULATIONS FOR
3 | SYSTEM 21 2.6 CAEICUELAETIOEN OF POWER LOSSES 22 2.7 VOLTAGE REGULATION
TECHNIQUES 24 2.7.1 CAPACITOR BANKS FOR VOLTAGE REGULATION AND POWER
FACTOR CORRECTION 24 2.7.1.1 SHUNT CAPACITOR INSTALLED IN PARALLEL TO
DISTRIBUTION NETWORK MODEL 24 2.7.1.2 CALCULATION OF VOLTAGE DROP FOR A
DISTRIBUTION FEEDER 26 2.7.2 TAP-CHANGING METHOD FOR VOLTAGE REGULATION
26 V VI ELECTRIC POWER DISTRIBUTION, AUTOMATION, PROTECTION, AND CONTROL
2.7.3 VOLTAGE-REGULATING TRANSFORMERS 27 2.7.4 PHASE SHIFTER OR
REGULATING TRANSFORMER 28 2.8 VOLTAGE-SAG ANALYSIS AND CALCULATION 30
2.9 EQUIPMENT MODELING 31 2.9.1 POWER TRANSFORMERS 31 2.9.2 DISTRIBUTION
TRANSFORMERS 31 2.9.2.1 PRINCIPLES AND OPERATING FUNDAMENTALS 33 2.9.3
AUTOTRANSFORMER MODEL 34 2.9.4 COGENERATOR MODEL 35 2.9.5 SYNCHRONOUS
GENERATOR MODEL 36 2.9.6 INVERTER-CONNECTED GENERATOR IN PHOTOVOLTAIC
SYSTEMS 36 2.9.7 SYNCHRONOUS GENERATOR MODEL 37 2.10 COMPONENTS MODELING
37 2.10.1 LINE MODEL IN DISTRIBUTION SYSTEMS 37 2.10.2 SHUNT CAPACITOR
MODEL 38 2.10.3 SWITCH MODEL 38 2.10.4 LOAD MODELS 38 2.10.4.1 CONSTANT
POWER LOADS (FCJ = K 2 = 0) 38 2.10.4.2 CONSTANT CURRENT LOADS (K X = K
2 = 1) 39 2.10.4.3 CONSTANT IMPEDANCE LOADS (FC A = K 2 = 2) 39 2.10.4.4
COMPOSITE/NONLINEAR LOADS 39 2.10.5 SVC DEVICE MODEL. 39 2.11
DISTRIBUTION SYSTEM LINE MODEL 40 2.12 DISTRIBUTION POWER FLOW ANALYSIS
41 2.13 DISTRIBUTION SYSTEM TOPOLOGY FOR DEVELOPMENT OF LOAD FLOW 43
2.14 REVIEW OF CLASSICAL POWER FLOW METHODS 43 2.14.1 GAUSS-SEIDAL
METHOD 44 2.14.2 NEWTON-RAPHSON METHOD 44 2.14.3 FAST-DECOUPLE POWER
FLOW 45 2.15 DISTRIBUTION POWER FLOW METHODS 47 2.15.1 DESCRIPTION OF
DISTRIBUTION POWER FLOW METHODOLOGIES 47 2.15.1.1 METHOD 1:
FORWARD/BACKWARD METHODS 47 2.15.1.2 METHOD 2: POWER-FLOW METHOD BASED
ON SENSITIVITY MATRIX FOR MISMATCH CALCULATION 48 2.15.1.3 METHOD 3:
BUS-IMPEDANCE NETWORK METHOD 51 2.16 ILLUSTRATIVE EXAMPLES 53 2.16.1
DISTRIBUTION TRANSFORMER CONSIDERED FOR USE AS A STEP-DOWN
AUTOTRANSFORMER 53 2.16.2 TRANSFORMER SHORT CIRCUIT DURING AN
OPEN-CIRCUIT TEST 54 2.16.3 UNBALANCED SET OF VOLTAGES 56 2.16.4
NEWTON-RAPHSON METHOD 57 2.16.5 POLAR FORMULATION OF LOAD-FLOW EQUATIONS
59 2.16.6 GAUSS-SEIDEL METHOD 61 2.17 SUMMARY 63 CONTENTS VN CHAPTER 3
DISTRIBUTION SYSTEM PROTECTION AND CONTROL 67 3.1 INTRODUCTION 67 3.1.1
INTRODUCTION TO SYMMETRICAL COMPONENTS 68 3.1.2 SEQUENCE NETWORKS USED
IN FAULT ANALYSIS 69 3.1.2.1 COMPUTATION OF PHASE AND TOTAL POWER USING
SEQUENCE NETWORKS 70 3.1.2.2 DEVELOPMENT OF SEQUENCE NETWORKS FOR POWER
SYSTEMS 72 3.2 SINGLE LINE-TO-GROUND FAULT 74 3.3 DOUBLE LINE-TO-GROUND
FAULT ON PHASE B AND C 76 3.4 THREE-PHASE FAULT ANALYSIS 78 3.5
LINE-TO-GROUND AND LINE-TO-LINE FAULTS 80 3.5.1 SINGLE LINE-TO-GROUND
FAULT ...80 3.5.2 LINE-TO-LINE FAULT 81 3.6 PROTECTION SYSTEMS 83 3.6.1
RELAY 84 3.6.2 INSTRUMENT TRANSFORMERS 84 3.6.2.1 ACCOUNTING FOR
SATURATION IN CT 86 3.6.3 RECLOSERS 86 3.6.4 FUSES 87 3.6.5
SECTIONALIZER 89 3.7 PROTECTIVE RELAY TECHNOLOGY 89 3.7.1 DIGITAL
RELAYING 90 3.7.2 ELECTROMECHANICAL RELAY TECHNOLOGY 91 3.7.3 INDUCTION
DISC RELAYS 91 3.7.3.1 EXAMPLE 1, COORDINATING TIME-DELAY OVERCURRENT
RELAYS IN A RADIAL SYSTEM 92 3.7.3.2 EXAMPLE 2, RADIAL SYSTEM PROTECTION
94 3.8 SYSTEM PROTECTION IN GENERAL 97 3.9 SYSTEM PROTECTION FOR
DIFFERENT POWER SYSTEM ZONE COMPONENTS 98 3.9.1 LINE PROTECTION WITH
IMPEDANCE DISTANCE RELAYS 98 3.9.1.1 DIRECTIONAL OVERCURRENT RELAYS 98
3.9.1.2 IMPEDANCE RELAY 98 3.9.2 MHO RELAYS 99 3.9.3 OHM RELAYS 101
3.9.4 GENERATOR, BUSES, AND TRANSFORMER 103 3.9.4.1 GENERATOR PROTECTION
103 3.9.4.2 BUS PROTECTION WITH DIFFERENTIAL RELAYS 104 3.9.4.3
TRANSFORMER PROTECTION WITH DIFFERENTIAL RELAYS 105 3.10 ILLUSTRATIVE
EXAMPLES 105 3.10.1 EXAMPLE 1 105 3.10.2 EXAMPLE 2 106 3.10.3 EXAMPLE 3
107 VIII ELECTRIC POWER DISTRIBUTION, AUTOMATION, PROTECTION, AND
CONTROL 3.10.4 EXAMPLE 4, THREE-PHASE FAULT 108 3.10.5 EXAMPLE 5,
SINGLE-LINE-TO-GROUND (SLG) FAULT 110 3.11 SUMMARY 112 CHAPTER 4
DISTRIBUTION SYSTEM RELIABILITY AND MAINTENANCE 115 4.1 INTRODUCTION 115
4.2 RELIABILITY EVALUATION 116 4.2.1 INPUTS REQUIRED FOR HISTORICAL
ASSESSMENT 116 4.3 TERMINOLOGY/DEFINITIONS 117 4.4 RELIABILITY INDICES
118 4.5 METHODS OF RELIABILITY ANALYSIS 122 4.5.1 ANALYTICAL METHODS 123
4.5.2 STATE SPACE DIAGRAMS 123 4.5.2.1 CASE A, SERIES COMPONENTS 124
4.5.2.2 CASE B, PARALLEL SYSTEMS 124 4.5.2.3 CASE C, SERIES AND PARALLEL
SYSTEM 124 4.6 FAILURE MODES AND EFFECTS ANALYSIS (FMEA) METHOD 125 4.7
EVENT-TREE ANALYSIS METHOD 125 4.8 FAULT-TREE ANALYSIS METHOD 126 4.9
UNAVAILABILITY OF POWER CALCULATIONS FROM THE CUT SET 127 4.9.1 FAULT
TREE BASED ON MINIMAL CUT SET 127 4.9.1.1 DETERMINE POWER INTERRUPTION
AND UNAVAILABILITY 127 4.9.1.2 METHODOLOGICAL APPROACH TO IDENTIFYING
MINIMUM CUT SET 129 4.9.2 NONMINIMAL CUT SET IN COMPLETE UNAVAILABILITY
130 4.9.3 SUMMARY OF FINDINGS USING MINIMAL CUT SETS TO IDENTIFY CAUSES
OF FAILURES 131 4.10 SIMULATION TECHNIQUES FOR RELIABILITY ANALYSIS 132
4.11 SIMULATION METHODS UTILIZED FOR DISTRIBUTION RELIABILITY ANALYSIS
133 4.11.1 MONTE CARLO SIMULATION METHOD 133 4.11.1.1 SEQUENTIAL MONTE
CARLO METHOD 133 4.11.1.2 NONSEQUENTIAL MONTE CARLO SIMULATION 134
4.11.1.3 GENERAL STATEMENT: MONTE CARLO SIMULATION 134 4.12 EVALUATION
OF DISTRIBUTION RELIABILITY ANALYSIS METHOD 135 4.13 RELIABILITY
DATABASE DESIGN 135 4.13.1 DISREL 135 4.13.1.1 GENERAL INFORMATION ON
DISREL 136 4.13.1.2 MAIN FEATURES 136 4.13.1.3 PROGRAM CAPABILITIES 136
4.13.1.4 APPLICATIONS OF DISREL 137 4.14 MAINTENANCE AND RELIABILITY 138
4.14.1 REPAIR-TO-FAILURE PROCESS 138 CONTENTS IX 4.14.2 REPAIR FAILURE:
REPAIR PROCESS 142 4.14.3 FAILURE-TO-REPAIR PROCESS 145 4.14.4 COMBINED
RELIABILITY 146 4.15 MAINTENANCE OF DISTRIBUTION SYSTEMS 148 4.15.1
PREVENTIVE MAINTENANCE 148 4.15.2 CORRECTIVE MAINTENANCE 149 4.16
RELIABILITY-CENTERED MAINTENANCE 152 4.17 SECURITY AND
RELIABILITY-CENTERED MAINTENANCE 153 4.18 IMPLEMENTATION PLAN FOR
VARIOUS COMPONENT-MAINTENANCE TECHNIQUES 154 4.18.1 OVERHEAD LINES 154
4.18.2 CIRCUIT BREAKERS 154 4.18.3 TRANSFORMERS 155 4.18.4 SUBSTATION
EQUIPMENT 155 4.19 ILLUSTRATIVE EXAMPLES 156 4.19.1 EXAMPLEL 156 4.19.2
EXAMPLE2 158 4.19.3 EXAMPLE3 159 4.19.4 EXAMPLE4 160 4.20 SUMMARY 161
CHAPTER 5 DISTRIBUTION AUTOMATION AND CONTROL FUNCTIONS 165 5.1
INTRODUCTION 165 5.2 DEMAND-SIDE MANAGEMENT 166 5.2.1 MODELING
CHALLENGES AND METHODOLOGY FOR DEMAND-SIDE MANAGEMENT 167 5.2.2
CONCEPTUAL OVERVIEW OF METHODOLOGY FOR DSM STUDIES 168 5.3 VOLTAGE/VAR
CONTROL 168 5.3.1 METHODS OF VOLTAGE/VAR IN DISTRIBUTION AUTOMATION 169
5.3.2 EVALUATION OF METHODS USED FOR VOLTAGE/VAR CONTROL 169 5.3.3
MODELING OF VOLTAGE/VAR CONTROL OPTIONS 170 5.3.4 FORMULATION OF
VOLTAGE/VAR 170 5.3.5 SYSTEM OPERATING CONSTRAINTS 171 5.3.6 METHODOLOGY
172 5.4 FAULT DETECTION (DISTRIBUTION AUTOMATION FUNCTION) 172 5.4.1
CLASSICAL APPROACHES USED FOR SOLVING DETECTION TECHNIQUES 173 5.4.1.1
HARMONIE SEQUENCE COMPONENT TECHNIQUE 173 5.4.1.2 AMPLITUDE RATIO
TECHNIQUE 173 5.4.1.3 PHASE RELATIONSHIP TECHNIQUE 173 5.4.1.4 ENERGY
TECHNIQUE 173 5.4.1.5 RANDOMNESS TECHNIQUE 173 5.4.2 MODELING OF
FAULTS/CLASSIFICATION 173 5.5 TROUBLECALLS 174 5.6 RESTORATION FUNCTIONS
176 X ELECTRIC POWER DISTRIBUTION, AUTOMATION, PROTECTION, AND CONTROL
5.6.1 EVALUATION OF METHODS 176 5.6.2 OPTIMIZATION FORMULATION 177 5.6.3
OPTIMIZATION CONSTRAINTS 178 5.6.4 METHODOLOGY 179 5.7 RECONFIGURATION
OF DISTRIBUTION SYSTEMS 179 5.7.1 METHODS USED FOR RECONFIGURATION 180
5.7.2 FORMULATION OF MODELING OF RECONFIGURATION 180 5.7.2.1 METHOD OF
LOAD BALANCING 1 181 5.7.2.2 METHOD OF LOAD BALANCING 2 181 5.7.2.3
METHOD OF MINIMIZING VOLTAGE DEVIATION 183 5.7.2.4 ALGORITHM FOR
SINGLE-LOOP VOLTAGE MINIMIZATION....L83 5.8 POWER QUALITY 185 5.8.1
TECHNIQUES FOR MODELING HARMONICS IN POWER-QUALITY- ASSESSMENT
METHODOLOGY 185 5.8.2 NEW APPROACHES OF POWER QUALITY 187 5.9
OPTIMIZATION TECHNIQUES 188 5.9.1 OBJECTIVES 188 5.9.2 CONSTRAINTS 189
5.9.3 CLASSICAL SOLUTION 190 5.9.4 LINEAR PROGRAMMING 192 5.9.5
MIXED-INTEGER PROGRAMMING 193 5.9.6 INTERIOR-POINT LINEAR PROGRAMMING
195 5.9.7 SEQUENTIAL QUADRATIC PROGRAMMING 198 5.10 ILLUSTRATIVE
EXAMPLES 200 5.10.1 EXAMPLEL 200 5.11 SUMMARY 201 CHAPTER 6 INTELLIGENT
SYSTEMS IN DISTRIBUTION AUTOMATION 205 6.1 INTRODUCTION 205 6.2
DISTRIBUTION AUTOMATION FUNCTION 206 6.3 ARTIFICIAL INTELLIGENCE METHODS
207 6.3.1 EXPERT SYSTEM TECHNIQUES 207 6.3.2 ARTIFICIAL NEURAL NETWORKS
209 6.3.2.1 EVOLUTION OF CONNECTION WEIGHTS 210 6.3.3 FUZZY LOGIC 210
6.3.3.1 FUZZY SETS AND SYSTEMS 211 6.3.3.2 FUZZY SETS 211 6.3.3.3 FUZZY
SYSTEMS, COMPLEXITY, AND AMBIGUITY 211 6.3.4 GENETIC ALGORITHMS (GA) 212
6.4 INTELLIGENT SYSTEMS IN DISTRIBUTION AUTOMATION 213 6.4.1 DSM AND AI
213 6.5 VOLTAGE/VAR CONTROL 215 6.6 NETWORK RECONFIGURATION VIA AI 216
6.6.1 FURTHER RESEARCH WORK IN NETWORK RECONFIGURATION USING ARTIFICIAL
INTELLIGENCE 217 CONTENTS XI 6.7 FAULT DETECTION, CLASSIFICATION, AND
LOCATION IN DISTRIBUTION SYSTEMS 217 6.7.1 USE OF AI TECHNIQUES FOR
FAULT ANALYSIS 218 6.8 SUMMARY 218 CHAPTER 7 RENEWABLE ENERGY OPTIONS
AND TECHNOLOGY 223 7.1 INTRODUCTION 223 7.2 DISTRIBUTED GENERATION 223
7.3 WORKING DEFINITION AND CLASSIFICATION OF RENEWABLE ENERGY 225 7.4
RENEWABLE ENERGY OPTIONS 226 7.4.1 SOLAR 226 7.4.1.1 MODELING 228
7.4.1.2 PV SYSTEMS 231 7.4.1.3 V-I CHARACTERISTICS 231 7.4.2 WIND
TURBINE SYSTEMS 232 7.4.2.1 MODELING 233 7.4.2.2 IMPACT OF TOWER HEIGHT
ON WIND POWER 234 7.4.2.3 EMISSION CONTROL TECHNOLOGIES 234 7.4.3
BIOMASS-BIOENERGY 235 7.4.3.1 ADVANTAGE AND DISADVANTAGES OF BIOMASS
POWER 236 7.4.4 SMALL AND MICRO HYDROPOWER 236 7.5 OTHER NONRENEWABLE
ENERGY SOURCES 237 7.5.1 FUELCELL 237 7.5.1.1 OPERATION OF FUEL CELLS
238 7.5.1.2 SAMPLE CALCULATION 239 7.5.2 OCEAN ENERGY 241 7.5.3
GEOTHERMAL HEAT PUMPS 242 7.5.4 MICROTURBINE AND STERLING ENGINE 242
7.5.4.1 DESCRIPTION 242 7.5.4.2 STERLING ENGINE 243 7.5.5 COMPARISON 244
7.6 DISTRIBUTED GENERATION CONCEPTS AND BENEFITS 244 7.6.1 CATEGORIES OF
DG 245 7.6.2 CRITERIA FOR DG CONCEPTS 245 7.6.3 DG BENEFITS 245 7.7
ILLUSTRATIVE EXAMPLES 248 7.7.1 EXAMPLEL 248 7.7.2 EXAMPLE2 249 7.7.3
EXAMPLE3 251 7.7.4 EXAMPLE4 252 7.7.5 EXAMPLE5 253 7.7.6 EXAMPLEOE 254
7.8 SUMMARY 255 XII ELECTRIC POWER DISTRIBUTION, AUTOMATION, PROTECTION,
AND CONTROL CHAPTER 8 DISTRIBUTION MANAGEMENT SYSTEMS 259 8.1
INTRODUCTION TO EMS 259 8.1.1 DMS AND EMS 259 8.2 FUNCTIONS OF EMS 260
8.3 SCADA (SUPERVISORY CONTROL AND DATA ACQUISITION) 261 8.4 RTU (REMOTE
TERMINAL UNITS) 263 8.5 DISTRIBUTION MANAGEMENT SYSTEM (DMS) 263 8.5.1
SYSTEM HARDWARE FOR DMS STATION 264 8.5.2 SCADA SYSTEM FUNCTIONS FOR DMS
264 8.5.3 DMS FUNCTIONS 265 8.5.4 SUBSTATION AND FEEDER SCADA 265 8.5.5
FEEDER AUTOMATION 267 8.5.5.1 FAULT LOCATION, ISOLATION, AND RESTORATION
(FLIR) 267 8.5.5.2 VOLTAGE/VAR CONTROL 268 8.5.5.3 VOLTAGE CONTROL 268
8.5.5.4 SUBSTATION AUTOMATION (SA) 268 8.5.5.5 TROUBLE-CALL AND OUTAGE
MANAGEMENT (TCOM) 268 8.5.5.6 RECONFIGURATION FUNCTION 268 8.5.6
DISTRIBUTION SYSTEM ANALYSIS (DSA) 269 8.5.7 LOAD MANAGEMENT SYSTEM
(LMS) 269 8.5.8 GEOGRAPHIE INFORMATION SYSTEM (GIS) 269 8.5.9 CUSTOMER
INFORMATION SYSTEM (CIS) 270 8.6 AUTOMATIC METER READING (AMR) 270 8.6.1
ADVANCED BILLING 271 8.6.2 SPECIAL FEATURES AND BENEFITS OF AMR 271
8.6.3 ADVANCEMENT IN AMR TECHNOLOGY 272 8.6.4 ADVANCES IN BILLING
TECHNOLOGY 272 8.7 COST-BENEFIT ANALYSIS (CBA) IN DISTRIBUTION SYSTEMS
272 8.7.1 COST-BENEFIT ANALYSIS METHODOLOGY 273 8.7.2 FUNCTION/PAYBACK
CORRELATION 273 8.8 SUMMARY 274 CHAPTER 9 COMMUNICATION SYSTEMS FOR
DISTRIBUTION AUTOMATION SYSTEMS 277 9.1 INTRODUCTION 277 9.1.1 WHAT IS
TELECOMMUNICATION? 277 9.2 TELECOMMUNICATION IN PRINCIPLE 278 9.3 DATA
COMMUNICATION IN POWER SYSTEM DISTRIBUTION NETWORK 278 9.4 SIGNAL
REPRESENTATION 279 9.4.1 COMMUNICATION TECHNOLOGY FOR SIGNAL DESCRIPTION
280 9.5 TYPES OF TELECOMMUNICATION MEDIA 281 9.5.1 COPPER CIRCUIT 281
9.5.2 TWISTEDPAIR 282 9.5.3 COAXIALCABLE 282 9.5.4 FIBER OPTICS 282
CONTENTS XIII 9.5.5 MICROWAVE/RADIO 283 9.5.6 CELLULAR TRANSMISSION 283
9.6 COMMUNICATION MODULATION TECHNIQUES 284 9.6.1 AMPLITUDE MODULATION
(AM) 284 9.6.2 FREQUENCY MODULATION (FM) 285 9.6.2.1 PULSE MODULATION
(PM) 285 9.6.2.2 FREQUENCY MODULATION 286 9.6.2.3 AMPLITUDE MODULATION
286 9.6.3 MODULATION INDICES 287 9.6.4 DIGITAL MODULATION 287 9.6.4.1
ASYNCHRONOUS/SYNCHRONOUS COMMUNICATIONS 288 9.6.4.2 INTELLIGENT
ELECTRONIC DEVICES (IEDS) 289 9.7 COMMUNICATION NETWORKING 290 9.7.1
LOCAL AREA NETWORK 290 9.7.1.1 METHOD OF TRANSMISSION IN LAN 291 9.7.1.2
LAN TOPOLOGIES 292 9.7.2 METROPOLITAN AREA NETWORK (MAN) 293 9.7.3 WIDE
AREA NETWORK (WAN) 294 9.7.3.1 TYPES OF WAN CONNECTION 294 9.7.4 TYPES
OF COMPUTING CONNECTIVITY 295 9.8 FRAME-RELAY COMMUNICATIONS 295 9.8.1
FRAME-RELAY STANDARDIZATION 296 9.8.2 SWITCHED VIRTUAL CIRCUITS 297
9.8.3 PERMANENT VIRTUAL CIRCUITS 297 9.8.4 FRAME-RELAY HANDLING OF
CONGESTION ERROR 297 9.8.5 FRAME-RELAY NETWORK IMPLEMENTATION 298
9.8.5.1 PUBLIC-CARRIER-PROVIDED NETWORKS 298 9.8.5.2 PRIVATE ENTERPRISE
NETWORKS 298 9.8.6 FRAME-RELAY FRAME FORMATS 299 9.9 COMMUNICATION
STANDARDS OVERVIEW 301 9.9.1 STANDARDS BODIES 302 9.9.2 SUITE OF
STANDARDS 302 9.9.3 INTERCONNECTION STANDARDS AND REGULATIONS 304 9.10
OSI MODEL 304 9.10.1 DESCRIPTION OF OSI MODEL 305 9.10.1.1 TRANSPORT
LAYERS OR LOWER LAYERS 305 9.10.1.2 APPLICATION LAYERS OR UPPER LAYERS
306 9.10.2 MESSAGE HANDLING 307 9.11 DISTRIBUTION NETWORK PROTOCOL
(DNP3) 308 9.11.1 DNP3 PROTOCOL THREE-LAYER STRUCTURE DESCRIPTION 309
9.12 UTILITY COMMUNICATION ARCHITECTURE (UCA) 309 9.12.1 OVERVIEW AND
APPLICATION 309 9.13 POWER-LINE CARRIER COMMUNICATION 311 9.13.1
INTRODUCTION 311 9.13.2 PLC ARCHITECTURE 311 XIV ELECTRIC POWER
DISTRIBUTION, AUTOMATION, PROTECTION, AND CONTROL 9.13.2.1 LINE TRAPS
312 9.13.2.2 LINE-TUNING UNITS 313 9.13.2.3 HYBRIDS 313 9.13.3 BROADBAND
OVER POWER LINES (BPL) 314 9.13.4 STANDARDS 314 9.13.5 CURRENT TRENDS
AND APPLICATIONS 314 9.14 SECURITY IN TELECOMMUNICATIONS AND INFORMATION
TECHNOLOGY 316 9.14.1 VULNERABILITIES, THREATS, AND RISKS 316 9.14.2
SECURITY ARCHITECTURE ELEMENTS IN ITU-T X.805 317 9.14.3 PRIVACY AND
DATA CONFIDENTIALITY 318 9.14.4 AUTHENTICATION 318 9.14.5 DATA INTEGRITY
319 9.14.6 NONREPUDIATION 319 9.14.7 OTHER DIMENSIONS DEFINED IN X.805
319 9.14.8 SECURITY FRAMEWORK REQUIREMENTS 319 9.14.9 INFORMATION
SECURITY GOALS 320 9.15 ILLUSTRATIVE EXAMPLES 321 9.15.1 EXAMPLEL 321
9.16 SUMMARY 322 CHAPTER 10 EPILOGUE 325 10.1 CHALLENGES TO DISTRIBUTION
SYSTEMS FOR A COMPETITIVE POWER UTILITY ENVIRONMENT 325 10.2 PROTECTION
326 10.3 DEMAND RESPONSE 326 10.4 COMMUNICATION ADVANCES 326 10.5
MICROGRID 327 10.6 STANDARDS AND INSTITUTIONAL BARRIERS 327 10.7 PRICING
AND BILLING 327 GLOSSARY 329 REFERENCES 339 INDEX 355
|
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| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Book |
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| id | DE-604.BV035275348 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:30:12Z |
| institution | BVB |
| isbn | 9780849368356 0849368359 |
| language | English |
| lccn | 2007022016 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-017080648 |
| oclc_num | 137305844 |
| open_access_boolean | |
| owner | DE-1050 DE-634 |
| owner_facet | DE-1050 DE-634 |
| physical | XVII, 360 S. Ill. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | CRC Press |
| record_format | marc |
| spelling | Momoh, James A. 1950- Verfasser (DE-588)103525638X aut Electric power distribution, automation, protection, and control James A. Momoh Boca Raton [u.a.] CRC Press 2008 XVII, 360 S. Ill. txt rdacontent n rdamedia nc rdacarrier Controle automático larpcal Distribuição de energia elétrica (automação) larpcal Electric power distribution Automation Electric power distribution Automatic control Elektrische Energieübertragung (DE-588)4134708-0 gnd rswk-swf Elektrische Energieübertragung (DE-588)4134708-0 s DE-604 http://www.gbv.de/dms/ilmenau/toc/522473288.PDF Inhaltsverzeichnis http://www.loc.gov/catdir/toc/ecip0719/2007022016.html Table of contents only GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017080648&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Momoh, James A. 1950- Electric power distribution, automation, protection, and control Controle automático larpcal Distribuição de energia elétrica (automação) larpcal Electric power distribution Automation Electric power distribution Automatic control Elektrische Energieübertragung (DE-588)4134708-0 gnd |
| subject_GND | (DE-588)4134708-0 |
| title | Electric power distribution, automation, protection, and control |
| title_auth | Electric power distribution, automation, protection, and control |
| title_exact_search | Electric power distribution, automation, protection, and control |
| title_full | Electric power distribution, automation, protection, and control James A. Momoh |
| title_fullStr | Electric power distribution, automation, protection, and control James A. Momoh |
| title_full_unstemmed | Electric power distribution, automation, protection, and control James A. Momoh |
| title_short | Electric power distribution, automation, protection, and control |
| title_sort | electric power distribution automation protection and control |
| topic | Controle automático larpcal Distribuição de energia elétrica (automação) larpcal Electric power distribution Automation Electric power distribution Automatic control Elektrische Energieübertragung (DE-588)4134708-0 gnd |
| topic_facet | Controle automático Distribuição de energia elétrica (automação) Electric power distribution Automation Electric power distribution Automatic control Elektrische Energieübertragung |
| url | http://www.gbv.de/dms/ilmenau/toc/522473288.PDF http://www.loc.gov/catdir/toc/ecip0719/2007022016.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017080648&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT momohjamesa electricpowerdistributionautomationprotectionandcontrol |
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Inhaltsverzeichnis