Basic electrical and instrumentation engineering / Pandarinathan Sivaraman, C. Sharmeela, A. Thaiyal Nayagi and R. Mahendran.

By: Sivaraman, P. (Pandarinathan) [author.]
Contributor(s): Sharmeela, C [author.] | Nayagi, A. Thaiyal [author.] | Mahendran, R [author.]
Language: English Publisher: Hoboken, NJ : Wiley-Scrivener, 2021Description: 1 online resource (xiii, 345 pages) ; illustrations (some color)Content type: text Media type: computer Carrier type: online resourceISBN: 9781119764465 ; 9781119765141Subject(s): Electrical engineering | Engineering instrumentsGenre/Form: Electronic books. DDC classification: 621.3 Online resources: Full text available at Wiley Online Library Click here to view
Contents:
Foreword xi Acknowledgements xiii 1 Introduction to Electric Power Systems 1 1.1 Introduction 1 1.1.1 Electrical Parameters 3 1.1.1.1 Voltage 3 1.1.1.2 Current 11 1.1.1.3 Time Period and Frequency 15 1.1.1.4 Phase Angle (ɸ) 16 1.2 Three-Phase Supply Connections 17 1.2.1 Star Connection 17 1.2.2 Delta Connection 19 1.2.3 Balanced Load 21 1.2.4 Unbalanced Load 23 1.2.5 Star – Delta Conversion 23 1.2.6 Delta to Star Conversion 24 1.3 Power 25 1.3.1 Real Power or Active Power (P) 25 1.3.2 Reactive Power (Q) 28 1.3.3 Apparent Power (S) 31 1.4 Power Factor (PF) 35 1.4.1 Classification Based on Load Characteristics 35 1.4.2 Classification Based on Harmonics Producing Loads 46 1.4.3 The Need for Power Factor Improvement 47 1.4.4 Methods of Power Factor Improvement 48 1.5 Types of Loads 49 1.5.1 Linear Loads 50 1.5.2 Non-Linear Loads 50 1.6 Three-Phase Power Measurement 50 1.7 Overview of Power Systems 56 1.7.1 Components of an Electric Power System 58 1.8 Protection of Power System 63 References 75 2 Transformers 79 2.1 Introduction 79 2.2 Transformer Magnetics 82 2.3 Construction of Transformer 85 2.4 EMF Equation of a Transformer 88 2.5 Ideal Transformer 91 2.6 Transformation Ratio (K) 95 2.7 Circuit Model or Equivalent Circuit of Transformer 96 2.8 Voltage Regulation of Transformer 100 2.9 Name Plate Rating 101 2.10 Efficiency of Transformer 102 2.11 Three-Phase Transformer 104 2.12 Components of the Transformer 113 2.13 Standards for Transformers 116 References 123 3 DC Machines 125 3.1 Introduction 125 3.1.1 DC Generators 125 3.1.2 DC Motors 125 3.1.3 Construction of DC Machines 125 3.2 Operation of DC Machines 132 3.2.1 Principle of DC Generators 132 3.2.2 Operating Principle of Motors 133 3.3 EMF Equation of DC Generator 136 3.4 Torque Equation of a DC Motor 138 3.5 Circuit Model 139 3.5.1 Generator Mode 140 3.5.2 Motor Mode 141 3.5.3 Symbolic Representation of DC Generator 141 3.6 Methods of Excitation 142 3.7 Characteristics of DC Generator 148 3.7.1 Characteristics of Separately Excited DC Generator 150 3.7.2 Load Characteristics of DC Shunt Generator 152 3.7.3 Load Characteristics of DC Series Generator 154 3.7.4 Load Characteristics of DC Compound Generator 155 3.8 Types of DC Motor 156 3.9 DC Motor Characteristics 160 3.10 Necessity for Starters 165 3.11 Speed Control of DC Motors 170 3.12 Universal Motor 179 References 183 4 AC Machines 185 4.1 Introduction 185 4.2 Three-Phase Induction Motor 185 4.2.1 Rotating Magnetic Field 186 4.2.2 Construction 186 4.2.3 Working Principle 189 4.2.4 Slip of an Induction Motor 192 4.2.5 Torque Equation 193 4.2.6 Torque–Slip Characteristics 195 4.2.7 Induction Motor as a Transformer 197 4.2.8 Equivalent Circuit of Induction Motor 198 4.3 Single-Phase Induction Motor 201 4.3.1 Introduction 201 4.3.2 Working Principle 203 4.3.3 Types of Single-Phase Induction Motor 203 4.4 Starting Methods of Induction Motor 209 4.4.1 Need for Starters 209 4.4.2 Types of Starters 209 4.5 Speed Control of Three-Phase Induction Motor 215 4.6 Synchronous Motor 220 4.6.1 Construction 220 4.6.2 Features of a Synchronous Motor 220 4.6.3 Working Principle 221 4.6.4 Starting Methods of Synchronous Motor 221 4.6.5 Torque Equation of Synchronous Motor 222 4.7 Stepper Motor 223 4.8 Brushless DC (BLDC) Motor 225 4.8.1 Construction 225 4.8.2 Working Principle 226 4.9 Alternator 226 4.9.1 Construction 226 4.9.2 Working Principle 229 4.9.3 EMF Equation of an Alternator 232 4.9.4 Voltage Regulation of an Alternator 234 4.10 Standards for Electric Machines 235 References 241 5 Measurement and Instrumentation 243 5.1 Electrical and Electronic Instruments 243 5.1.1 Classification of Instruments 243 5.1.2 Basic Requirements for Measurement 250 5.1.3 Types of Indicating Instruments 259 5.1.4 AC Indicating Instruments 270 5.1.5 Electrical Instruments 275 5.2 Cathode Ray Oscilloscope (CRO) 278 5.3 Digital Storage Oscilloscope 283 5.4 Static and Dynamic Characteristics of Measurements 289 5.4.1 Static Characteristics 289 5.4.2 Dynamic Characteristics 296 5.5 Measurement of Errors 297 5.5.1 Types of Errors 298 5.6 Transducer 300 5.6.1 Classification of Transducers 302 References 338 Index 341
Summary: "Electrical and instrumentation engineering is changing at a rapid pace, and books like this give the engineer in the field a valuable reference work to consult. Students are able to use this book as a learning tool, and professors and industrial short courses are able to use it as a textbook."-- Provided by publisher
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LIC Gateway 		621.3 Si93 2021 (Browse shelf) Available (In Process) CL-52941
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Includes bibliographical references and index.


Foreword xi Acknowledgements xiii 1 Introduction to Electric Power Systems 1 1.1 Introduction 1 1.1.1 Electrical Parameters 3 1.1.1.1 Voltage 3 1.1.1.2 Current 11 1.1.1.3 Time Period and Frequency 15 1.1.1.4 Phase Angle (ɸ) 16 1.2 Three-Phase Supply Connections 17 1.2.1 Star Connection 17 1.2.2 Delta Connection 19 1.2.3 Balanced Load 21 1.2.4 Unbalanced Load 23 1.2.5 Star – Delta Conversion 23 1.2.6 Delta to Star Conversion 24 1.3 Power 25 1.3.1 Real Power or Active Power (P) 25 1.3.2 Reactive Power (Q) 28 1.3.3 Apparent Power (S) 31 1.4 Power Factor (PF) 35 1.4.1 Classification Based on Load Characteristics 35 1.4.2 Classification Based on Harmonics Producing Loads 46 1.4.3 The Need for Power Factor Improvement 47 1.4.4 Methods of Power Factor Improvement 48 1.5 Types of Loads 49 1.5.1 Linear Loads 50 1.5.2 Non-Linear Loads 50 1.6 Three-Phase Power Measurement 50 1.7 Overview of Power Systems 56 1.7.1 Components of an Electric Power System 58 1.8 Protection of Power System 63 References 75 2 Transformers 79 2.1 Introduction 79 2.2 Transformer Magnetics 82 2.3 Construction of Transformer 85 2.4 EMF Equation of a Transformer 88 2.5 Ideal Transformer 91 2.6 Transformation Ratio (K) 95 2.7 Circuit Model or Equivalent Circuit of Transformer 96 2.8 Voltage Regulation of Transformer 100 2.9 Name Plate Rating 101 2.10 Efficiency of Transformer 102 2.11 Three-Phase Transformer 104 2.12 Components of the Transformer 113 2.13 Standards for Transformers 116 References 123 3 DC Machines 125 3.1 Introduction 125 3.1.1 DC Generators 125 3.1.2 DC Motors 125 3.1.3 Construction of DC Machines 125 3.2 Operation of DC Machines 132 3.2.1 Principle of DC Generators 132 3.2.2 Operating Principle of Motors 133 3.3 EMF Equation of DC Generator 136 3.4 Torque Equation of a DC Motor 138 3.5 Circuit Model 139 3.5.1 Generator Mode 140 3.5.2 Motor Mode 141 3.5.3 Symbolic Representation of DC Generator 141 3.6 Methods of Excitation 142 3.7 Characteristics of DC Generator 148 3.7.1 Characteristics of Separately Excited DC Generator 150 3.7.2 Load Characteristics of DC Shunt Generator 152 3.7.3 Load Characteristics of DC Series Generator 154 3.7.4 Load Characteristics of DC Compound Generator 155 3.8 Types of DC Motor 156 3.9 DC Motor Characteristics 160 3.10 Necessity for Starters 165 3.11 Speed Control of DC Motors 170 3.12 Universal Motor 179 References 183 4 AC Machines 185 4.1 Introduction 185 4.2 Three-Phase Induction Motor 185 4.2.1 Rotating Magnetic Field 186 4.2.2 Construction 186 4.2.3 Working Principle 189 4.2.4 Slip of an Induction Motor 192 4.2.5 Torque Equation 193 4.2.6 Torque–Slip Characteristics 195 4.2.7 Induction Motor as a Transformer 197 4.2.8 Equivalent Circuit of Induction Motor 198 4.3 Single-Phase Induction Motor 201 4.3.1 Introduction 201 4.3.2 Working Principle 203 4.3.3 Types of Single-Phase Induction Motor 203 4.4 Starting Methods of Induction Motor 209 4.4.1 Need for Starters 209 4.4.2 Types of Starters 209 4.5 Speed Control of Three-Phase Induction Motor 215 4.6 Synchronous Motor 220 4.6.1 Construction 220 4.6.2 Features of a Synchronous Motor 220 4.6.3 Working Principle 221 4.6.4 Starting Methods of Synchronous Motor 221 4.6.5 Torque Equation of Synchronous Motor 222 4.7 Stepper Motor 223 4.8 Brushless DC (BLDC) Motor 225 4.8.1 Construction 225 4.8.2 Working Principle 226 4.9 Alternator 226 4.9.1 Construction 226 4.9.2 Working Principle 229 4.9.3 EMF Equation of an Alternator 232 4.9.4 Voltage Regulation of an Alternator 234 4.10 Standards for Electric Machines 235 References 241 5 Measurement and Instrumentation 243 5.1 Electrical and Electronic Instruments 243 5.1.1 Classification of Instruments 243 5.1.2 Basic Requirements for Measurement 250 5.1.3 Types of Indicating Instruments 259 5.1.4 AC Indicating Instruments 270 5.1.5 Electrical Instruments 275 5.2 Cathode Ray Oscilloscope (CRO) 278 5.3 Digital Storage Oscilloscope 283 5.4 Static and Dynamic Characteristics of Measurements 289 5.4.1 Static Characteristics 289 5.4.2 Dynamic Characteristics 296 5.5 Measurement of Errors 297 5.5.1 Types of Errors 298 5.6 Transducer 300 5.6.1 Classification of Transducers 302 References 338 Index 341

"Electrical and instrumentation engineering is changing at a rapid pace, and books like this give the engineer in the field a valuable reference work to consult. Students are able to use this book as a learning tool, and professors and industrial short courses are able to use it as a textbook."-- Provided by publisher

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