Power Quality in Electrical Systems

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ALEXANDER KUSKO, SC.D., P.E., is Corporate Vice President
: _3 D8 s* A! T8 ]1 y1 sof Exponent. He was formerly an associate professor of
6 L, m3 b! D+ F& o/ I7 }' Qengineering at MIT. Dr. Kusko is a Life Fellow of the IEEE
and served on the committee for the original IEEE Standard
# j& R, k; ~. ^" B; U, J/ K519-1981 on Harmonic Control in Electrical Power Systems.
( o& b, w- I0 m4 g4 GMARC T. THOMPSON, PH.D., is President of Thompson
2 y) n* Y  @, S$ iConsulting, Inc., an engineering consulting firm specializing
in power electronics, magnetic design, and analog circuits
and systems. He is also an adjunct professor of electrical
engineering at Worcester Polytechnic Institute and a
firefighter with the Harvard (Massachusetts) Fire
Department

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) B1 \& f% Z0 d- ^) M   Preface xiChapter 1. Introduction 1
Background 1
Ideal Voltage Waveform 2
/ h! E8 J% m9 [4 E4 l6 _Nonlinear Load: The Rectifier 3
- ]6 O9 p, P% {  s' _The Definition of Power Quality 6
) z& t  m4 z/ oExamples of poor power quality 7
/ B$ f. a& ~- ]& w, n$ LThe need for corrections 9
. s8 f5 W, ?4 B: n3 F; CThe Scope of This Text 9
Comment on References 11
9 ]( U' d9 L( D6 D$ S6 WReferences 12
Chapter 2. Power-Quality Standards 15
IEEE Standards 519 and 1159 15
1 C3 O( U8 s) K; b9 S" R% wANSI Standard C84 17
CBEMA and ITIC Curves 18
/ M( R! l8 g  d$ g: z* p5 W* i' VHigh-Frequency EMI Standards 20
* K6 H0 ?# _3 e3 _. V% _Summary 23
References 24
  e% `8 N. @! O$ TChapter 3. Voltage Distortion 25
9 T. H7 z/ p  R. T& b/ {$ i2 gVoltage Sag 25
Voltage “Swell” 30
Impulsive “Transient” 30
Oscillatory “Transient” 33
Interruption 35
/ K8 O5 O8 ~6 `8 I' s: LNotching 35
Voltage Fluctuations and Flicker 37
* N3 v( v6 L& H% t2 N! D. f5 H* [$ qVoltage Imbalance 40
% A4 w  s7 ?( }( C" t% |Summary 41
References 42
% N4 B  P, I: y& n7 V/ }2 W
1 ?+ r& O, N$ T4 H# Z8 X2 ^2 DChapter 4. Harmonics and Interharmonics 43
Background 43
Periodic Waveforms and Harmonics 43
3 e+ p6 ~# b$ a3 Q8 j6 T7 SRoot-mean square 47
DC current 49
Pure sine wave 49
Square wave 49
DC waveform + ripple 50
7 |' w* ~0 L: oTriangular ripple 50
5 V2 j3 ?, M. y, P8 }7 JPulsating waveform 51
Pulsating waveform with ripple 52
/ H3 o7 i' {# ^( W" s! v5 hTriangular waveform 52
Piecewise Calculation 52
Total Harmonic Distortion 53
Crest Factor 53
5 P0 l' s; y- b3 ?8 }# DSummary 61
0 J, s+ J' b! e& n  b8 LReferences 61
7 R) N3 D: u8 L( C' j2 rChapter 5. Harmonic Current Sources 63
9 v9 Z0 ]" ]' @9 n) h- JBackground 63
: `: f! T7 X* d0 I( xSingle-Phase Rectifiers 64
: d/ h' T- D, o1 T# g- f4 X3 `Three-Phase Rectifiers 69
0 a0 Z4 d. ^7 OThe six-pulse rectifier 69
/ a' y6 y; h( g+ d& a$ Q; QThe twelve-pulse rectifier 70
8 |% `% e8 o# j/ E" aHigh-Frequency Fluorescent Ballasts 71
# T& T& M! E7 j% Q8 ATransformers 72
% V% P3 u; j) l) j; mOther Systems that Draw Harmonic Currents 73
9 X9 X) r' s; f0 [' j9 bSummary 74
References 74
Chapter 6. Power Harmonic Filters 75
Introduction 75
+ N  E' }( n) P8 r5 O: OA Typical Power System 76
IEEE Std. 519-1992 78
; E. p! M/ N( |1 w/ s/ HLine reactor 79
Shunt passive filter 81
Multisection filters 87
3 S# ]3 Y# j- @% X/ }9 a0 HPractical Considerations in the Use of Passive Filters 95
Active harmonic filters 95
Hybrid harmonic filters 97
Summary 97
3 d3 v% K4 X& \# R8 K. xReferences 98
Chapter 7. Switch Mode Power Supplies 99
Background 99
' Q$ ?" o* s+ Z) X  B. xOffline Power Supplies 100
+ O" i& X2 k) t+ _2 n# J8 @% V8 RDC/DC Converter high-frequency switching waveforms
" D4 g7 V8 L% Y# i! \0 Eand interharmonic generation 104
5 F* F3 s& ]( c) Z  OTesting for conducted EMI 106
1 E' A  U$ U6 CCorrective measures for improving conducted EMI 107
% I8 {+ E% J* B" c

Summary 107
  \4 g- M5 C  [) s: i' ~% kReferences 108
Chapter 8. Methods for Correction of Power-Quality
Problems 109
Introduction 109
5 u6 u' m8 b: L  F4 zCorrection Methods 110
1 f6 T, {" @' @9 h' R3 pVoltage disturbances versus correction methods 111
Reliability 113
) d! Y5 N( r0 f  q. C5 `( t; ~Design of load equipment 115
The design of electric-power supply systems 117
; U2 P& N2 a) {4 @0 t/ p$ W: {! `7 qPower harmonic filters 119
Utilization-dynamic voltage compensators 119
$ z6 z$ T4 |* r  w# e, Z/ W! wUninterruptible power supplies 119
Transformers 120
Standby power systems 122
Summary 126
References 126
) |) J$ ~0 V& i" z3 EChapter 9. Uninterruptible Power Supplies 129
& q! _) i: f6 t% }+ r+ W, iIntroduction 129
History 131
Types of UPS Equipment 133
Commercial equipment 134
; P! M+ h& H# b+ R: GEnergy storage 137
, @( K8 O; Q  ~8 e& {Batteries 138
1 I$ A/ I. ?! Z! \3 ~Flywheels 139
Fuel cells 141
Ultracapacitors 144
Summary 145
References 145
Chapter 10. Dynamic Voltage Compensators 147
& u4 S& L* _0 j: l' D" C' }Introduction 147
Principle of Operation 148
7 ?8 e8 e+ D  a) Q: F7 Q2 `Operation on ITIC curve 151
- }5 J  ~9 m$ a4 [  Z$ SDetection of disturbance and control 152
- N" H" `/ F, B- [. j( uCommercial equipment 153
Summary 154
References 154
Chapter 11. Power Quality Events 155
Introduction 155
9 I. i& ^6 z  EMethod 1 155
- h3 K) ^, I1 P/ g) V, PMethod 2 156
Personal Computers 156
. }: Y8 P3 E6 C- P8 X. |5 rPower-quality characteristics 157
Modes of malfunction 160
Sensitivity to voltage sags and interruptions 160
Correction measures 162
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, E, x2 B4 Q8 O  R3 z! B7 J) XCorrection measures 164
AC Contactors and relays 165
Operation 165
8 I0 O1 q( O8 i: I1 K  Y" f1 fThe Impact of Voltage Disturbance 168
; L$ Q! t. d2 u& z1 ^  y, oCorrection methods 169
Summary 170
9 l6 N* |7 L  L- ~- v/ Y5 H  }2 |% XReferences 170
+ e7 l- ?' Y$ C& s* h7 xChapter 12. Electric Motor Drive Equipment 173
9 q$ o  S2 i1 Q" _8 `7 KElectric Motors 173
Induction Motors 173
Operation 174
* b0 q. l& d* ^8 H( }- M& [. tHazards 174
2 [" ^$ n7 J7 F' V. PPhenomena 175
Protection 176
, l' ^" m1 n; D/ QAdjustable Speed Drives 177
% S' Z- E' q0 R$ ?; Q1 |$ A/ k# yApplication 178
' `- G. ~1 S7 u, c4 h2 pVoltage disturbances 180
Voltage unbalance 181
Protective measures 183
# ~9 E( f' m0 C3 g+ \) KSummary 188
References 188
Chapter 13. Standby Power Systems 189
Principles: Standby Power System Design 189
7 G  S& w( i+ d; lComponents to Assemble Standby
! Y  A- l1 K) @& N% FPower Systems 190
7 f& M/ V, E) n0 z* _- E; uSample Standby Power Systems 191
7 H& l( q$ _2 H  AEngine-Generator Sets 194
6 n, F' ?. h/ W$ MStandards 195
# L5 r% N' g1 \% n# r3 Y" KComponent parts of an E/G set installation 196
- \7 k1 r; M! |& W. K3 r. C$ OTransfer switches 198
# Q! P( T! [. u. j  @Summary 200
& t+ {5 A. W3 A4 I$ s4 s1 B) aReferences 200
  L% D+ J; b( k, d/ bChapter 14. Power Quality Measurements 201
Multimeters 201
/ _6 o, y5 D9 i& u4 \0 t$ z+ COscilloscopes 202
Current Probes 203
Search Coils 204
4 L2 Y/ J; D7 m5 g) xPower-Quality Meters and Analyzers 205
Current Transformer Analysis in Detail 205
$ G. f4 ~; v0 s$ F/ ~0 d/ e9 m* N. ASummary 213
References 213
Index 215

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Acknowledgments
PSPICE simulations were done using the Microsim Evaluation
; N6 z0 j' P4 P" `2 N2 O7 Hversion 8.0.
# S+ H6 N, u- z( AThe authors gratefully acknowledge the cooperation of the IEEE with
3 S' W  _, b8 _, N) qregard to figures reprinted from IEEE standards, and with permission
. G! q  v" t$ Q& T$ ]3 [' T- ufrom the IEEE. The IEEE disclaims any responsibility or liability resulting
: w7 x6 {" R- y2 V& P7 A8 rfrom the placement and use in the described manner.
  Q* L4 J5 h0 i/ n# XALEXANDER KUSKO, SC.D., P.E.
& S5 X0 U0 e' d3 I9 g2 w5 ZMARC T. THOMPSON, PH.D.

( Y9 `' `" }: v9 ]   This book is intended for use by practicing power engineers and managersinterested in the emerging field of power quality in electrical systems.
We take a real-world point of view throughout with numerous
examples compiled from the literature and the authors’ engineering
  J# p+ C1 l# k! ]experiences.