Power Quality in Electrical Systems

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ALEXANDER KUSKO, SC.D., P.E., is Corporate Vice President
of Exponent. He was formerly an associate professor of
engineering at MIT. Dr. Kusko is a Life Fellow of the IEEE
% o9 q& [! m; A& l& C) R( g. O5 Band served on the committee for the original IEEE Standard
& l, U: f6 q- `% R3 U% M- J519-1981 on Harmonic Control in Electrical Power Systems.
MARC T. THOMPSON, PH.D., is President of Thompson
" t  B; |0 F( YConsulting, Inc., an engineering consulting firm specializing
in power electronics, magnetic design, and analog circuits
( j2 B: Z  n4 n7 tand systems. He is also an adjunct professor of electrical
& I. G2 l& [8 X& Fengineering at Worcester Polytechnic Institute and a
( {! W' W* E6 X* ~9 z5 nfirefighter with the Harvard (Massachusetts) Fire
) ]' w$ p+ J' t! u/ IDepartment

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- j# j- \: B# {0 X5 A3 o   Preface xiChapter 1. Introduction 1
( {. d& b6 i. X' l" x' M. Z" ABackground 1
2 u& O+ o. n! G4 j+ [8 ]Ideal Voltage Waveform 2
' _7 f7 B! f0 S% nNonlinear Load: The Rectifier 3
The Definition of Power Quality 6
/ v$ K* T8 v: V7 l& mExamples of poor power quality 7
The need for corrections 9
The Scope of This Text 9
2 u2 k8 \% c4 L" e+ O; O2 i+ yComment on References 11
References 12
Chapter 2. Power-Quality Standards 15
* e0 W7 t7 V% j( nIEEE Standards 519 and 1159 15
' F% Z6 _$ j$ EANSI Standard C84 17
CBEMA and ITIC Curves 18
High-Frequency EMI Standards 20
Summary 23
References 24
- b0 m. a/ U+ q# Z' P+ ], t( jChapter 3. Voltage Distortion 25
# r: J5 Z) o; k7 O$ zVoltage Sag 25
Voltage “Swell” 30
Impulsive “Transient” 30
7 [% k! u% v: C# A% \! e+ _/ KOscillatory “Transient” 33
Interruption 35
Notching 35
Voltage Fluctuations and Flicker 37
Voltage Imbalance 40
' g  R8 T+ z/ t& A6 }) D! Y& fSummary 41
: W0 @; u. S' p0 ]' n% ZReferences 42
0 R( l& Z( ]0 M1 j/ J, A
8 c4 l0 e0 c- u# ]& {Chapter 4. Harmonics and Interharmonics 43
& A  j; i# E1 b; W7 M8 A6 R+ T5 J8 NBackground 43
Periodic Waveforms and Harmonics 43
* m1 T' M" G# i5 t- S8 I8 u4 r3 xRoot-mean square 47
/ W- [7 q. c  P7 S# k( M* aDC current 49
Pure sine wave 49
, e& f8 T* r! c, S4 j0 k* wSquare wave 49
* u! R4 u2 v& |/ [: `1 wDC waveform + ripple 50
, ?7 V- Q2 }$ N$ s* J3 M, xTriangular ripple 50
Pulsating waveform 51
. ~2 c4 Z1 M# Q( |- y% B: @Pulsating waveform with ripple 52
Triangular waveform 52
Piecewise Calculation 52
7 n% e4 p% E' wTotal Harmonic Distortion 53
; K  c& ~* |! y5 @/ _Crest Factor 53
Summary 61
References 61
Chapter 5. Harmonic Current Sources 63
: l! H3 l- Z9 H, a0 k6 _3 A6 xBackground 63
8 [6 L# _  F0 _# b: P: P+ ~3 ?  ySingle-Phase Rectifiers 64
4 r. C0 `. _/ z7 Y  g9 Z2 _* WThree-Phase Rectifiers 69
+ i& ~- T/ Q+ L- O% uThe six-pulse rectifier 69
: q+ a( X) G! k% k  y4 tThe twelve-pulse rectifier 70
High-Frequency Fluorescent Ballasts 71
Transformers 72
Other Systems that Draw Harmonic Currents 73
Summary 74
References 74
& [5 f. f( f8 E4 ]' z) mChapter 6. Power Harmonic Filters 75
Introduction 75
A Typical Power System 76
IEEE Std. 519-1992 78
Line reactor 79
1 m  T4 g# I% z( t/ N6 kShunt passive filter 81
; I4 Z; E1 A% B9 w5 Q4 e/ C/ qMultisection filters 87
Practical Considerations in the Use of Passive Filters 95
, ]4 P2 }: E+ |6 FActive harmonic filters 95
% S) O1 K. G; S6 D; y) {Hybrid harmonic filters 97
6 G& g; N* a  L4 J: FSummary 97
References 98
Chapter 7. Switch Mode Power Supplies 99
1 z$ q% K8 _" [- E2 QBackground 99
Offline Power Supplies 100
DC/DC Converter high-frequency switching waveforms
* `& ~# j* n" T( ^3 T8 s  |5 Rand interharmonic generation 104
Testing for conducted EMI 106
Corrective measures for improving conducted EMI 107


Summary 107
References 108
& ^0 O7 C1 {. B8 XChapter 8. Methods for Correction of Power-Quality
) m/ T% Z) M$ w  YProblems 109
* ]. R" k  ~' ]% m' EIntroduction 109
1 g# ?5 a- A" C  d' k+ I' nCorrection Methods 110
Voltage disturbances versus correction methods 111
4 _, p9 p) i# O8 TReliability 113
. {6 O& a3 |1 a# fDesign of load equipment 115
& U. f  A6 }- x4 v; Y4 e7 X: HThe design of electric-power supply systems 117
Power harmonic filters 119
/ z6 O5 E% G0 z" }/ `. nUtilization-dynamic voltage compensators 119
Uninterruptible power supplies 119
0 ]" v1 i/ ~1 A9 v6 Y: {Transformers 120
Standby power systems 122
$ y$ u3 g+ u; V0 xSummary 126
References 126
Chapter 9. Uninterruptible Power Supplies 129
Introduction 129
3 E" e. S6 z4 M0 W( p3 R1 S% FHistory 131
, Y9 P( z# Y2 I5 M# r- Q  TTypes of UPS Equipment 133
Commercial equipment 134
Energy storage 137
Batteries 138
Flywheels 139
Fuel cells 141
/ n- ]4 w9 A* U# `Ultracapacitors 144
7 Z$ I3 y* L: p! e0 R; R: I5 m! m/ D8 fSummary 145
& R" |$ q3 }2 j  |& ^" }References 145
  R. z( `% r$ D% MChapter 10. Dynamic Voltage Compensators 147
Introduction 147
) ]  E8 B0 b7 v! c' \* E- U; G( vPrinciple of Operation 148
Operation on ITIC curve 151
2 G3 @6 _# T0 Z0 u" r+ s7 g0 A, IDetection of disturbance and control 152
Commercial equipment 153
. N& B& y& h, z& ]) Q: A* GSummary 154
References 154
Chapter 11. Power Quality Events 155
' N# _- o# I4 Z/ s" zIntroduction 155
Method 1 155
6 j+ X4 X' a4 z' i/ ~, Q9 W' \% @Method 2 156
2 q6 u$ Y, }: }. Z7 |Personal Computers 156
2 y; {* D) v+ ], w* APower-quality characteristics 157
Modes of malfunction 160
Sensitivity to voltage sags and interruptions 160
0 M) U. z0 l$ t# HCorrection measures 162

+ x3 v1 U3 e0 }4 P- b2 c, m
Correction measures 164
AC Contactors and relays 165
: Z  q# y& I- K0 w5 h! ZOperation 165
: F7 I5 I. @% J* d; b4 p% XThe Impact of Voltage Disturbance 168
Correction methods 169
Summary 170
References 170
Chapter 12. Electric Motor Drive Equipment 173
Electric Motors 173
1 b' Z9 D$ g& [/ ^3 C" f* mInduction Motors 173
Operation 174
Hazards 174
1 n% P% [: m: m( Z* k' X% ~Phenomena 175
. T2 {( e% A. n' DProtection 176
( y- M& }& F3 N: ^! \! f2 y: EAdjustable Speed Drives 177
$ A* l" S/ g/ u( ~( \Application 178
9 j1 ?8 E1 k5 m1 a' B6 M/ CVoltage disturbances 180
' C6 I4 z5 n5 F, p% n3 CVoltage unbalance 181
) U& r- w( P' S; c' Y: M2 ~Protective measures 183
$ P! m) c) C. A+ ]: D- q" BSummary 188
* V) w  r- k  {" ~0 nReferences 188
8 k/ w/ T0 M8 E6 HChapter 13. Standby Power Systems 189
. P+ K4 }) L6 f# |/ W( WPrinciples: Standby Power System Design 189
Components to Assemble Standby
7 y# Q& y, R$ G% nPower Systems 190
6 ?; R7 V5 t+ [) eSample Standby Power Systems 191
Engine-Generator Sets 194
' S; Q) R9 [. p% a2 j* e/ vStandards 195
1 x- j8 A# B8 @Component parts of an E/G set installation 196
Transfer switches 198
  \, r" |8 \! _4 }$ x: ~' \7 S( QSummary 200
8 U3 i5 [5 N! D9 WReferences 200
Chapter 14. Power Quality Measurements 201
$ O+ `1 Q: r3 ^. E/ Q& K1 }/ r, wMultimeters 201
( {3 t$ s$ J* Z8 H5 o- z$ DOscilloscopes 202
$ L. L: z8 [5 _1 t" e- m! R; M8 jCurrent Probes 203
! i2 X1 b- y7 X8 }' j& [Search Coils 204
Power-Quality Meters and Analyzers 205
3 t  M2 A" S  A. [* Y  \; r$ mCurrent Transformer Analysis in Detail 205
Summary 213
! X( d# `/ g3 D4 [% s2 CReferences 213
Index 215

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Acknowledgments
* {2 f5 q: t& }7 N' `PSPICE simulations were done using the Microsim Evaluation
version 8.0.
The authors gratefully acknowledge the cooperation of the IEEE with
0 D+ y9 j; R- {: L* {" g. Qregard to figures reprinted from IEEE standards, and with permission
from the IEEE. The IEEE disclaims any responsibility or liability resulting
7 x5 }9 F# q; _4 P: Ufrom the placement and use in the described manner.
8 ?! j5 ~5 U7 v& D) ^ALEXANDER KUSKO, SC.D., P.E.
MARC T. THOMPSON, PH.D.

   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
! _% g# S$ P  Q  L9 ^* {/ Iexamples compiled from the literature and the authors’ engineering
' B  s1 @$ n( g: p& w) h) Uexperiences.