Power Quality in Electrical Systems

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ALEXANDER KUSKO, SC.D., P.E., is Corporate Vice President
( n% n. U+ y! ?! W7 v: u+ Hof Exponent. He was formerly an associate professor of
, D% w$ g. z  i9 i6 R% J6 g1 oengineering at MIT. Dr. Kusko is a Life Fellow of the IEEE
and served on the committee for the original IEEE Standard
519-1981 on Harmonic Control in Electrical Power Systems.
MARC T. THOMPSON, PH.D., is President of Thompson
4 M9 R' V% I0 G5 _! u8 R% PConsulting, Inc., an engineering consulting firm specializing
8 ]& T) c, u/ bin power electronics, magnetic design, and analog circuits
) Y  z5 u# _5 \6 D) C* Vand systems. He is also an adjunct professor of electrical
engineering at Worcester Polytechnic Institute and a
+ g' _# ]( g4 |6 K9 ]) V. ffirefighter with the Harvard (Massachusetts) Fire
/ Z, y# |* |  x2 `: KDepartment

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! e$ f1 [3 ~3 Z/ e! {
+ u/ w6 ^0 s9 E   Preface xiChapter 1. Introduction 1
+ ?* m0 q- i9 ?3 ]/ m3 |1 L( z- ?+ @% iBackground 1
1 F8 k- B8 C+ `: qIdeal Voltage Waveform 2
Nonlinear Load: The Rectifier 3
1 G# J1 R3 C9 K0 v* HThe Definition of Power Quality 6
Examples of poor power quality 7
4 p: l* n% _/ c2 E  k2 PThe need for corrections 9
$ ~2 ?9 u% Q+ r' zThe Scope of This Text 9
0 Y5 P5 k) u( {# `( xComment on References 11
References 12
# z% U  n' m; c, t6 K  f3 O0 GChapter 2. Power-Quality Standards 15
4 W0 T/ @" V' D# H0 H. d; I; MIEEE Standards 519 and 1159 15
ANSI Standard C84 17
CBEMA and ITIC Curves 18
) X1 E( g& l4 X8 q* u# Y' t8 UHigh-Frequency EMI Standards 20
Summary 23
References 24
Chapter 3. Voltage Distortion 25
( U4 N, g4 V% c! UVoltage Sag 25
# K) g. \" h# \. Z+ a7 o! }Voltage “Swell” 30
Impulsive “Transient” 30
Oscillatory “Transient” 33
6 \5 n2 r8 g/ i) i- F. DInterruption 35
; \3 \8 D$ L) W" v0 v# L+ MNotching 35
Voltage Fluctuations and Flicker 37
1 T7 }9 Z9 t; t7 y4 C% A  _Voltage Imbalance 40
1 W: i7 _7 R- c  h6 E2 r) V% USummary 41
References 42
: f$ ^( P  x/ s% V! K/ c/ J. Y
Chapter 4. Harmonics and Interharmonics 43
9 L+ ]3 J" k* l6 d, WBackground 43
/ b. b" n) L7 T' EPeriodic Waveforms and Harmonics 43
( t% J; J% G+ |2 l- p5 ARoot-mean square 47
DC current 49
Pure sine wave 49
- B% [5 a. o- y7 ?Square wave 49
DC waveform + ripple 50
Triangular ripple 50
! e7 `, _, d" A& N5 `- C8 ?0 H5 LPulsating waveform 51
Pulsating waveform with ripple 52
! @: `- a% U( d5 U4 ]3 x: j. ZTriangular waveform 52
5 U- ?! \/ E5 J) a# j2 ]4 hPiecewise Calculation 52
Total Harmonic Distortion 53
( g; @' K' Y" b% d9 ~: |Crest Factor 53
8 ~0 ~) M; K7 N- S% xSummary 61
* g1 Y: ^+ ]; V2 ]! K+ nReferences 61
Chapter 5. Harmonic Current Sources 63
Background 63
Single-Phase Rectifiers 64
Three-Phase Rectifiers 69
( c, z" u& J# |, o- zThe six-pulse rectifier 69
  y) t( i2 j" b5 Y# fThe twelve-pulse rectifier 70
2 }4 ?6 ?* M. G' u3 v5 k+ u9 tHigh-Frequency Fluorescent Ballasts 71
Transformers 72
Other Systems that Draw Harmonic Currents 73
Summary 74
3 W& T7 p# i. u* zReferences 74
Chapter 6. Power Harmonic Filters 75
Introduction 75
  W) T" P7 @5 s/ {4 Q; XA Typical Power System 76
IEEE Std. 519-1992 78
0 r/ ~8 `4 b% L8 |, L6 GLine reactor 79
Shunt passive filter 81
4 @- _; g" _$ P1 ~Multisection filters 87
Practical Considerations in the Use of Passive Filters 95
Active harmonic filters 95
Hybrid harmonic filters 97
/ s+ b( F" ?- W# wSummary 97
References 98
Chapter 7. Switch Mode Power Supplies 99
Background 99
  d/ Q! w/ h, b: iOffline Power Supplies 100
DC/DC Converter high-frequency switching waveforms
' m* C% Q" m0 d, z/ v! T: L0 Sand interharmonic generation 104
Testing for conducted EMI 106
Corrective measures for improving conducted EMI 107


' b" A2 G2 ~" \1 v& N4 N8 W" mSummary 107
" Z. a9 ?0 K7 ]. {( H1 l, N6 RReferences 108
Chapter 8. Methods for Correction of Power-Quality
" T# C4 `% A; W" q5 D& F: r% LProblems 109
Introduction 109
Correction Methods 110
0 q1 V/ e( }- X2 N. C4 V( A3 nVoltage disturbances versus correction methods 111
  o3 ]0 o; x' \1 cReliability 113
Design of load equipment 115
The design of electric-power supply systems 117
! \  w/ R4 F" A4 j& G* wPower harmonic filters 119
Utilization-dynamic voltage compensators 119
: F0 o* `$ }8 N( D( xUninterruptible power supplies 119
Transformers 120
6 j9 |# i# c) A0 h  vStandby power systems 122
Summary 126
1 Z/ u8 V+ \; j* W9 ^. q! O3 gReferences 126
Chapter 9. Uninterruptible Power Supplies 129
Introduction 129
History 131
0 ^9 f. A7 I! M# z- b8 E: YTypes of UPS Equipment 133
Commercial equipment 134
Energy storage 137
Batteries 138
# k. F) O) V3 G3 c2 o# N4 lFlywheels 139
4 U) _3 N! A0 a; M* Y* F& N- z: lFuel cells 141
1 t: p( s8 u# ~% z( d$ B* a+ D6 tUltracapacitors 144
Summary 145
References 145
3 S4 ]8 {$ A. j1 IChapter 10. Dynamic Voltage Compensators 147
Introduction 147
8 x( C5 f; K; n/ l0 tPrinciple of Operation 148
$ J  A* _9 s$ f, mOperation on ITIC curve 151
Detection of disturbance and control 152
Commercial equipment 153
7 h3 A1 d8 k' }2 YSummary 154
, u# T2 K2 c; z3 r* r1 `References 154
( y6 V# b) ]5 H& e9 L4 a8 b3 ~Chapter 11. Power Quality Events 155
+ k* E( L, U' _) O8 @$ {Introduction 155
Method 1 155
Method 2 156
" B4 z  l: I# u' a8 _! {! LPersonal Computers 156
Power-quality characteristics 157
6 c0 l, `3 _" ]  I1 L7 fModes of malfunction 160
Sensitivity to voltage sags and interruptions 160
Correction measures 162
' h3 _2 Z8 K6 H6 r
! _: A# L! H+ L- N
5 U1 N* Z" H* p0 h/ TCorrection measures 164
AC Contactors and relays 165
2 I! }& F- J' [- _Operation 165
The Impact of Voltage Disturbance 168
& B, x* ~; Z* R5 s: i. X- KCorrection methods 169
Summary 170
References 170
2 C9 [2 c5 l4 }* n3 X, [Chapter 12. Electric Motor Drive Equipment 173
* X4 D& S: V  ]: ^4 fElectric Motors 173
Induction Motors 173
; F6 r' K3 v2 _# b8 m, TOperation 174
6 m  H! a8 F, u  ]" t5 \" FHazards 174
Phenomena 175
Protection 176
Adjustable Speed Drives 177
2 F( H  Y, i( sApplication 178
* H7 E6 ^5 t5 y" ^; V- i$ GVoltage disturbances 180
Voltage unbalance 181
Protective measures 183
Summary 188
References 188
Chapter 13. Standby Power Systems 189
Principles: Standby Power System Design 189
Components to Assemble Standby
Power Systems 190
Sample Standby Power Systems 191
Engine-Generator Sets 194
Standards 195
2 }. R& r% Y# ~+ c3 f. S: ?Component parts of an E/G set installation 196
Transfer switches 198
3 A: g# t9 \! USummary 200
References 200
Chapter 14. Power Quality Measurements 201
/ h, f( i3 X( j( N" OMultimeters 201
Oscilloscopes 202
Current Probes 203
5 k; f) m$ D! }8 T9 l& F# ZSearch Coils 204
5 ?2 d; H# B6 F; ]Power-Quality Meters and Analyzers 205
3 I  w# T0 f, {1 [Current Transformer Analysis in Detail 205
Summary 213
2 n7 A& Q  N& E9 ^( P6 fReferences 213
Index 215

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9 Q% U2 N# }# tAcknowledgments
PSPICE simulations were done using the Microsim Evaluation
! G4 e. |# `* O2 tversion 8.0.
3 r( I  V% P7 TThe authors gratefully acknowledge the cooperation of the IEEE with
regard to figures reprinted from IEEE standards, and with permission
6 O+ {/ `/ [7 E! C- zfrom the IEEE. The IEEE disclaims any responsibility or liability resulting
9 t/ m+ c3 q3 h) z+ _from the placement and use in the described manner.
ALEXANDER KUSKO, SC.D., P.E.
( G3 T$ ^" U0 YMARC T. THOMPSON, PH.D.

2 b* p) J5 l' b1 o! I- s( b   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
. K4 H* |7 A) t% k  Iexperiences.