IEC TR 60909-1:2002
Current
The latest, up-to-date edition.
Short-circuit currents in three-phase a.c. systems - Part 1: Factors for the calculation of short-circuit currents according to IEC 60909-0
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31-07-2002
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FOREWORD
1 General
1.1 Scope and object
1.2 Reference documents
1.3 Application of the factors
1.3.1 Factor [c]
1.3.2 Factors K[G] and K[S] or K[SO]
1.3.3 Factors K[G,S], K[T,S] or K[G,SO], K[T,SO]
1.3.4 Factor K[T]
1.3.5 Factor [kappa]
1.3.6 Factors [mu], [lambda] and [q]
1.3.7 Factors [m] and [n]
1.3.8 Contribution of asynchronous motors to the
initial symmetrical short-circuit current
1.4 Symbols, subscripts and superscripts
1.4.1 Symbols
1.4.2 Subscripts
1.4.3 Superscripts
2 Factors used in IEC 60909-0
2.1 Voltage factor [c] for the equivalent voltage source
at the short-circuit location
2.1.1 General
2.1.2 Calculation methods
2.1.3 Equivalent voltage source at the short-circuit
location and voltage factor [c]
2.1.4 A simple model illustrating the meaning of the
voltage factor [c]
2.2 Impedance-correction factors when calculating the
short-circuit impedances of generators, unit
transformers and power-station units
2.2.1 General
2.2.2 Correction factor K[G]
2.2.3 Correction factors for power station units with
on-load tap changer
2.2.4 Correction factors for power station units
without on-load tap-changer
2.2.5 Influence of the impedance correction factor for
power-station units when calculating short-circuit
currents in meshed networks and maximum
short-circuit currents at worst-case load flow
2.3 Impedance correction factor K[T] when calculating the
short-circuit impedances of network transformers
2.3.1 General
2.3.2 Example for a network transformer S[rT] = 300 MVA
2.3.3 Statistical examination of 150 network transformers
2.3.4 Impedance correction factors for network
transformers in meshed networks
2.4 Factor [kappa] for the calculation of the peak
short-circuit current
2.4.1 General
2.4.2 Factor [kappa] in series R-L-circuits
2.4.3 Factor [kappa] of parallel R-L-Z branches
2.4.4 Calculation of the peak short-circuit current I[p]
in meshed networks
2.4.5 Example for the calculation of [kappa] and I[p] in
meshed networks
2.5 Factor [mu] for the calculation of the symmetrical
short-circuit breaking current
2.5.1 General
2.5.2 Basic concept
2.5.3 Calculation of the symmetrical short-circuit
breaking current I[b] with the factor [mu]
2.6 Factor [lambda] (lambda[max], lambda[min]) for the
calculation of the steady-state short-circuit current
2.6.1 General
2.6.2 Influence of iron saturation
2.7 Factor [q] for the calculation of the short-circuit
breaking current of asynchronous motors
2.7.1 General
2.7.2 Derivation of factor [q]
2.7.3 Short-circuit breaking currents in the case of
unbalanced short circuits
2.8 Factors [m] and [n] for the calculation of the Joule
integral or the thermal equivalent short-circuit current
2.8.1 General
2.8.2 Time-dependent three-phase short-circuit current
2.8.3 Factor [m]
2.8.4 Factor [n]
2.8.5 Factor [n] in IEC 60909-0, figure 22
2.9 Statement of the contribution of asynchronous motors or
groups of asynchronous motors (equivalent motors) to the
initial symmetrical short-circuit current
2.9.1 General
2.9.2 Short circuit at the terminals of asynchronous
motors
2.9.3 Partial short-circuit currents of asynchronous
motors fed through transformers
2.9.4 Sum of partial short-circuit currents of several
groups of asynchronous motors fed through several
transformers
Bibliography
Figures
Tables
Applies to short-circuit currents in three-phase a.c. systems. This technical report aims at showing the origin and the application, as far as necessary, of the factors used to meet the demands of technical precision and simplicity when calculating short-circuit currents according to IEC 60909-0.
| DevelopmentNote |
To be read in conjunction with IEC 60909-0. (08/2002) Also numbered as BS PD7639-1(1994). (08/2005) Stability Date: 2018. (10/2012)
|
| DocumentType |
Technical Report
|
| Pages |
161
|
| PublisherName |
International Electrotechnical Committee
|
| Status |
Current
|
| Standards | Relationship |
| PD IEC TR 60909-1:2002 | Identical |
| UNE 21239-1:2005 IN | Identical |
| NEN NPR IEC/TR 60909-1 : 2002 | Identical |
| VDE 0102 Beiblatt 3:2003-07 | Identical |
| DIN EN 60909-0 Beiblatt 3:2003-07 | Identical |
| DIN EN 60909-0 Beiblatt 3:2003-07 | Corresponds |
| BS IEC 60092-202:2016 | Electrical installations in ships System design. Protection |
| CEI EN 60027-7 : 2011 | LETTER SYMBOLS TO BE USED IN ELECTRICAL TECHNOLOGY - PART 7: POWER GENERATION, TRANSMISSION AND DISTRIBUTION |
| IEC TR 60909-2:2008 | Short-circuit currents in three-phase a.c. systems - Part 2: Data of electrical equipment for short-circuit current calculations |
| BS EN 60027-7:2010 | Letter symbols to be used in electrical technology Power generation, transmission and distribution |
| CEI 14-4/8 : 2001 | POWER TRANSFORMERS - APPLICATION GUIDE |
| EN 62271-1:2017 | High-voltage switchgear and controlgear - Part 1: Common specifications for alternating current switchgear and controlgear |
| IEC 61230:2008 | Live working - Portable equipment for earthing or earthing and short-circuiting |
| EN 60909-0:2016 | Short-circuit currents in three-phase a.c. systems - Part 0: Calculation of currents |
| EN 61230:2008 | LIVE WORKING - PORTABLE EQUIPMENT FOR EARTHING OR EARTHING AND SHORT-CIRCUITING |
| BS IEC 60076-8:1997 | Power transformers Application guide |
| 08/30140577 DC : DRAFT JULY 2008 | BS EN 60027-7 - LETTER SYMBOLS TO BE USED IN ELECTRICAL TECHNOLOGY - PART 7: POWER GENERATION, TRANSMISSION AND DISTRIBUTION |
| 12/30270636 DC : 0 | BS EN 60909-0 - SHORT-CIRCUIT CURRENTS IN THREE-PHASE A.C. SYSTEMS - PART 0: CALCULATION OF CURRENTS |
| IEC 60204-1:2016 | Safety of machinery - Electrical equipment of machines - Part 1: General requirements |
| CEI 18-63 : 2013 | MOBILE AND FIXED OFFSHORE UNITS - ELECTRICAL INSTALLATIONS - PART 2: SYSTEM DESIGN |
| UNE-IEC/TR 60909-2:2010 IN | Short-circuit currents in three-phase a.c. systems - Part 2: Data of electrical equipment for short-circuit current calculations |
| PD IEC/TR 60909-2:2008 | Short-circuit currents in three-phase a.c. systems Data of electrical equipment for short-circuit current calculations |
| IEC TR 60909-4:2000 | Short-circuit currents in three-phase a.c. systems - Part 4: Examples for the calculation of short-circuit currents |
| BS EN 62271-1:2017 | High-voltage switchgear and controlgear Common specifications for alternating current switchgear and controlgear |
| I.S. EN 61230:2008 | LIVE WORKING - PORTABLE EQUIPMENT FOR EARTHING OR EARTHING AND SHORT-CIRCUITING |
| BIS IS/IEC 62271-1 : 2007 | HIGH-VOLTAGE SWITCHGEAR AND CONTROLGEAR - PART 1: COMMON SPECIFICATIONS |
| IEC 61892-2:2012 | Mobile and fixed offshore units - Electrical installations - Part 2: System design |
| IEC 62271-1:2017 | High-voltage switchgear and controlgear - Part 1: Common specifications for alternating current switchgear and controlgear |
| IEC 60092-202:2016 RLV | Electrical installations in ships - Part 202: System design - Protection |
| 15/30290209 DC : 0 | BS IEC 60092-202 ED 5.0 - ELECTRICAL INSTALLATIONS IN SHIPS - PART 202: SYSTEM DESIGN - PROTECTION |
| BS EN 61230:2008 | Live working. Portable equipment for earthing or earthing and short-circuiting |
| 08/30186863 DC : DRAFT JULY 2008 | BS EN ISO 4414 - PNEUMATIC FLUID POWER - GENERAL RULES AND SAFETY REQUIREMENTS FOR SYSTEMS AND THEIR COMPONENTS |
| BS EN 60909-0:2016 | Short-circuit currents in three-phase a.c. systems Calculation of currents |
| I.S. EN 62271-1:2017 | HIGH-VOLTAGE SWITCHGEAR AND CONTROLGEAR - PART 1: COMMON SPECIFICATIONS FOR ALTERNATING CURRENT SWITCHGEAR AND CONTROLGEAR |
| I.S. EN 60027-7:2010 | LETTER SYMBOLS TO BE USED IN ELECTRICAL TECHNOLOGY - PART 7: POWER GENERATION, TRANSMISSION AND DISTRIBUTION |
| IEC 60076-8:1997 | Power transformers - Part 8: Application guide |
| I.S. EN 60909-0:2016 | SHORT-CIRCUIT CURRENTS IN THREE-PHASE A.C. SYSTEMS - PART 0: CALCULATION OF CURRENTS |
| IEC 60092-202:2016 | Electrical installations in ships - Part 202: System design - Protection |
| IEC 60027-7:2010 | Letter symbols to be used in electrical technology - Part 7: Power generation, transmission and distribution |
| 15/30265353 DC : 0 | BS EN 62271-1 ED 2 - HIGH-VOLTAGE SWITCHGEAR AND CONTROLGEAR - PART 1: COMMON SPECIFICATIONS FOR ALTERNATING CURRENT SWITCHGEAR AND CONTROLGEAR |
| ENA ER G83/2 : ISSUE 2 2012 | RECOMMENDATIONS FOR THE CONNECTION OF TYPE TESTED SMALL-SCALE EMBEDDED GENERATORS (UP TO 16A PER PHASE) IN PARALLEL WITH LOW-VOLTAGE DISTRIBUTION SYSTEMS |
| UNE-EN 61230:2011 | Live working - Portable equipment for earthing or earthing and short-circuiting |
| BS IEC 61892-2:2012 | Mobile and fixed offshore units. Electrical installations System design |
| EN 60027-7:2010 | Letter symbols to be used in electrical technology - Part 7: Power generation, transmission and distribution |
| IEC 60038:2009 | IEC standard voltages |
| IEC 60909-3:2009 | Short-circuit currents in three-phase AC systems - Part 3: Currents during two separate simultaneous line-to-earth short circuits and partial short-circuit currents flowing through earth |
| IEC 60909-0:2016 | Short-circuit currents in three-phase a.c. systems - Part 0: Calculation of currents |
| IEC 60865-1:2011 | Short-circuit currents - Calculation of effects - Part 1: Definitions and calculation methods |
| IEC 60909:1988 | Short-circuit current calculation in three-phase a.c. systems |
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