IEC PAS 62271-109:2002
(Main)High-voltage switchgear and controlgear - Part 109: Alternating-current series capacitor by-pass switches
High-voltage switchgear and controlgear - Part 109: Alternating-current series capacitor by-pass switches
Is applicable to a.c. series capacitor by-pass switches designed for outdoor installation and for operation at frequencies of 50 Hz and 60 Hz on systems having voltages above 1 000 V. It is only applicable to by-pass switches for use in three-phase systems. This specification is also applicable to the operating devices of by-pass switches and to their auxiliary equipment. This specification does not cover vacuum by-pass switches.
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IEC/PAS 62271-109
Edition 1.0
2002-07
High-voltage switchgear and controlgear –
Part 109:
Alternating-current series capacitor
by-pass switches
PUBLICLY AVAILABLE SPECIFICATION
INTERNATIONAL Reference number
ELECTROTECHNICAL
IEC/PAS 62271-109
COMMISSION
IEC/PAS 62271-109
Edition 1.0
2002-07
High-voltage switchgear and controlgear –
Part 109:
Alternating-current series capacitor
by-pass switches
PUBLICLY AVAILABLE SPECIFICATION
INTERNATIONAL Reference number
ELECTROTECHNICAL
IEC/PAS 62271-109
COMMISSION
– 2 – Copyright © 2002, IEC
CONTENTS
FOREWORD .5
1 General.7
1.1 Scope .7
1.2 Normative references .7
2 Normal and special service conditions.8
3 Definitions .8
3.1 General terms .8
3.2 Assemblies.10
3.3 Parts of assemblies .10
3.4 Switching devices .10
3.5 Parts of by-pass switches .11
3.6 Operation .12
3.7 Characteristic quantities .14
3.8 Definitions related to series capacitor banks.18
3.9 Index of definitions .20
4 Ratings .23
4.1 Rated voltage (U ) .23
r
4.2 Rated insulation level .23
4.3 Rated frequency (f ).24
r
4.4 Rated normal current (I ) and temperature rise.24
r
4.5 Rated short-time withstand current (I ) .24
k
4.6 Rated peak withstand current (I ) .24
p
4.7 Rated duration of short circuit (t ) .24
k
4.8 Rated supply voltage of closing and opening devices and of auxiliary and
control circuits (U ) .24
a
4.9 Rated supply frequency of closing and opening devices and auxiliary circuits .24
4.10 Rated pressures of compressed gas supply for insulation, operation and/or
by-passing and insertion .24
5 Design and construction .26
5.1 Requirements for liquids in by-pass switches .26
5.2 Requirements for gases in by-pass switches .27
5.3 Earthing of by-pass switches .27
5.4 Auxiliary equipment .27
5.5 Dependent power operation .28
5.6 Stored energy operation .28
5.7 Independent manual operation.28
5.8 Operation of releases .28
5.9 Low- and high-pressure interlocking devices .28
5.10 Nameplates .28
5.11 Interlocking devices .30
5.12 Position indication .30
5.13 Degrees of protection by enclosures .30
5.14 Creepage distances.30
5.15 Gas and vacuum tightness.30
5.16 Liquid tightness .30
5.17 Flammability.30
5.18 Electromagnetic compatibility.30
6 Type tests .31
6.1 General .32
6.1.1 Grouping of tests .32
6.1.2 Information for identification of specimens .32
6.1.3 Information to be included in type test reports.32
6.2 Dielectric tests.32
6.2.1 Ambient air conditions during tests .32
6.2.2 Wet test procedure.32
6.2.3 Condition of by-pass switch during dielectric tests .33
6.2.4 Criteria to pass the test .33
6.2.5 Application of test voltage and test conditions.33
6.2.6 Tests of by-pass switches of U ≤ 245 kV or U ≤ 245 kV.33
re rp
6.2.7 Tests of by-pass switches of U > 245 kV or U > 245 kV .33
re rp
6.2.8 Artificial pollution tests .34
6.2.9 Partial discharge tests.34
6.2.10 Tests on auxiliary and control circuits .34
6.2.11 Voltage test as a condition check .34
6.3 Radio interference voltage (r.i.v.) tests.35
6.4 Measurement of the resistance of the main circuit .35
6.5 Temperature-rise tests.35
6.5.1 Conditions of the by-pass switch to be tested .35
6.5.2 Arrangement of the equipment .35
6.5.3 Measurement of the temperature and the temperature rise.35
6.5.4 Ambient air temperature.36
6.5.5 Temperature-rise tests of the auxiliary and control equipment .36
6.5.6 Interpretation of the temperature-rise tests .36
6.6 Short-time withstand current and peak withstand current tests .36
6.6.1 Arrangement of the by-pass switch and of the test circuit .36
6.6.2 Test current and duration .36
6.6.3 Behaviour of the by-pass switch during test .36
6.6.4 Conditions of the by-pass switch after test.36
6.7 Verification of the degree of protection.36
6.7.1 Verification of the IP coding.36
6.7.2 Mechanical impact test.36
6.8 Tightness tests .36
6.9 Electromagnetic compatibility (EMC) tests.36
7 Routine tests .57
7.1 Dielectric test on the main circuit .57
7.2 Dielectric test on auxiliary and control circuits .57
7.3 Measurement of the resistance of the main circuit .57
7.4 Tightness test.57
7.5 Design and visual checks.57
8 Guide to the selection of by-pass switches for service .59
9 Information to be given with enquiries, tenders and orders .59
10 Rules for transport, storage, installation, operation and maintenance.62
10.1 Conditions during transport, storage and installation.62
10.2 Installation .62
10.3 Operation .68
10.4 Maintenance.68
11 Safety .68
– 4 – Copyright © 2002, IEC
Annex A (normative) Tolerances on test quantities during type tests .83
Annex B (normative) Records and reports of type tests.87
B.1 Information and results to be recorded .87
B.2 Information to be included in type test reports .87
B.2.1 General .87
B.2.2 Apparatus tested.87
B.2.3 Rated characteristics of by-pass switch, including its operating
devices and auxiliary equipment.87
B.2.4 Test conditions (for each series of tests; if applicable) .87
B.2.5 Short-time withstand current and peak withstand current test .88
B.2.6 No-load operation .88
B.2.7 By-pass making current test-duty .88
B.2.8 Insertion current test-duty .88
B.2.9 Oscillographic and other records .88
Annex C (informative) List of symbols and abbreviations used .90
Figure 1 – By-pass switch; Opening and closing operations70
Figure 2 – By-pass switch – Close-Open cycle .71
Figure 3 – By-pass switch – Open-Close cycle .72
Figure 4 – Test sequences for low and high temperature tests .73
Figure 5 – Static terminal load forces .74
Figure 6 – Directions for static terminal load tests .75
Figure 7a – Reference mechanical travel characteristics (idealised curve) .76
Figure 7b – Reference mechanical travel characteristics (idealised curve) with the
prescribed envelopes centered over the reference curve (+5 %, –5 %), contact
separation in this example at time t = 20 ms .76
Figure 7c – Reference mechanical travel characteristics (idealised curve) with the
prescribed envelopes fully displaced upward from the reference curve (+10 %, –0 %),
contact separation in this example at time t = 20 ms .77
Figure 7d – Reference mechanical travel characteristics (idealised curve) with the
prescribed envelopes fully displaced downward
...
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