SIST EN 50526-3:2016

SLOVENSKI STANDARD
oSIST prEN 50526-3:2014
01-junij-2014
äHOH]QLãNHQDSUDYH6WDELOQHQDSUDYHHOHNWULþQHYOHNH(QRVPHUQLSUHQDSHWRVWQL
RGYRGQLNLLQRPHMLOQLNLQDSHWRVWLGHO1DYRGLOR]DXSRUDER
Railway applications - Fixed installations - D.C. surge arresters and voltage limiting
devices - Part 3 Application guide
Ta slovenski standard je istoveten z: prEN 50526-3:2014
ICS:
29.120.50 9DURYDONHLQGUXJD Fuses and other overcurrent
PHGWRNRYQD]DãþLWD protection devices
29.280 (OHNWULþQDYOHþQDRSUHPD Electric traction equipment
oSIST prEN 50526-3:2014 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN 50526-3:2014

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oSIST prEN 50526-3:2014
 DRAFT
EUROPEAN STANDARD
prEN 50526-3

NORME EUROPÉENNE
March 2014
EUROPÄISCHE NORM

ICS


English version


Railway applications -
Fixed installations -
D.C. surge arresters and voltage limiting devices -
Part 3 Application guide



To be completed To be completed



This draft European Standard is submitted to CENELEC members for CENELEC enquiry.
Deadline for CENELEC: 2014-08-22.

It has been drawn up by CLC/SC 9XC.

If this draft becomes a European Standard, CENELEC members are bound to comply with the CEN/CENELEC
Internal Regulations which stipulate the conditions for giving this European Standard the status of a national
standard without any alteration.

This draft European Standard was established by CENELEC in three official versions (English, French, German).
A version in any other language made by translation under the responsibility of a CENELEC member into its own
language and notified to the CEN-CENELEC Management Centre has the same status as the official versions.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus,
the Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany,
Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland,
Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom.

Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of
which they are aware and to provide supporting documentation.

Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to
change without notice and shall not be referred to as a European Standard.


CENELEC
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung

CEN-CENELEC Management Centre: Avenue Marnix 17, B - 1000 Brussels


© 2014 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members.
Project: 23348 Ref. No. prEN 50526-3:2014 E

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oSIST prEN 50526-3:2014
prEN 50526-3:2014 (E)
Content Page
Foreword . 4
Introduction . 5
1 Scope . 6
2 Normative references . 6
3 Terms and definitions. 7
4 General considerations . 13
4.1 General . 13
4.2 Application of surge arresters . 14
4.2.1 General . 14
4.2.2 Insulation level of equipment to be protected . 14
4.2.3 Internal overvoltages . 14
4.2.4 Lightning Overvoltages . 15
4.3 Application of VLDs . 16
4.3.1 General . 16
4.3.2 Short-term protection . 16
4.3.3 Long term protection . 17
4.3.4 Selection of VLD-F or VLD-O . 17
5 Symbols . 17
6 Guideline for Surge Arresters . 18
6.1 General . 18
6.1.1 Electrical characteristics . 18
6.1.2 Housing . 20
6.2 Systems and equipment to be protected by surge arresters . 21
6.3 Nominal discharge current In . 23
6.4 Selection of Continuous Operating Voltage . 24
6.4.1 Continuous operating voltage Uc for arresters A1 . 24
6.4.2 Continuous operating voltage Uc for arresters A2 . 24
6.5 Protective level of A1 and A2 arresters . 25
6.6 Charge transfer capability . 28
6.6.1 General . 28
6.6.2 Typical overvoltages during clearing a line fault . 28
6.6.3 Arrester A1 . 33
6.6.4 Arrester A2 . 34
6.7 Procedure to select an A1 arrester . 35
6.8 Procedure to select an A2 arrester . 39
6.9 Connecting leads of arresters . 39
6.10 Earthing requirements. 39
7 Guideline for VLDs . 40
7.1 Introduction . 40
7.2 General . 41
7.3 Mass transit railways and trams (Un up to 750 V) . 41
7.3.1 General . 41
7.3.2 Trams with OCL . 41
7.3.3 Metros with a conductor rail . 43
7.3.4 Light-rail metros with OCLs . 44
7.4 Railways (1,5 . 3 kV) . 44
7.4.1 General . 44
7.4.2 Application of VLDs along the lines or at the substations and in the sectioning posts . 44
7.4.3 Application of VLD-Os in the workshops . 47
7.4.4 Application of VLD-Fs in the workshops. 47
7.4.5 Recommended characteristics of VLDs . 47
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8 Further considerations . 47
8.1 Installation recommendations . 47
8.1.1 Mounting aspect . 47
8.1.2 Periodicity of inspection and management of alarms . 49
8.1.3 Colours of the cables . 50
8.2 Interaction between arresters and VLDs . 50
8.3 Interaction with other systems (e.g. signalling systems, station earthing systems,
separation of cable screens EN 50122-1 subclause 7.1, tunnel earthing systems) . 50
8.3.1 Interaction with signalling systems . 50
8.3.2 Interaction with earthing systems . 51
8.3.3 Interaction with tunnel earthing systems . 51
8.3.4 Separation of a.c. cable screens . 51
Bibliography . 52

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Foreword
This document (prEN 50526-3:2014) has been prepared by SC 9XC, 'Electric supply and earthing
systems for public transport equipment and ancillary apparatus (Fixed installations)' of Technical
Committee CENELEC TC 9X, 'Electrical and electronic applications for railways'.
This document is currently submitted to the Enquiry.
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prEN 50526-3:2014 (E)
Introduction
This European Standard is in three parts.
Part 1 deals with metal oxide arresters without gaps for d.c. railway traction systems (fixed installations)
and is based on EN 60099-4.
Part 2 deals with voltage limiting devices for specific use in d.c. railway traction systems (fixed
installations).
Part 3 is a Guide of application of metal-oxide arresters and of voltage limiting devices.
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1 Scope
This Application Guide supports the European Standards EN 50526-1 and EN 50526-2.
Guidance is offered on the following subjects.
– The selection and installation of surge arresters
– The selection and installation of voltage limiting devices as VLD-O and VLD-F.
– The arrangement of the surge arresters and VLDs
Because of differences in the established, proven methods, electric traction systems of nominal voltage
600 V – 750 V are treated separately from the systems at higher nominal voltages.
This application guide does not treat systems different from the d.c. electrified traction systems
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.
EN 50122-1:2011, Railway applications – Fixed installations – Electrical safety, earthing and bonding –
Part 1: Protective provisions against electric shock
EN 50122-2, Railway applications – Fixed installations – Electrical safety, earthing and bonding – Part2:
Provisions against the effects of stray currents caused by d.c.traction systems
EN 50123-2:2003, Railway applications - Fixed installations - D.C. switchgear - Part 2: D.C. circuit
breakers
EN 50123-7-1:2003, Railway applications – Fixed installations – Part 7-1: Measurement, control and
protection devices for specific use in d.c. traction systems – Application guide
EN 50124-1:2001, Railway applications – Insulation coordination – Part 1: Basic requirements –
Clearances and creepage distances for all electrical and electronic equipment
EN 50163: 2004, Railway applications – Supply voltages of traction systems
EN 50526-1:2012, Railway applications – Fixed installations – D.C. surge arresters and voltage limiting
devices – Part 1: Surge arresters
1
prEN 50526-2:201X , Railway applications – Fixed installations – D.C. surge arresters and voltage
limiting devices – Part 2: Voltage limiting devices
EN 62305-2, Protection against lightning – Part 2: Risk management
IEC 60050-195:1998, International Electrotechnical Vocabulary - Chapter 195: Earthing and protection
against electric shock
IEC 60050-441:1984, International Electrotechnical Vocabulary - Chapter 441: Switchgear, controlgear
and fuses

1
under preparation
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IEC 60050-604:1987, International Electrotechnical Vocabulary. Chapter 604: Generation, transmission
and distribution of electricity - Operation
IEC 60050-811:1991, International Electrotechnical Vocabulary - Chapter 811: Electric traction
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
nominal voltage
U
n
designated value for a system
[SOURCE: EN 50163:2004,3.3]
3.2
highest permanent voltage
U
max1
maximum value of the voltage likely to be present indefinitely
[SOURCE: EN 50163:2004,3.4]
3.3
highest non-permanent voltage
U
max2
maximum value of the voltage likely to be present for a limited period of time
Adapted from EN 50163:2004, 3.5
3.4
rated insulation voltage
U
Nm
d.c withstand voltage value assigned by the manufacturer to the equipment or a part of it, characterising
the specified permanent (over five minutes) withstand capability of its insulation
[SOURCE: EN 50526-1:2012, 3.4]
3.5
rated impulse withstand voltage
U
Ni
impulse voltage value assigned by the manufacturer to the equipment or a part of it, characterising the
specified withstand capability of its insulation against transient overvoltages
[SOURCE: EN 50526-1:2012, 3.5]
3.6
overvoltage
voltage having a peak value exceeding the corresponding peak value of the highest non-permanent
voltage U
max2
[SOURCE: EN 50526-1:2012, 3.6]
3.7
transient overvoltage
short duration overvoltage of a few (up to 20 ms) milliseconds or less associated with a transient regime.
Two particular transient overvoltages are defined: switching overvoltage and lightning overvoltage
[SOURCE: EN 50526-1:2012, 3.7]
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3.8
switching overvoltage
U
so
transient overvoltage at any point of the system due to specific switching operation or fault
[SOURCE: EN 50526-1:2012, 3.8]
3.9
lightning overvoltage
transient overvoltage at any point of the system due to a lightning discharge
[SOURCE: EN 50124-1:2001,1.3.3.2.2]
3.10
surge arrester
device intended to limit the transient overvoltages to a specified level
[SOURCE: EN 50526-1:2012, 3.10]
3.11
metal-oxide surge arrester
arrester having non-linear metal-oxide resistors connected in series and/or in parallel without any
integrated series or parallel spark gaps
[SOURCE: EN 50526-1:2012, 3.11]
3.12
continuous operating voltage of an arrester
U
c
designated permissible d.c. voltage value that may be applied continuously between the arrester
terminals
[SOURCE: EN 50526-1:2012, 3.12]
3.13
rated voltage of an arrester
U
r
voltage by which the arrester is designated
Note 1 to entry: Because of the particular nature of the d.c. electrical installation dealt with, the rated voltage of a
d.c. arrester coincides with the continuous operating voltage.
[SOURCE: EN 50526-1:2012, 3.13]
3.14
lightning impulse protection level
U
pl
the maximum residual voltage for the nominal discharge current;
[SOURCE: EN 50526-1:2012, 3.15]
3.15
switching impulse protection level
U
ps
maximum residual voltage at the specified switching impulse current
[SOURCE: EN 50526-1:2012, 3.16]
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3.16
charge transfer capability
Q
T
maximum charge per impulse that can be transferred during the charge transfer test and during the
operating duty test
[SOURCE: EN 50526-1:2012, 3.17]
3.17
discharge current of an arrester
impulse current which flows through the arrester
[SOURCE: EN 50526-1:2012, 3.18]
3.18
nominal discharge current of an arrester
I
n
peak value of lightning current impulse which is used to classify an arrester
[SOURCE: EN 50526-1:2012, 3.19]
3.19
high current impulse of an arrester
peak value of discharge current having a 4/10 µs impulse shape which is used to test the stability of the
arrester on direct lightning strokes
[SOURCE: EN 50526-1:2012, 3.20]
3.20
steep current impulse
current impulse with a virtual front time of 1 µs with limits in the adjustment of equipment such that the
measured values are from 0,9 µs to 1,1 µs and the virtual time to half-value on the tail is not longer than
20 µs
[SOURCE: EN 50526-1:2012, 3.21]
3.21
lightning current impulse
8/20 µs current impulse with limits on the adjustment of equipment such that the measured values are
from 7 µs to 9 µs for the virtual front time and from 18 µs to 22 µs for the time to half-value on the tail
[SOURCE: EN 50526-1:2012, 3.22]
3.22
direct lightning current impulse
impulse defined by the charge Q and the peak value of the current impulse I
imp
[SOURCE: EN 50526-1:2012, 3.23]
3.23
switching current impulse of an arrester
I
sw
peak value of discharge current having a virtual front time greater than 30 µs but less than 100 µs and a
virtual time to half value on the tail of roughly twice the virtual front time
[SOURCE: EN 50526-1:2012, 3.24]
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3.24
porcelain-housed arrester
arrester using porcelain as housing material, with fittings and sealing systems
[SOURCE: EN 50526-1:2012, 3.30]
3.25
polymer-housed arrester
arrester using polymeric and/or composite materials for housing
[SOURCE: EN 50526-1:2012, 3.31]
3.26
flashover
disruptive discharge over a solid surface
[SOURCE: EN 50526-1:2012, 3.44]
3.27
impulse
unidirectional wave of voltage or current which without appreciable oscillations rises rapidly to a
maximum value and falls – usually less rapidly – to zero with small, if any, excursions of opposite
polarity
Note 1 to entry: The parameters which define a voltage or current impulse are polarity, peak value, front time and
time to half value on the tail.
[SOURCE: EN 50526-1:2012, 3.45]
3.28
voltage-limiting device
VLD
protective device whose function is to prevent existence of an impermissible high touch voltage
[SOURCE: EN 50122-1:2011, 3.1.20]
3.29
recoverable VLD
VLD that recovers after triggering
[SOURCE: prEN 50526-2 201X, 3.2]
3.30
non-recoverable VLD
VLD remaining in its low resistance state permanently after triggering
[SOURCE: prEN 50526-2:201X, 3.3]
3.31
Welding-shut spark gap
voltage fuse
VLD which triggers by electrical discharge across a gap causing a permanent short-circuit by melting of
metallic parts
[SOURCE: prEN 50526-2:201X, 3.4]
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3.32
rated current
I
r
maximum value of the direct current that may flow permanently through the VLD in specified
environmental conditions
[SOURCE: prEN 50526-2:201X, 3.5]
3.33
short time withstand current
I
W
current that a VLD can carry in closed status, during a specified short time under prescribed conditions
of use and behaviour
[SOURCE: prEN 50526-2:201X, 3.6]
3.34
breaking capacity
maximum current that a recoverable VLD can interrupt at a stated voltage
[SOURCE: IEC 60050441:1984,17-08]
3.35
residual voltage
U
res
a) peak value of voltage that appears between the terminals of an arrester during the passage of
discharge current
b) value of voltage that appears between the terminals of the VLD during the passage of a specified
current
[SOURCE: EN 50526-1:2012, 3.27] and [SOURCE: prEN 50526-2:201X, 3.17]
3.36
structure earth
construction made of metallic parts or construction including interconnected metallic structural parts,
which can be used as an earth electrode
[SOURCE: EN 50122-1:2011, 3.2.4]
3.37
open connection
connection of conductive parts to the return circuit by a voltage-limiting device which makes a
conductive connection either temporarily or permanently if the limited value of the voltage is exceeded
[SOURCE: EN 50122-1:2011, 3.2.12]
3.38
return circuit
all conductors which form the intended path for the traction return current
EXAMPLE Conductors may be:
– running rails,
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– return conductor rails,
– return conductors,
– return cables.
[SOURCE: EN 50122-1:2011, 3.3.1]
3.39
rail potential
U
RE
voltage occurring between running rails and earth
[SOURCE: EN 50122-1:2011, 3.3.7]
3.40
(traction) substation
installation to supply a contact line system and at which the voltage of a primary supply system, and in
certain cases the frequency, is transformed to the voltage and the frequency of the contact line
[SOURCE: EN 50122-1:2011, 3.4.2]
3.41
(traction) switching station
installation from which electrical energy can be distributed to different feeding sections or from which
different feeding sections can be switched on and off or can be interconnected
[SOURCE: EN 50122-1:2011, 3.4.3]
3.42
Normal operation
operation without fault condition on the line
Note 1 to entry: In this standard normal operation includes also degraded mode (loss of one or several substations)
3.43
fault (or fault condition)
non intended condition caused by short-circuit. The time duration is terminated by the correct function of
the protection devices and circuit breakers
Note 1 to entry: For the relevant fault duration the correct operation of protection devices and circuit breakers is
taken into account.
Adapted from EN 50122-12011, 3.4.5
3.44
internal overvoltage
an overvoltage in the system resulting from switching or from a fault in the system itself
[SOURCE: IEC 60050-604:1987, 03-31]
3.45
short-circuit
accidental or intentional conductive path between two or more conductive parts forcing the electric
potential differences between these conductive parts to be equal to or close to zero
[SOURCE: IEC 60050-195:1998,04-11]
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3.46
stray current
part of the current caused by a d.c.-traction system which follows paths other than the return circuit
Adapted from EN 50122-1:2011, 3.6.3
3.47
overhead contact line
OCL
contact line placed above (or beside) the upper limit of the vehicle gauge and supplying vehicles with
electric energy through roof-mounted current collection equipment
[SOURCE: IEC 60050-811:1991, 33-02]
3.48
conductor rail
contact line made of a rigid metallic section or rail, mounted on insulators located near the running rails
[SOURCE: EN 50119:2009, 3.1.7]
3.49
overhead contact line zone
OCLZ
zone whose limits are in general not exceeded by a broken overhead contact line
[SOURCE: EN 50122-1:2011, 3.5.9]
3.50
current collector zone
CCZ
zone whose limits are in general not exceeded by an energized collector no longer in contact with the
contact line or broken collector and its fragments
[SOURCE: EN 50122-1:2011, 3.5.10]
4 General considerations
4.1 General
Surge arresters are intended to protect power equipment from the lightning overvoltages. A surge
arrester can be used also in order to protect electronic equipment against high transient voltages in the
circuits to which the equipment is connected. See EN 50526-1 for the product specification.
VLDs are intended to protect persons from impermissible touch voltages between conductive parts
caused by train operating currents or faults. When selecting a VLD, it should be considered whether the
required function is VLD-F, or VLD-O or both as described in EN 50122-1. This is a question for the
system design. See prEN 50526-2 for the product specification.
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4.2 Application of surge arresters
4.2.1 General
The contact lines of electric railways are exposed to direct and to indirect lightning overvoltages. These
overvoltages may cause flashover of the line insulation and, travelling along the lines, may enter the
supply substations and stress the insulation of the equipment inside. As a consequence, the
overvoltages that may reach the substations and stress the internal insulation are limited to the
insulation level of the contact line. Overvoltages may also appear on the track and, travelling along it,
stress the insulation of the electronic equipment connected to it.
The insulation of the substation equipment is critical, as flashover of such insulation in most cases
causes a permanent outage of the substation. Also the insulation of the equipment connected to the
track is critical as it is not self-restoring. Such equipment should be protected by surge arresters of such
characteristics as to reduce the overvoltages below its insulation level.
Flashover of the line insulation is in general non critical as, after clearing of the fault by the line
protective circuit breakers, the insulation, in most cases, self-restores and the line can be re-energized
after a short time (a few seconds) following the tripping. Therefore, line insulation does not require to be
protected by surge arresters except in special cases: e.g. cable terminations connected to the line,
discontinuities along the line in regions with a very high flash density, very high short circuit follow-
through currents able to damage the insulators, etc.
In order to protect the insulation it is necessary to coordinate properly the characteristics of the
protecting surge arresters with those of the protected insulation. For this purpose the following
information is mainly necessary:
– Lightning impulse withstand level of the equipment to be protected;
– Characteristics of the lightning overvoltages;
– Protection level of the arrester;
– Charge transfer capability of the arrester.
The prote
...