SIST EN 50153:2014

SLOVENSKI STANDARD
SIST EN 50153:2014
01-julij-2014
äHOH]QLãNHQDSUDYH9R]QDVUHGVWYD=DãþLWQLXNUHSLSURWLQHYDUQRVWLPHOHNWULþQH
QDSHWRVWL
Railway applications - Rolling stock - Protective provisions relating to electrical hazards
Bahnanwendungen - Fahrzeuge - Schutzmaßnahmen in Bezug auf elektrische Gefahren
Applications ferroviaires - Matériel roulant - Mesures de protection vis-à-vis des dangers
d'origine électrique
Ta slovenski standard je istoveten z: EN 50153:2014
ICS:
13.260 9DUVWYRSUHGHOHNWULþQLP Protection against electric
XGDURP'HORSRGQDSHWRVWMR shock. Live working
45.060.01 Železniška vozila na splošno Railway rolling stock in
general
SIST EN 50153:2014 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 50153:2014

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SIST EN 50153:2014

EUROPEAN STANDARD EN 50153

NORME EUROPÉENNE

EUROPÄISCHE NORM
May 2014
ICS 45.060.01 Supersedes EN 50153:2002
English Version
Railway applications - Rolling stock - Protective provisions
relating to electrical hazards
Applications ferroviaires - Matériel roulant - Mesures de Bahnanwendungen - Fahrzeuge - Schutzmaßnahmen in
protection vis-à-vis des dangers d'origine électrique Bezug auf elektrische Gefahren
This European Standard was approved by CENELEC on 2014-03-10. 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.
Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN-CENELEC
Management Centre or to any CENELEC member.
This European Standard exists 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.



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.
 Ref. No. EN 50153:2014 E

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Contents
Foreword . 4
Introduction . 5
1 Scope . 6
2 Normative references . 6
3 Terms, definitions and abbreviations . 7
3.1 Terms and definitions . 7
3.2 Abbreviations . 10
4 Classification of voltage bands . 10
4.1 General principles . 10
4.2 Connections between circuits . 11
4.3 Exceptions . 11
5 Protective provisions against direct contact . 12
5.1 General . 12
5.2 Protection by insulation . 12
5.3 Protection by prevention of access . 12
5.4 Protection by the use of band I . 14
5.5 Warning labels . 15
6 Protective provisions against indirect contact . 15
6.1 General . 15
6.2 Protective bonding . 15
6.3 Disconnection of the supply . 16
6.4 Main protective bonding . 16
6.5 Clarifications and exceptions with reference to indirect contact . 18
6.6 Additional requirements – Bearings . 19
7 Power circuit . 19
7.1 General principles . 19
7.2 Power circuit insulated from the vehicle body or bogie . 20
7.3 Power circuit using the vehicle body or bogie . 20
8 Additional requirements . 20
8.1 General . 20
8.2 Current collectors. 20
8.3 Capacitors . 21
8.4 Plug and socket devices . 21
8.5 Special sources . 22
Annex A (normative) Special national conditions . 23
Annex B (normative) List of items where contracting parties shall co-operate . 24
Annex C (informative) Proposals for design of main protective connections . 25
C.1 General . 25
C.2 Example for main earth connections . 26
C.3 Examples of technical specification for steel earthing wires. 27
Annex D (informative) Operate over 750 V DC third rail electrified lines in Great Britain . 28
D.1 Introduction . 28
D.2 Bonding between rail vehicle main body to bogie . 28
D.3 Inter-vehicle bonding . 28

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Bibliography . 29

Figure
Figure C.1 — Earthing wire . 26

Tables
Table 1 – Voltage bands . 11
Table 2 — Maximum impedance between each vehicle body of a unit and protective conductor of
the fixed installation . 17

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Foreword
This document (EN 50513:2014) has been prepared by CLC/SC 9XB "Electromechanical material on
board rolling stock" from CLC/TC 9X "Electrical and electronic applications for railways".
The following dates are fixed:
(dop) 2015-03-10
• latest date by which this document has
to be implemented at national level by
publication of an identical national
standard or by endorsement
(dow) 2017-03-10
• latest date by which the national
standards conflicting with this
document have to be withdrawn

This document supersedes EN 50153:2002.
EN 50153:2013 includes the following significant technical changes with respect to EN 50153:2002:
– the document now takes into account EN 50122-1:2011 and UIC leaflet 533:2011;
– other normative references and some definitions have been updated;
– Annex D has been added, Annex C has been changed.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC [and/or CEN] shall not be held responsible for identifying any or all such
patent rights.
This document has been prepared under a mandate given to CENELEC by the European Commission
and the European Free Trade Association.

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Introduction
It is generally accepted that safety depends on human factors, based on the normal behaviour of the
operators involved, as well as upon technical factors.
For these reasons, this European Standard, in several instances, leaves a choice to the contracting
parties between two alternatives. These alternatives consist of either the provision of operating rules,
regulations and procedures, or in the application of technical measures such as mechanical or
electrical interlocking devices.
A list of the cases for which the contracting parties (e.g. user and manufacturer) should reach
agreement before signing the contract is included in Annex B.

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1 Scope
This European Standard defines requirements to be applied in the design and manufacture of electrical
installations and equipment to be used on rolling stock to protect persons from electric shocks.
This European Standard is applicable to rolling stock of rail transport systems, road transport systems,
if they are powered by an external supply (e.g. trolley buses), magnetically levitated transport systems
and to the electrical equipment installed in these systems.
This European Standard does not apply to:
– mine railways in mines,
– crane installations, moving platforms and similar transport systems on rails,
– funicular railways,
– temporary constructions.
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.
1)
EN 50122-1:2011 , Railway applications — Fixed installations — Electrical safety, earthing and the
return circuit — Part 1: Protective provisions against electric shock
EN 50124-1, Railway applications –Insulation coordination — Part 1: Basic requirements —
Clearances and creepage distances for all electrical and electronic equipment
EN 50388, Railway applications — Power supply and rolling stock — Technical criteria for the
coordination between power supply (substation) and rolling stock to achieve interoperability
HD 60364-4-41:2007, Low-voltage electrical installations — Part 4-41: Protection for safety —
Protection against electric shock (IEC 60364-4-41:2005, modified)
EN 60529, Degrees of protection provided by enclosures (IP Code) (IEC 60529)
EN 61140, Protection against electric shock — Common aspects for installation and equipment
(IEC 61140)
EN 61310-1, Safety of machinery — Indication, marking and actuation — Part 1: Requirements for
visual, acoustic and tactile signals (IEC 61310-1)
IEC/TS 60479-1, Effects of current on human beings and livestock — Part 1: General aspects

1) This document is currently impacted by the amendment EN 50122-1:2011/A1:2011.

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3 Terms, definitions and abbreviations
3.1 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
NOTE  For more information relating to definitions of parts of the fixed installations, see EN 50122-1 from which
these definitions are derived.
3.1.1 Definitions concerning persons
3.1.1.1
(electrically) instructed person
person adequately advised or supervised by electrically skilled persons to enable them to perceive
risks and to avoid hazards electricity can create
3.1.1.2
ordinary person
person who is neither a skilled person nor an (electrically) instructed person
3.1.1.3
skilled person
person who can judge the work assigned to him and recognize possible dangers on the basis of their
professional training, knowledge and experience and of their knowledge of the relevant requirements
3.1.2 Other definitions
3.1.2.1
closed electrical operating area
room or location which serves exclusively for the operation of electrical equipment and is kept secure
by a means appropriate to the voltage and location
Note 1 to entry: Access to such areas is permitted only to skilled persons and (electrically) instructed persons.
Note 2 to entry: The definition of closed electrical operating area can be suitable for underfloor or upperroof
cabinets. Generally speaking, it is any location (inside or outside the car body) which is kept secured because of
the voltage that can assumed to be present on the equipment inside it. Access to such areas is not allowed for
ordinary persons.
3.1.2.2
contact line
conductor system for supplying electrical energy to rolling stock systems through current-collecting
equipment
3.1.2.3
contact wire
electric conductor of an overhead contact line with which the current collectors make contact
3.1.2.4
cut-off
supply of electrical energy to live parts is switched off

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3.1.2.5
direct contact
contact of persons or livestock with live parts
3.1.2.6
double insulation
insulation comprising both basic insulation and supplementary insulation
3.1.2.7
earth
conductive mass of the earth, whose electrical potential at any point is conventionally taken as equal to
zero
3.1.2.8
electrical operating area
room or location which serves primarily for the operation of electrical equipment and is normally
entered only by skilled persons or (electrically) instructed persons
Note 1 to entry: Generally speaking, an electrical operating area is any location (mainly inside the car body)
where electrical equipments operate. The above is the main function of this area but not the only one. In fact,
normally the area is not kept secured and protection against direct contact is achieved by other means
(e.g. (electrically) protective obstacles).
3.1.2.9
electric shock
pathophysiological effect resulting from an electric current passing through a human or animal body
3.1.2.10
equipotential bond
electrical connection putting various exposed conductive parts at a substantially equal potential
Note 1 to entry: This can be abbreviated to ‘bond’ or ‘bonding’.
3.1.2.11
exposed conductive part
conductive part of electrical equipment, which can be touched and which is not normally live, but can
become live when basic insulation fails
Note 1 to entry: A conductive part of electrical equipment which can only become live through contact with an
exposed conductive part which has become live is not considered to be an exposed conductive part itself.
3.1.2.12
indirect contact
electric contact of persons or livestock with exposed conductive parts which have become live under
fault conditions
3.1.2.13
interlocking device
device which makes the operation of a switching device dependent upon the position or operation of
one or more other pieces of equipment

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3.1.2.14
interlock system
system incorporating interlocking devices on access points to electrical equipment to prevent
energisation of accessible live parts
3.1.2.15
insulation/insulated
supply of electrical energy to live parts is switched off and inadvertent reconnection prevented
3.1.2.16
live part
conductor or conductive part intended to be energized in normal use
Note 1 to entry: By convention this does not include the running rails and parts connected to them.
3.1.2.17
locking system
system which comprises interlocking devices and physically prevents access to live parts unless the
supply of electrical energy to the live parts has been isolated and made safe
3.1.2.18
mechanical locking
use of a lock or bolted /screwed fixings to prevent access panels or doors being opened and require
the use of a key or tool to remove
3.1.2.19
multi-stage insulation
insulation which is employed in, e.g., roof or underframe-mounted traction resistors which are air-
insulated
3.1.2.20
nominal voltage
voltage by which an installation or part of an installation is designated
Note 1 to entry: The voltages are expressed by the value between poles, ripple-free for DC and by the r.m.s.
value between phases for AC.
Note 2 to entry: The actual voltage may differ from the nominal voltage by a quantity within permitted
tolerances. For further information about traction systems supply voltages, see EN 50163.
3.1.2.21
PELV system
electric system in which the voltage cannot exceed the value of extra-low voltage:
– under normal conditions and
– under single fault conditions, except earth faults in other electric circuits
3.1.2.22
(electrically) protective obstacle
part preventing unintentional direct contact, but not preventing direct contact by deliberate action

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3.1.2.23
power circuit
circuit carrying the current of the machines and equipment, such as convertors and traction motors,
which transmit the traction output
3.1.2.24
protection system
means of ensuring safety against electrical hazards by means of system design as opposed to reliance
on procedures
3.1.2.25
protective conductor
conductor provided for purposes of safety, for example protection against electric shock
3.1.2.26
protective-equipotential-bonding
equipotential bonding for the purposes of safety
3.1.2.27
SELV system
electric system in which the voltage cannot exceed the value of extra-low voltage:
– under normal conditions and
– under single fault conditions, including earth faults in other electric circuits
3.1.2.28
unit
minimum operational formation of articulated cars
minimum operational formation comprising one or more vehicles coupled together
3.2 Abbreviations
For the purposes of this document, the following abbreviations apply.
AC Alternating Current
DC Direct Current
SELV Safety Extra Low Voltage
PELV Protective Extra Low Voltage
r.m.s. root-mean-square value (effective value)
4 Classification of voltage bands
4.1 General principles
In this European Standard, the applicable protective measures are based on the highest value of the
nominal supply voltage which the equipment or the electrical circuits are subjected to.
The voltages are classified into bands according to the nominal value as shown in Table 1. Different
rules apply to each of these bands.

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The power supply of the various circuits installed in railway rolling stock are of different types such as:
– batteries,
– transformers,
– voltage dividers,
– rotating machines,
– static converters,
– capacitors,
– special sources.
Table 1 – Voltage bands
Nominal voltage
U
n
Band
AC DC
V V
I
    U ≤ 25      U ≤ 60
II
25 < U ≤ 50  60 < U ≤ 120
III
50 < U ≤ 1 000 120 < U ≤ 1 500
IV     U > 1 000      U > 1 500

4.2 Connections between circuits
Circuits operating at different nominal voltages connected by power conversion equipment which
provides a sufficient insulation between them are individually classified at the nominal voltage of each
circuit.
If the conducting paths referred to in this subclause include capacitive or inductive connections, whose
impedance is low enough to induce hazardous voltages into any circuit under either normal or fault
conditions, then all the circuits so connected are classified at the nominal voltage of the highest voltage
circuit.
NOTE This condition can apply to circuits connected, for example, by means of a chopper converter with
impedance coupling.
Where circuits are linked conductively to a higher voltage source other than directly by circuit bonds
connected to the vehicle body (for example by an auto-transformer or potential divider), all circuits in
the group are treated as if energized at the nominal voltage of the source, unless the conditions of 4.3
have been met.
4.3 Exceptions
If voltage conversion from one band to another involves overvoltage detection resulting in
disconnection of the primary or the secondary circuit, or having other means capable of preventing
excessive voltage in the secondary circuit, then the secondary circuit is permitted to be classified
according to the highest voltage at which the detection equipment will operate. Where overvoltage
detection is used the integrity of the equipment should be evaluated as appropriate.

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Circuits not connected to the vehicle body, for example floating supplies, are permitted to be classified
in any voltage band. The band selected should be appropriate, taking due account of the various
potentials possible in such circuits under normal or fault conditions so as to ensure that the
requirements of this European Standard are met.
The limit between bands III and IV is allowed to be lowered to take account of special national
conditions.
NOTE The special national conditions are listed in Annex A.
5 Protective provisions against direct contact
5.1 General
Live parts capable of causing an electric shock shall be protected against direct contact. All types of
equipment shall be capable of being operated without loss of protection against direct contact.
Protection against direct contact shall be provided, where possible, by at least one of the means
described in 5.2 to 5.3.
Where it is not possible to provide protective provisions in accordance with 5.2 or 5.3, then it is
permitted to use protection by the use of band I voltage in accordance with the conditions of 5.4.
Additionally where required to ensure adequate protection against direct contact, warning labels as
described in 5.5 shall be provided.
5.2 Protection by insulation
In addition to the requirements of EN 50124-1, the insulating materials used to cover live parts shall be
appropriate to the rated equipment operating voltage and the conditions of use. Further provisions
should be considered in order to minimize the consequences of damage.
5.3 Protection by prevention of access
5.3.1 Voltages in bands I to III
5.3.1.1 Protection by the use of closed electrical operating areas
Live parts within the vehicle, energized with voltages in bands I to III shall be contained within closed
electrical operating areas.
Access to closed electrical operating areas containing energized live parts is permitted as follows:
– band I and II: access is permitted to (electrically) instructed persons and skilled persons;
– band III: access is only permitted to (electrically) instructed persons and skilled persons provided
that precautions against unintended direct contact are taken.
Prevention of access shall be achieved by mechanical locking supported with procedures and warning
labels appropriate to the location and equipment enclosed.
Means of preventing access shall comply with the following:
• in areas within vehicles, accessible to ordinary persons, screens and covers shall conform to the
degree of protection IP4X according to EN 60529, or, where these are electrically connected to the
vehicle body, to the degree of protection IP2XD according to EN 60529; the requirements of this
subclause do not apply to plug connectors, lamp holders without lamps and fuse sockets for
screw-in type fuses without inserts;

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• in other areas where grid or mesh screens are used, these shall be placed at a sufficient distance
to prevent any direct contact, taking into account possible buckling or warping.
5.3.1.2 Protection by the use of electrical operating areas
For live parts contained within an electrical operating area the following shall apply:
– Live parts energized within bands I and II need no protection against direct contact provided that
the requirements of 8.5.2 are met.
– The use of (electrically) protective obstacles to afford a limited protection against direct contact
with live parts at band III voltages may be acceptable in electrical operating areas inaccessible to
ordinary persons by their location (such as underframe cases, roofs, interiors of motor units,
excluding driver's cabs), provided that the hazard is readily identifiable. For example, it is
acceptable for fuses and isolating links of equipment at band III voltages, whose grips are
protected with an insulating material, not to be protected. Such components shall only be situated
in electrical operating areas.
5.3.1.3 Protection by clearance
For live parts on the outside of the vehicle (e.g. current collectors, roof conductors, resistors) which are
potentially accessible to persons in a straight line from any standing surface in, on or by vehicles,
protection against direct contact by means of clearance shall be provided if no other protective
measures as defined in this European Standard are used.
NOTE 1 Accessible in a straight line implies that live parts can be touched from a standing surface without
use of specially shaped objects.
Protection by clearance is considered to be provided, if at least the clearances from standing surfaces
to live parts depicted in EN 50122-1:2011, Figure 3, are maintained, excepting the condition of shoe
gear adjacent to the platform edge as detailed in 8.2.2.
This protection is considered to be present, if contact with live parts is possible but clearance is
afforded in case of the movement of the vehicle (e.g. on road and foot-crossings). Where only
(electrically) instructed persons and skilled persons have access and where operation of the system
makes protection by clearance impossible (e.g. systems using third and/or third and fourth rail power
supplies) protection shall be afforded by procedure.
NOTE 2 Co-operation is required with the Infrastructure Manager in order to comply with this subclause.
5.3.1.4 Protection against hazards from power supply bus line
Access to live parts that may be energized with voltage band III when the supply system is likely to be
energized from an external source (e.g. another vehicle, preheating equipment, shed supply, etc.) shall
be prevented by an interlocking device or a procedure.
Connectors in the power supply bus line shall be fitted with warning labels in accordance with 5.5.
5.3.2 Voltages in band IV
5.3.2.1 Protection by the use of closed electrical operating areas
Access to
...