SIST EN 50600-2-2:2014

SLOVENSKI STANDARD
SIST EN 50600-2-2:2014
01-maj-2014
,QIRUPDFLMVNDWHKQRORJLMD1DSUDYHLQLQIUDVWUXNWXUDSRGDWNRYQHJDFHQWUD
GHO'LVWULEXFLMDHOHNWULþQHHQHUJLMH
Information technology - Data centre facilities and infrastructures - Part 2-2: Power
distribution
Informationstechnik - Einrichtungen und Infrastrukturen von Rechenzentren - Teil 2-2:
Stromversorgung
Ta slovenski standard je istoveten z: EN 50600-2-2:2014
ICS:
29.240.01 2PUHåMD]DSUHQRVLQ Power transmission and
GLVWULEXFLMRHOHNWULþQHHQHUJLMH distribution networks in
QDVSORãQR general
35.110 Omreževanje Networking
SIST EN 50600-2-2:2014 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 50600-2-2:2014

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SIST EN 50600-2-2:2014

EUROPEAN STANDARD
EN 50600-2-2

NORME EUROPÉENNE
March 2014
EUROPÄISCHE NORM

ICS 35.020; 35.110; 91.140.50


English version


Information technology -
Data centre facilities and infrastructures -
Part 2-2: Power distribution


 Informationstechnik -
Einrichtungen und Infrastrukturen von
Rechenzentren -
Teil 2-2: Stromversorgung



This European Standard was approved by CENELEC on 2014-01-06. 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.

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.
Ref. No. EN 50600-2-2:2014 E

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SIST EN 50600-2-2:2014
EN 50600-2-2:2014 – 2 –
Contents
Foreword .4
Introduction .5
1 Scope . 7
2 Normative references. 7
3 Terms, definitions and abbreviations . 8
3.1 Terms and definitions . 8
3.2 Abbreviations . 11
4 Conformance . 12
5 Power supply and distribution within data centres . 12
5.1 General . 12
5.2 Dimensioning of power distribution systems. 15
6 Availability . 15
6.1 General requirements . 15
6.2 Power supply . 16
6.3 Power distribution . 24
6.4 Incorporation of LVDC distribution . 28
6.5 Additional considerations . 28
6.6 Emergency Power Off (EPO) . 28
7 Physical security . 29
7.1 General . 29
7.2 Access . 29
7.3 Internal environmental events . 29
7.4 External environmental events . 30
8 Energy efficiency enablement and power distribution . 30
8.1 General . 30
8.2 Granularity Level 1 . 31
8.3 Granularity Level 2 . 31
8.4 Granularity Level 3 . 31
8.5 Cabling infrastructure to support energy efficiency enablement. 32
Annex A (informative) Example implementations of power distribution . 33
A.1 Symbology. 33

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A.2 Example implementations . 33
Bibliography . 36

Figures
Figure 1 — Schematic relationship between the EN 50600 standards . 6
Figure 2 — Power supply functional elements . 13
Figure 3 —Secondary and tertiary power distribution systems . 14
Figure 4 — Example of single path solution for power supply . 21
Figure 5 — Example of “single path resilient” solution for power supply . 22
Figure 6 — Example of “multi-path resilience with concurrent repair/operate” solution for power
supply . 22
Figure 7 — Example of fault tolerant design solution for power supply . 23
Figure 8 — Example of single path solution for power distribution . 27
Figure 9 — Example of “single path resilient” solution for power distribution . 27
Figure 10 — Example of “multi-path resilience with concurrent repair/operate” solution for power
distribution . 27
Figure 11 — Example of fault tolerant design solution for power distribution . 28
Figure 12 — Possible measurement points . 30
Figure A.1 — Example for a Class 1/Class 2 power distribution . 34
Figure A.2 — Example for a Class 3/Class 4 power distribution . 35

Tables
Table 1 — Functional elements of power distribution . 13

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SIST EN 50600-2-2:2014
EN 50600-2-2:2014 – 4 –
Foreword
This document (EN 50600-2-2:2014) has been prepared by CLC/TC 215 “Electrotechnical aspects of
telecommunication equipment”.
The following dates are fixed:
(dop) 2015-01-06
• latest date by which this document has
to be implemented at national level by
publication of an identical national
standard or by endorsement
• latest date by which the national (dow) 2015-01-06
standards conflicting with this
document have to be withdrawn

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
The unrestricted access to internet-based information demanded by the information society has led to an
exponential growth of both internet traffic and the volume of stored/retrieved data. Data centres are
housing and supporting the information technology and network telecommunications equipment for data
processing, data storage and data transport. They are required both by network operators (delivering
those services to customer premises) and by enterprises within those customer premises.
Data centres need to provide modular, scalable and flexible facilities and infrastructures to easily
accommodate the rapidly changing requirements of the market. In addition, energy consumption of data
centres has become critical both from an environmental point of view (reduction of carbon footprint) and
with respect to economical considerations (cost of energy) for the data centre operator.
The implementation of data centres varies in terms of:
a) purpose (enterprise, co-location, co-hosting, or network operator facilities);
b) security level;
c) physical size;
d) accommodation (mobile, temporary and permanent constructions).
The needs of data centres also vary in terms of availability of service, the provision of security and the
objectives for energy efficiency. These needs and objectives influence the design of data centres in terms
of building construction, power distribution, environmental control and physical security. Effective
management and operational information is required to monitor achievement of the defined needs and
objectives.
This series of European Standards specifies requirements and recommendations to support the various
parties involved in the design, planning, procurement, integration, installation, operation and maintenance
of facilities and infrastructures within data centres. These parties include:
1) owners, facility managers, ICT managers, project managers, main contractors;
2) consultants, architects, building designers and builders, system and installation designers;
3) facility and infrastructure integrators, suppliers of equipment;
4) installers, maintainers.
At the time of publication of this European Standard, EN 50600 series will comprise the following
standards:
EN 50600-1: Information technology — Data centre facilities and infrastructures — Part 1: General
concepts;
EN 50600-2-1: Information technology — Data centre facilities and infrastructures — Part 2-1: Building
construction;
EN 50600-2-2: Information technology — Data centre facilities and infrastructures — Part 2-2: Power
distribution;
EN 50600-2-3: Information technology — Data centre facilities and infrastructures — Part 2-3:
Environmental control;

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SIST EN 50600-2-2:2014
EN 50600-2-2:2014 – 6 –
EN 50600-2-4: Information technology — Data centre facilities and infrastructures — Part 2-4:
Telecommunications cabling infrastructure;
EN 50600-2-5: Information technology — Data centre facilities and infrastructures — Part 2-5: Security
systems;
EN 50600-2-6: Information technology — Data centre facilities and infrastructures — Part 2-6:
Management and operational information.
The inter-relationship of the standards within the EN 50600 series is shown in Figure 1.
EN 50600-2-1
Building construction
EN 50600-2-2
Power distribution
EN 50600-2-3
Environmental control
EN 50600-1
General concepts
EN 50600-2-4
Telecommunications
cabling infrastructure
EN 50600-2-5
Security systems
EN 50600-2-6
Management and
operational information

Figure 1 — Schematic relationship between the EN 50600 standards
EN 50600-2-X standards specify requirements and recommendations for particular facilities and
infrastructures to support the relevant classification for “availability”, “physical security” and “energy
efficiency enablement” selected from EN 50600-1.
This European Standard addresses facilities and infrastructures for power supplies to, and power
distribution within, data centres together with the interfaces for monitoring the performance of those
facilities and infrastructures in line with EN 50600-2-6 (in accordance with the requirements of
EN 50600-1). The line diagrams used in certain figures are not intended to replace the more familiar
electrical circuit diagrams associated with power supply and distribution systems which are included
where relevant.
This European Standard is intended for use by and collaboration between architects, building designers
and builders, system and installation designers.
This series of European Standards does not address the selection of information technology and network
telecommunications equipment, software and associated configuration issues.

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1 Scope
This European Standard addresses power supplies to, and power distribution within, data centres based
upon the criteria and classifications for “availability”, “physical security” and “energy efficiency
enablement” within EN 50600-1.
This European Standard specifies requirements and recommendations for the following:
a) power supplies to data centres;
b) power distribution systems within data centres;
c) facilities for both normal and emergency lighting;
d) equipotential bonding and earthing;
e) lightning protection;
f) devices for the measurement of the power consumption characteristics at points along the power
distribution system and their integration within management tools.
Safety and electromagnetic compatibility (EMC) requirements are outside the scope of this European
Standard and are covered by other standards and regulations. However, information given in this
European Standard may be of assistance in meeting these standards and regulations.
Conformance of data centres to the present document is covered in Clause 4.
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 50160:2010, Voltage characteristics of electricity supplied by public electricity networks
EN 50174-2, Information technology – Cabling installation – Part 2: Installation planning and practices
inside buildings
EN 50174-3, Information technology – Cabling installation – Part 3: Installation planning and practices
outside buildings
EN 50310, Application of equipotential bonding and earthing in buildings with information technology
equipment
EN 50600-1, Information technology – Data centre facilities and infrastructures – Part 1: General
concepts
EN 50600-2-1, Information technology – Data centre facilities and infrastructures – Part 2-1: Building
construction
1)
EN 50600-2-3 , Information technology – Data centre facilities and infrastructures – Part 2-3:
Environmental control
———————
1)
Draft for formal vote under preparation.

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SIST EN 50600-2-2:2014
EN 50600-2-2:2014 – 8 –
2)
EN 50600-2-4 , Information technology – Data centre facilities and infrastructures – Part 2-4:
Telecommunications cabling infrastructure
3)
EN 50600-2-5 , Information technology – Data centre facilities and infrastructures – Part 2-5: Security
systems
EN 60044-1:1999, Instrument transformers – Part 1: Current transformers (IEC 60044-1:1996, modified)
EN 60947 (all parts), Low-voltage switchgear and controlgear (IEC 60947, all parts)
EN 61000-2-4:2002, Electromagnetic compatibility (EMC) – Part 2-4: Environment – Compatibility levels
in industrial plants for low-frequency conducted disturbances (IEC 61000-2-4:2002)
EN 61439 (all parts), Low-voltage switchgear and controlgear assemblies (IEC 61439, all parts)
EN 62040 (all parts), Uninterruptible power systems (UPS) (IEC 62040, all parts)
EN 62305 (all parts), Protection against lightning (IEC 62305, all parts)
EN 62305-4, Protection against lightning – Part 4: Electrical and electronic systems within structures
(IEC 62305-4)
EN 88528-11, Reciprocating internal combustion engine driven alternating current generating sets –
Part 11: Rotary uninterruptible power systems – Performance requirements and test methods
(IEC 88528-11)
3 Terms, definitions and abbreviations
3.1 Terms and definitions
For the purposes of this document, the terms and definitions given in EN 50600-1 and the following apply.
3.1.1
active power
real power
product of r.m.s. voltage, r.m.s. current and power factor (expressed as W)
3.1.2
additional supply
backup supply
power supply that provides power in the event of failure of primary and/or secondary supply
3.1.3
apparent power
product of r.m.s. voltage and r.m.s current (expressed as VA)
3.1.4
capacitive load
load that is capacitive, so that the alternating current is out of phase with and leads the voltage
3.1.5
catenary
wire hung at a specific tension between supporting structures of power cabling
———————
2)
Circulated for CENELEC enquiry.
3)
Draft for CENELEC enquiry under preparation.

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3.1.6
diverse route
alternative, separate, pathway intended to provide adequate segregation from another pathway, in order
to provide resilient service provision in the event of physical damage to one of the pathways
3.1.7
emergency power off
designated device to provide emergency switching which disconnects power from one or more data
centre facilities, infrastructures or spaces
Note 1 to entry: The configuration and function of emergency power off devices may be subject to national or local
regulations.
3.1.8
fire compartment
discrete zone designed to contain a fire within that zone
3.1.9
high voltage
voltage whose nominal r.m.s. value is 36 kV < U ≤ 150 kV
n
Note 1 to entry: Because of existing network structures, in some countries the boundary between MV and HV can
be different.
[SOURCE: EN 50160:2010, 3.7]
3.1.10
inductive load
load that is inductive, so that the alternating current is out of phase with and lags behind the voltage
3.1.11
information technology equipment
equipment providing data storage, processing and transport services together with equipment dedicated
to providing direct connection to core and/or access networks
3.1.12
IT load
electrical consumption of all the information technology equipment measured at its input terminals
including all on-board integrated power supplies and cooling fans
3.1.13
load factor
ratio of the average load to the peak load over a period of time
3.1.14
locally protected supply provision
sockets which continue to deliver power to connected equipment for a defined period following failure of
power supply and distribution equipment by means of a battery supply or UPS adjacent to, or co-located
with, those sockets (e.g. emergency lighting)
3.1.15
low voltage
voltage whose nominal r.m.s. value is U ≤ 1 kV
n
[SOURCE: EN 50160:2010, 3.9]
3.1.16
mechanical cooling load
electrical consumption of all the plant and components used to provide environmental control within the
data centre, generally comprising compressors, controls, fans, pumps and humidifiers

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EN 50600-2-2:2014 – 10 –
3.1.17
medium voltage
voltage whose nominal r.m.s. value is 1 kV < U ≤ 36 kV
n
Note 1 to entry: Because of existing network structures, in some countries the boundary between MV and HV can
be different.
[SOURCE: EN 50160:2010, 3.11]
3.1.18
pathway
defined route for cables between termination points
[SOURCE: EN 50174-1:2009/A1:2011, 3.1.26]
3.1.19
power factor
under periodic conditions, ratio of the absolute value of the active power P to the apparent power
S: λ = |P|/S
Note 1 to entry: The ratio of the active (real) power flowing to the load to the apparent power (as a result of the
capacitive or inductive nature of the load) and is a dimensionless number between 0 and 1.
[SOURCE: IEC 60050-131:2002, 131-11-46, modified]
3.1.20
protected supply provision
no break protected supply provision
sockets which continue to deliver power to connected equipment for a defined period following failure of
power supply and distribution equipment
3.1.21
primary distribution equipment
equipment which is required to manage, control and convert incoming power supplies (primary,
secondary and, where appropriate, additional) in a form suitable for distribution by secondary distribution
equipment
3.1.22
primary supply
principal power supply that provides power to the data centre under normal operating conditions
3.1.23
resistive load
load in which the alternating current is in phase with the voltage
Note 1 to entry: The total reactance is zero.
3.1.24
secondary distribution equipment
equipment which is required to manage, control and distribute the power provided by the primary
distribution equipment to the short-break and unprotected sockets within the data centre and to the
tertiary distribution equipment
Note 1 to entry: The power supply may be single-phase AC, three-phase AC or DC. If there is a change from 3-
phase to 1-phase supply, this is generally achieved at the secondary distribution equipment that is served directly
from the primary distribution equipment.

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3.1.25
secondary supply
power supply that provides power to the data centre in conjunction with the primary supply under normal
operating conditions
3.1.26
short-break supply provision
back-up supported supply provision
sockets which, upon failure of power supply and distribution equipment, will be provided with power from
an additional power supply after a defined period
3.1.27
socket
connection enabling supply of power to attached equipment
Note 1 to entry: This may be a de-mateable or a hardwired connection.
3.1.28
tertiary distribution equipment
power supply equipment, typically accommodated within the cabinets, frames and racks of the data
centre spaces, which directly feeds the protected sockets therein
3.1.29
total harmonic current distortion
measurement of the harmonic distortion present on a current level, defined as the ratio of the sum of the
powers of all harmonic components to the power of the fundamental frequency
3.1.30
total harmonic voltage distortion
measurement of the harmonic distortion present on a voltage level, defined as the ratio of the sum of the
powers of all harmonic components to the power of the fundamental frequency
3.1.31
unprotected supply provision
sockets which fail to deliver power to connected equipment following failure in power supply and
distribution equipment
3.2 Abbreviations
For the purposes of this document, the abbreviations given in EN 50600-1 and the following apply.
AC Alternating Current
DC, dc Direct Current
EPO Emergency Power Off
HV High Voltage
ITE Information technology equipment
LV Low Voltage
MV Medium Voltage
r.m.s. root mean square
SPD Surge Protective Device

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EN 50600-2-2:2014 – 12 –
THCD Total Harmonic Current Distortion
THVD Total Harmonic Voltage Distortion
TVSS Transient Voltage Surge Suppression
UPS Uninterruptible Power Supply
4 Conformance
For a data centre to conform to this European Standard:
a) it shall feature a power supply and distribution design solution that meets the required Availability
Class of Clause 6 (and is predicted to meet the relevant availability requirements of that clause);
b) the environmental controls applied to the spaces accommodating the power supply and distribution
system within the premises and serving the data centre shall be in accordance with EN 50600-2-3;
c) it shall feature an approach to physical security in relation to the power supply and distribution
solution that meets the requirements of Clause 7;
d) it shall feature an energy efficiency enablement solution that meets the requirements of the relevant
Granularity Level of Clause 8;
e) the equipotential bonding system within the data centre shall be in accordance with the local mesh
earthing requirements of EN 50310;
f) where lightning protection is required, it shall be in accordance with the EN 62305 series applied with
reference to EN 50310;
g) local regulations, including safety, shall be met.
5 Power supply and distribution within data centres
5.1 General
The distribution of electrical power is one of the most important aspects of data centre infrastructure.
Disturbances of power supply voltage, current and frequency have a direct effect on the operational
safety of the data centre infrastructure and its availability.
The functional elements of power supply to and distribution within data centres are described in Table 1.
The requirements and recommendations for the provision of physical security to the spaces
accommodating the functional elements are described in Clause 7.
The primary and secondary supplies are typically provided from a transformer which may either be:
a) within the premises containing the data centre (and may be owned by either the utility or the data
centre premises owner) or
b) external and owned by the utility (and not considered to be a functional element).
The primary and secondary distribution equipment may also contain transformers.
The supply area is shown schematically in Figure 2 and indicates two implementations. The upper
diagram shows the minimum implementation comprising a primary power supply only. The lower diagram

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includes a secondary supply and also and additionally supply that provides power to relevant equipment
in the data centre, if required, following a failure of the primary and/or secondary power supply.
Table 1 — Functional elements of power distribution
Area Functional element Typical accommodation
(using spaces of EN 50600–1)
Primary supply Transformer space
Secondary supply
Supply transfer equipment (where multiple Electrical space
Supply
supplies exists)
Additional supply (e.g. generator, Generator space or electrical space
uninterruptible power supplies)
Primary distribution equipment Electrical distribution space
Transformer space (if required)
Uninterruptible power supplies (UPS) Electrical space (or computer room space)
Secondary distribution equipment Electrical space (but also present in many
Distribution
other
...