SIST EN 55016-2-1:2014/A1:2018

SLOVENSKI STANDARD
SIST EN 55016-2-1:2014/A1:2018
01-januar-2018
Specifikacija za merilne naprave in metode za merjenje radijskih motenj in
odpornosti - 2-1. del: Metode za merjenje radijskih motenj in odpornosti - Merjenje
motenj po vodnikih - Dopolnilo A1
Specification for radio disturbance and immunity measuring apparatus and methods -
Part 2-1: Methods of measurement of disturbances and immunity - Conducted
disturbance measurements
Anforderungen an Geräte und Einrichtungen sowie Festlegung der Verfahren zur
Messung der hochfrequenten Störaussendung (Funkstörungen) und Störfestigkeit - Teil
2-1: Verfahren zur Messung der hochfrequenten Störaussendung (Funkstörungen) und
Störfestigkeit - Messung der leitungsgeführten Störaussendung
Spécifications des méthodes et des appareils de mesure des perturbations
radioélectriques et de l'immunité aux perturbations radioélectriques - Partie 2-1:
Méthodes de mesure des perturbations et de l'immunité - Mesures des perturbations
conduites
Ta slovenski standard je istoveten z: EN 55016-2-1:2014/A1:2017
ICS:
17.220.20 0HUMHQMHHOHNWULþQLKLQ Measurement of electrical
PDJQHWQLKYHOLþLQ and magnetic quantities
33.100.20 Imunost Immunity
SIST EN 55016-2-1:2014/A1:2018 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 55016-2-1:2014/A1:2018

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SIST EN 55016-2-1:2014/A1:2018


EUROPEAN STANDARD EN 55016-2-1:2014/A1

NORME EUROPÉENNE

EUROPÄISCHE NORM
October 2017
ICS 33.100.10; 33.100.20

English Version
Specification for radio disturbance and immunity measuring
apparatus and methods - Part 2-1: Methods of measurement of
disturbances and immunity - Conducted disturbance
measurements
(CISPR 16-2-1:2014/A1:2017)
Spécifications des méthodes et des appareils de mesure Anforderungen an Geräte und Einrichtungen sowie
des perturbations radioélectriques et de l'immunité aux Festlegung der Verfahren zur Messung der hochfrequenten
perturbations radioélectriques - Partie 2-1: Méthodes de Störaussendung (Funkstörungen) und Störfestigkeit -
mesure des perturbations et de l'immunité - Mesures des Teil 2-1: Verfahren zur Messung der hochfrequenten
perturbations conduits Störaussendung (Funkstörungen) und Störfestigkeit -
(CISPR 16-2-1:2014/A1:2017) Messung der leitungsgeführten Störaussendung
(CISPR 16-2-1:2014/A1:2017)
This amendment A1 modifies the European Standard EN 55016-2-1:2014; it was approved by CENELEC on 2017-08-04. CENELEC
members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this amendment 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 amendment 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, Serbia, 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
© 2017 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
 Ref. No. EN 55016-2-1:2014/A1:2017 E

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SIST EN 55016-2-1:2014/A1:2018
EN 55016-2-1:2014/A1:2017
European foreword
The text of document CISPR/A/1168/CDV, future CISPR 16-2-1:2014/A1, prepared by SC CISPR A
"Radio-interference measurements and statistical methods" of IEC/TC CISPR "International special
committee on radio interference" was submitted to the IEC-CENELEC parallel vote and approved by
CENELEC as EN 55016-2-1:2014/A1:2017.

The following dates are fixed:
• latest date by which the document has to be (dop) 2018-05-04
implemented at national level by
publication of an identical national
standard or by endorsement
(dow) 2020-08-04
• latest date by which the national
standards conflicting with the
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 shall not be held responsible for identifying any or all such patent rights.

Endorsement notice
The text of the International Standard CISPR 16-2-1:2014/A1:2017 was approved by CENELEC as a
European Standard without any modification.
2

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SIST EN 55016-2-1:2014/A1:2018




CISPR 16-2-1

®


Edition 1.0 2017-06




INTERNATIONAL



STANDARD




NORME



INTERNATIONALE
colour

inside



INTERNATIONAL SPECIAL COMMITTEE ON RADIO INTERFERENCE


COMITÉ INTERNATIONAL SPÉCIAL DES PERTURBATIONS RADIOÉLECTRIQUES


BASIC EMC PUBLICATION

PUBLICATION FONDAMENTALE EN CEM


AMENDMENT 1

AMENDEMENT 1



Specification for radio disturbance and immunity measuring apparatus and

methods –

Part 2-1: Methods of measurement of disturbances and immunity – Conducted

disturbance measurements




Spécifications des méthodes et des appareils de mesure des perturbations

radioélectriques et de l'immunité aux perturbations radioélectriques –

Partie 2-1: Méthodes de mesure des perturbations et de l'immunité – Mesures


des perturbations conduites







INTERNATIONAL

ELECTROTECHNICAL

COMMISSION


COMMISSION

ELECTROTECHNIQUE


INTERNATIONALE




ICS 33.100.10, 33.100.20 ISBN 978-2-8322-4393-0



Warning! Make sure that you obtained this publication from an authorized distributor.

Attention! Veuillez vous assurer que vous avez obtenu cette publication via un distributeur agréé.

® Registered trademark of the International Electrotechnical Commission
Marque déposée de la Commission Electrotechnique Internationale

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SIST EN 55016-2-1:2014/A1:2018
– 2 – CISPR 16-2-1:2014/AMD1:2017
© IEC 2017
FOREWORD
This amendment has been prepared by subcommittee CISPR A: Radio-interference
measurements and statistical methods, of IEC technical committee CISPR: International
special committee on radio interference.
The text of this amendment is based on the following documents:
CDV Report on voting
CISPR/A/1168/CDV CISPR/A/1201/RVC

Full information on the voting for the approval of this amendment can be found in the report
on voting indicated in the above table.
The committee has decided that the contents of this amendment and the base publication will
remain unchanged until the stability date indicated on the IEC website under
"http://webstore.iec.ch" in the data related to the specific publication. At this date, the
publication will be
• reconfirmed,
• withdrawn,
• replaced by a revised edition, or
• amended.

IMPORTANT – The “colour inside” logo on the cover page of this publication indicates
that it contains colours which are considered to be useful for the correct understanding
of its contents. Users should therefore print this publication using a colour printer.

_____________

1 Scope
Replace the existing first paragraph by the following new paragraph:
This part of CISPR 16 is designated a basic standard that specifies the methods of
measurement of disturbance phenomena in general in the frequency range 9 kHz to 18 GHz,
and especially of conducted disturbance phenomena in the frequency range 9 kHz to 30 MHz.
The CDNE extends the frequency range of conducted disturbance measurements to 300 MHz.
3.1 Terms and definitions
3.1.2
artificial network
AN
Replace the existing definition and note by the following new definition and new note:
network that provides a defined impedance to the EUT at radio frequencies, couples the
disturbance voltage to the measuring receiver, and decouples the test circuit from the mains
network or other power lines or from signal lines with associated equipment

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SIST EN 55016-2-1:2014/A1:2018
CISPR 16-2-1:2014/AMD1:2017 – 3 –
© IEC 2017
Note 1 to entry: There are four basic types of this network: the V-network (V-AN), which couples the unsymmetric
voltages; the delta-network (Δ-AN), which couples symmetric (DM) and asymmetric (CM) voltages separately; the
Y-network (Y-AN); and the coaxial (screened cable) network, which couple asymmetric (CM) voltages.
3.1.3
artificial mains network
AMN
Replace the existing Note 1 to entry by the following new note:
Note 1 to entry: There are two basic types of this network: the V-network (V-AMN), which couples the unsymmetric
voltages; and the delta-network (Δ-AMN), which couples symmetric (DM) and asymmetric (CM) voltages
separately.
3.1.6
asymmetric voltage
Replace the existing definition and note by the following new definition and new note:
RF voltage appearing between the electrical mid-point of the individual terminals or leads in a
two- or multi-wire circuit and reference ground, sometimes called the CM voltage
Note 1 to entry: If, in case of a LV AC mains power port, V is the vector voltage between one of the mains
a
terminals and reference ground, and V is the vector voltage between the other mains terminal and reference
b
ground, the asymmetric voltage is half the vector sum of V and V , i.e. (V + V )/2.
a b a b
3.1.7
symmetric voltage
Replace the existing definition and note by the following new definition and new note:
RF voltage appearing between any pair of wires not comprising the wire at ground potential in
a two- or multi-wire circuit, such as a single-phase mains supply or a bundle of twisted pairs
in a communication cable, sometimes called the DM voltage
Note 1 to entry: In case of a LV AC mains power port, the symmetric voltage is the vector difference (V – V ).
a b
3.1.8
unsymmetric mode voltage
Replace the existing term, definition and notes by the following new term, definition and note:
3.1.8
unsymmetric voltage
RF voltage appearing between an individual terminal or lead in a two- or multi-wire circuit and
reference ground
Note 1 to entry: The unsymmetric voltage is the voltage measured by the use of an artificial mains V-network. It
denotes the amplitude of the vector voltage, V or V (mentioned in the notes to entry in 3.1.6 and 3.1.7).
a b
3.1.25
reference ground plane
RGP
Replace the existing definition and notes by the following new definition and new notes:
flat, conductive surface that is at the same electric potential as reference ground, which is
used as a common reference, and which contributes to a reproducible parasitic capacitance
with the surroundings of the EUT
Note 1 to entry: A reference ground plane is needed for the measurements of conducted disturbances, and serves
as reference for the measurement of unsymmetric and asymmetric disturbance voltages.
Note 2 to entry: This note applies to the French language only.
Note 3 to entry: In some regions, the term ‘reference earth’ is used in place of ‘reference ground’.

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SIST EN 55016-2-1:2014/A1:2018
– 4 – CISPR 16-2-1:2014/AMD1:2017
© IEC 2017
3.2 Abbreviations
Add to the existing list the following new abbreviations:
DM Differential mode
Δ-AN Artificial Δ-network (‘Δ’ is pronounced ‘delta’)
GCPC Grid connected power convertor
LV Low voltage
RFI Radio frequency interference
UM Unsymmetric mode
V-AMN Artificial mains V-network
V-AN Artificial V-network
Y-AN Artificial Y-network

5.3 Connections to RF reference ground
Delete, in the existing title, the abbreviated term "RF".
Replace the second paragraph (the paragraph following NOTE 1) by the following new
paragraphs:
The measurement of unsymmetric (UM) or terminal voltages and asymmetric (CM) voltages
shall be referenced only to the reference ground. Ground loops (common impedance
coupling) shall be avoided. Ground loops will negatively affect repeatability of measurement
and can, e.g. be detected if grounded components of a test set-up are touch-sensitive. This
should also be observed for measuring apparatus (e.g. measuring receivers and connected
ancillary equipment, such as oscilloscopes, analyzers, recorders, etc.) fitted with a PE
conductor of safety class I equipment.
NOTE 3 A detrimental ground loop can be detected when the components of a test set-up are touch-sensitive, i.e.
the reading changes when the component is touched.
The measuring instrumentation shall be provided with RF isolation so that the AN has only
one RF connection to reference ground. This can be accomplished by using RF chokes and
isolation transformers, or by powering the measuring apparatus from batteries. Figure 1
shows an example of a recommended test set-up with three AMNs and PE chokes for the
avoidance of ground loops. In this figure, also the receiver RF connecting cable to the AMN
can act as a ground connection if the receiver is grounded. Therefore, either a PE choke is
needed at the receiver power input, or, if the receiver is outside a shielded room, a sheath
current suppressor is needed on the connecting cable. Each AMN is thus RF-grounded only
once.
5.4 Connections between the EUT and the artificial mains network
Delete, in the existing title, the word "mains".
Add, after the existing first sentence of this subclause, the following new sentence:
The same guidelines also apply for selection of connections of the EUT to other types of AN
used for the termination of ports other than LV AC mains ports.
6.4.5 Supply
Replace the existing text of this subclause by the following new text:

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SIST EN 55016-2-1:2014/A1:2018
CISPR 16-2-1:2014/AMD1:2017 – 5 –
© IEC 2017
The EUT shall be operated from a supply having the rated voltage of the EUT. EUTs with
more than one rated voltage shall be tested at the rated voltage which causes maximum
disturbance. Product standards may call for additional measurements at supply voltages
within the rated supply voltage range, if, for example, the levels of disturbance vary
considerably with the actual supply voltage used during the measurements.
7.1 General
Replace the existing item a), including the note, by the following new item:
a) the types of disturbance: there are two methods of measuring conducted disturbances,
either as a voltage (prevailing method for CISPR measurements) or as a current. Both
methods can be used to measure the three types of conducted disturbance, i.e.:
– common mode (also called asymmetric mode, i.e. the vector sum of voltages/currents
in a bundle or group of wires in relation to reference ground);
– differential mode (also called symmetric mode);
– unsymmetric mode (voltage between a terminal of the port under test and reference
ground).
NOTE The unsymmetric voltage is primarily measured at the LV AC mains power port. The CM voltage (or
current) is measured primarily at telecommunication, signal and control ports.
7.3.2.1 General
Replace the existing text of this subclause by the following new text:
The CM, DM and UM impedances of actual networks, such as power mains and
telecommunication networks, are location dependent and, in general, time varying. Therefore,
type testing of disturbance requires standardized impedance simulation networks, referred to
as artificial networks (ANs). The AN provides standardized RF load impedances to the EUT
and simultaneously decouples the laboratory LV AC mains and/or DC power source or other
type of peripheral and ancillary equipment, like a signal simulator, from the EUT. For this
purpose, the AN is inserted between the terminals of the EUT and the actual network or signal
simulator. In this way, the AN simulates extended networks (long lines) with defined
impedances.
7.3.2.2 Types of artificial networks
Replace the existing text, including items a), b) and c), by the following new text:
The ANs specified in CISPR 16-1-2 shall be used, unless specific reasons call for another
construction. In general, three types of AN can be distinguished:
a) V-AN (typically used as V-AMN, or LISN): in a defined frequency range, the RF
impedances between each of the EUT terminals to be measured and the reference ground
have a defined value, whereas no additional separate impedance component is connected
directly between these terminals. The construction defines (indirectly) the measurement of
the vector sum of both the symmetric (DM) and asymmetric (CM) voltages, i.e. of the
composite unsymmetric (UM or terminal) disturbance voltage. In principle, there is no limit
for the number of EUT terminals, i.e. for the number of lines to be measured by V-ANs;
b) Δ-AN: in a defined frequency range, the RF impedances between a pair of EUT terminals
to be measured (and not comprising the grounding terminal) and between the electrical
mid-point of these terminals and the reference ground have defined values. This
construction defines directly both the symmetric (DM) and the asymmetric (CM) RF load
impedances. Addition of a balance/unbalance transformer makes it possible to measure
the symmetric (DM) and asymmetric (CM) disturbance voltages separately. Practical
implementations of Δ-ANs are presently (2016) furnished only with connectors for a total
of three individual EUT terminals, inclusive of common ground;
c) Y-AN (also called the asymmetric artificial network, AAN, or ISN): in a defined frequency
range, the CM RF impedance between the electrical mid-point of a pair of EUT terminals

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SIST EN 55016-2-1:2014/A1:2018
– 6 – CISPR 16-2-1:2014/AMD1:2017
© IEC 2017
to be measured and the reference ground has a defined value. In general, no defined
differential load impedance is included in a Y-AN as such. The defined DM impedance
shall then be provided by the external circuit connected to the supply (line) terminals of
the Y-AN. This type of AN is used to measure CM disturbance voltages only.
7.3.3 Current probes
Replace the existing first paragraph by the following new paragraph:
Current probes or current transformers allow the measurement of all three types of
disturbance current (see 7.1 and CISPR 16-1-2) on mains and other power supply leads,
signal lines, load lines, etc. A clip-on construction of the probe will facilitate its use.
7.4 Equipment under test configuration
Replace the existing title by the following new title:
7.4 Configuration of the EUT and method of measurement
7.4.1 Arrangement of the EUT and its connection to the AN
Replace the existing first paragraph by the following new paragraph:
For measurement of the disturbance voltage, the EUT is connected to the laboratory LV AC
and/or DC power supply and any other extended network via one or more AN(s) in
accordance with the following requirements. In general, the V-AMN is used for the LV AC
mains power port (see Figure 9) in accordance with the following requirements. For
termination of LV DC power ports under test, 150 Ω Δ-ANs per CISPR 16-1-2 can be used
(see Figure 26). CISPR product public
...