Power line communication apparatus used in low voltage installations - Radio disturbance characteristics - Limits and methods of measurement - Part 1: Apparatus for in-home use

This part of EN 50561 specifies limits and methods of measurement of radio disturbance characteristics for in-home communication apparatus that use the low-voltage power installation as the transmission medium. This part of EN 50561 applies to equipment that communicate over this medium in the frequency range 1,606 5 MHz to 30 MHz. Similar equipment that communicate outside this frequency range is under study and will be covered by another European Standard. Procedures are given for the measurement of signals generated by the equipment and limits are specified for the frequency range 9 kHz to 400 GHz. No measurement is required at frequencies where no limit is specified.

Kommunikationsgeräte auf elektrischen Niederspannungsnetzen - Funkstöreigenschaften - Grenzwerte und Messverfahren - Teil 1: Geräte für die Verwendung im Heimbereich

Dieser Teil der EN 50561 legt Grenzwerte und Verfahren zur Messung der Funkstöreigenschaften von Kommunikationsgeräten zur In-Haus-Nutzung, die elektrische Niederspannungsnetze als Übertragungs-medium nutzen, fest. Dieser Teil der EN 50561 gilt für Geräte, die im Frequenzbereich von 1,606 5 MHz bis 30 MHz über dieses Medium kommunizieren.
ANMERKUNG   Ähnliche Geräte, die außerhalb dieses Frequenzbereichs kommunizieren, werden befinden sich in der Untersuchung und werden durch eine andere Europäische Norm erfasst werden.
Es werden Verfahren für die Messung von Signalen, die durch die genannten Geräte erzeugt werden, beschrieben, und Grenzwerte werden für den Frequenzbereich 9 kHz bis 400 GHz festgelegt. Messungen sind nicht erforderlich bei den Frequenzen, für die keine Grenzwerte festgelegt sind.

Appareils de communication par courant porteur utilisés dans les installations basse tension - Caractéristiques de perturbations radioélectriques - Limites et méthodes de mesure - Partie 1: Appareils pour usage intérieur

Cette partie de l’EN 50561 spécifie les limites et méthodes de mesure des caractéristiques de perturbations radioélectriques pour les appareils de communication d'intérieur utilisant l'installation électrique basse tension comme moyen de transmission. Cette partie de l’EN 50561 s'applique aux appareils qui communiquent par ce moyen dans la plage de fréquences comprises entre 1,6065 MHz et 30 MHz.
NOTE: Les équipements analogues qui communiquent en-dehors de cette plage de fréquences sont à l’étude et seront couverts par une autre norme Européenne.
Des procédures sont fournies pour la mesure des signaux produits par les appareils et des limites sont spécifiées pour la plage de fréquences comprises entre 9 kHz et 400 GHz. Aucune mesure n'est nécessaire aux fréquences pour lesquelles des limites ne sont pas spécifiées.

Aparati za komunikacije po elektroenergetskih vodih pri nizkonapetostnih inštalacijah - Karakteristike radijskih motenj - Omejitve in merilne metode - 1. del: Aparati za domačo uporabo

General Information

Status
Published
Public Enquiry End Date
31-Mar-2011
Publication Date
11-Mar-2014
Current Stage
6100 - Translation of adopted SIST standards (Adopted Project)
Start Date
01-Mar-2021
Due Date
28-Feb-2022
Completion Date
27-Jun-2022

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Standards Content (Sample)

SLOVENSKI STANDARD
SIST EN 50561-1:2014
01-april-2014
1DGRPHãþD
SIST EN 55022:2011
SIST EN 55022:2011/AC:2011
SIST EN 55032:2012
SIST EN 55032:2012/AC:2013
$SDUDWL]DNRPXQLNDFLMHSRHOHNWURHQHUJHWVNLKYRGLKSULQL]NRQDSHWRVWQLK
LQãWDODFLMDK.DUDNWHULVWLNHUDGLMVNLKPRWHQM2PHMLWYHLQPHULOQHPHWRGHGHO
$SDUDWL]DGRPDþRXSRUDER
Power line communication apparatus used in low voltage installations - Radio
disturbance characteristics - Limits and methods of measurement - Part 1: Apparatus for
in-home use
Kommunikationsgeräte auf elektrischen Niederspannungsnetzen -
Funkstöreigenschaften - Grenzwerte und Messverfahren - Teil 1: Geräte für die
Verwendung im Heimbereich
Appareils de communication par courant porteur utilisés dans les installations basse
tension - Caractéristiques de perturbations radioélectriques - Limites et méthodes de
mesure - Partie 1: Appareils pour usage intérieur
Ta slovenski standard je istoveten z: EN 50561-1:2013
ICS:
33.100.01 Elektromagnetna združljivost Electromagnetic compatibility
na splošno in general
97.030 (OHNWULþQLDSDUDWL]DGRPQD Domestic electrical
VSORãQR appliances in general
SIST EN 50561-1:2014 en,fr
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

---------------------- Page: 1 ----------------------

SIST EN 50561-1:2014

---------------------- Page: 2 ----------------------

SIST EN 50561-1:2014

EUROPEAN STANDARD
EN 50561-1

NORME EUROPÉENNE
October 2013
EUROPÄISCHE NORM

ICS 33.040.60


English version


Power line communication apparatus used in low-voltage installations -
Radio disturbance characteristics -
Limits and methods of measurement -
Part 1: Apparatus for in-home use



Appareils de communication par courant Kommunikationsgeräte auf elektrischen
porteur utilisés dans les installations Niederspannungsnetzen -
basse tension - Funkstöreigenschaften -
Caractéristiques de perturbations Grenzwerte und Messverfahren -
radioélectriques - Teil 1: Geräte für die Verwendung im
Limites et méthodes de mesure - Heimbereich
Partie 1: Appareils pour usage intérieur





This European Standard was approved by CENELEC on 2013-10-09. 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


© 2013 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members.
Ref. No. EN 50561-1:2013 E

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SIST EN 50561-1:2014
EN 50561-1:2013 - 2 -

Contents Page
Foreword . 4
Introduction . 5
1 Scope . 6
2 Normative references . 6
3 Terms and definitions . 7
4 Requirement for conducted disturbances at AC mains power ports . 8
5 Requirement for conducted disturbances at telecommunication/network ports . 9
6 Requirements for conducted disturbances and communications signals at PLC ports . 9
6.1 General requirements . 9
6.2 Specific requirements for dynamic frequency exclusion. 10
7 Requirement for radiated disturbances . 11
8 Measurement conditions for PLC ports . 11
9 Measurement methods and procedures for PLC ports . 11
9.1 Conducted unsymmetrical disturbances . 11
9.2 Dynamic power control . 13
9.3 Cognitive frequency exclusion . 14
9.4 Conducted asymmetric disturbances . 15
10 Measurement uncertainty . 15
Annex A (normative) Excluded frequency ranges . 16
Annex B (normative) Impedance Stabilisation Network (ISN) for asymmetric disturbance
measurements . 18
Annex C (informative) Cognitive frequency exclusion . 20
C.1 Abbreviations . 20
C.2 PLC apparatus broadcast radio detection . 20
C.3 Verification of the cognitive frequency exclusion implementation . 21
C.4 Test signals . 23
Annex ZZ (informative) Coverage of Essential Requirements of EU Directives . 24
Bibliography . 25

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SIST EN 50561-1:2014
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Figure 1 — Minimum requirements for a dynamically excluded frequency range . 11
Figure 2 — Test arrangement for measuring the PLC port with an AMN . 12
Figure 3 — Example coupling system . 13
Figure 4 — Example test equipment arrangement for measuring PLC transmit signal levels . 14
Figure 5 — Example schematic of 100 Ω to 50 Ω Balun . 14
Figure 6 — Test arrangement for measuring the conducted asymmetric disturbances from the PLC port . 15
Figure B.1 — Example circuit schematic for ISN . 18
Figure B.2 — Arrangement for measurement of the ISN common mode decoupling attenuation
(isolation) (excluding the Coupling System) . 19

Table 1 — Limits for conducted disturbances . 9
Table 2 — Maximum PLC transmit signal level between 1,606 5 MHz and 30 MHz . 10
Table A.1 — Permanently excluded frequency ranges . 16
Table A.2 — Permanent or dynamically excluded frequency ranges . 17

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SIST EN 50561-1:2014
EN 50561-1:2013 - 4 -
Foreword
This document (EN 50561-1:2013) has been prepared by CLC/TC 210, "Electromagnetic compatibility
(EMC)".
The following dates are fixed:
(dop) 2014-10-09
• latest date by which this document has to be implemented at
national level by publication of an identical national standard
or by endorsement
(dow) 2016-10-09
• latest date by which the national standards conflicting with this
document have to be withdrawn
This document has been prepared under a mandate given to CENELEC by the European Commission and
the European Free Trade Association, and supports essential requirements of EU Directive(s).
For the relationship with EU Directive(s) see informative Annex ZZ, which is an integral part of this
document.
The scope is extended to the whole radio-frequency range from 9 kHz to 400 GHz, but limits are formulated
only in restricted frequency bands, which are considered sufficient to reach adequate emission levels to
protect radio broadcast and telecommunication services and to allow other apparatus to operate as intended
at reasonable distance.

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SIST EN 50561-1:2014
- 5 - EN 50561-1:2013
Introduction
The European Committee for Electrotechnical Standardization (CENELEC) draws attention to the fact that it
is claimed that compliance with this document may involve the use of a patent given in EN 50561-1:2013.
CENELEC takes no position concerning the evidence, validity and scope of this patent right.
The holder of this patent right has assured CENELEC that he is willing to negotiate licenses under
reasonable and non-discriminatory terms and conditions with applicants throughout the world. In this respect,
the statement of the holder of this patent right is registered with CENELEC. Information may be obtained
from:
Sony Cooperation
Hiroshi Kamitani
IP Alliance & Licensing Department
1-7-1 Konan, Minato-ku, Tokyo 108-0075, Japan
Tel: +81-3-6748-3505
Fax: +81-6748-3544
Hiroshi.Kamitani@jp.sony.com
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights other than those identified above. CENELEC shall not be held responsible for identifying any or all
such patent rights

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SIST EN 50561-1:2014
EN 50561-1:2013 - 6 -
1 Scope
This part of EN 50561 specifies limits and methods of measurement of radio disturbance characteristics for
in-home communication apparatus that use the low-voltage power installation as the transmission medium.
This part of EN 50561 applies to equipment that communicate over this medium in the frequency range
1,606 5 MHz to 30 MHz.
NOTE Similar equipment that communicate outside this frequency range is under study and will be covered by
another European Standard.
Procedures are given for the measurement of signals generated by the equipment and limits are specified for
the frequency range 9 kHz to 400 GHz. No measurement is required at frequencies where no limit is
specified.
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 55022:2010 + AC:2011, Information technology equipment — Radio disturbance characteristics — Limits
and methods of measurement (CISPR 22:2008, modified)
EN 55016-1-1:2010, Specification for radio disturbance and immunity measuring apparatus and methods —
Part 1-1: Radio disturbance and immunity measuring apparatus — Measuring apparatus
(CISPR 16-1-1:2010 + corrigendum Oct. 2011)
EN 55016-1-2:2004, Specification for radio disturbance and immunity measuring apparatus and methods —
Part 1-2: Radio disturbance and immunity measuring apparatus — Ancillary equipment — Conducted
disturbances (CISPR 16-1-2:2003)
1)
, Specification for radio disturbance and immunity measuring apparatus and
EN 55016-4-2:2004
methods — Part 4-2: Uncertainties, statistics and limit modelling — Uncertainty in EMC measurements
(CISPR 16-4-2:2003)
The Radio Regulations, ITU, Edition of 2008
2)
ITU-R Recommendation BS.560-3 , Radio-frequency protection ratios in LF, MF and HF broadcasting
ITU-R Recommendation BS.703, Characteristics of AM sound broadcasting reference receivers for planning
purposes
3)
ITU-R Recommendation BS.1615 , "Planning parameters" for digital sound broadcasting at frequencies
below 30 MHz
———————
1) EN 55016-4-2:2004 is superseded by EN 55016-4-2:2011, Specification for radio disturbance and immunity measuring apparatus
and methods — Part 4-2: Uncertainties, statistics and limit modelling — Measurement instrumentation uncertainty (CISPR 16-4-
2:2011)
2) BS.560-3 is superseded by BS.560-4, Radio-frequency protection ratios in LF, MF and HF broadcasting
3) BS.1615 is superseded by BS.1615-1, "Planning parameters" for digital sound broadcasting at frequencies below 30 MHz

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SIST EN 50561-1:2014
- 7 - EN 50561-1:2013
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
AC mains power port
port that connects to the low voltage AC mains power network for the sole purpose of supplying electrical
energy to the EUT
3.2
AC mains output port
port of the EUT that provides AC mains power to other apparatus
3.3
Artificial Mains Network
AMN
network providing a defined impedance at high frequencies across the power feed at the point of
measurement of the terminal voltage, and also providing isolation of the circuit under test from the ambient
noise on the power lines
Note 1 to entry: Such a network with a nominal impedance of 50 Ω/50 μH or 50 Ω/50 μH + 5 Ω is defined in
EN 55016-1-2:2004, 4.3.
3.4
Associated Equipment
AE
equipment needed to maintain the data traffic on the cable attached to the EUT port under test and (or) to
maintain the normal operation of the EUT during the test
Note 1 to entry: The AE can be another ITE, a traffic simulator or a connection to a network. The AE can be situated
close to the measurement set-up, outside the measurement room or be represented by the connection to a network. The
AE may be physically located outside the test area. The AE should not have any appreciable influence on the test
results.
3.5
Equipment Under Test
EUT
representative equipment used for evaluation purposes
3.6
Impedance Stabilisation Network
ISN
symmetrical network for the measurement of the launched common mode disturbance signal transmitted by
the EUT
3.7
in-Home PLC apparatus
PLC apparatus that connects to the low voltage AC mains power network and intended to be linked to other
PLC apparatus connected in the same home

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SIST EN 50561-1:2014
EN 50561-1:2013 - 8 -
3.8
Information Technology Equipment
ITE
any equipment:
a) which has a primary function of either (or a combination of) entry, storage, display, retrieval,
transmission, processing, switching, or control, of data and of telecommunication messages and which
may be equipped with one or more terminal ports typically operated for the transfer of information,
b) with a rated supply voltage not exceeding 600 V
Note 1 to entry: ITE includes, for example, data processing equipment, office machines, electronic business equipment
and telecommunication equipment.
Note 2 to entry: Any equipment (or part of the ITE equipment) which has a primary function of radio transmission
and/or reception according to the ITU Radio Regulations is excluded from the scope of this European Standard.
Note 3 to entry: Any equipment which has a function of radio transmission and/or reception according to the definitions
of the ITU Radio Regulations should fulfil the national radio regulations, whether or not this European Standard is also
valid.
3.9
PLC apparatus
apparatus with a PLC port
Note 1 to entry: PLC apparatus are also called PLT apparatus.
3.10
PLC port
port that connects to the low voltage AC mains power network for the purpose of data transfer and
communication, and may also supply electrical energy to the EUT
Note 1 to entry: PLC ports are also called PLT ports.
3.11
telecommunications/network port
point of connection for voice, data and signalling transfers intended to interconnect widely-dispersed systems
via such means as direct connection to multi-user telecommunications networks (e.g. public switched
telecommunications networks (PSTN) integrated services digital networks (ISDN), x-type digital subscriber
lines (xDSL), etc.), local area networks (e.g. Ethernet, Token Ring, etc.) and similar networks
Note 1 to entry: A port generally intended for interconnection of components of an ITE system under test (e.g. RS-232,
IEEE Standard 1284 (parallel printer), Universal Serial Bus (USB), IEEE Standard 1394 (“Fire Wire”), etc.) and used in
accordance with its functional specifications (e.g. for the maximum length of cable connected to it), is not considered to
be a telecommunications/network port under this definition.
Note 2 to entry: A PLC port is not considered a telecommunications network port in the sense of Definition 3.11.
3.12
user data
data originated from or destined to another device
3.13
‘valid’ radio broadcast service
radio broadcast service for which the field strength of the wanted radio signal at the location of the radio
broadcast receiver is either at or above the minimum usable field strength level of 40 dB(μV/m) as defined by
the ITU Radio Regulations and ITU-R Recommendation BS.703
4 Requirement for conducted disturbances at AC mains power ports
The AC mains power ports of the EUT shall comply with the Class B limits, using the measurement
conditions and the methodology defined in EN 55022 for mains terminals.

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SIST EN 50561-1:2014
- 9 - EN 50561-1:2013
5 Requirement for conducted disturbances at telecommunication/network ports
The Telecommunications/network ports of the EUT shall comply with the Class B limits, using the
measurement conditions and the methodology defined in EN 55022 for these ports.
6 Requirements for conducted disturbances and communications signals at PLC
ports
6.1 General requirements
The PLC port of the EUT shall comply with the following requirements:
In any operating condition, the unsymmetrical disturbances from the PLC port shall not exceed the
disturbance limits given in Table 1 between 150 kHz and 1,606 5 MHz using the methods and procedures
given in 9.1.
When user data is being transmitted by the PLC port the disturbances from the PLC port may exceed the
disturbance limits of Table 1 at frequencies between 1,606 5 MHz and 30 MHz provided that within
— all the excluded frequency ranges given in Table A.1, the level of the transmitted signals shall comply
with the disturbance limits given in Table 1 using the methods and procedures given in 9.1,
— all the excluded frequency ranges given in Table A.2, the level of the transmitted signals shall comply
o either with the disturbance limits given in Table 1 using the methods and procedures given in 9.1,
o or with the dynamic frequency exclusion requirements given in 6.2.
Without user data transmission, the unsymmetrical disturbances from the PLC port shall comply with the
disturbance limits given in Table 1 between 150 kHz and 30 MHz using the methods and procedures given
in 9.1.
The maximum transmitted signal from the PLC port shall not exceed the maximum values given in Table 2
measured using the methods and procedures given in 9.2.
The PLC port shall implement a dynamic power control function for the purpose of minimising the probability
of radio disturbance whilst still maintaining communication. The dynamic power control function shall be
capable of reducing the output power to the maximum levels given in Table 2 measured using the methods
and procedures given in 9.2.
In order to ensure the inherent symmetry of the PLC port it shall, in all operating conditions, comply with the
disturbance limits given in Table 1 using the methods and procedures given in 9.4.
Table 1 — Limits for conducted disturbances
Limits
Frequency range
dB(µV)
MHz
Quasi-peak Average
0,15 to 0,50 66 to 56 56 to 46
0,50 to 5 56 46
5 to 30 60 50
NOTE 1 The lower limit applies at the transition frequencies.
NOTE 2 The limit decreases linearly with the logarithm of the frequency in the range 0,15 MHz to
0,50 MHz.

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SIST EN 50561-1:2014
EN 50561-1:2013 - 10 -
Table 2 — Maximum PLC transmit signal level between 1,606 5 MHz and 30 MHz
Symmetrical mode insertion loss EUT to AE in dB
10 20 ≥ 40
Maximum transmit signal level in dB(μV) (AV)
65 75 95
Maximum transmit signal level in dB(μV) (PK)
75 85 105
NOTE  The transmit power management function of an AE should operate in the same way as the EUT
otherwise the signal of the AE may dominate and cause erroneous results during measurement.

6.2 Specific requirements for dynamic frequency exclusion
Within 15 s of a ‘valid’ HF radio broadcast service being present within the excluded frequency band given in
Table A.2, the transmitted PLC signal level shall not exceed a symmetrical voltage level of 56 dB(µV) (AV) in
a 9 kHz resolution bandwidth.
NOTE 1 This level of the symmetrical voltage is derived from the EN 55022 Mains Conducted Class B disturbance
limit (5 MHz to 30 MHz), which is U = 50 dB(µV) (Resolution Bandwidth 9 kHz, AV).
AMN
The transmitted PLC signal shall avoid using the frequency of an identified radio broadcast service. The
minimum width of the excluded frequency band shall be 10 kHz (± 5 kHz centred on the carrier frequency of
the broadcast signal). The excluded frequency band shall also comply with the requirements of Figure 1 in
order to avoid adjacent channel interference, with respect to AM / DRM protection ratios as defined in ITU-R
Recommendations BS.560-3, BS.1615 and BS.703, from transmissions outside the notch.
If several neighbouring radio broadcast services are identified or a digital (DRM) service occupying more
than a single conventional channel, the width of the excluded frequency range shall be increased, scaled to
integer multiples of 5 kHz.
NOTE 2 Usually, the channels of radio broadcast services are allocated with a minimum spacing of 5 kHz. Also, the
centre frequency is a multiple of 5 kHz.
The excluded frequency band shall remain excluded continuously for the entire duration that the ‘valid’ radio
broadcast service is present. After the detection of a ‘valid’ radio broadcast service has ceased, the excluded
frequency band shall remain excluded for at least 3 additional minutes.

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SIST EN 50561-1:2014
- 11 - EN 50561-1:2013

where
width ≥ 10 kHz, lower level = 56 dB(µV) (AV, Resolution bandwidth 9 kHz) and
Width increment on each side Maximum level above the lower level
of the excluded frequency range of the notch (A(x))
kHz dB
Step a 2 0
Step b 10 ≤ 25
Step c 20 ≤ 35
Figure 1 — Minimum requirements for a dynamically excluded frequency range
7 Requirement for radiated disturbances
The EUT shall comply with the Class B limits, using the measurement conditions and the methodology
defined in EN 55022 for radiated disturbances.
8 Measurement conditions for PLC ports
The measurement of PLC ports shall be performed in conformance with EN 55022:2010, Clause 8.
The tests requiring the PLC modem function to be active shall be performed with the condition of PLC
utilisation in excess of 10 % and with the transmit signal set at its maximum level maintained for a minimum
of 250 ms. As an example, the transmission of a large data file could be used to exercise the port. Where
this is not possible an appropriate configuration should be used that ensures the PLC transmission is active
for a period of time long enough to allow for repeatable measurements in this state.
No connection shall be made to any AC mains output port.
9 Measurement methods and procedures for PLC ports
9.1 Conducted unsymmetrical disturbances
The PLC port of the EUT shall be assessed using an AMN in accordance with EN 55016-1-2:2004, 4.3, the
measurement method given in EN 55022:2010, Clause 9, for the mains ports and the arrangement shown in
Figure 2 below for frequencies between 150 kHz and 30 MHz.

---------------------- Page: 13 ----------------------

SIST EN 50561-1:2014
EN 50561-1:2013 - 12 -
The coupling system (see Figure 3) shall
a) allow the EUT to be exercised by the AE,
b) have a sufficient loss to ensure signals from the AE do not influence the measurement result,
c) ensure that the EUT can transmit at its maximum power level.
The coupling system is required for
— providing a defined (symmetric) insertion loss between the EUT and AE,
— stabilisation of the differential mode impedance,
— attenuation of the differential mode signal of the AE,
— isolation of the common mode signal of the AE,
— filtering of the differential- and common mode signal from the mains.
Figure 3 shows an example of a coupling unit with a nominal insertion loss of 40 dB.
Measurements in the following operating conditions and configurations shall be performed:
1) with the PLC modem function of the EUT active and communicating to an associated PLC apparatus
(AE) exercised in accordance with Clause 8, using its maximum transmit power the disturbance levels
shall be measured in the frequency range from 150 kHz to 30 MHz. Above 1,606 5 MHz only the
disturbances within the appropriate excluded frequency ranges need to be compared with the limits;
2) after completion of step 1, the exchange of user data exercising the EUT shall be terminated. Without
user data transmission, the disturbance levels shall be measured between 150 kHz – 30 MHz.

NOTE 1 Distance from AE to the reference ground plane (vertical or horizontal) is not critical.
NOTE 2 Cable length between EUT and CS is 0,8 m (± 0,05 m).
Figure 2 — Test arrangement for measuring the PLC port with an AMN

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SIST EN 50561-1:2014
- 13 - EN 50561-1:2013
Coupling unit
C
R
R
C
L
L
AMN AMN
EUT
AE
N
N


where L N PE
L N PE
AC mains
R = 2,5 kΩ;
C = 1 nF.

Figure 3 — Example coupling system

9.2 Dynamic power control
The transmitted symmetrical signal from the PLC port of the EUT shall be measured for frequencies between
1,606 5 MHz and 30 MHz in order to ensure that the maximum transmit signal levels are not exceeded and
to ensure the presence of a dynamic power control function. The PLC port shall be exercised in accordance
with the operating conditions given in Clause 8. The measurements shall be made using a peak and an
average detector; the detectors shall be in accordance with the requirements of EN 55016-1-1 including the
9 kHz requirement for the 6 dB bandwidth. An example test arrangement is given in Figure 4.
The transmit signal level shall be measured at all PLC transmission frequencies, with a symmetrical insertion
loss between EUT and AE of 10 dB, 20 dB, 40 dB and 50 dB.

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SIST EN 50561-1:2014
EN 50561-1:2013 - 14 -
100 nF
1,0 MΩ
Signal
100 Ω
AMN or
generator
50 Ω
Symmetrical
100 Ω
suitable 50 µH
*see note
AC
splitter coaxial
to 50 Ω
mains
mains
splitter
Balun
filter
Receiver

EUT

100 nF
50 µH

1,0 MΩ
NOTE Depending on the test,
connect either signal generator
100 nF

or 50 Ω termination
1,0 MΩ

100 Ω
AMN or
Symmetrical
50 µH
suitable
variable
mains
attenuator
filter

AE
100 nF
50 µH


1,0 MΩ



NOTE 1 The insertion power loss between the EUT and the AE is 10 dB to 50 dB adjustable in 10 dB steps.


NOTE 2 The insertion power loss between the EUT and the measurement receiver is nominally 20 dB.
NOTE 3 The insertion power loss between the signal generator and EUT is nominally 20 dB.
NOTE 4 The insertion power loss between the
...

S L O V E N S K I SIST EN 50561-1


S T A N D A R D   april 2014













Aparati za komunikacije po elektroenergetskih vodih pri nizkonapetostnih
inštalacijah – Karakteristike radijskih motenj – Omejitve in merilne metode –
1. del: Aparati za domačo uporabo

Power line communication apparatus used in low voltage installations –
Radio disturbance characteristics – Limits and methods of measurement –
Part 1: Apparatus for in-home use

Appareils de communication par courant porteur utilisés dans les installations
basse tension – Caractéristiques de perturbations radioélectriques –
Limites et méthodes de mesure - Partie 1: Appareils pour usage intérieur

Kommunikationsgeräte auf elektrischen Niederspannungsnetzen –
Funkstöreigenschaften – Grenzwerte und Messverfahren –
Teil 1: Geräte für die Verwendung im Heimbereich
















Referenčna oznaka
ICS 33.040.60; 33.100.01, 97.030 SIST EN 50561-1:2014 (sl)

Nadaljevanje na straneh II do III in od 1 do 26

© 2022-07. Slovenski inštitut za standardizacijo. Razmnoževanje ali kopiranje celote ali delov tega dokumenta ni dovoljeno.

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SIST EN 50561-1 : 2014

NACIONALNI UVOD

Standard SIST EN 50561-1 (sl), Aparati za komunikacije po elektroenergetskih vodih pri
nizkonapetostnih inštalacijah – Karakteristike radijskih motenj – Omejitve in merilne metode – 1. del:
Aparati za domačo uporabo, 2014, ima status slovenskega standarda in je istoveten evropskemu
standardu EN 50561-1 (en), Power line communication apparatus used in low-voltage installations –
Radio disturbance characteristics – Limits and methods of measurement – Part 1: Apparatus for in-
home use, 2013.

NACIONALNI PREDGOVOR

Evropski standard EN 50561-1:2013 je pripravil tehnični odbor CLC/TC 210 Elektromagnetna
združljivost (EMC)

Slovenski standard SIST EN 50561-1:2014 je prevod evropskega standarda EN 50561-1:2013. V
primeru spora glede besedila slovenskega prevoda v tem standardu je odločilen izvirni evropski
standard v angleškem jeziku. Slovensko izdajo standarda je potrdil tehnični odbor SIST/TC EMC
Elektromagnetna združljivost.

Odločitev za privzem tega standarda je v marcu 2014 sprejel tehnični odbor SIST/TC EMC
Elektromagnetna združljivost.

ZVEZA Z NACIONALNIMI STANDARDI

S privzemom tega evropskega standarda veljajo za omejeni namen referenčnih standardov vsi
standardi, navedeni v izvirniku, razen tistih, ki so že sprejeti v nacionalno standardizacijo:

SIST EN 55022:2011+AC:2011 Oprema za informacijsko tehnologijo – Karakteristike občutljivosti za
radijske motnje – Mejne vrednosti in merilne metode

SIST EN 55016-1-1:2010 Specifikacija merilnih naprav in metod za merjenje radijskih motenj in
odpornosti – 1-1. del: Merilne naprave za merjenje radijskih motenj in
odpornosti – Merilne naprave

SIST EN 55016-1-2:2005 Specifikacija za merilne naprave in metode za merjenje radijskih
motenj in odpornosti – 1-2. del: Merilne naprave za merjenje radijskih
motenj in odpornosti – Pomožna oprema – Motnje po vodnikih (CISPR
16-1-2:2003)

SIST EN 55016-4-2:2005 Specifikacija za merilne naprave in metode za merjenje radijskih
motenj in odpornosti – 4-2. del: Modeliranje negotovosti, statistike in
mejnih vrednosti – Negotovost pri meritvah EMC (CISPR 16-4-
2:2003) (nadomeščen s SIST EN 55016-4-2:2011)

OSNOVA ZA IZDAJO STANDARDA

– privzem standarda EN 50561-1:2013

OPOMBE

– Povsod, kjer se v besedilu standarda uporablja izraz "evropski standard", v SIST EN 50561-1:2014
to pomeni “slovenski standard”.

– Nacionalni uvod in nacionalni predgovor nista sestavni del standarda.



II

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SIST EN 13108-7 : 2017

Ta nacionalni dokument je istoveten EN 50561-1:2013 in je objavljen z dovoljenjem

CEN-CENELEC
Upravni center
Avenue Marnix 17
B-1000 Bruselj

This national document is identical with EN 50561-1:2013 and is published with the permission of

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



III

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SIST EN 50561-1 : 2014



























(prazna stran)































IV

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EVROPSKI STANDARD EN 50561-1
EUROPEAN STANDARD

NORME EUROPÉENNE
oktober 2013
EUROPÄISCHE NORM

ICS 33.040.60






Slovenska izdaja

Aparati za komunikacije po elektroenergetskih vodih pri nizkonapetostnih
inštalacijah – Karakteristike radijskih motenj – Omejitve in merilne metode –
1. del: Aparati za domačo uporabo

Power line communication Appareils de communication par Kommunikationsgeräte auf
apparatus used in low voltage courant porteur utilisés dans les elektrischen
installations – Radio disturbance installations basse tension – Niederspannungsnetzen –
characteristics – Limits and Caractéristiques de Funkstöreigenschaften –
methods of measurement – perturbations radioélectriques – Grenzwerte und Messverfahren
Part 1: Apparatus for in-home Limites et méthodes de mesure – Teil 1: Geräte für die
use – Partie 1: Appareils pour usage Verwendung im Heimbereich
intérieur



Ta evropski standard je CENELEC odobril 9. oktobra 2013. Člani CENELEC morajo izpolnjevati notranje
predpise CEN/CENELEC, ki določajo pogoje, pod katerimi dobi ta standard status nacionalnega
standarda brez kakršnihkoli sprememb.

Najnovejši seznami teh nacionalnih standardov in njihovi bibliografski podatki se na zahtevo lahko dobijo
pri Upravnem centru CEN-CENELEC ali kateremkoli članu CENELEC.

Ta evropski standard obstaja v treh uradnih izdajah (angleški, francoski in nemški). Izdaje v drugih
jezikih, ki jih člani CENELEC na lastno odgovornost prevedejo in izdajo ter priglasijo pri Upravnem
centru CEN-CENELEC, veljajo kot uradne izdaje.

Člani CENELEC so nacionalni elektrotehniški komiteji Avstrije, Belgije, Bolgarije, Cipra, Češke, Danske,
Estonije, Finske, Francije, Grčije, Hrvaške, Islandije, Irske, Italije, Latvije, Litve, Luksemburga,
Madžarske, Malte, Nemčije, Nizozemske, Norveške, Poljske, Portugalske, Romunije, Severne
Makedonije, Slovaške, Slovenije, Španije, Švedske, Švice, Turčije in Združenega kraljestva.






CENELEC
Evropski komite za standardizacijo v elektrotehniki
European Committee for Electrotechnical Standardisation
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung

Upravni center CEN-CENELEC: Avenue Marnix 17, B-1000 Bruselj



© 2012 CENELEC   Lastnice avtorskih pravic so vse države članice CENELEC             Ref. št. EN 50561-6:2021 E

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SIST EN 50561-1 : 2014

VSEBINA Stran

Evropski predgovor . 4
Uvod . 5
1 Področje uporabe . 6
2 Zveze s standardi . 6
3 Izrazi in definicije . 7
4 Zahteve za prevajane motnje po vodniku na portih izmeničnega napajanja . 8
5 Zahteve za prevajane motnje na telekomunikacijskih/omrežnih portih . 8
6 Zahteve za prevajane motnje in komunikacijske signale na portih PLC . 9
6.1 Splošne zahteve . 9
6.2 Posebne zahteve za dinamično izločitev frekvence .10
7 Zahteve za sevane motnje .11
8 Merilni pogoji za porte PLC .11
9 Merilne metode in postopki za porte PLC .11
9.1 Prevajane nesimetrične motnje .11
9.2 Dinamično krmiljenje moči .13
9.3 Izločitev kognitivnih frekvenc .14
9.4 Prevajane asimetrične motnje .15
10 Merilna negotovost .16
Dodatek A (normativni): Izločena frekvenčna območja .17
Dodatek B (normativni): Impedančno stabilizirano omrežje (ISN) za merjenje asimetričnih motenj .19
Dodatek C (informativni): Izključitev kognitivne frekvence .21
C.1 Kratice .21
C.2 Aparati PLC za zaznavanje radiodifuzijskih signalov .21
C.3 Preverjanje implementacije izločitve kognitivnih frekvenc .22
C.4 Preskusni signali .23
Dodatek ZZ (informativni): Upoštevanje bistvenih zahtev direktiv EU .25
Literatura.26

Slika 1: Minimalne zahteve za dinamično izločitev frekvenčnega območja .11
Slika 2: Ureditev preskušanja za meritev porta PLC z umetnim omrežjem (AMN) .12
Slika 3: Primer sklopnega sistema .13
Slika 4: Primer preskusne ureditve za meritev nivojev oddanih signalov PLC .14
Slika 5: Primer sheme simetrirnika 100 Ω do 50 Ω .14
Slika 6: Preskusna ureditev za merjenje prevajanih asimetričnih motenj iz porta PLC .15
Slika B1: Primer električne sheme impedančno stabiliziranega omrežja (ISN) .19
Slika B.2: Merilna shema za merjenje slabljenja asimetričnega razklopnega (ločenega)
impedančno stabiliziranega omrežja (ISN) (brez sklopnega sistema) .20


2

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SIST EN 50561-1 : 2014

Preglednica 1: Mejne vrednosti prevajanih motenj . 9
Preglednica 2: Najvišji nivo prenesenega signala PLC med 1,606 5 MHz in 30 MHz .10
Preglednica A.1: Stalno izločena frekvenčna območja .17
Preglednica A.2: Stalna dinamično izločena frekvenčna območja .18


3

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SIST EN 50561-1 : 2014

Evropski predgovor

Ta dokument (EN 50561-1:2013) je pripravil tehnični odbor CLC/TC 210 "Elektromagnetna združljivost
(EMC)".

Določena sta bila naslednja datuma:

– zadnji datum, do katerega mora ta dokument dobiti (dop) 2014-10-09
status nacionalnega standarda bodisi z objavo
istovetnega besedila ali z razglasitvijo
– zadnji datum, ko je treba razveljaviti nacionalne (dow) 2016-10-09
standarde, ki so s tem dokumentom v nasprotju

Ta dokument je bil pripravljen v okviru mandata, ki sta ga Evropska komisija in Evropsko združenje za
prosto trgovino dala CENELEC in podpira bistvene zahteve evropskih direktiv.

Povezava z evropskimi direktivami je navedena v dodatku ZZ, ki je sestavni del tega dokumenta.

Področje uporabe je razširjeno na celotno radiofrekvenčno območje od 9 kHz do 400 GHz, vendar so
meje opredeljene samo v omejenih frekvenčnih pasovih, ki se štejejo za zadostne za doseganje
ustreznih nivojev emisij za zaščito radijskih oddaj in telekomunikacijskih storitev ter za omogočanje
namenskega delovanja drugim aparatom na primerni razdalji.


4

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SIST EN 50561-1 : 2014

Uvod

Evropski komite za standardizacijo v elektrotehniki (CENELEC) opozarja na možnost, da skladnost s
tem dokumentom lahko vključuje uporabo patenta iz EN 50561-1:2013.

CENELEC se ne opredeljuje glede dokazovanja, veljavnosti in obsega te patentne pravice.

Imetnik te patentne pravice je CENELEC zagotovil, da se je pripravljen pogajati o licencah pod
razumnimi in nediskriminatornimi pogoji z uporabniki po vsem svetu. V zvezi s tem je izjava imetnika te
patentne pravice registrirana pri CENELEC. Informacije so na voljo pri:

Sony Cooperation
Hiroshi Kamitani
IP Alliance & Licensing Department
1-7-1 Konan, Minato-ku, Tokyo 108-0075, Japan
Tel.: +81-3-6748-3505
Faks: +81-6748-3544
Hiroshi.Kamitani@jp.sony.com

Opozoriti je treba na možnost, da so lahko nekateri elementi tega dokumenta predmet patentnih pravic,
ki niso navedene zgoraj. CENELEC ne odgovarja za identifikacijo katerekoli ali vseh takih patentnih
pravic.



5

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SIST EN 50561-1 : 2014

1 Področje uporabe

Ta del EN 50561 določa meje in metode merjenja karakteristik radijskih motenj za aparate, ki se
uporabljajo za hišne komunikacije in za prenosni medij uporabljajo nizkonapetostno električno
inštalacijo. Ta del EN 50651 velja za opremo, ki komunicira po tem mediju s frekvencami od
1,606 5 MHz do 30 MHz.

OPOMBA: Podobna oprema, ki komunicira zunaj tega frekvenčnega območja, je v preučevanju in jo bo obravnaval drug
evropski standard.

Navedeni so postopki za merjenje signalov, ki jih generira ta oprema, in določene so meje za frekvenčno
območje od 9 kHz do 400 GHz. Pri frekvencah, ki nimajo določenih mej, merjenje ni zahtevano.

2 Zveze s standardi

Za uporabo tega standarda so, delno ali v celoti, nujno potrebni spodaj navedeni referenčni dokumenti.
Pri datiranih sklicevanjih se uporablja le navedena izdaja. Pri nedatiranih sklicevanjih se uporablja
zadnja izdaja publikacije (vključno z dopolnili).
EN 55022:2010+AC:2011 Oprema za informacijsko tehnologijo – Karakteristike občutljivosti za
radijske motnje – Mejne vrednosti in merilne metode (CISPR 22:2008,
spremenjen)

EN 55016-1-1:2010 Specifikacija merilnih naprav in metod za merjenje radijskih motenj in
odpornosti – 1-1. del: Merilne naprave za merjenje radijskih motenj in
odpornosti – Merilne naprave (CISPR 16-1-1:2010+popravek oktober
2011)

EN 55016-1-2:2004 Specifikacija za merilne naprave in metode za merjenje radijskih motenj
in odpornosti – 1-2. del: Merilne naprave za merjenje radijskih motenj in
odpornosti – Pomožna oprema – Motnje po vodnikih (CISPR 16-1-
2:2003)

1)
EN 55016-4-2:2004 Specifikacija za merilne naprave in metode za merjenje radijskih motenj
in odpornosti – 4-2. del: Modeliranje negotovosti, statistike in mejnih
vrednosti – Negotovost pri meritvah EMC (CISPR 16-4-2:2003)

The Radio Regulations, ITU, izdaja 2008

2)
Priporočilo ITU-R BS.560-3 Razmerja radiofrekvenčnih zaščit v nizko-, srednje- in visokofrekvenčni
radiodifuziji

Priporočilo ITU-R BS.703 Karakteristike referenčnih sprejemnikov analogno modulirane (AM)
zvokovne radiodifuzije za potrebe načrtovanja

3)
Priporočilo ITU-R BS.1615 "Načrtovalski parametri" za digitalno zvokovno radiodifuzijo na
frekvencah pod 30 MHz



1)
EN 55016-4-2:2004 je nadomeščen z EN 55016-4-2:2011, Specifikacija za merilne naprave in metode za merjenje radijskih
motenj in odpornosti – 4-2. del: Modeliranje negotovosti, statistike in mejnih vrednosti – Negotovost merilnih instrumentov
(CISPR 16-4-2:2011).

2)
BS.560-3 je nadomeščen z BS.560-4, Razmerja radiofrekvenčnih zaščit v nizko-, srednje- in visokofrekvenčni radiodifuziji.

3)
BS.16153 je nadomeščen z BS.1615-1, "Načrtovalski parametri" za digitalno zvokovno radiodifuzijo na frekvencah pod
30 MHz.
6

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SIST EN 50561-1 : 2014

3.1 Izrazi in definicije

V tem dokumentu se uporabljajo naslednji izrazi in definicije

3.1
(vhodni) port izmeničnega napajanja
port, priključen na nizkonapetostno izmenično omrežno napajanje, namenjen samo za napajanje
preskušanca (EUT) z električno energijo

3.2
izhodni port izmeničnega napajanja
port preskušanca (EUT) za napajanje drugih aparatov z izmeničnim napajanjem

3.3
umetno (električno) omrežje
AMN
omrežje, ki zagotavlja določeno impedanco pri visokih frekvencah vzdolž napajalnega voda na točki
merjenja napetosti na sponki in tudi zagotavlja ločitev preskušanega tokokroga od šuma okolja na
elektroenergetskih vodih

OPOMBA: Tako omrežje z nazivno impedanco 50 Ω/50 H ali 50 Ω/50 H + 5 Ω je definirano v EN 55016-1-2:2004, 4.3.

3.4
pripadajoča oprema
AE
oprema, potrebna za vzdrževanje podatkovnega prometa po kablu, priključenem na port preskušanca,
in/ali za vzdrževanje normalnega delovanja preskušanca med preskusom

OPOMBA: Pripadajoča oprema (AE) je lahko druga oprema informacijske tehnologije (ITE), simulator prometa ali povezava
na omrežje. Pripadajoča oprema je lahko v bližini merilnega sestava, zunaj merilne sobe ali je predstavljena s
povezavo na omrežje. Pripadajoča oprema je lahko fizično nameščena zunaj preskusnega območja. Pripadajoča
oprema naj ne bi imela nobenega pomembnega vpliva na rezultate preskusov.

3.5
preskušanec
EUT
reprezentativna oprema, ki se uporablja za ovrednotenje

3.6
impedančno stabilizirano omrežje
ISN
simetrično omrežje za merjenje nesimetrične motnje, ki jo sproži signal preskušanca

3.7
hišni aparat PLC
aparat PLC, ki se priključi na izmenično nizkonapetostno napajalno omrežje, namenjen povezavi z
drugimi aparati PLC, priključenimi v isti hiši

3.8
oprema informacijske tehnologije
ITE
vsa oprema:

a) ki ima primarno funkcijo bodisi (ali kombinacijo) vstopa, hranjenja, prikazovanja, poiskave, prenosa,
obdelave, komutacije ali krmiljenja podatkov in telekomunikacijskih sporočil ter je lahko opremljena
z enim ali več priključnimi porti, ki tipično delujejo za prenos informacij,

b) z naznačeno napajalno napetostjo, ki ne presega 600 V


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SIST EN 50561-1 : 2014

OPOMBA 1: Oprema informacijske tehnologije vključuje na primer opremo za obdelavo podatkov, pisarniške stroje,
elektronsko poslovno opremo in telekomunikacijsko opremo.

OPOMBA 2: Vsa oprema (ali del opreme informacijske tehnologije), ki ima primarno funkcijo radijskega oddajanja in/ali
sprejemanja v skladu s Pravilnikom ITU o radiokomunikacijah, je izločena iz področja uporabe tega evropskega
standarda.

OPOMBA 3: Vsa oprema, ki ima funkcijo radijskega oddajanja in/ali sprejemanja v skladu z definicijami v Pravilniku ITU o
radiokomunikacijah, naj izpolnjuje nacionalne predpise o radiokomunikacijah ne glede na siceršnjo veljavnost tudi
tega evropskega standarda.

3.9
aparat PLC
aparat s portom PLC

OPOMBA: Aparati PLC se imenujejo tudi aparati PLT.

3.10
port PLC
port, ki se priključi na nizkonapetostno napajalno omrežje, da omogoča prenos podatkov in komunikacije
in ki lahko tudi napaja preskušanca z električno energijo

OPOMBA: Porti PLC se imenujejo tudi porti PLT.

3.11
telekomunikacijski/omrežni port
točka povezave za prenos govora, podatkov in signalizacije za medsebojno povezavo široko razpršenih
sistemov po sredstvih, kot so npr. neposredna povezava z večuporabniškimi telekomunikacijskimi
omrežji (npr. javno komutirano telekomunikacijsko omrežje (PST N), digitalna omrežja z integriranimi
storitvami (ISDN), x-tip digitalnega naročniškega voda (xDSL) itd.), lokalna omrežja (npr. Ethernet,
Token Ring itd.) in podobna omrežja

OPOMBA 1: Port, ki je v splošnem namenjen za medsebojno povezavo komponent preskušanega sistema ITE (npr. RS-232,
standard IEEE 1284 (paralelni tiskalnik), univerzalno serijsko vodilo (USB), standard IEEE 1394 ("Fire Wire") itd.)
in je uporabljen v skladu s svojimi funkcionalnimi specifikacijami (npr. za največjo dolžino kabla, ki je nanj
priključen), se po tej definiciji ne obravnava kot telekomunikacijski/omrežni port.

OPOMBA 2: Port PLC se ne obravnava kot telekomunikacijsko omrežje v pomenu definicije 3.11.

3.12
uporabniški podatki
podatki, ki izhajajo iz druge naprave ali so namenjeni vanjo

3.13
"veljavna" storitev radiodifuzije
storitev radiodifuzije, pri kateri je poljska jakost želenega radijskega signala na lokaciji radijskega
sprejemnika enaka ali nad najmanjšim uporabnim nivojem poljske jakosti 40 dB (μV/m), kot je definiran
v Pravilniku ITU o radiokomunikacijah in Priporočilu ITU-R BS.703

4 Zahteve za prevajane motnje po vodniku na portih izmeničnega napajanja

Porti izmeničnega napajanja preskušanca morajo ustrezati mejam razreda B ob upoštevanju pogojev
merjenja in metodologije, določenih v EN 55022 za omrežne sponke.

5 Zahteve za prevajane motnje na telekomunikacijskih/omrežnih portih

Telekomunikacijski/omrežni porti preskušanca morajo ustrezati mejam razreda B ob upoštevanju
merilnih pogojev in metodologije, določenih v EN 55022 za te porte.


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SIST EN 50561-1 : 2014

6 Zahteve za prevajane motnje in komunikacijske signale na portih PLC

6.1 Splošne zahteve

Port PLC preskušanca mora ustrezati naslednjim zahtevam:

Nesimetrične motnje iz porta PLC v nobenem obratovalnem pogoju ne smejo preseči v preglednici 1
navedenih mejnih vrednosti med 150 kHz in 1,606 5 MHz, merjeno z uporabo metod in postopkov,
navedenih v točki 9.1.

Če se uporabniški podatki prenašajo po portu PLC, motnje iz porta PLC lahko presežejo v preglednici
1 navedene mejne vrednosti motenj pri frekvencah med 1,606 5 MHz in 30 MHz, pod pogojem, da:

 v vseh izločenih frekvenčnih območjih, navedenih v preglednici A.1: preneseni signali morajo biti v
mejah motenj, določenih v preglednici 1, z uporabo metod in postopkov, navedenih v točki 9.1,

 v vseh izločenih frekvenčnih območjih, navedenih v preglednici A.2: preneseni signali morajo
ustrezati:

 v preglednici 1 navedenim mejnim vrednostim motenj, merjeno z uporabo metod in postopkov,
navedenih v točki 9.1,

 ali zahtevam za dinamično izločanje frekvenc, navedenim v 6.2.

Če ni oddajanja uporabniških podatkov, morajo nesimetrične motnje iz porta PLC ustrezati v preglednici
1 navedenim mejnim vrednostim motenj med 150 kHz in 30 MHz, merjeno z uporabo metod in
postopkov, navedenih v točki 9.1.

Najvišji oddani signal iz porta PLC ne sme preseči največje vrednosti, navedene v preglednici 2, merjeno
z uporabo metod in postopkov, navedenih v točki 9.2.

V portu PLC se mora izvajati funkcija dinamičnega krmiljenja napajanja za zmanjšanje verjetnosti
radijskih motenj med tem, ko še poteka komunikacija. Funkcija dinamičnega krmiljenja napajanja mora
biti sposobna zmanjšati izhodno napajanje do najvišjih nivojev, navedenih v preglednici 2, z uporabo
metod in postopkov, navedenih v točki 9.2.

Za zagotovitev sebi lastne simetrije porta PLC morajo mejne vrednosti motenj v vseh obratovalnih
pogojih ustrezati mejnim vrednostim, navedenim v preglednici 1, merjeno z uporabo metod in postopkov,
navedenih v točki 9.4.

Preglednica 1: Mejne vrednosti prevajanih motenj

Mejne vrednosti
dB(V)
Frekvenčno območje
Navidezna temenska vrednost Povprečje

0,15 do 0,50 66 do 56 56 do 46
0,50 do 5 56 46
5 do 30 60 50
OPOMBA 1: Spodnje mejne vrednosti veljajo za prehodne frekvence.
OPOMBA 2: Mejna vrednost se zmanjšuje linearno z logaritmom frekvence v območju od 0,15 MHz do 0,50 MHz.


9

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Preglednica 2: Najvišji nivo prenesenega signala PLC med 1,606 5 MHz in 30 MHz

Simetrične vnesene izgube preskušanca v pripadajočo opremo v dB 10 20 ≥ 40
Najvišji nivo prenesenega signala v dB(V) (AV) 65 75 95
75 85 105
Najvišji nivo prenesenega signala v dB(V) (PK)
OPOMBA: Funkcija upravljanja oddajne moči pripadajoče opreme mora delovati na enak način kot
preskušanec, sicer signal pripadajoče opreme prevlada in povzroči napačne rezultate meritev.

6.2 Posebne zahteve za dinamično izločitev frekvence

V 15 sekundah "veljavne" visokofrekvenčne (VF) radiodifuzijske storitve, ki je znotraj izločenega
frekvenčnega pasu, navedenega v preglednici A.2, nivo signala PLC ne sme preseči nivoja simetrične
napetosti 56 dB(μV) (AV) pri 9 kHz-ni delitvi pasovne širine.

OPOMBA 1: Ta nivo simetrične napetosti izhaja iz EN 55022 kot mejna vrednost prevajane motnje po električnem omrežju
razreda B (5 MHz do 30 MHz), kjer je U = 50 dB(μV) (razdelba pasovne širine na 9 kHz, AV).
AMN

Oddani signal PLC se mora izogibati uporabi frekvence identificirane radiodifuzijske storitve. Najmanjša
širina izločenega frekvenčnega pasu mora biti 10 kHz (± 5 kHz okoli nosilne frekvence radiodifuzijskega
signala). Izločeni frekvenčni pas mora ustrezati zahtevam na sliki 1, da se glede na zaščitna razmerja
AM/DRM, definirana v priporočilih ITU-R BS.560-3 in BS.703, izogne motenju sosednjega kanala pri
oddajanjih/prenosih zunaj komutacijskih zarez.

Če je v bližini identificiranih več radiodifuzijskih ali digitalnih storitev (DRM), ki zasedajo več kot en
konvencionalni kanal, je treba povečati širino izločenega frekvenčnega območja na celoštevilčni
večkratnik 5 kHz.

OPOMBA 2: Navadno se kanali za radiodifuzijske storitve dodeljujejo z najmanjšim razmikom 5 kHz. Prav tako je srednja
frekvenca večkratnik 5 kHz.

Izločeni frekvenčni pas mora ostati izločen ves čas, dokler je prisotna "veljavna" radiodifuzijska storitev.
Po zaznavi prenehanja "veljavne" radiodifuzijske storitve mora izločeni frekvenčni pas ostati izločen še
vsaj 3 dodatne minute.

10

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SIST EN 50561-1 : 2014



kjer so:

širina ≥ 10 kHz, spodnji nivo = 56 dB(μV) (AV, razdelba pasovne širine 9 kHz) in

Širina inkrementa na vsaki strani izločenega Najvišji nivo nad spodnjim nivojem zareze (A(x))
frekvenčnega območja
dB
kHz
Korak a 2 0
Korak b 10
 25
Korak c 20  35

Slika 1: Minimalne zahteve za dinamično izločitev frekvenčnega območja

7 Zahteve za sevane motnje

Preskušanec mora ustrezati mejnim vrednostim razreda B za sevane motnje ob upoštevanju merilnih
pogojev in metodologije, določenih v EN 55022.

8 Merilni pogoji za porte PLC

Merjenje portov PLC se izvaja po EN 55022:2010, točka 8.

Preskuse, pri katerih se zahteva aktivnost modema PLC, je treba izvajati pod pogojem, da izkoristek
naprave PLC presega 10 %, pri čemer je prenosni signal nastavljen na najvišji nivo, kjer se vzdržuje
vsaj 250 ms. Kot primer se lahko za preskus porta uporabi prenos obsežne datoteke. Če to ni mogoče,
naj se uporabi ustrezna konfiguracija, s katero se zagotovi, da je prenos PLC aktiven dovolj dolgo, da
se meritve lahko v tem stanju ponovijo.

Na izhod za izmenično napajanje ni dovoljeno povezati nobenega priključka.

9 Merilne metode in postopki za porte PLC

9.1 Prevajane nesimetrične motnje

Port PLC na preskušancu je treba oceniti z uporabo umetnega omrežja (AMN) v skladu z EN 55016-1-
2:2004, točka 4.3, pri čemer se uporabita merilna metoda, navedena v EN 55022:2010, točka 9, za
omrežne porte in shema, prikazana na sliki 2 spodaj, za frekvence med 150 kHz in 30 MHz.
11

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Sklopni sistem (glej sliko 3) mora:

a) dovoliti preskušancu, da ga preskuša pripadajoča oprema,

b) imeti dovolj veliko slabljenje, da signali iz pripadajoče opreme ne vplivajo na merilni rezultat,

c) zagotoviti, da lahko preskušanec oddaja z največjim nivojem moči.

Sklopni sistem je potreben za:

– zagotovitev definiranega (simetričnega) vnesenega slabljenja med preskušancem in pripadajočo
opremo,

– stabilizacijo diferenčne impedance,

– slabljenje diferenčnega signala pripadajoče opreme,

– ločitev sofaznega (nesimetričnega) signala pripadajoče opreme,

– filtriranje protifaznega (diferenčnega) in sofaznega signala iz omrežja.

Slika 3 prikazuje primer sklopne enote z nazivnim vnesenim slabljenjem 40 dB.

Meritve je treba izvesti pri naslednjih obratovalnih pogojih in konfiguracija
...

SLOVENSKI STANDARD
oSIST prEN 50561-1:2011
01-marec-2011
$SDUDWL]DNRPXQLNDFLMHSRHOHNWURHQHUJHWVNLKYRGLKSULQL]NRQDSHWRVWQLK
LQãWDODFLMDK.DUDNWHULVWLNHUDGLMVNLKPRWHQM2PHMLWYHLQPHULOQHPHWRGHGHO
$SDUDWL]DGRPDþRXSRUDER
Power line communication apparatus used in low voltage installations - Radio
disturbance characteristics - Limits and methods of measurement - Part 1: Apparatus for
in-home use
Ta slovenski standard je istoveten z: prEN 50561-1:2011
ICS:
33.100.01 Elektromagnetna združljivost Electromagnetic compatibility
na splošno in general
97.030 (OHNWULþQLDSDUDWL]DGRPQD Domestic electrical
VSORãQR appliances in general
oSIST prEN 50561-1:2011 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN 50561-1:2011

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oSIST prEN 50561-1:2011
 DRAFT
EUROPEAN STANDARD
prEN 50561-1

NORME EUROPÉENNE
January 2011
EUROPÄISCHE NORM

ICS


English version


Power line communication apparatus used in low voltage installations -
Radio disturbance characteristics -
Limits and methods of measurement -
Part 1: Apparatus for in-home use



To be completed To be completed



This draft European Standard is submitted to CENELEC members for CENELEC enquiry.
Deadline for CENELEC: 2011-04-15.

It has been drawn up by CLC/TC 210.

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 Central Secretariat 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, France, Germany, Greece, Hungary, Iceland, Ireland, Italy,
Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia,
Spain, Sweden, Switzerland 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

Management Centre: Avenue Marnix 17, B - 1000 Brussels


© 2011 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members.
Project: 23145 Ref. No. prEN 50561-1:2011 E

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prEN 50561-1:2011 - 2 -

1 Foreword
2 This draft European Standard was prepared by the Technical Committee CENELEC TC 210,
3 Electromagnetic compatibility (EMC). It is submitted to the CENELEC enquiry.
4
5

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6
7 Contents
8
9 1 Scope . 4
10 2 Normative references . 4
11 3 Definitions . 4
12 4 Requirement for conducted disturbances at AC mains power ports . 5
13 5 Requirement for conducted disturbances at telecommunication/network ports . 5
14 6 Requirements for PLT ports . 5
15 7 Requirement for radiated disturbances . 6
16 8 Measurement conditions for PLT ports . 6
17 9 Measurement methods and procedures for PLT ports . 6
18 9.1 Conducted unsymmetrical disturbances . 6
19 9.2 Dynamic power control . 8
20 9.3 Permanent frequency exclusion . 9
21 9.4 Cognitive frequency exclusion . 10
22 9.5 Conducted asymmetric disturbances . 10
23 Annex A (normative) Excluded frequency ranges . 12
24 Annex B (normative) Impedance Stabilisation Network (ISN) for asymmetric disturbance
25 measurements . 13
26 Figures
27 Figure 1 - Test arrangement for measuring the PLT port with an AMN . 7
28 Figure 2 - Example coupling unit . 8
29 Figure 3 - Example test equipment arrangement for measuring PLT transmit signal levels . 9
30 Figure 4 - Test arrangement for measuring the PLT port with an AMN . 11
31 Figure B.1 - Example circuit schematic for ISN . 13
32 Figure B.2 - Arrangement for measurement of the ISN differential mode transmission loss . 13
33 Figure B.3 - Arrangement for measurement of the ISN common mode decoupling attenuation
34 (isolation) (excluding the Coupling System) . 14
35 Tables
36 Table 1 - Limits for conducted disturbances . 6
37 Table 2 - Maximum PLT transmit signal levels . 6
38 Table 3 - Configuration for measuring receivers or spectrum analyzers . 10
39 Table A.1 - Permanently excluded frequency ranges . 12
40 Table A.2 - Permanent or dynamically excluded frequency ranges . 12
41

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42 1 Scope
43 This European standard specifies limits and methods of measurement of radio disturbance characteristics for
44 in-home communication apparatus that uses the low voltage power installation as the transmission medium.
45 The standard applies to equipment that transmits in the frequency range 1,7 MHz to 30 MHz.
46 Procedures are given for the measurement of signals generated by the equipment and limits are specified for
47 the frequency range 9 kHz to 400 GHz. No measurements need be performed at frequencies where no limits
48 are specified.
49 The intention of this publication is to establish uniform requirements for the radio disturbance level of the
50 equipment contained in the scope, to establish limits of disturbance, to describe methods of measurement
51 and to standardize operating conditions and interpretation of results.
52
53 2 Normative references
54 The following referenced documents are indispensable for the application of this document. For dated
55 references, only the edition cited applies. For undated references, the latest edition of the referenced
56 document (including any amendments) applies.
57 EN 55022:2010, Information technology equipment – radio disturbance characteristics – Limits and methods
58 of measurement (CISPR 22:2005, mod.)
59 EN 55014-1:2006 Electromagnetic Compatibility – Requirements for household appliances, electric tools and
60 similar apparatus - Part 1: Emission (CISPR 14-1:2005)
61 EN 55016-1-1:2010, Specification for radio disturbance and immunity measuring apparatus and methods,
62 Part-1-1: Radio disturbance and immunity measuring apparatus — Measuring apparatus
63 (CISPR 16-1-1:2010)
64 EN 55016-1-2:2004, Specification for radio disturbance and immunity measuring apparatus and methods,
65 Part 1-2: Radio disturbance and immunity measuring apparatus – Ancillary equipment – Conducted
66 disturbances (CISPR 55016-1-2:2003)
67 ETSI TS 102 578 v1.2.1:2008, PowerLine Telecommunications (PLT); Coexistence between PLT Modems
68 and Short Wave Radio broadcasting services
69
70 3 Terms and definitions
71 For the purposes of this document, the following terms and definitions apply.
72 3.1
73 AC mains power port
74 port that connects to the low voltage AC mains power network for the sole purpose of supplying electrical
75 energy to the EUT
76
77 3.2
78 Associated Equipment
79 AE
80 equipment needed to maintain the data traffic on the cable attached to the EUT port under test and (or) to
81 maintain the normal operation of the EUT during the test. The associated equipment may be physically
82 located outside the test area
83
84 NOTEThe AE can be another ITE, a traffic simulator or a connection to a network. The AE can be situated close to the measurement
85 set-up, outside the measurement room or be represented by the connection to a network. AE should not have any appreciable influence
86 on the test results.
87
88 3.3
89 Equipment Under Test
90 EUT
91 representative equipment used for evaluation purposes

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92
93 3.4
94 in-Home PLT apparatus
95 PLT apparatus that connects to the low voltage AC mains power network and intended to be linked to other
96 PLT apparatus connected at the same premises
97
98 3.5
99 PLT apparatus
100 apparatus with a PLT port
101
102 3.6
103 PLT port
104 port that connects to the low voltage AC mains power network for the purpose of data transfer and
105 telecommunications, and may also supply electrical energy to the EUT.
106
107 3.7
108 telecommunications/network port
109 point of connection for voice, data and signalling transfers intended to interconnect widely-dispersed systems
110 via such means as direct connection to multi-user telecommunications networks (e.g. public switched
111 telecommunications networks (PSTN) integrated services digital networks (ISDN), x-type digital subscriber
112 lines (xDSL), etc.), local area networks (e.g. Ethernet, Token Ring, etc.) and similar networks
113 NOTE 1  A port generally intended for interconnection of components of an ITE system under test (e.g. RS-232, IEEE Standard 1284
114 (parallel printer), Universal Serial Bus (USB), IEEE Standard 1394 (“Fire Wire”), etc.) and used in accordance with its functional
115 specifications (e.g. for the maximum length of cable connected to it), is not considered to be a telecommunications/network port under
116 this definition.
117 NOTE 2  A PLT port shall NOT be considered as a telecommunications/network port.
118
119 4 Requirement for conducted disturbances at AC mains power ports
120 AC mains power ports of the EUT shall comply with the Class B limits, measurement conditions and
121 methodology defined in EN 55022 for mains terminals.
122
123 5 Requirement for conducted disturbances at telecommunication/network ports
124 Telecommunication/network ports of the EUT shall comply with the Class B limits, measurement conditions
125 and methodology defined in EN 55022 for these ports.
126
127 6 Requirements for PLT ports
128 The PLT port of the EUT shall comply with the following requirements:
129 1 5 minutes after the last user data is sent, the PLT port shall comply with the unsymmetrical
130 disturbance limits given in Table 1 between 150 kHz and 30 MHz using the methods and procedures
131 given in 9.1.
132 When no user data is being transmitted by the PLT port any remaining disturbances that exceed the
133 limits of Table 1 shall comply with the requirements for Discontinuous Disturbances given in 4.2 of
134 EN 55014-1:2006.
135 2 For the operating conditions defined in Clause 8 the disturbances from the PLT port shall not exceed
136 the unsymmetrical disturbance limits given in Table 1 between 150 kHz and 1,705 MHz using the
137 methods and procedures given in 9.1.
138 3 The PLT port shall implementdynamic power control for the purpose of minimising the probability of
139 radio disturbance whilst still maintaining communication. The dynamic power control function shall be
140 capable of reducing the output power by at least 30 dB from the maximum level given in Table 2
141 measured using the methods and procedures given in 9.2.
142 4 When user data is being transmitted by the PLT port the disturbances from the PLT port may exceed
143 the unsymmetrical disturbance limits of Table 1 at frequencies above 1,705 MHz provided that
144 a. at all excluded frequency ranges given in Table A.1 -A.1 the transmitted signals are
145 permanently reduced over the entire range by a minimum of 30 dB measured using the
146 methods and procedures given in 9.3,

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147 b. at all frequency ranges given in Table A.2 the transmitted signals are either
148 i. permanently reduced over the entire range by a minimum of 30 dB measured using the
149 methods and procedures given in 9.3,
150 or,
151 ii. dynamically reduced in accordance with 9.4 for cognitive frequency exclusion.
152 5 in or
...

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