CLC TR 50627-2015 Study Report on Electromagnetic Interference between Electrical Equipment Systems in the Frequency Range Below 150 kHz.pdf

1、BSI Standards PublicationStudy Report on ElectromagneticInterference between ElectricalEquipment/Systems in theFrequency Range Below 150 kHzPD CLC/TR 50627:2015National forewordThis Published Document is the UK implementation of CLC/TR50627:2015.The UK participation in its preparation was entrusted

2、to TechnicalCommittee PEL/205, Mains signalling.A list of organizations represented on this committee can be obtained onrequest to its secretary.This publication does not purport to include all the necessary provisions ofa contract. Users are responsible for its correct application. The British Stan

3、dards Institution 2015.Published by BSI Standards Limited 2015ISBN 978 0 580 85332 6ICS 33.100.01Compliance with a British Standard cannot confer immunity fromlegal obligations.This Published Document was published under the authority of theStandards Policy and Strategy Committee on 31 December 2015

4、.Amendments/corrigenda issued since publicationDate Text affectedPUBLISHED DOCUMENTPD CLC/TR 50627:2015TECHNICAL REPORT RAPPORT TECHNIQUE TECHNISCHER BERICHT CLC/TR 50627 November 2015 ICS 33.100.01 English Version Study Report on Electromagnetic Interference between Electrical Equipment/Systems in

5、the Frequency Range Below 150 kHz Rapport dtude sur les perturbations lectromagntiques entre les quipements / systmes lectriques entre eux dans la plage des frquences infrieure 150 kHZ Studienbericht ber elektromagnetische Interferenz zwischen elektrische Betriebsmittel/Systeme im Frequenzbereich un

6、ter 150 kHz This Technical Report was approved by CENELEC on 2015-11-02. 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

7、, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom. European Committee for Electrotechnical Standardization Comit Europen de Normalisation Electrotechnique

8、Europisches Komitee fr Elektrotechnische Normung CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels 2015 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members. Ref. No. CLC/TR 50627:2015 EPD CLC/TR 50627:2015CLC/TR 50627:2015 (E) 2 Conte

9、nts Page European foreword 4 Introduction 5 1 Scope 6 2 General 6 3 The frequency range from 2 kHz to 150 kHz . 8 3.1 Challenges in terms of EMI . 8 3.2 Frequency utilization . 10 3.3 The impact of voltage / current shapes . 12 3.4 Interaction of equipment . 16 4 Emissions, measurement and test resu

10、lts 16 4.1 General 16 4.2 Noise measured in a block of flats 17 4.3 Lighting equipment . 17 4.3.1 General 17 4.3.2 Compact lamps 17 4.3.3 Fluorescent lamps . 18 4.3.4 LEDs 19 4.4 Portable mains powered tools 20 4.5.1 General 21 4.5.2 Austrian lab tests on inverters . 22 4.5.3 Active Infeed Converter

11、s 22 4.5.4 PV inverters 24 4.5.5 Italian lab and field measurements 25 4.5.6 Power electronics in an Intelligent Distribution Station 27 4.6 Power supplies. 28 4.6.1 General 28 4.6.2 Power supply with PLC signal on DC side 28 4.6.3 Power supply of a TV receiver 28 4.6.5 Power supplies in communicati

12、on technology 29 4.7 Other equipment Rectifier in a cell tower . 31 5 EMI cases, measurement and test results 32 5.1 General 32 5.2 EMI due to conducted emissions . 33 5.2.1 EMI to lighting equipment . 33 5.2.2 EMI to electricity meters . 33 5.2.3 EMI to mains communicating systems (MCS) 34 5.2.4 EM

13、I to medical equipment 50 6 Standardization for the frequency range 2 kHz to 150 kHz. Conformity and time . 57 6.1 Standardization situation 57 6.2 Conformity and time 62 7 Options for improved safeguarding EMC . 62 7.1 For equipment / systems in general 62 7.1.1 Filter application 62 7.1.2 Move fro

14、m PLC to RF 63 7.1.3 Frequency allocation management 63 7.1.4 Move to broadband lines 64 7.1.5 Notching on transmitter side vs. selectivity on receiver side . 65 7.2 For PLC in particular Move to higher frequencies. 67 8 Conclusions . 69 PD CLC/TR 50627:2015CLC/TR 50627:2015 (E) 3 9 Recommendations

15、. 74 Annex A (informative) Acronyms and abbreviations . 77 Bibliography . 80 PD CLC/TR 50627:2015CLC/TR 50627:2015 (E) 4 European foreword This document (CLC/TR 50627:2015) has been prepared by CLC/SC 205A “Mains communicating systems“. Attention is drawn to the possibility that some of the elements

16、 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. This Technical R

17、eport provides useful information for standards related to the following European Mandate(s): M/441, M/490. This Technical Report is based on the Study Report “Electromagnetic Interference between Electrical Equipment / Systems in the Frequency Range below 150 kHz” of SC 205A (SC 205A/Sec0339/R:Apri

18、l 2013) (second edition) 1b, with some update according to the developments that have taken place since. PD CLC/TR 50627:2015CLC/TR 50627:2015 (E) 5 Introduction In April 2010, CLC/SC 205A1)published their first Study Report on “Electromagnetic Interference between Electrical Equipment in the Freque

19、ncy Range below 150 kHz” 1a. Related studies had been made and information gathered due to first cases of EM interference, with Touch-dimmer lamps (TDLs) as an EMI victim, an inverter as an EMI source, and automated meter reading systems using powerline communication (AMR-PLC) figuring as EMI victim

20、s as well as sources. Following this first CLC/SC 205A Study Report, its second edition 1b and, based on it, this Technical Report aims at: a) highlighting the broad relevance of recognized electromagnetic interference for safeguarding EMC also in the frequency range 2 kHz 150 kHz; b) extending know

21、ledge about: 1) EMI cases having been observed between electrical equipment in the frequency range 2 kHz to 150 kHz, with an emphasis on interference between: i) electrical equipment and its non-intentional emissions (NIE); ii) mains communicating systems (MCS) using (powerline communication) PLC te

22、chnology with intentional signal injection for the transmission of information over the electricity supply network; 2) different mechanisms causing interference to electrical equipment due to non-intentional or intentional voltage/current components in the considered frequency range; as a basis for

23、evaluating the need for closing the recognized gap in standardization as highlighted in the first edition, and considering the recent developments; that: c) without evaluating certain types of electrical equipment concerning applied technology or priority; d) and with regard to: 1) problems having o

24、ccurred with operational equipment of distribution network operators (DNOs), in particular related to smart metering and smart grids control and monitoring equipment; 2) complaints by network users to deliverers and subsequently by deliverers to DNOs or by network users directly to their DNO, about

25、degradation or loss of function of certain electrical equipment; 3) in both cases network users as well as deliverers are primarily annoyed by the troubles they are experiencing with electrical equipment they have traded or bought, trusting in its interference-free operability, which they expect due

26、 to the CE mark. This TR is based on: e) reports on EMI cases and, following related complaints, investigations performed by an accredited test house, universities, DNOs, manufacturers and consultants; f) measurements performed by an accredited test house, universities, DNOs, manufacturers and consu

27、ltants. In both cases to extend knowledge of emissions from different equipment in the considered frequency range, in case of the occurrence of EMI: 1) to identify the actual interference source; 2) to clarify the interference mechanism; 3) to evaluate mitigation measures; g) the present standardiza

28、tion situation and its actual development. 1) CLC/SC 205A Mains communicating systems. PD CLC/TR 50627:2015CLC/TR 50627:2015 (E) 6 1 Scope This Technical Report is based on two Study Reports of CLC/SC 205A, having been worked out by their Task Force EMI 1a1b and provides the results and findings of

29、these documents. It was created with the help and input from a broad range of involved stakeholders: network operators, equipment manufacturers, universities, accredited test houses and consultants. Beside the actual standardization situation it reflects the current emission situation found in suppl

30、y networks and installations and describes electromagnetic interference (EMI) cases from twelve countries; investigation and analysis of the latter show a wide range of different types of electrical devices to be considered as a source or a victim of related EMI. This Technical Report highlights the

31、 occurrence of high levels of non-intentional emissions (NIE) in the considered frequency range, including values up to and exceeding the standardized limits for intentional signals from mains communicating systems (MCS), which also implies a high potential to cause EMI to other electrical equipment

32、. On the other hand, several types of equipment show susceptibility to related emissions, being insufficiently immune. The Technical Report addresses the following issues: a number of different types of electrical equipment are generating such emissions and/or are susceptible, to such, thus represen

33、ting EMI potential, as a source or a victim of such EMI; the interaction of electrical equipment in a certain supply area respectively installation, with its complex and volatile impedance character, as having an additional EMI potential; that besides NIE from general electrical equipment and signal

34、s from MCS and technically being quite different from emissions; the fact that besides the conducted interference also radiated interference from NIE or signals from MCS, through the magnetic H-field following to related currents on the mains, is to be considered, what is of some importance also for

35、 the interference-free operation of broadcast time-signal systems or electronic circuits controlled by such; the ageing of electronic components in electric equipment, which causes increased emissions and EMI to other electrical equipment as a result of not showing the same EMC characteristics as be

36、fore being placed on the market, therefore no longer being able to conform with EMC requirements; the additional aspect of differential mode operation, which should be considered for related immunity and testing specifications. These findings confirm that EMI in this frequency range is not limited t

37、o single types of equipment like inverters or MCS; instead a more general electromagnetic compatibility (EMC) problem concerning a larger spectrum of electrical equipment is identified. Although a case-by-case mitigation of related EMI cases might be seen as appropriate, the increasing application o

38、f technologies and systems with related EMI potential requires a more general solution, through standardization, taking a balanced viewpoint of EMC and economics into account. With regard to the actual standardization situation, a review of the actual EMC and Product standards based on the reported

39、results seems to be advisable. After initiating the work in CLC/SC 205A, the now ongoing work in IEC SC 77A, as well as the publication of a related Technical Report on testing electricity meters 2 by CLC/TC 13 and of the new Immunity testing standard EN 61000-4-19 99, appear as right steps into the

40、 right direction but needing further, extended efforts. As stated on European as well as on international EMC standardization level, the availability of compatibility levels for the considered frequency range appears as a key-requirement for future considerations on setting related emission limits a

41、nd immunity requirements in various standards. A fundamental basis for the co-existence of intentional signals from MCS and NIE needs to be found. 2 General When talking about EMI in the frequency range 2 kHz to 150 kHz it is appropriate to highlight the development of electricity application respec

42、tively the use of the electricity supply network during the past decades, which is characteristic for the todays given situation; this development has led to: PD CLC/TR 50627:2015CLC/TR 50627:2015 (E) 7 a) a thorough increase of comfort in the application of electrical energy, including the realizat

43、ion of some energy saving effects, in particular through the application of power electronics, and with that, a somehow changed use of the electricity supply network; b) the deployment of smart metering, in Europe using in the large majority of cases PLC for data transmission, with at present: 1) mo

44、re than 50 m PLC endpoints in Europe, from some ten thousand AMR-PLC in Austria to 36 m in Italy; 2) an expected amount of such smart meters of around 85 m by 2013, 155 m smart meters by the end of 2016 and 250 m smart meters by the end of 2020 3, 4; 3) an intermediate status of related projects fro

45、m beginning of rollout (Spain) to 99 % (Italy); c) a further extended use of the supply network for operational electricity suppliers information transmission purposes, in particular with regard to the intended deployment of smart metering and smart grid solutions 5, 6, comprising the installation o

46、f about 200 m smart meters in the next 5 years 7 years with a cumulative investment of up to 40 bn for smart meters and about 280 bn for other measures to realize smart grids 7; that technically accompanied by the superposition of additional voltage components on the practically pure sine wave of th

47、e mains voltage. As a consequence, dependant on the different types of connected equipment/systems at a certain time, apparatus/systems using electric energy; distributed generation units (DGU) with its ancillary systems; MCS; the original sine wave of the supply develops towards a somehow different

48、 shape, which shall be considered for its possibly disturbing effect on the operation of electrical equipment; with regard to the different types of such emissions, figuring as disturbances causing EMI, i.e. intentional emissions, i.e. signals; non-intentional emissions or a combination of both ones

49、; and following to the cumulative effect of the additional voltage components, for ensuring EMC, the need for appropriate setting of compatibility levels as well as of emission limits and immunity requirements (see also 64) is given. Apart from the technical aspects, but connected with it to a certain extent, several EU Directives and Standardization Mandates (see e.g. 5 12) figure as a background for these changes in the use of electricity supply networks. This has also been expressed by the Com