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BS EN IEC 61000-6-3:2021 – TC

BS EN IEC 61000-6-3:2021 – TC

$217.84

Tracked Changes. Electromagnetic compatibility (EMC) – Generic standards. Emission standard for equipment in residential environments

Published By Publication Date Number of Pages
BSI 2021 82
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IEC 61000-6-3:2020 is a generic EMC emission standard applicable only if no relevant dedicated product or product family EMC emission standard has been published. This part of IEC 61000 for emission requirements applies to electrical and electronic equipment intended for use at residential (see 3.1.14) locations. This part of IEC 61000 also applies to electrical and electronic equipment intended for use at other locations that do not fall within the scope of IEC 61000-6-8 or IEC 61000-6-4. The intention is that all equipment used in the residential, commercial and light-industrial environments are covered by IEC 61000-6-3 or IEC 61000-6-8. If there is any doubt the requirements in IEC 61000-6-3 apply. The conducted and radiated emission requirements in the frequency range up to 400 GHz are considered essential and have been selected to provide an adequate level of protection of radio reception in the defined electromagnetic environment. Not all disturbance phenomena have been included for testing purposes but only those considered relevant for the equipment intended to operate within the locations included within this document. The emission requirements in this document are not intended to be applicable to the intentional transmissions and their harmonics from a radio transmitter as defined by the ITU. This third edition cancels and replaces the second edition published in 2006 and its Amendment 1:2010. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) alternative method for measuring conducted emissions on DC ports; b) limits and requirements applicable only to equipment intended to be used in residential locations; c) more stringent limits for DC power ports. NOTE 1 Safety considerations are not covered by this document. NOTE 2 In special cases, situations will arise where the levels specified in this document will not offer adequate protection; for example where a sensitive receiver is used in close proximity to an equipment. In these instances, special mitigation measures can be employed. NOTE 3 Disturbances generated in fault conditions of equipment are not covered by this document. NOTE 4 As the requirements in this document are more stringent or equivalent to those requirements in IEC 61000-6-4 and IEC 61000-6-8, equipment fulfilling the requirements of this document comply with the requirements of IEC 61000-6-4 and IEC 61000-6-8.

PDF Catalog

PDF Pages PDF Title
1 compares BS EN IEC 61000-6-3:2021
2 TRACKED CHANGES
Text example 1 — indicates added text (in green)
3 Contractual and legal considerations
4 Amendments/corrigenda issued since publication
6 ForewordEuropean foreword
7 Endorsement notice
8 Annex ZA
Normative references to international publications with their corresponding European publications
12 Annex ZZ
(informative)
Coverage of Essential Requirements of EC Directives
14 FOREWORD
16 INTRODUCTION
Part 1: General
Part 2: Environment
Part 3: Limits
Part 4: Testing and measurement techniques
Part 5: Installation and mitigation guidelines
Part 6: Generic standards
Part 9: Miscellaneous
17 ELECTROMAGNETIC COMPATIBILITY (EMC) –
Emission standard for equipment in residential, commercial and light-industrial environments
1 Scope and object
18 2 Normative references
20 3 Terms, definitions and abbreviationsabbreviated terms
3.1 Terms and definitions
3.1.1
Figure 1 – Ports covered by Tables 1 to 4
21 Figure 1 – Example of ports
enclosure port
3.1.3
3.1.4
22 3.1.3
3.1.53.1.4
3.1.63.1.5
3.1.73.1.6
3.1.83.1.7
3.1.93.1.8
23 3.1.103.1.9
3.1.10
3.1.11
3.1.12
3.1.13
3.1.14
3.1.15
3.1.16
24 3.2 AbbreviationsAbbreviated terms
25 4 Classification of equipment
45 Measurements and Conditionsconditions during testing
26 Table 1 – Test arrangements of EUT
5 Product documentation
The purchaser/user shall be informed if special measures have to be taken to achieve compliance, e.g. the use of shielded or special cables.
6 Documentation for the user
67 Applicability
27 7 Emission requirements
8 Requirements
89 Measurement uncertainty
28 9 Application of limits in tests for conformity of equipment in series production
29 10 Compliance with this standarddocument
30 11 Emission test requirements
Table 1 – Emission – Enclosure port
32 Table 2 – Emission – Low voltage AC mains port
33 Table 3 – Emission – DC power port
Table 4 – Emission – Telecommunications/network port
34 11 Emission test details
Table 2 – Required highest frequency for radiated measurement
36 Table 3 – Requirements for radiated emissions, enclosure port
37 Table 4 – Requirements for conducted emissions, low voltage AC mains port
38 Table 5 – Requirements for conducted emissions, DC power port
39 Table 6 – Requirements for conducted emissions, other wired ports
40 Annex A
Classification of equipment and mapping to the immunity standards
Table A.1 – Examples of emission and immunity requirements against product type and intended use
41 Annex B
Testing of DC powered systems
Table B.1 – Conducted emission requirements of DC powered equipment
42 Table B.2 – Conditional requirements for the start frequency of test at DC power ports for tests defined in table clause B1.4 to B1.7
43 Annex C
Rationale for alternative test levels at the DC power port
C.1 General
C.2 Necessity of alternative test methods in generic standards
C.3 Limit justification in table clause 5.2
C.3.1 Proportional relation approach
44 Figure C.1 – Equivalent circuit of test set up for measurement of disturbance voltages
Table C.1 – DC power port, terminal disturbance voltage limits for class B GCPCs, measured on a test site, proportion relation approach
C.3.2 Current-to-voltage conversion approach
45 Table C.2 – DC power port, terminal disturbance voltage limits for class B GCPCs, measured on a test site,
C.3.3 Setting the final limit
46 Bibliography
50 undefined
53 Annex ZA(normative)Normative references to international publicationswith their corresponding European publications
57 English
CONTENTS
58 FOREWORD
60 INTRODUCTION
61 1 Scope
2 Normative references
63 3 Terms, definitions and abbreviated terms
3.1 Terms and definitions
Figures
Figure 1 – Example of ports
65 3.2 Abbreviated terms
66 4 Classification of equipment
5 Measurements and conditions during testing
67 6 Documentation for the user
7 Applicability
Tables
Table 1 – Test arrangements of EUT
68 8 Requirements
9 Measurement uncertainty
10 Compliance with this document
11 Emission test details
69 Table 2 – Required highest frequency for radiated measurement
70 Table 3 – Requirements for radiated emissions, enclosure port
71 Table 4 – Requirements for conducted emissions, low voltage AC mains port
72 Table 5 – Requirements for conducted emissions, DC power port
73 Table 6 – Requirements for conducted emissions, other wired ports
74 Annex A (informative)Classification of equipment and mapping to the immunity standards
Table A.1 – Examples of emission and immunity requirements against product type and intended use
75 Annex B (normative)Testing of DC powered systems
Table B.1 – Conducted emission requirements of DC powered equipment
76 Table B.2 – Conditional requirements for the start frequency of testat DC power ports for tests defined in table clause B1.4 to B1.7
77 Annex C (informative)Rationale for alternative test levels at the DC power port
C.1 General
C.2 Necessity of alternative test methods in generic standards
C.3 Limit justification in table clause 5.2
C.3.1 Proportional relation approach
78 C.3.2 Current-to-voltage conversion approach
Figure C.1 – Equivalent circuit of test set up for measurement of disturbance voltages
Table C.1 – DC power port, terminal disturbance voltage limits for class B GCPCs, measured on a test site,proportion relation approach
79 C.3.3 Setting the final limit
Table C.2 – DC power port, terminal disturbance voltage limits for class B GCPCs, measured on a test site, current-to-voltage conversion approach
80 Bibliography

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