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BS EN IEC 61000-6-3:2021 - TC Tracked Changes. Electromagnetic compatibility (EMC) - Generic standards. Emission standard for equipment in residential environments, 2021
- Contractual and legal considerations
- Amendments/corrigenda issued since publication
- ForewordEuropean foreword [Go to Page]
- Endorsement notice
- Annex ZA
- Normative references to international publications with their corresponding European publications
- Annex ZZ
- (informative)
- Coverage of Essential Requirements of EC Directives [Go to Page]
- This page deliberately left blank
- FOREWORD
- INTRODUCTION [Go to Page]
- 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
- ELECTROMAGNETIC COMPATIBILITY (EMC) –
- Emission standard for equipment in residential, commercial and light-industrial environments [Go to Page]
- 1 Scope and object
- 2 Normative references
- 3 Terms, definitions and abbreviationsabbreviated terms [Go to Page]
- 3.1 Terms and definitions
- 3.1.1
- Figure 1 – Ports covered by Tables 1 to 4
- Figure 1 – Example of ports
- enclosure port
- 3.1.3
- 3.1.4
- 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
- 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
- 3.2 AbbreviationsAbbreviated terms
- 4 Classification of equipment
- 45 Measurements and Conditionsconditions during testing [Go to Page]
- 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
- 7 Emission requirements
- 8 Requirements
- 89 Measurement uncertainty [Go to Page]
- 9 Application of limits in tests for conformity of equipment in series production
- 10 Compliance with this standarddocument [Go to Page]
- 11 Emission test requirements [Go to Page]
- Table 1 – Emission – Enclosure port
- Table 2 – Emission – Low voltage AC mains port
- Table 3 – Emission – DC power port
- Table 4 – Emission – Telecommunications/network port
- 11 Emission test details [Go to Page]
- Table 2 – Required highest frequency for radiated measurement
- Table 3 – Requirements for radiated emissions, enclosure port
- Table 4 – Requirements for conducted emissions, low voltage AC mains port
- Table 5 – Requirements for conducted emissions, DC power port
- Table 6 – Requirements for conducted emissions, other wired ports
- Annex A
- Classification of equipment and mapping to the immunity standards [Go to Page]
- Table A.1 – Examples of emission and immunity requirements against product type and intended use
- Annex B
- Testing of DC powered systems [Go to Page]
- Table B.1 – Conducted emission requirements of DC powered equipment
- 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
- Annex C
- Rationale for alternative test levels at the DC power port [Go to Page]
- C.1 General
- C.2 Necessity of alternative test methods in generic standards
- C.3 Limit justification in table clause 5.2 [Go to Page]
- C.3.1 Proportional relation 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
- C.3.2 Current-to-voltage conversion approach
- 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
- Bibliography
- 30436548-Tracked_Changes_Cover_Markup_new.pdf [Go to Page]
- compares BS EN IEC 61000-6-3:2021 [Go to Page]
- TRACKED CHANGES
- Text example 1 — indicates added text (in green)
- 30291403-WEB.pdf [Go to Page]
- undefined
- Annex ZA(normative)Normative references to international publicationswith their corresponding European publications
- English [Go to Page]
- CONTENTS
- FOREWORD
- INTRODUCTION
- 1 Scope
- 2 Normative references
- 3 Terms, definitions and abbreviated terms [Go to Page]
- 3.1 Terms and definitions
- Figures [Go to Page]
- Figure 1 – Example of ports
- 3.2 Abbreviated terms
- 4 Classification of equipment
- 5 Measurements and conditions during testing
- 6 Documentation for the user
- 7 Applicability
- Tables [Go to Page]
- Table 1 – Test arrangements of EUT
- 8 Requirements
- 9 Measurement uncertainty
- 10 Compliance with this document
- 11 Emission test details [Go to Page]
- Table 2 – Required highest frequency for radiated measurement
- Table 3 – Requirements for radiated emissions, enclosure port
- Table 4 – Requirements for conducted emissions, low voltage AC mains port
- Table 5 – Requirements for conducted emissions, DC power port
- Table 6 – Requirements for conducted emissions, other wired ports
- Annex A (informative)Classification of equipment and mapping to the immunity standards [Go to Page]
- Table A.1 – Examples of emission and immunity requirements against product type and intended use
- Annex B (normative)Testing of DC powered systems [Go to Page]
- Table B.1 – Conducted emission requirements of DC powered equipment
- 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
- Annex C (informative)Rationale for alternative test levels at the DC power port [Go to Page]
- C.1 General
- C.2 Necessity of alternative test methods in generic standards
- C.3 Limit justification in table clause 5.2 [Go to Page]
- C.3.1 Proportional relation approach
- 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 [Go to Page]
- 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
- Bibliography [Go to Page]