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BS EN IEC 60669-2-1:2022+A11:2022 Switches for household and similar fixed electrical installations - Particular requirements. Electronic control devices, 2023
- undefined [Go to Page]
- Annex ZA (normative)Normative references to international publicationswith their corresponding European publications
- English [Go to Page]
- CONTENTS
- FOREWORD
- 1 Scope
- 2 Normative references
- 3 Terms and definitions
- 4 General requirements
- 5 General remarks on tests
- Tables [Go to Page]
- Table 1 – Number of specimens needed for the tests
- 6 Ratings
- 7 Classification
- 8 Marking
- 9 Checking of dimensions
- 10 Protection against electrical shock
- 11 Provision for earthing
- 12 Terminals
- 13 Constructional requirements
- 14 Mechanism
- 15 Resistance to ageing, protection provided by enclosures of switches and resistance to humidity
- 16 Insulation resistance and electric strength [Go to Page]
- Table 15 – Test voltage, points of application and minimum values of insulating resistance for the verification of electric strength
- 17 Temperature rise [Go to Page]
- Table 101 – Permissible temperature rise values
- 18 Making and breaking capacity [Go to Page]
- Table 102 – Application of tests for making and breaking capacity and normal operation for electronic switches and HBES/BACS switches according to 7.102.2
- 19 Normal operation [Go to Page]
- Table 103 – Relationship between rated current and capacitance
- Table 104 – Values for Ipeak and I2t depending on the type of distribution system
- Table 105 – Calculated circuit parameters
- 20 Mechanical strength [Go to Page]
- Table 106 – Test loads for HBES/BACS switches for heating installations
- 21 Resistance to heat
- 22 Screws, current-carrying parts and connections
- 23 Creepage distances, clearances and distances through sealing compound [Go to Page]
- Table 23 – Creepage distances, clearances and distancesthrough insulating sealing compound
- Figures [Go to Page]
- Figure 101 – Protective separation between circuits
- Table 107 – Relation between the rated voltage of the HBES/BACS switch,the rated insulation voltage and the rated impulse voltage
- Table 108 – Minimum clearances without verification test
- Table 109 – Test voltages and corresponding altitudes
- Table 110 – Minimum clearances with verification test
- Table 111 – Minimum creepage distances of basic, supplementary and reinforced insulation without verification test for clearances
- Table 112 – Minimum creepage distances of basic, supplementary and reinforced insulation with verification test for clearances
- 24 Resistance of insulating material to abnormal heat, to fire and to tracking
- 25 Resistance to rusting
- 26 EMC requirements [Go to Page]
- Table 113 – Immunity tests (overview)
- Table 114 – Voltage dip and short-interruption test values
- Table 115 – Surge immunity test voltages
- Table 116 – Fast transient test values
- Table 117 – Values for radiated electromagnetic field test of IEC 61000-4-3a
- 101 Abnormal conditions [Go to Page]
- Table 118 – Measurement methods
- Table 119 – Protection methods and test conditions
- 102 Components [Go to Page]
- Table 120 – Capacitors
- 103 Electromagnetic fields (EMF) [Go to Page]
- Figure 102 – Current path tested in the looping through circuit
- Figure 103 – Circuit diagram for testing electronic switchesand HBES/BACS switches according to 17.101 and 101.4
- Figure 104 – Minimum creepage and clearances on printed circuit boards
- Figure 105 – Surge test
- Figure 106 – Test pin for checking the protection against electric shock
- Annexes [Go to Page]
- Annex A (normative)Replacement of title to Annex A as follows:Additional requirements for electronic control devices havingfacilities for the outlet and retention of flexible cables
- Table A.101 – Maximum current and minimum cross-sectional area
- Annex B (informative)Changes planned for the future in order to align IEC 60669-1 with the requirements of IEC 60998 (all parts), IEC 60999 (all parts) and IEC 60228
- Annex C (informative)Circuit development (19.3)
- Annex D (informative)Additional requirements for insulation-piercing terminals
- Annex E (informative)Additional requirements and tests for switches intendedto be used at a temperature lower than −5 °C
- Table E.101 – Energy for impact tests
- Annex AA (informative)Examples of types of electronic switchesor HBES/BACS switches and their functions
- Table AA.1 – Functions overview
- Annex BB (informative)Circuit development: 19.106 explained
- Table BB.1 – Lamp
- Figure BB.1 – 120 V 15 W (LT spice model)
- Figure BB.2 – 230 V 15 W (LT spice model)
- Figure BB.3 – Model for multiple lamp loads
- Figure BB.4 – Ipeak and I2t for multiple lamp loads
- Annex CC (normative)Additional requirements for electronic control devicesusing DLT-technology in accordance with IEC 62756-1
- Annex DD (informative)Test set-ups
- Figure DD.1 – Test setup for AC mains connection according to IEC 61000-4-4
- Figure DD.2 – Test setup for bus and DC mains connection according to IEC 61000�4�4
- Figure DD.3 – Test setup for AC mains connection according to IEC 61000-4-5
- Figure DD.4 – Test setup for bus and DC mains connection according to IEC 61000�4�5
- Figure DD.5 – Test setup for the ESD according to IEC 61000-4-2
- Figure DD.6 – Test setup for AC mains connection according to IEC 61000-4-6
- Figure DD.7 – Test setup for bus and DC mainsconnection according to IEC 61000�4�6
- Annex EE (informative)Electrical interface specification for phase-cut dimmerin phase-cut dimmed lighting systems
- Figure EE.1 – Example of wiring diagram
- Figure EE.2 – Timing leading edge dimming method
- Table EE.1 – Nominal mains voltage 100 V – Frequency 50 Hz or 60 Hz
- Table EE.2 – Nominal mains voltage 120 V – Frequency 50 Hz or 60 Hz
- Table EE.3 – Nominal mains voltage 200 V – Frequency 50 Hz or 60 Hz
- Table EE.4 – Nominal mains voltage 230 V – Frequency 50 Hz or 60 Hz
- Table EE.5 – Nominal mains voltage 277 V – Frequency 50 Hz or 60 Hz
- Table EE.6 – Slew rate for voltage decrease across the phase-cut dimmer
- Table EE.7 – Nominal mains voltage 100 V – Frequency 50 Hz or 60 Hz
- Table EE.8 – Nominal mains voltage 120 V – Frequency 50 Hz or 60 Hz
- Table EE.9 – Nominal mains voltage 200 V – Frequency 50 Hz or 60 Hz
- Table EE.10 – Nominal mains voltage 230 V – Frequency 50 Hz or 60 Hz
- Table EE.11 – Nominal mains voltage 277 V – Frequency 50 Hz or 60 Hz
- Figure EE.3 – Timing trailing edge dimming method
- Table EE.12 – Nominal mains voltage from 100 V to 277 V – Frequency 50 Hz or 60 Hz
- Table EE.13 – Nominal mains moltage 100 V – Frequency 50 Hz or 60 Hz
- Table EE.14 – Nominal mains voltage 120 V – Frequency 50 Hz or 60 Hz
- Table EE.15 – Nominal mains voltage 200 V – Frequency 50 Hz or 60 Hz
- Table EE.16 – Nominal mains voltage 230 V – Frequency 50 Hz or 60 Hz
- Table EE.17 – Nominal mains voltage 277 V – Frequency 50 Hz or 60 Hz
- Table EE.18 – Currents and voltages for controlgear during the electronic off state
- Table EE.19 – Parameters for testing purposes
- Figure EE.4 – Circuit to test the properties of the phase-cutdimmer during the non-conducting phase (Method 1)
- Figure EE.5 – Circuit to test the properties of the phase-cutdimmer during the non-conducting phase (Method 2)
- Figure EE.6 – Circuit to test the properties of the phase-cut dimmer during the transition from the non-conducting to the conducting phase
- Figure EE.7 – Circuit to test the properties of the phase-cutdimmer during the electronic off-state
- Figure EE.8 – Waveform of AC voltage source – Leading edge
- Figure EE.9 – Waveform of AC voltage source – Trailing edge
- Figure EE.10 – Equivalent circuit for controlgear in the on state to be used during dimmer tests
- Figure EE.11 – Equivalent circuit for controlgear being in off state
- Table EE.20 – Parameters for testing purposes
- Figure EE.12 – Test enclosure
- Figure EE.13 – Geometry of microphone placement in regard to device under test
- Figure EE.14 – Test circuit to test stability of phase angle
- Figure EE.15 – Possibilities for proper triggering
- Figure EE.16 – Equivalent circuit EC_CG2
- Annex FF (normative)Requirements for electronic RCS and electronic TDS that provide the function, markings and connection configuration in accordance with IEC 60669-2-2 and IEC 60669-2-3
- Bibliography [Go to Page]
