TEST REPORT IEC : 2005 (2nd Edition) and/or EN :2006 Information technology equipment Safety Part 1: General requirements

Transcription

1 Test Report issued under the responsibility of: TEST REORT IEC : 2005 (2nd Edition) and/or EN :2006 Information technology equipment Safety art 1: General requirements Report Reference No...: T /12 Date of issue...: Total number of pages... CB/CCA Testing Laboratory...: 126 pages SIQ Slovenian Institute of Quality and Metrology Testing Laboratory is accredited by Slovenian Accreditation, Reg. No.: L-009 Address...: Applicant s name...: Address...: Manufacturer s name...: Address...: Factory s name...: Address...: Tržaška cesta 2, 1000 Ljubljana, Slovenia Globtek, Inc. 186 Veterans Drive Northvale, NJ 07647, USA Globtek, Inc. 186 Veterans Drive Northvale, NJ 07647, USA Globtek, Inc. 186 Veterans Drive Northvale, NJ 07647, USA See also page 2 Test specification: Standard...: IEC :2005 (Second Edition), Am 1: 2009 EN : Am 1: Am 11: Am 12:2011 Test procedure...: Non-standard test method..: Test Report Form No...: Test Report Form(s) Originator...: CB / CCA IECEN60950_1B SGS Fimko Ltd Master TRF...: Dated Copyright 2007 IEC System for Conformity Testing and Certification of Electrical Equipment (IECEE), Geneva, Switzerland. All rights reserved. This publication may be reproduced in whole or in part for non-commercial purposes as long as the IECEE is acknowledged as copyright owner and source of the material. IECEE takes no responsibility for and will not assume liability for damages resulting from the reader's interpretation of the reproduced material due to its placement and context. If this Test Report Form is used by non-iecee members, the IECEE/IEC logo and the reference to the CB Scheme procedure shall be removed. This report is not valid as a CB Test Report unless signed by an approved CB Testing Laboratory and appended to a CB Test Certificate issued by an NCB in accordance with IECEE 02. Test item description...: Trade Mark...: Model/Type reference...: Ratings...: Direct plug-in Switching Adapter Globtek, Inc. GT WWVV-X.X-W2Z; see page 7 for nomenclature Input: Va.c.; 50/60 Hz; 0,2 A Output: see page 7

2

3 age 3 of 126 Report No. T /12 List of Attachments (including a total number of pages in each attachment): 1. Test Report 2. National Differences Enclosure No European Group Differences and National Differences according to EN : A11: A12:2011 Enclosure No. 1a 4. Additional Test on plug portion Enclosure No ictures - Enclosure No Schematics, Layouts, Transformer drawings and plug drawings Enclosure No. 4 Summary of testing: Tests performed (name of test and test clause): See page 5 Testing location: SIQ Summary of compliance with National Differences: Argentina**, Australia*, Austria**, Belarus**, Belgium**, Brazil**, Bulgaria**, Canada, China*, Croatia**, Czech Republic**, Denmark, Finland, France**, Germany, Greece**, Hungary**, India**, Indonesia**, Ireland, Israel**, Italy**, Japan*, Kenya**, Korea, Malaysia**, Mexico**, Netherlands**, New Zealand*, Norway, oland**, ortugal**, Romania**, Russian Federation**, Saudi Arabia**, Serbia**, Singapore**, Slovakia**, Slovenia**, South Africa**, Spain, Sweden, Switzerland, Thailand**, Turkey**, Ukraine**, United Arab Emirates**, United Kingdom, Uruguay**, USA * No national differences to IEC :2005 (2 nd edition) declared ** No national differences to IEC :2005 (2 nd edition) or IEC :2001 (1 st edition) declared

4 age 4 of 126 Report No. T /12 Copy of marking plate (Sample labels) Unit may be optionally marked with LS or Limited ower Source. Note: All model ratings labels are in the same design except for model designation and output rating.

5 age 5 of 126 Report No. T /12 Overview of the testing done ( = Test passed, test not applicable) Clause Test Test Conducted Input Test Durability Energy Hazard Measurements Capacitance Discharge Test SELV: Hazard Voltage (Circuit) Measurement Test SELV Reliability testing 2.4 Limited Current Circuit (Bridging components) 2.5 Limited ower Source 2.6 Earthing Test, earth trace test (UL AG) Humidity Test Working Voltage measurement / Clearance and Creepage distance measurement Thin Sheet Material (barriers) Enclosed or Hermetically Sealed Unit Test Steady force test, 10N, 250 N Impact test, Fall test, Swing test Drop test Stress relief test; heat test ( C/7 h) Wall or ceiling mounted equipment Handle Test (with USA Deviation) Torque Test for direct plug in roducts, Injection part of the European plug is in accordance with the requirement of EN standard and is separately approved. Other plugs (UK, Australian/NZ, North American / Japan, Korean and China plug): Only dimensions of plug portion and Mechanical stress tests according to clause 4.2 were checked. Other relevant tests for plug portion should be evaluated during national approval Heating (Temperature) Test Resistance to abnormal heat (Ball pressure test) 5.1 Touch Current and protective conductor current 5.2 Electric Strength Test 5.3 Abnormal Operating Tests foreseeable misuse: SELV reliability and failure in the voltage regulation Functional insulation, Component faults, Overload and output short Hot swap test Insulation resistance Test

6 age 6 of 126 Report No. T /12 Test item particulars...: Equipment mobility...: [] movable [] hand-held [] transportable [] stationary [] for building-in [x] direct plug-in Connection to the mains...: [x] pluggable equipment [x] type A [] type B [] permanent connection [] detachable power supply cord [] non-detachable power supply cord [] not directly connected to the mains Operating condition...: [x] continuous [] rated operating / resting time: Access location...: [x] operator accessible [] restricted access location Over voltage category (OVC)...: [] OVC I [x] OVC II [] OVC III [] OVC IV [] other: Mains supply tolerance (%) or absolute mains supply values...: -10%/+10% Tested for IT power systems...: [x] Yes [] No IT testing, phase-phase voltage (V)...: 230V (Norway) Class of equipment...: [] Class I [x] Class II [] Class III [] Not classified Considered current rating (A)...: 16A (20A in USA) ollution degree (D)...: [] D 1 [x] D 2 [] D 3 I protection class...: IX0 Altitude during operation (m)...: 2000 Altitude of test laboratory (m)...: 300 Mass of equipment (kg)...: Approx. 0,08 kg ossible test case verdicts: - test case does not apply to the test object... : - test object does meet the requirement... : (ass) - test object does not meet the requirement... : F (Fail) Testing... : Date of receipt of test item... : Date(s) of performance of tests... : From to Revision 1: to General remarks: The test results presented in this report relate only to the object tested. This report shall not be reproduced, except in full, without the written approval of the Issuing testing laboratory. "(See Enclosure #)" refers to additional information appended to the report. "(See appended table)" refers to a table appended to the report. Note: This TRF includes EN Group Differences together with National Differences and Special National Conditions, if any. All Differences are located in the Appendix to the main body of this TRF. Throughout this report a comma is used as the decimal separator.

7 age 7 of 126 Report No. T /12 Manufacturer s Declaration per sub-clause of IECEE 02: The application for obtaining a CB Test Certificate includes more than one factory location and a declaration from the Manufacturer stating that the sample(s) submitted for evaluation is (are) representative of the products from each factory has been provided... : Yes Not applicable When differences exist; they shall be identified in the General product information section. Name and address of factory (ies)...: 2) GlobTek ( Suzhou ) Co., Ltd Building 4, No. 76, Jinling East Road, Suzhou Industrial ark, Jiangsu , China General product information: Information about the roduct: The equipment models GT WWVV-X.X-W2Z are switching power Adapter for supply of information technology equipment, output cord is non-detachable. Units are intended for indoor use only. It consists of an isolated transformer with electronic circuitry housed in a thermoplastic enclosure. Model differences: All models are identical except for model designation, output circuitry and rating. The Adapters with different output voltage have different secondary winding of transformer. Nomenclature: GT WWVV-X.X-W2Z WW is output power in Watts VV designates base Rated Output Voltage in Volts and can be 04, 06, 09 or 13 -X.X is optional or blank and designates voltage differentiator (subtracting X,X Volts from standard output voltage VV in 0,1 V increments) W2Z designates type of plug and can be: W2 North America / Japan W2E Euro W2K Korean W2U United Kingdom W2A Australia W2C China The family is covering product range with output voltage from 3V to 13 V: GT X.X-W2Z for models with output voltages 3,0 V to 4,0 V and max. output power 4 W GT X.X-W2Z for models with output voltages 4,1 V to 6,0 V and max. output power 5 W GT X.X-W2Z for models with output voltages 6,1 V to 9,0 V and max. output power 5 W GT X.X-W2Z for models with output voltage 9,1 V to 13,0 V and max. output power 5 W

8 age 8 of 126 Report No. T /12 RATINGS: Input for all models: Va.c., 50/60 Hz, 0,2 A Output (examples): GT W2Z: output rated: 3 VDC, 1 A GT W2Z: output rated: 4 VDC, 1 A GT W2Z: output rated: 5 VDC, 1 A GT W2Z: output rated: 6 VDC, 0,83 A GT W2Z: output rated: 8 VDC, 0,63 A GT W2Z: output rated: 9 VDC, 0,55 A GT W2E: output rated: 13 VDC, 0,38 A Abbreviations used in the report: - normal conditions N.C. - single fault conditions S.F.C - functional insulation O - basic insulation BI - double insulation DI - supplementary insulation SI - between parts of opposite polarity BO - reinforced insulation RI Indicate used abbreviations (if any) Summary of testing: The component was tested according to the standard IEC :2005 (2nd Edition) +A1:2009 and/or EN : A1: A11: A12: The products were tested to be suitable for connection to 16 A and 20 A (USA) branch circuit. The unit is approved for TN mains star connections and IT mains with 230 Vac phase to phase voltage. The unit provides internally one fuse in line. 2. All secondary output circuits are separated from mains by reinforced insulation and rated SELV., non hazardous energy levels and investigated as Limited ower Source. 3. The transformer provides reinforced insulation of insulation class B (see also list of safety critical components) 4. Direct plug-in equipment. Disconnect device provided as part of the equipment. 5. The equipment has been evaluated for use in a ollution Degree 2 and overvoltage category II environment and a maximum altitude of 2000 m. 6. The product was submitted and tested for use at the maximum ambient temperature (Tma) permitted by the manufacturer's specification of: 40 C 7. The power pin parts of European and Korean plug are fixed into the enclosure of plug portion by a screw. The power pin parts other plugs (North America / Japan, United Kingdom, Australia and China) are molded into the enclosure of plug portion. See documentation in Enclosure No The top enclosure is secured to bottom enclosure by ultrasonic welding.

9 age 9 of 126 Report No. T /12 History Sheet Date Report Number Change Revision No T /09 Initial Test Report issued T /12 The original Test Report Ref. No. T /09 was modified on to include the following changes and/or additions: Test report upgrade to new edition of the standard IEC :2005 (Second Edition), Am 1: 2009 / EN : Am 1: Am 11: Am 12:2011 No additional tests necessary. 1.0

10 age 10 of 126 Report No. T /12 1 GENERAL 1.5 Components General Comply with IEC or relevant component standard (see appended table 1.5.1) Evaluation and testing of components Certified components are used in accordance with their ratings, certifications and they comply with applicable parts of this standard. Components not certified are used in accordance with their ratings and they comply with applicable parts of IEC and the relevant component standard. Components, for which no relevant IEC-standard exists, have been tested under the conditions occurring in the equipment, using applicable parts of IEC Thermal controls No thermal controls Transformers Transformers comply with relevant requirements including Annex C. (see list of safety critical components table and the transformer drawings in the Enclosure No. 4) Interconnecting cables The interconnecting output cables contain only SELV circuit on energy level below 240VA Capacitors bridging insulation No such capacitors Resistors bridging insulation No such resistors are bridging double/reinforced insulation Resistors bridging functional, basic or supplementary insulation Resistors bridging double or reinforced insulation between a.c. mains and other circuits Resistors bridging double or reinforced insulation between a.c. mains and antenna or coaxial cable Components in equipment for IT power systems No such components Surge suppressors

11 age 11 of 126 Report No. T / General rotection of VDRs Bridging of functional insulation by a VDR VDR, electricaly located after input fuse is bridging Line to Neutral Bridging of basic insulation by a VDR No VDR bridging basic insulation Bridging of supplementary, double or reinforced insulation by a VDR No VDR bridging double or reinforced insulation. 1.6 ower interface AC power distribution systems TN and IT for 230 Vac (Norway only) Input current (see appended table 1.6.2) Voltage limit of hand-held equipment The equipment is not handheld Neutral conductor Neutral is insulated from secondary circuit as if it were a line conductor. 1.7 Marking and instructions ower rating The required marking is located on the outside surface of the equipment. Rated voltage(s) or voltage range(s) (V)... : V~ Symbol for nature of supply, for d.c. only... : The equipment is for a.c. supply. Rated frequency or rated frequency range (Hz)... : 50/60 Hz Rated current (ma or A)... : 0,2 A Manufacturer s name or trade-mark or identification mark... : Globtek, Inc. Model identification or type reference... : GT WWVV-X.X-W2Z Symbol for Class II equipment only... : Class II symbol (IEC , symbol No. 5172) is applied to the label. Other markings and symbols... : The additional marking does not give rise to misunderstandings Safety instructions and marking No special user instructions required.

12 age 12 of 126 Report No. T / General No precautions are necessary Disconnect devices Disconnect device provided as part of the equipment Overcurrent protective device Unit provides appropriate overcurrent protective device inside the equipment IT power distribution systems This product is also designed for IT power distribution system with phase-to-phase voltage 230 V For Norway. No statement is required in Norway Operator access with a tool All areas containing hazard(s) are inaccessible to the operator Ozone Unit does not produce ozone Short duty cycles The equipment is intended for continuous operation Supply voltage adjustment... : No voltage selector. Methods and means of adjustment; reference to installation instructions... : ower outlets on the equipment... : No standard power outlet Fuse identification (marking, special fusing characteristics, cross-reference)... : F1 and T0,8AL 250V marked on WB near primary input fuse Wiring terminals rotective earthing and bonding terminals... : Class II Direct plug-in equipment. No E terminal Terminals for a.c. mains supply conductors The equipment is not permanently connected or provided with a nondetachable power supply cord Terminals for d.c. mains supply conductors Not intended for connection to DC mains Controls and indicators No controls or indicators affecting safety provided Identification, location and marking... : No switch Colours... : Symbols according to IEC : There are no switches in the equipment Markings using figures...: No controls in the sense of this clause.

13 age 13 of 126 Report No. T / Isolation of multiple power sources... : Only one connection supplying hazardous voltages and energy levels to the equipment Thermostats and other regulating devices... : No thermostats or other regulating devices Durability The marking withstands required tests Removable parts No removable parts Replaceable batteries... : No battery in the equipment. Language(s)... : Equipment for restricted access locations... : Equipment not intended for installation in RAL.

14 age 14 of 126 Report No. T /12 2 ROTECTION FROM HAZARDS 2.1 rotection from electric shock and energy hazards rotection in operator access areas There is adequate protection against operator contact with bare parts at hazardous voltage, also after operator detachable parts are removed. There is no ELV circuit or parts separated from hazardous voltage with basic or functional insulation only Access to energized parts Test by inspection...: Test with test finger (Figure 2A)...: Test with test pin (Figure 2B)...: Operator cannot contact parts at hazardous voltage. The test finger was unable to contact bare hazardous parts. Distance from tip of the finger to hazardous parts meet requirements for double/reinforced insulation. The test pin cannot touch hazardous voltage. Test with test probe (Figure 2C)...: No TNV circuits Battery compartments No battery compartment Access to ELV wiring No wiring at ELV. Working voltage (Vpeak or Vrms); minimum distance through insulation (mm) (see appended table ) Access to hazardous voltage circuit wiring No wiring at hazardous voltage accessible to operator Energy hazards...: No energy hazard in operator access area. Output of the power supply is not an energy hazard Manual controls No shafts of knobs etc. at ELV or hazardous voltage Discharge of capacitors in equipment No capacitors connected between line and neutral. Measured voltage (V); time-constant (s)...: Energy hazards d.c. mains supply Unit not connected to DC mains. a) Capacitor connected to the d.c. mains supply...:

15 age 15 of 126 Report No. T /12 b) Internal battery connected to the d.c. mains supply... : Audio amplifiers... : rotection in service access areas No service access area rotection in restricted access locations 2.2 SELV circuits General requirements Voltages under normal conditions (V)... : SELV limits (at accessible parts) are not exceeded under normal condition and after a single fault Voltages under fault conditions (V)... : Single fault conditions: < 60 Vdc. See enclosed test results Connection of SELV circuits to other circuits... : SELV circuits are only connected to hazardous voltages in secondary circuits, but accessible parts do not exceed the limits of SELV in the event of a single failure of a component or shorting of functional insulation not complying with the requirements. 2.3 TNV circuits Limits No TNV circuits in the equipment. Type of TNV circuits... : Separation from other circuits and from accessible parts General requirements rotection by basic insulation rotection by earthing rotection by other constructions... : Separation from hazardous voltages Insulation employed... : Connection of TNV circuits to other circuits Insulation employed... : Test for operating voltages generated externally

16 age 16 of 126 Report No. T / Limited current circuits General requirements No limited current circuit Limit values Frequency (Hz)... : Measured current (ma)... : Measured voltage (V)... : Measured circuit capacitance (nf or µf)... : Connection of limited current circuits to other circuits 2.5 Limited power sources a) Inherently limited output b) Impedance limited output c) Regulating network limited output under normal operating and single fault condition See appended table 2.5. d) Overcurrent protective device limited output Max. output voltage (V), max. output current (A), max. apparent power (VA)...: <8A, <100VA Current rating of overcurrent protective device (A).: Regulating network limited power source. 2.6 rovisions for earthing and bonding rotective earthing Class II equipment Functional earthing rotective earthing and protective bonding conductors General Size of protective earthing conductors Rated current (A), cross-sectional area (mm 2 ), AWG...: Size of protective bonding conductors Rated current (A), cross-sectional area (mm 2 ), AWG...: rotective current rating (A), cross-sectional area (mm 2 ), AWG...: Resistance of earthing conductors and their terminations; resistance (Ω), voltage drop (V), test current (A), duration (min)...:

17 age 17 of 126 Report No. T / Colour of insulation... : Terminals General rotective earthing and bonding terminals Rated current (A), type, nominal thread diameter (mm)... : Separation of the protective earthing conductor from protective bonding conductors Integrity of protective earthing Interconnection of equipment Components in protective earthing conductors and protective bonding conductors Disconnection of protective earth arts that can be removed by an operator arts removed during servicing Corrosion resistance Screws for protective bonding Reliance on telecommunication network or cable distribution system 2.7 Overcurrent and earth fault protection in primary circuits Basic requirements The unit is rated to be connected to a mains with rating max. 16 A IEC (20 A for North American) rated fuse or circuit breaker in the building installation. Overcurrent protection provided by the built-in primary fuse F1. Instructions when protection relies on building installation Faults not simulated in Short-circuit backup protection luggable equipment type A. The building installation is considered as providing short circuit backup protection Number and location of protective devices... : One fuse in live supply conductor. In Norway, IT power distribution system is used. Equipment with a single protective device is accepted in Norway.

18 age 18 of 126 Report No. T / rotection by several devices Only one protective device. See Sub-clause Warning to service personnel... : Not permanently connected equipment or equipment provided with non-reversible plug. In addition no service work is necessary. 2.8 Safety interlocks General principles No safety interlock rotection requirements Inadvertent reactivation Fail-safe operation Moving parts Overriding Switches and relays Contact gaps (mm)...: Overload test Endurance test Electric strength test (see appended table 5.2) Mechanical actuators 2.9 Electrical insulation roperties of insulating materials Neither natural rubber, materials containing asbestos nor hygroscopic materials are used as insulation. No driving belts or couplings used Humidity conditioning Relative humidity (%), temperature ( C)... : Humidity treatment performed for 48h at 91-95% Grade of insulation Functional insulation primary to primary and output to output. Double/Reinforced insulation primary to secondary Separation from hazardous voltages

19 age 19 of 126 Report No. T /12 Method(s) used... : Accessible conductive parts, and SELV circuits are separated from parts at hazardous voltage by double or reinforced insulation (Method 1) Clearances, creepage distances and distances through insulation General Frequency... : 50/60 Hz ollution degrees... : ollution degree Reduced values for functional insualtion Functional insulation Line to Neutral before fuse complies with and Other functional insulations comply with c) Intervening unconnected conductive parts Distance to unconnected conductive parts considered during evaluation of clearances and creepage distances Insulation with varying dimensions No such transformer used Special separation requirements No TNV circuits Insulation in circuits generating starting pulses No such ciruit Determination of working voltage General RMS working voltage Considered eak working voltage Considered Clearances General Mains transient voltages a) AC mains supply... : Overvoltage Category II (2500Vpeak). b) Earthed d.c. mains supplies... : unit not intended for connection to DC mains. c) Unearthed d.c. mains supplies... : unit not intended for connection to DC mains. d) Battery operation... : No battery Clearances in primary circuits (see appended table and )

20 age 20 of 126 Report No. T / Clearances in secondary circuits (see appended table and ) Clearances in circuits having starting pulses Transients from a.c. mains supply... : Secondary circuit is not earthed therefore same transients as for a.c. mains considered Transients from d.c. mains supply... : Transients from telecommunication networks and cable distribution systems... : Unit not intended for connection to telecommunication network or cable distribution system Measurement of transient voltage levels Measurement not relevant. a) Transients from a mains suplply For an a.c. mains supply... : For a d.c. mains supply... : b) Transients from a telecommunication network : Creepage distances General Material group and comparative tracking index CTI tests... : Material group IIIb) is assumed to be used Minimum creepage distances (see appended table and ) Solid insulation General Distances through insulation (see appended table ) Insulating compound as solid insulation No such potted components Semiconductor devices Approved optical insulators are used. See list of critical components Cemented joints Thin sheet material General Insulation tape is used inside main transformer T1 only for mechanical separation of primary and secondary winding. Min. 2 layers wrapped around Transformer Separable thin sheet material

21 age 21 of 126 Report No. T /12 Number of layers (pcs)... : Min. 2 layers wrapped around Transformer Non-separable thin sheet material No such insulation Thin sheet material standard test procedure Electric strength test Thin sheet material alternative test procedure Electric strength test (see appended table ) Insulation in wound components Transformer provided with approved triple insulated wire on secondary, complying with and annex U Wire in wound components Approved triple insulated wire is used on secondary. Working voltage... : 240 Vrms; 456 Vpk a) Basic insulation not under stress... : b) Basic, supplemetary, reinforced insulation... : Reinforced insulation. c) Compliance with Annex U... : Approved triple insulated wire is used on secondary. Two wires in contact inside wound component; angle between 45 and : Wire with solvent-based enamel in wound components Contact with primary winding is prevented by use of insulation tape. Outlets are tubed. No TNV circuits. Electric strength test (see appended table ) Routine test Additional insulation in wound components Working voltage... : - Basic insulation not under stress... : - Supplemetary, reinforced insulation... : Construction of printed boards Uncoated printed boards (see appended table and ) Coated printed boards Insulation between conductors on the same inner surface of a printed board Insulation between conductors on different layers of a printed board Distance through insulation Number of insulation layers (pcs)... : Single layer CB. No such insulation.

22 age 22 of 126 Report No. T / Component external terminations (see appended table and ) Tests on coated printed boards and coated components Sample preparation and preliminary inspection Thermal conditioning Electric strength test (see appended table 5.2) Abrasion resistance test Thermal cycling Test for ollution Degree 1 environment and insulating compound Tests for semiconductor devices and cemented joints Enclosed and sealed parts

23 age 23 of 126 Report No. T /12 3 WIRING, CONNECTIONS AND SULY 3.1 General Current rating and overcurrent protection Adequate cross sectional areas on internal wiring and interconnecting cables. Suitably rated protective device inside the unit rotection against mechanical damage Wire ways are smooth and free from edges. Wires are adequately fixed to prevent excessive strain on wire and terminals and avoiding damage to the insulation of the conductors Securing of internal wiring Internal wiring is secured against excessive strain, loosening of terminals and damage to the conductor insulation Insulation of conductors (see appended table 5.2) Beads and ceramic insulators No beads or similar ceramic insulators on conductors Screws for electrical contact pressure Insulating materials in electrical connections Self-tapping and spaced thread screws Termination of conductors Terminations cannot become displaced so that clearances and Creepage distances can be reduced. 10 N pull test Force 10N applied to the conductors near termination points Sleeving on wiring Sleeves are not used as supplementary insulation. 3.2 Connection to a mains supply Means of connection Unit intended for direct connection to AC mains Connection to an a.c. mains supply Unit provided with a mains plug that is part of direct plugin equipment Connection to a d.c. mains supply Multiple supply connections Only one supply connection.

24 age 24 of 126 Report No. T / ermanently connected equipment The equipment is not intended for permanent connection to the mains. Number of conductors, diameter of cable and conduits (mm)... : Appliance inlets No appliance inlet is used ower supply cords AC power supply cords Type... : Rated current (A), cross-sectional area (mm 2 ), AWG... : DC power supply cords Cord anchorages and strain relief Direct plug-in equipment Mass of equipment (kg), pull (N)... : Longitudinal displacement (mm)... : rotection against mechanical damage Cord guards Diameter or minor dimension D (mm); test mass (g)... : Radius of curvature of cord (mm)... : Supply wiring space Direct plug-in unit. 3.3 Wiring terminals for connection of external conductors Wiring terminals Direct plug-in equipment Connection of non-detachable power supply cords Screw terminals Conductor sizes to be connected Rated current (A), cord/cable type, cross-sectional area (mm 2 )...: Wiring terminal sizes Rated current (A), type, nominal thread diameter (mm)...: Wiring terminal design Grouping of wiring terminals Stranded wire 3.4 Disconnection from the mains supply General requirement

25 age 25 of 126 Report No. T / Disconnect devices A mains plug that is part of Direct lug-in Equipment ermanently connected equipment Not permanently connected equipment arts which remain energized No parts remain energized Switches in flexible cords No isolating switch in the flexible cord Number of poles - single-phase and d.c. equipment The disconnect device disconnects both poles simultaneously Number of poles - three-phase equipment Single phase equipment Switches as disconnect devices No switch as disconnect device lugs as disconnect devices Direct plug-in, no power supply cord with a plug Interconnected equipment No interconnections using hazardous voltages or hazardous energy levels Multiple power sources One power source only. 3.5 Interconnection of equipment General requirements Types of interconnection circuits... : Output of power supply is SELV circuit and is intended for connection to other SELV circuits ELV circuits as interconnection circuits Data ports for additional equipment 4 HYSICAL REQUIREMENTS 4.1 Stability Angle of 10 Direct plug-in equipment. Test force (N)... : Direct plug-in equipment. 4.2 Mechanical strength General Steady force test, 10 N Steady force test, 30 N No internal enclosure.

26 age 26 of 126 Report No. T / Steady force test, 250 N No hazard. The test was performed at outer surfaces Impact test Unit is classified as direct plug-in and therefore this test is not applicable. Fall test Swing test Drop test; height (mm)...: 1,3 m Stress relief test Unit provided with plastic enclosure. Enclosure was tested at 95 C Cathode ray tubes icture tube separately certified...: High pressure lamps Wall or ceiling mounted equipment; force (N)...: Not intended to be mounted on a wall or ceiling. 4.3 Design and construction Edges and corners All edges and corners are rounded and/or smoothed Handles and manual controls; force (N)... : Adjustable controls No hazardous adjustable controls Securing of parts No loosening of parts impairing creepage distances or clearances is likely to occur Connection by plugs and sockets No interchangeable plugs or sockets provided Direct plug-in equipment Torque...: < 0,05Nm Compliance with the relevant mains plug standard...: EU plug complies with EN See also Summary of testing and Enclosure No Heating elements in earthed equipment Batteries No batteries in the equipment. - Overcharging of a rechargeable battery - Unintentional charging of a non-rechargeable battery

27 age 27 of 126 Report No. T /12 - Reverse charging of a rechargeable battery - Excessive discharging rate for any battery Oil and grease Insulation is not exposed to oil, grease etc Dust, powders, liquids and gases The equipment does not generate dust, powder, does not contain liquid or gas. The unit is specified for office environment Containers for liquids or gases No containers for liquids or gases in the equipment Flammable liquids... : Quantity of liquid (l)... : Flash point ( C)... : Radiation General Ionizing radiation Measured radiation (pa/kg)... : Measured high-voltage (kv)... : Measured focus voltage (kv)... : CRT markings... : Effect of ultraviolet (UV) radiation on materials art, property, retention after test, flammability classification... : Human exposure to ultraviolet (UV) radiation... : Laser (including LEDs) (see separate test report of IEC/EN / IEC/EN ) Lasers (including laser diodes) (see separate test report of IEC/EN / IEC/EN ) Laser class... : Light emitting diodes (LEDs) Other types... : 4.4 rotection against hazardous moving parts General No moving parts rotection in operator access areas... :

28 age 28 of 126 Report No. T /12 Household and home/office document/media shredders (see Annex EE) rotection in restricted access locations... : rotection in service access areas rotection against moving fan blades General Not considered to cause pain or injury. a).: Is considered to cause pain, not injury. b) : Considered to cause injury. c) : rotection for users Use of symbol or warning : rotection for service persons Use of symbol or warning : 4.5 Thermal requirements General Temperature tests Normal load condition per Annex L... : Rated output load Temperature limits for materials (see appended table 4.5) Touch temperature limits (see appended table 4.5) Resistance to abnormal heat... : (see appended table 4.5.5) 4.6 Openings in enclosures Top and side openings No openings provided. Dimensions (mm)... : Bottoms of fire enclosures Construction of the bottomm, dimensions (mm). : Doors or covers in fire enclosures Openings in transportable equipment Constructional design measures Dimensions (mm)... : Evaluation measures for larger openings Use of metallized parts Adhesives for constructional purposes Conditioning temperature ( C), time (weeks)... :

29 age 29 of 126 Report No. T / Resistance to fire Reducing the risk of ignition and spread of flame Method 1, selection and application of components wiring and materials Method 2, application of all of simulated fault condition tests (see appended table 4.7) (see appended table 5.3) Conditions for a fire enclosure arts requiring a fire enclosure Components in primary and secondary circuits are provided with fire enclosure arts not requiring a fire enclosure Output cable Materials General Materials for fire enclosures Equipment is movable with mass less than 18 kg. Fire enclosure material is V-1 minimum Materials for components and other parts outside fire enclosures Materials for components and other parts inside fire enclosures Output cable. Other materials inside fire enclosure are minimum V-2 material Materials for air filter assemblies No air filters in the equipment Materials used in high-voltage components No parts exceeding 4kV.

30 age 30 of 126 Report No. T /12 5 ELECTRICAL REQUIREMENTS AND SIMULATED ABNORMAL CONDITIONS 5.1 Touch current and protective conductor current General Configuration of equipment under test (EUT) Single connection to an a.c. mains supply Redundant multiple connections to an a.c. mains supply Simultaneous multiple connections to an a.c. mains supply Test circuit According to Fig. 5A Application of measuring instrument D Test procedure Test measurements Supply voltage (V)...: 264V, 60Hz Measured touch current (ma)...: rimary to enclosure: 72,1 µa max. rimary to output: 73,3 µa max. Max. allowed touch current (ma)...: 0,25 ma Measured protective conductor current (ma)...: Max. allowed protective conductor current (ma)...: Equipment with touch current exceeding 3,5 ma General...: Simultaneous multiple connections to the supply Touch currents to telecommunication networks and cable distribution systems and from telecommunication networks Limitation of the touch current to a telecommunication network or to a cable distribution system Supply voltage (V)...: Measured touch current (ma)...: Max. allowed touch current (ma)...: Summation of touch currents from telecommunication networks a) EUT with earthed telecommunication ports...: b) EUT whose telecommunication ports have no reference to protective earth

31 age 31 of 126 Report No. T / Electric strength General (see appended table 5.2) Test procedure No insulation breakdown detected during the test. 5.3 Abnormal operating and fault conditions rotection against overload and abnormal operation (see appended table 5.3) Motors (see appended Annex B) Transformers (see appended Annex C) Functional insulation... : Complies with a) and c) Electromechanical components Audio amplifiers in ITE... : Simulation of faults Unattended equipment The equipment is not intended for unattended use Compliance criteria for abnormal operating and fault conditions During the tests No fire propagated beyond the equipment. No molten metal was emitted After the tests Electric strength test primary to SELV was performed and the unit passed.

32 age 32 of 126 Report No. T /12 6 CONNECTION TO TELECOMMUNICATION NETWORKS 6.1 rotection of telecommunication network service persons, and users of other equipment connected to the network, from hazards in the equipment rotection from hazardous voltages Separation of the telecommunication network from earth Requirements Supply voltage (V)... : Current in the test circuit (ma)... : Exclusions... : 6.2 rotection of equipment users from overvoltages on telecommunication networks Separation requirements Electric strength test procedure Impulse test Steady-state test Compliance criteria 6.3 rotection of the telecommunication wiring system from overheating Max. output current (A)... : Current limiting method... :

33 age 33 of 126 Report No. T /12 7 CONNECTION TO CABLE DISTRIBUTION SYSTEMS 7.1 General 7.2 rotection of cable distribution system service persons, and users of other equipment connected to the system, from hazardous voltages in the equipment 7.3 rotection of equipment users from overvoltages on the cable distribution system 7.4 Insulation between primary circuits and cable distribution systems General Voltage surge test Impulse test

34 age 34 of 126 Report No. T /12 A ANNEX A, TESTS FOR RESISTANCE TO HEAT AND FIRE A.1 Flammability test for fire enclosures of movable equipment having a total mass exceeding 18 kg, and of stationary equipment (see ) A.1.1 Samples...: Wall thickness (mm)...: A.1.2 Conditioning of samples; temperature ( C)...: A.1.3 Mounting of samples...: A.1.4 Test flame (see IEC ) Flame A, B, C or D...: A.1.5 Test procedure A.1.6 Compliance criteria Sample 1 burning time (s)...: Sample 2 burning time (s)...: Sample 3 burning time (s)...: A.2 Flammability test for fire enclosures of movable equipment having a total mass not exceeding 18 kg, and for material and components located inside fire enclosures (see and ) A.2.1 Samples, material...: Wall thickness (mm)...: A.2.2 Conditioning of samples; temperature ( C)...: A.2.3 Mounting of samples...: A.2.4 Test flame (see IEC ) Flame A, B or C...: A.2.5 Test procedure A.2.6 Compliance criteria Sample 1 burning time (s)...: Sample 2 burning time (s)...: Sample 3 burning time (s)...: A.2.7 Alternative test acc. to IEC , cl. 5 and 9 Sample 1 burning time (s)...: Sample 2 burning time (s)...: Sample 3 burning time (s)...: A.3 Hot flaming oil test (see 4.6.2) A.3.1 Mounting of samples

35 age 35 of 126 Report No. T /12 A.3.2 Test procedure A.3.3 Compliance criterion B ANNEX B, MOTOR TESTS UNDER ABNORMAL CONDITIONS (see and 5.3.2) B.1 General requirements osition... : Manufacturer... : Type... : Rated values... : B.2 Test conditions B.3 Maximum temperatures B.4 Running overload test B.5 Locked-rotor overload test Test duration (days)... : Electric strength test: test voltage (V)... : B.6 Running overload test for d.c. motors in secondary circuits B.6.1 General B.6.2 Test procedure B.6.3 Alternative test procedure B.6.4 Electric strength test; test voltage (V)... : B.7 Locked-rotor overload test for d.c. motors in secondary circuits B.7.1 General B.7.2 Test procedure B.7.3 Alternative test procedure B.7.4 Electric strength test; test voltage (V)... : B.8 Test for motors with capacitors (see appended table 5.3) B.9 Test for three-phase motors (see appended table 5.3) B.10 Test for series motors Operating voltage (V)... : C ANNEX C, TRANSFORMERS (see and 5.3.3) osition... : T1: rimary to Secondary

36 age 36 of 126 Report No. T /12 Manufacturer...: Type...: See list of critical components. See list of critical components. Rated values...: Class B (130 C) Method of protection... : Regulating network C.1 Overload test (see appended table 5.3) C.2 Insulation (see appended table 5.2) rotection from displacement of windings... : Triple insulated wire is used on secondary. No special additional precaution is necessary. D ANNEX D, MEASURING INSTRUMENTS FOR TOUCH-CURRENT TESTS (see 5.1.4) D.1 Measuring instrument Hioki, D.2 Alternative measuring instrument E ANNEX E, TEMERATURE RISE OF A WINDING (see ) F ANNEX F, MEASUREMENT OF CLEARANCES AND CREEAGE DISTANCES (see 2.10 and Annex G) G ANNEX G, ALTERNATIVE METHOD FOR DETERMINING MINIMUM CLEARANCES G.1 Clearances G.1.1 General G.1.2 Summary of the procedure for determining minimum clearances G.2 Determination of mains transient voltage (V) G.2.1 AC mains supply...: G.2.2 Earthed d.c. mains supplies...: G.2.3 Unearthed d.c. mains supplies...: G.2.4 Battery operation...: G.3 Determination of telecommunication network transient voltage (V)...: G.4 Determination of required withstand voltage (V) G.4.1 Mains transients and internal repetitive peaks...: G.4.2 Transients from telecommunication networks...:

37 age 37 of 126 Report No. T /12 G.4.3 Combination of transients G.4.4 Transients from cable distribution systems G.5 Measurement of transient voltages (V) a) Transients from a mains supply For an a.c. mains supply For a d.c. mains supply b) Transients from a telecommunication network G.6 Determination of minimum clearances... : H ANNEX H, IONIZING RADIATION (see ) J ANNEX J, TABLE OF ELECTROCHEMICAL OTENTIALS (see ) Metal(s) used... : Class II unit. K ANNEX K, THERMAL CONTROLS (see and 5.3.8) K.1 Making and breaking capacity K.2 Thermostat reliability; operating voltage (V)... : K.3 Thermostat endurance test; operating voltage (V)... : K.4 Temperature limiter endurance; operating voltage (V)... : K.5 Thermal cut-out reliability K.6 Stability of operation (see appended table 5.3) L ANNEX L, NORMAL LOAD CONDITIONS FOR SOME TYES OF ELECTRICAL BUSINESS EQUIMENT (see and 4.5.2) L.1 Typewriters L.2 Adding machines and cash registers L.3 Erasers L.4 encil sharpeners L.5 Duplicators and copy machines L.6 Motor-operated files L.7 Other business equipment M ANNEX M, CRITERIA FOR TELEHONE RINGING SIGNALS (see 2.3.1) M.1 Introduction

38 age 38 of 126 Report No. T /12 M.2 Method A M.3 Method B M.3.1 Ringing signal M Frequency (Hz)...: M Voltage (V)...: M Cadence; time (s), voltage (V)...: M Single fault current (ma)...: M.3.2 Tripping device and monitoring voltage...: M Conditions for use of a tripping device or a monitoring voltage M Tripping device M Monitoring voltage (V)...: N ANNEX N, IMULSE TEST GENERATORS (see , , , , 7.3.2, and Clause G.5) N.1 ITU-T impulse test generators N.2 IEC impulse test generator ANNEX, NORMATIVE REFERENCES Q ANNEX Q, Voltage dependent resistors (VDRs) (see ) a) referred climatic categories...: Approved varistors are used. See list of critical components. b) Maximum continuous voltage...: c) ulse current...: R ANNEX R, EXAMLES OF REQUIREMENTS FOR QUALITY CONTROL ROGRAMMES R.1 Minimum separation distances for unpopulated coated printed boards (see ) R.2 Reduced clearances (see ) S ANNEX S, ROCEDURE FOR IMULSE TESTING (see ) S.1 Test equipment S.2 Test procedure S.3 Examples of waveforms during impulse testing

39 age 39 of 126 Report No. T /12 T ANNEX T, GUIDANCE ON ROTECTION AGAINST INGRESS OF WATER (see 1.1.2) U ANNEX U, INSULATED WINDING WIRES FOR USE WITHOUT INTERLEAVED INSULATION (see ) Approved triple insulated wire is used. See list of critical components. V ANNEX V, AC OWER DISTRIBUTION SYSTEMS (see 1.6.1) V.1 Introduction V.2 TN power distribution systems W ANNEX W, SUMMATION OF TOUCH CURRENTS W.1 Touch current from electronic circuits W.1.1 Floating circuits W.1.2 Earthed circuits W.2 Interconnection of several equipments W.2.1 Isolation W.2.2 Common return, isolated from earth W.2.3 Common return, connected to protective earth X ANNEX X, MAXIMUM HEATING EFFECT IN TRANSFORMER TESTS (see clause C.1) X.1 Determination of maximum input current X.2 Overload test procedure Y ANNEX Y, ULTRAVIOLET LIGHT CONDITIONING TEST (see ) Y.1 Test apparatus... : Y.2 Mounting of test samples... : Y.3 Carbon-arc light-exposure apparatus... : Y.4 Xenon-arc light exposure apparatus... : Z ANNEX Z, OVERVOLTAGE CATEGORIES (see and Clause G.2)

40 age 40 of 126 Report No. T /12 AA ANNEX AA, MANDREL TEST (see ) BB ANNEX BB, CHANGES IN THE SECOND EDITION CC ANNEX CC, Evaluation of integrated circuit (IC) current limiters CC.1 General CC.2 Test program 1.: CC.3 Test program 2.: DD ANNEX DD, Requirements for the mounting means of rack-mounted equipment DD.1 General DD.2 Mechanical strength test, variable N..: DD.3 Mechanical strength test, 250N, including end stops : DD.4 Compliance : EE ANNEX EE, Household and home/office document/media shredders EE.1 General EE.2 Markings and instructions Use of markings or symbols : Information of user instructions, maintenance and/or servicing instructions : EE.3 Inadvertent reactivation test : EE.4 Disconnection of power to hazardous moving parts: Use of markings or symbols : EE.5 rotection against hazardous moving parts Test with test finger (Figure 2A) : Test with wedge probe (Figure EE1 and EE2) :

41 age 41 of 126 Report No. T / TABLE: list of critical components object/part No. Enclosure Input Blades Holder manufacturer/ trademark Sabic Inovative lastics China Co Ltd (Formerly GE lastics China Ltd.) Sabic Inovative lastics China Co Ltd (Formerly GE lastics China Ltd.) type/model technical data standard mark(s) of conformity 1 ) SE1X SE100X SE1X V-1, 105 C, minimum 1,5 mm thick. V-1, 80 C, min. 1,5 mm thick. Measured overall 66,45 by 25 by 42,6 mm. Two halves construction, secured together by ultrasonic welding. V-1, RTI 105 C at 0,75 mm thickness. Input blades connected to WB by internal wiring. QMFZ2 (QMFZ2) Euro-plug DVE 2,5A; 250VAC EN TÜV Rheinland (J ) Output Cord Strain Relief Various Various VC bushing integrally molded on output cord. Output Cord Various Various Minimum 80 C, 30V min., min. 22 AWG. Internal Wiring (rimary) Insulating Tubing/Sleeving rinted Wiring Board Fuse (F1) (Alternate) Fuse (F1) (Alternate) Fuse (F1) (Alternate) Various Various Rated minimum 80 C, 300 V, minimum 26 AWG. VC, TFE, TFE, FE or neoprene or surface marked VW-1 Various Various FE, TFE, VC, TFE, neoprene, or marked VW-1; 105 C, 300 V QMFZ2 AVLV2 AVLV, AVLV2 UZFT2, YDU2, YDRY2, YDTU2 Various Various Rated minimum V-1, 105 C ZMV2 UL Conquer Electronics Co., Ltd. Shenzhen Lanson Electronics Co., Ltd. Littelfuse Wickmann Werke TU T 0,8 A, 250 Vac. IEC/EN JDYX2 SMT T 0,8 A, 250 Vac. IEC/EN JDYX2 392 T 0,8 A, 250 Vac. IEC/EN JDYX2 UL UL UL UL UL UL VDE UL VDE UL VDE UL

42 age 42 of 126 Report No. T /12 object/part No. Fuse (F1) (Alternate) Fuse (F1) (Alternate) Varistor (MOV1) (Optional) Bridge Diodes (D1, D2, D3, D4) Electrolytic Capacitors (C1, C2) Choke (L1) (Optional) Optical Isolator (IC2) Optical Isolator (IC2) (Alternate) Optical Isolator (IC2) (Alternate) manufacturer/ trademark Ever Island Electric Co., Ltd. & Walter Electric Conquer Electronics Co., Ltd. + Thinking Electronic Industrial Co., Ltd. type/model technical data standard mark(s) of conformity 1 ) 2010 T 0,8 A, 250 Vac. IEC/EN JDYX2 MST T 0,8 A, 250 Vac. IEC/EN JDYX2 TVR07471 Rated 300 Vac, 385 Vdc. IEC IEC Annex Q Various Various Rated minimum 1 A, minimum 800 V. Various Various Integral pressure relief, rated maximum 4,7 µf, minimum 400 V, minimum 105 C Various Cosmo Electronics Corp. Everlight Electronics Co., Ltd. Sharp Corp., Electronic Components Group 30D H K1010, K1010 EL817 C817, C123 Open type construction. Enameled copper wire wound on ferrite rod core, overall 6 mm diameter by 11 mm high. Rated 105 C Dcr = Min. 8,0mm (ext.), Min. 5,3mm (int.); Dti. = 0,5mm, Isolation voltage min Vac, reinforced insulation (Operation temperature 100 C). Dcr. = Min. 6,0mm; Dti.=0,5mm, Isolation voltage min. 3000Vac, reinforced insulation (Operation temperature 100 C). Dcr. =Min. 6,4mm; Dti. > 0,4mm, Isolation voltage min. 3000Vac, reinforced insulation (Operation temperature 100 C). VDE UL VDE UL VDE UL XUHT2 / Accepted / Accepted / Accepted VDE 0884 I EC/EN (FQU2) VDE 0884 I EC/EN (FQU2) VDE 0884 I EC/EN (FQU2) VDE UL VDE UL VDE UL

43 age 43 of 126 Report No. T /12 object/part No. Optical Isolator (IC2) (Alternate) Optical Isolator (IC2) (Alternate) Transformer (T1) Insulation System manufacturer/ trademark Bright LED Electronics Corp. Lite-On Technology Corp. Globtek Inc. type/model technical data standard mark(s) of conformity 1 ) BC-817B, BC- 817MB LTV E H, 90E H, 90E H, 90E H or 90E H, 90E H, 90E H, 90E H Dcr. =Min. 7,62mm; Dti. > 0,5mm Minimum 3000 V ac isolation. Reinforced insulation. (Operation temperature 100 C). Dcr. = Min. 7,8mm (ext.), Min. 5,2mm (int.); Dti.: Min. 0,8mm Minimum 3000 V ac isolation. Reinforced insulation. (Operation temperature 100 C). Class B. Open type construction. Overall approx. 16,6 by 15 by 15 mm Overall approx. 16,4 by 15 by 14,5 mm EN :2003 (FQU2) EN :2003 (FQU2) VDE UL VDE UL / Accepted HIS-8A Class B OBJY2 UL Coil (rimary) (T1) Triple Insulated Winding Wire (Secondary) (T1) Bobbin (T1) Insulating Tape (T1) Tubing (T1) Various Various Rated minimum 130 C OBMW2 UL Furukawa Electric Co., Ltd. Hitachi Chemical Co., Ltd. TEX-E Rated minimum 130 C IEC/EN Annex U C-J-8800 Rated V-0, 150 C, minimum 0,39 mm thick. Symbio Inc. MY130 olyester tape, 0,05 mm thick, rated 130 C Zeus TFE-TW- Minimum 130 C. Industrial 300 rovided on all exit leads. roducts Inc. QMFZ2 OANZ2 YDU2 VDE, UL UL UL UL

44 age 44 of 126 Report No. T /12 object/part No. Transformer (T1) (Alternate) Insulation System (for alternate transformer T1) Coil (rimary) (for alternate transformer T1) Bobbin (for alternate transformer T1)) Bobbin (for alternate transformer T1) (Alternate) Tape (for alternate transformer T1) Tape (for alternate transformer T1) (Alternate) Triple Insulated Winding Wire (Secondary) (for alternate transformer T1) Tube (for alternate transformer T1) (Alternate) Tube (for alternate transformer T1) (Alternate) LS Resistors (R8, R8A, R8B, R8C, RT1) manufacturer/ trademark Globtek Inc. type/model technical data standard mark(s) of conformity 1 ) 90E H, 90E H, 90E H, 90E H Class B. Open type construction. Overall approx. 16,6 by 15 by 15 mm / Accepted YCI-130 Class B OBJY2 UL Various Various Rated minimum 130 C OBMW2 UL Hitachi Chemical Co., Ltd. Sumitomo Bakelite Co., Ltd. Symbio Inc , M Company 1350F-1, 1350F-2 Young Chang Silicone Co., Ltd. Zeus Industrial roducts Inc. Great Holding Industrial Co., Ltd. C-J-8800 V-0, 150 C, minimum 0,39 mm thick. M-9820 V-0, 150 C, minimum 0,39 mm thick. QMFZ2 QMFZ2 UL UL 130 C OANZ2 UL 130 C, 0,05 mm thick OANZ2 UL STW-B 130 C IEC/EN Annex U TFE-TW- 300, TFE-SW C, 300 V. YDU2 UL TFS, TFT 200 C, 300 V. YDU2 UL Various Various R8, R8A, R8B, R8C rated 1,8 Ω, 1/4 W, RT1 rated 15Ω, 1/4 W. VDE, UL / Accepted

45 age 45 of 126 Report No. T /12 object/part No. manufacturer/ trademark type/model technical data standard mark(s) of conformity 1 ) Insulation Sheet Various Various Rated V-2, 130 C, minimum QMFZ2 UL 0,4 mm thick. L shaped, measured overall 15,5 by 16 by 13 mm. rovided between T1 and secondary components. Foam Various Various Rated V-2, 130 C. QMFZ2 UL rovided between T1 and enclosure. Adhesive Glue Various Various Minimum V-2, 105 C. QMFZ2 UL 1) An asterisk indicates a mark which assures the agreed level of surveillance. 2) + means, that components from other vendor and other model number, but with the same rating and equivalent approvals are accepted TABLE: electrical data (in normal conditions) fuse # Irated (A) U (V) (W) I (ma) Ifuse (A) condition/status Model : GT W2E (3V/1A) F ,57 105,6 0,8 50Hz; output at rated load F1 0, ,75 97,5 0,8 50Hz; output at rated load F1 0, ,62 80,4 0,8 50Hz; output at rated load F1 0, ,76 64,0 0,8 50Hz; output at rated load F1 0, ,04 56,9 0,8 50Hz; output at rated load F ,10 54,7 0,8 50Hz; output at rated load F ,50 107,7 0,8 60Hz; output at rated load F1 0, ,45 100,4 0,8 60Hz; output at rated load F1 0, ,28 84,3 0,8 60Hz; output at rated load F1 0, ,50 86,0 0,8 60Hz; output at rated load F1 0, ,91 58,0 0,8 60Hz; output at rated load F ,09 54,7 0,8 60Hz; output at rated load Comment: The steady-state input current did not exceed the rated current at the rated voltage by more than 10% under the maximum normal load.

46 age 46 of 126 Report No. T / TABLE: electrical data (in normal conditions) fuse # Irated (A) U (V) (W) I (ma) Ifuse (A) condition/status Model : GT W2E (5V/1A) F ,75 143,3 0,8 50Hz; output at rated load F1 0, ,78 132,1 0,8 50Hz; output at rated load F1 0, ,67 105,9 0,8 50Hz; output at rated load F1 0, ,98 80,9 0,8 50Hz; output at rated load F1 0, ,16 72,4 0,8 50Hz; output at rated load F ,25 68,8 0,8 50Hz; output at rated load F ,81 145,9 0,8 60Hz; output at rated load F1 0, ,80 134,4 0,8 60Hz; output at rated load F1 0, ,67 109,5 0,8 60Hz; output at rated load F1 0, ,72 83,6 0,8 60Hz; output at rated load F1 0, ,96 74,4 0,8 60Hz; output at rated load F ,04 70,7 0,8 60Hz; output at rated load Comment: The steady-state input current did not exceed the rated current at the rated voltage by more than 10% under the maximum normal load TABLE: electrical data (in normal conditions) fuse # Irated (A) U (V) (W) I (ma) Ifuse (A) condition/status Model : GT W2E (8V/0,63A) F ,29 135,9 0,8 50Hz; output at rated load F1 0, ,26 124,7 0,8 50Hz; output at rated load F1 0, ,68 100,4 0,8 50Hz; output at rated load F1 0, ,83 80,1 0,8 50Hz; output at rated load F1 0, ,04 71,2 0,8 50Hz; output at rated load F ,02 68,1 0,8 50Hz; output at rated load F ,25 136,9 0,8 60Hz; output at rated load F1 0, ,35 127,4 0,8 60Hz; output at rated load F1 0, ,20 104,5 0,8 60Hz; output at rated load F1 0, ,46 83,4 0,8 60Hz; output at rated load F1 0, ,83 74,5 0,8 60Hz; output at rated load F ,95 70,5 0,8 60Hz; output at rated load Comment: The steady-state input current did not exceed the rated current at the rated voltage by more than 10% under the maximum normal load.

47 age 47 of 126 Report No. T / TABLE: electrical data (in normal conditions) fuse # Irated (A) U (V) (W) I (ma) Ifuse (A) condition/status Model : GT W2E (13V/0,38A) F ,44 121,4 0,8 50Hz; output at rated load F1 0, ,43 111,6 0,8 50Hz; output at rated load F1 0, ,18 91,3 0,8 50Hz; output at rated load F1 0, ,30 72,4 0,8 50Hz; output at rated load F1 0, ,54 65,2 0,8 50Hz; output at rated load F ,59 62,4 0,8 50Hz; output at rated load F ,51 124,4 0,8 60Hz; output at rated load F1 0, ,46 114,4 0,8 60Hz; output at rated load F1 0, ,93 94,1 0,8 60Hz; output at rated load F1 0, ,13 73,3 0,8 60Hz; output at rated load F1 0, ,31 64,8 0,8 60Hz; output at rated load F ,47 61,5 0,8 60Hz; output at rated load Comment: The steady-state input current did not exceed the rated current at the rated voltage by more than 10% under the maximum normal load TABLE: Energy hazards, Maximum Output Voltage, Current, and Voltampere measurement The sample was connected to 264 Vac and 50 Hz. With the unit operating normally, a variable resistor was connected across the points noted beside. The current through the resistor and voltage across the resistor were monitored using suitable meters. The resistance was adjusted to obtain maximum VA at a voltage exceeding 2 V. Output Tested Max. Volts Max. Amps. Max. VA Hazard Energy Model : GT W2E 3V 3,447 1,231 3,16 No Model : GT W2E 5V 5,18 1,30 5,85 No Model : GT W2E 8V 8,34 0,892 6,68 No Model : GT W2E 13V 12,55 0,885 8,39 No Comments: Outputs do not present an energy hazard. YES/NO

48 age 48 of 126 Report No. T / TABLE: Voltages under normal conditions The unit was connected to 264 V ac and 50 Hz. The output was loaded to the rated value. The voltage at each secondary winding was recorded. If the voltage exceeded 42.4 Vpk or 60 V dc, the measurement were taken again after the next component in series with the secondary until the voltage measured was less 42.4 Vpk or 60 Vdc. Model Transformer Designation Location Maximum Voltage (Vpk/dc) GT W2E GT W2E Comment: T1 in A to in B 49,6 Vpk D9 T1 D9 to in B 14,4 Vdc SELV SELV Reliability test on D9 was required. See table 5.3. Voltage Limiting Component 2.5 TABLE: Limited power source The maximum available output power was measured at nominal condition and with single fault conditions. The unit was connected to main nominal input voltage (264 Vac) Location of measurement GT W2E (13V output) Condition U OC I SC VA Normal Condition 12,55 V 0,398 A *HM (0,885 A **) 4,91 W R8 shorted 12,56 1,525 A 8,50 W GT W2E (8V output) GT W2E (5V output) GT W2E (3V output) Comments Normal Condition 8,34 V 0,427 A *HM (0,892 A **) Normal Condition 5,18 V 0,427 A *HM (1,30 A **) Normal Condition 3,45 V 0,381 A *HM (1,231 A **) 6,86 W 5,85 W 3,16 W * HM: hiccup mode Maximum short circuit current ** Maximum available output current Units meet requirements of LS. Above tests are representable for whole product range. All units have identical electric diagram. Due to size of transformer it is obvious, that all units meet requirements of Limited ower Source.

49 age 49 of 126 Report No. T / Table: working voltage measurement Location RMS voltage eak voltage Comments ower transformer T1 (model GT W2E) in 1 to E 185,5 336 Output Rated load in 2 to E 232,6 448 Output Rated load in 3 to E 190,9 384 Output Rated load in 4 to E 187,3 336 Output Rated load in 2 to in A 213,2 424 Output Rated load in 2 to in B 233,5 456 Output Rated load Optocoupler IC2 (model GT W2E) in 3 to in 1 184,4 328 Output Rated load in 4 to in 1 177,3 320 Output Rated load in 3 to in 2 183,6 312 Output Rated load in 4 to in 2 176,6 312 Output Rated load Input voltage: 240V, 50Hz. Test Condition was: Rated load Minus of the output and Neutral were connected. Transformer in 2 to in B Optocoupler in 3 to in 1

50 age 50 of 126 Report No. T / , 4.2.2, 4.2.3, TABLE: Steady force test (internal spacings push test) Components and parts, other than parts serving as an enclosure, are subjected to a steady force of 10 N ± 1 N. arts of an enclosure located in Operator Access Area, which are protected by a cover or door, are subjected to a steady force of 30 N ± 3 N for a period of 5 s, applied by means of a straight unjointed version of the test finger, to the part on or within the equipment. External enclosures are subjected to a steady force of 250 N ± 10 N for a period of 5 s, applied in turn to the top, bottom and sides of the enclosure fitted to the equipment, by means of a suitable test tool providing contact over a circular plane surface 30 mm in diameter. However, this test is not applied to the bottom of an enclosure of equipment having a mass of more than 18 kg. art Thickness Force Observation Components -- 10N ass, C3 is glued to IC2 - no bending. D9 no bending towards transformer. RT1, C10, C13, IC3 are separated from transformer by insulating foil. Insulating foil is glued to transformer and CB. Input wires and secondary output leads are soldered through hole and additionally glued to CB. Outer Enclosure 1,5mm 250 N ass, no hazard as a result of bended enclosure. Comments: No bridging of isolation as a result of 10N test on components or 250N test on enclosure.

51 age 51 of 126 Report No. T / and TABLE: clearance and creepage distance measurements clearance cl and creepage distance dcr at/of: A- Line to Neutral before fuse (functional) B Line to Neutral after fuse (functional) C Separation between fuse pins (basic) D1 - rimary to Secondary (Reinforced) on CB D3 rimary to Secondary inside transformer T1 D4 Secondary to Core of transformer T1 D5 Transformer core to secondary on CB Up (V) U r.m.s. (V) required cl (mm) cl (mm) required dcr (mm) ,5 2,8 2,5 2, Method c) of clause was used ,0 3,0 2,5 3, ,2 6,3 5,0 6, ,2 * 5,0 * ,2 5,4 5,0 5, ,0 5,4 5,0 5,4 dcr (mm) Comments: * Triple insulated wire is used on secondary. Length of Secondary outlets (TIW) is min. 8 mm. Transformer core is related to primary. Additional foil (min. 0,4 mm thick) inserted between secondary components (RT1, C10, C13 and IC3) and transformer T1 isolating secondary components from transformer (core is related to primary) TABLE: Distance through insulation measurements Distance through insulation (DTI) at/of: insulation foil between transformer and secondary components (RT1, C10, C13, IC3) Minimum 2 layers of insulation foil wrapped arround transformer U peak (V) U rms (V) Test voltage (V) Required DTI (mm) ,4 0,4 DTI (mm) * 2layers 2 layers Enclosure Vac 0,4 Min. 1,5 Optical insulator ** Vac 0,4 Min. 0,4 Supplementary information: * 1 layer tested and pass test with 3000 Vac. ** Approved component. See list of critical components.

52 age 52 of 126 Report No. T / TABLE: Batteries The tests of are applicable only when appropriate battery data is not available Is it possible to install the battery in a reverse polarity position? Max. current during normal condition Max. current during fault condition Non-rechargeable batteries Meas. current Manuf. Specs. Rechargeable batteries Discharging Unintentional Charging Discharging Reversed charging charging Meas. current Manuf. Specs. Meas. current Manuf. Specs. Meas. current Manuf. Specs. Test results: - Chemical leaks - Explosion of the battery - Emission of flame or expulsion of molten metal - Electric strength tests of equipment after completion of tests Supplementary information: Verdict

53 age 53 of 126 Report No. T / TABLE: Thermal requirements Supply voltage (V)...: Frequency (Hz)...: Ambient T min ( C)...: 39,7 39,8 39,0 Ambient T max ( C)...: Maximum measured temperature T of part/at: T ( C) Allowed T max ( C) Model : GT W2E 1. T1 Winding 90,3 94,2 97, T1 Core 90,5 94,3 97, Bulk Capacitor C2 79,3 88,1 93, Transistor Q2 (body) 85,0 98,4 106,1 5. IC2 68,8 71,2 73, L1 71,4 73,6 76, Enclosure Top 57,2 60,0 63, Enclosure Bottom 55,1 56,4 57,8 95 Model : GT W2E 1. T1 Winding 97,7 95,7 98, T1 Core 94,7 93,1 95, Bulk Capacitor C2 84,9 79,5 82, Transistor Q2 (body) 98,9 94,5 100,4 5. IC2 75,6 73,7 75, L1 82,9 75,0 77, Enclosure Top 62,3 61,8 64, Enclosure Bottom 60,1 59,1 60,5 95 Comments: The above temperatures are recorded at T min. The values measured are subtracted with T min and T max ( C) added. Therefore above measured temperatures are the absolute temperatures in C at maximum ambient. The printed circuit board is rated 130 C.

54 age 54 of 126 Report No. T / TABLE: Thermal requirements Supply voltage (V)... : Frequency (Hz)... : Ambient T min ( C)... : 39,6 40,4 39,0 Ambient T max ( C)... : Maximum measured temperature T of part/at: T ( C) Allowed T max ( C) Model : GT W2E 1. T1 Winding 90,2 89,2 97, T1 Core 90,3 89,4 97, Bulk Capacitor C2 79,1 77,0 94, Transistor Q2 (body) 84,3 83,1 106,6 5. IC2 68,7 68,0 73, L1 71,0 68,4 77, Enclosure Top 57,2 56,9 62, Enclosure Bottom 54,9 54,3 57,9 95 Model : GT W2E 1. T1 Winding 97,6 95,0 98, T1 Core 94,7 92,4 95, Bulk Capacitor C2 84,5 79,1 83, Transistor Q2 (body) 98,5 92,3 101,3 5. IC2 75,6 73,8 75, L1 82,5 76,0 78, Enclosure Top 62,7 60,9 64, Enclosure Bottom 60,1 59,0 60,5 95 Comments: The above temperatures are recorded at T min. The values measured are subtracted with T min and T max ( C) added. Therefore above measured temperatures are the absolute temperatures in C at maximum ambient. The printed circuit board is rated 105 C.

55 age 55 of 126 Report No. T / TABLE: Thermal requirements Supply voltage (V)...: Frequency (Hz)...: Ambient T min ( C)...: 38,2 38,6 38,8 Ambient T max ( C)...: Maximum measured temperature T of part/at: T ( C) Allowed T max ( C) Model : GT W2E 1. T1 Winding 75,2 88,9 93, T1 Core 72,1 85,8 90, Bulk Capacitor C2 70,3 82,1 87, Transistor Q2 (body) 78,7 94,6 102,9 5. IC2 55,2 62,9 64, L1 68,7 78,1 82, Enclosure Top 43,1 44,1 56, Enclosure Bottom 48,0 53,9 59,9 95 Model : GT W2E 1. T1 Winding 79,4 81,1 87, T1 Core 77,9 79,7 85, Bulk Capacitor C2 73,8 72,9 81, Transistor Q2 (body) 86,2 86,6 102,4 5. IC2 59,0 60,8 63, L1 71,8 69,1 76, Enclosure Top 57,0 56,8 60, Enclosure Bottom 53,5 53,7 57,4 95 Comments: The above temperatures are recorded at T min. The values measured are subtracted with T min and T max ( C) added. Therefore above measured temperatures are the absolute temperatures in C at maximum ambient. The printed circuit board is rated 105 C.

56 age 56 of 126 Report No. T / TABLE: Thermal requirements Supply voltage (V)... : Frequency (Hz)... : Ambient T min ( C)... : 37,7 39,0 39,0 Ambient T max ( C)... : Maximum measured temperature T of part/at: T ( C) Allowed T max ( C) Model : GT W2E 1. T1 Winding 89,8 84,5 92, T1 Core 86,6 81,8 89, Bulk Capacitor C2 84,5 76,3 86, Transistor Q2 (body) 91,8 83,0 100,7 5. IC2 64,8 61,2 64, L1 83,1 73,9 81, Enclosure Top 48,2 42,4 45, Enclosure Bottom 54,4 51,0 58,4 95 Model : GT W2E 1. T1 Winding 83,5 79,4 87, T1 Core 82,0 78,0 85, Bulk Capacitor C2 77,5 71,5 82, Transistor Q2 (body) 89,8 83,7 102,7 5. IC2 63,1 59,6 63, L1 75,7 68,7 76, Enclosure Top 60,3 56,2 61, Enclosure Bottom 56,2 53,0 56,9 95 Comments: The above temperatures are recorded at T min. The values measured are subtracted with T min and T max ( C) added. Therefore above measured temperatures are the absolute temperatures in C at maximum ambient. The printed circuit board is rated 105 C.

57 age 57 of 126 Report No. T / TABLE: Ball pressure test of thermoplastic parts art Allowed impression diameter (mm)...: 2 mm Test temperature ( C) Impression diameter (mm) Transformer bobbin 125 0,8 Blades holder material SE1X 125 1,3 Supplementary information: Materials for bobbins of T1 and L3 are approved materials with RTI 150 C. See list of critical components. 4.7 TABLE: Resistance to fire art Manufacturer of material Type of material Thickness (mm) Flammability class Evidence Enclosure Sabic Inovative (GE lastic) Noryl SE1X or SE100X 1,5 V-1 UL Supplementary information: Approved materials are used. 5.2 TABLE: Electric strength tests, impulse tests and voltage surge tests Test voltage applied between: MODEL: GT W2E Voltage shape (AC, DC, impulse, surge) Test voltage (V) Breakdown Yes / No rimary to Secondary (Reinforced) AC 3000 No rimary to Enclosure, wrapped with ALU foil (Reinforced) AC 3000 No MODEL: GT W2E rimary to Secondary (Reinforced) AC 3000 No rimary to Enclosure, wrapped with ALU foil (Reinforced) AC 3000 No MODEL: GT W2E rimary to Secondary (Reinforced) AC 3000 No rimary to Enclosure, wrapped with ALU foil (Reinforced) AC 3000 No MODEL: GT W2E rimary to Secondary (Reinforced) AC 3000 No rimary to Enclosure, wrapped with ALU foil (Reinforced) AC 3000 No Supplementary information: There was no breakdown.

58 age 58 of 126 Report No. T / TABLE: Fault condition tests Component No. SELV Reliability Test Ambient temperature ( C)... : 25±3 ower source for EUT: Manufacturer, model/type, output rating... : Fault Supply voltage (V) Test time Fuse # Euro Test, TY EAC, 0-300V, 7kW Fuse current (A) D9 Short 264 1min F1 61,9mA 48,7mA IC2 (pin 1-2) IC2 (pin 3-4) Other faults Short 264 1min F1 55mA 59mA Observation Output voltage dropped immediately. The unit was damaged in approximate 30s. Output voltage dropped to 0V immediatelly. No voltage peaks on output. No damage, no hazard. Short 264 1min F1 Output dropped to 0V immediatelly. After removing of single fault output voltage remained on 0V and after approx. 10 s unit was damaged. No hazard, no voltage peaks on output, no hazard. D1 Short 264 <1s F1 Fuse F1 opened immediatelly. No hazard. C2 Short 264 <1s F1 Fuse F1 opened immediatelly. No hazard. T1 pin 3-4 Short 264 <1s F1 Fuse F1 opened immediatelly. Q2 damaged, no hazard, no excessive temperatures. T1 pin 1-2 Short 264 <1s F1 Fuse F1 opened immediatelly. Q2 damaged, no hazard, no excessive temperatures. IC1 Short <1s F1 Fuse F1 opened immediatelly. Q2 damaged, no hazard, no excessive temperatures. IC1 Short <1s F1 Fuse F1 opened immediatelly. Q2 damaged, no hazard, no excessive temperatures. IC1 Short <1s F1 Fuse F1 opened immediatelly. Q2 damaged, no hazard, no excessive temperatures.

59 age 59 of 126 Report No. T /12 Component No. T1 (GT ) T1 (GT ) T1 (GT ) T1 (GT ) Misuse Output (3V) Fault Supply voltage (V) Test time Fuse # Fuse current (A) Observation Overload 264 2h F1 96mA Additional load (1,66 A@3,7V) Overload min F1 106,5 ma Overload 264 2h 50 min Overload 264 2h 50 min Q2 reached 104,0 C. Other temperatures see next page. No hazard. Additional load (2,15 A@2,49V) Q2 reached 181,9 C. After approx. 8 min unit was damaged. Other temperatures see next page. No hazard. F1 87mA Additional load (0,33 A@8,79V) Temperatures see following pages. No hazard. F1 85mA Additional load (0,22 A@12,85V) Temperatures see following pages. No hazard. Short 264 2h F1 3,26mA Unit in hiccup mode. Temperatures: see following table. No damage, no hazard. Output (3V) Overload 264 2h F1 53,5mA Output: 3V/1,08A. Above this protection operates. Temperatures: see following table. No damage, no hazard. Output (5V) Short 264 2h F1 3,21mA Unit in hiccup mode. Temperatures: see following table. No damage, no hazard. Output (5V) Overload 264 2h F1 75,9mA Output: 5V/1,13A. Above this protection operates. Temperatures: see following table. No damage, no hazard. Output (8V) Short 264 1h 25min F1 3,97mA Unit in hiccup mode. Temperatures: see following table. No damage, no hazard. Output (8V) Overload 264 4h F1 81,9mA Output 8V/0,763A. Above this protection operates. Temperatures: see following table. No damage, no hazard. Output (13V) Short 264 1h 25min F1 4,02mA Unit in hiccup mode. Temperatures: see following table. No damage, no hazard.

60 age 60 of 126 Report No. T /12 Component No. Output (13V) Fault Supplementary information: Supply voltage (V) Test time Overload 264 1h 30min Fuse # Fuse current (A) When component was damaged, test was repeated 3 times in total. F1 Observation 78,5mA Output 0,77A/13V. Above this protection operates. Temperatures: see following table. No damage, no hazard. 5.3 TABLE: maximum temperatures test...: OL SC T1 OL test voltage (V)...: Frequency (Hz)...: t amb ( C)...: 22,9 23,2 24,1 maximum temperature T of part/at: T ( C) allowed T max ( C) Model: GT W2E (3V) 1. T1 Winding 79,2 49,4 96,7 2. T1 Core 79,3 49,3 97,6 3. Bulk Capacitor C2 74,2 51,4 87,2 4. Transistor Q2 84,8 57,3 104,0 5. IC2 55,5 38,4 74,5 6. L1 58,8 42,6 66,8 7. Enclosure Top 47,9 35,6 56,5 8. Enclosure Bottom 42,4 32,9 49,2 Model: GT W2E (5V) 1. T1 Winding 82,6 48,7 106,7 2. T1 Core 79,9 47,5 100,6 3. Bulk Capacitor C2 66,9 43,9 100,6 4. Transistor Q2 82,7 52,6 181,9 5. IC2 59,5 40,3 70,8 6. L1 61,9 41,2 87,9 7. Enclosure Top 49,1 34,3 61,9 8. Enclosure Bottom 43,8 30,9 57,4

61 age 61 of 126 Report No. T /12 maximum temperature T of part/at: T ( C) allowed T max ( C) Comments: The above temperatures are actual measured temperatures, recorded at t amb. OL output overload SC output short circuit T1 OL Transformer T1 overload 5.3 TABLE: maximum temperatures test... : SC OL OL T1 OL test voltage (V)... : Frequency (Hz)... : t amb ( C)... : 39,1 38,7 36,2 25,7 maximum temperature T of part/at: T ( C) allowed T max ( C) Model: GT W2E (8V) 1. T1 Winding 67,1 85,9 92,3 2. T1 Core 64,6 82,5 87,6 3. Bulk Capacitor C2 67,5 81,5 82,4 4. Transistor Q2 80,2 95,1 104,5 5. IC2 52,3 60,0 71,7 6. L1 64,1 76,1 77,2 7. Enclosure Top 43,9 41,0 61,4 8. Enclosure Bottom 46,2 43,7 50,8 Model: GT W2E (13V) 1. T1 Winding 77,3 116,0 86,3 2. T1 Core 75,7 112,9 84,6 3. Bulk Capacitor C2 72,6 95,1 75,1 4. Transistor Q2 92,0 119,8 99,2 5. IC2 61,6 82,0 64,2 6. L1 67,7 87,8 71,4 7. Enclosure Top 55,3 68,7 53,3 8. Enclosure Bottom 51,0 58,3 49,5 Comments: The above temperatures are actual measured temperatures, recorded at t amb. OL output overload SC output short circuit T1 OL Transformer T1 overload

62 age 62 of 126 Report No.: T /12 Enclosure No. 1 National differences to IEC :2005

63 Enclosure No. 1 age 63 of 126 Report No.: T /12 IEC :2005 Clause Difference Test Result Remark Verdict KOREA- Differences to IEC , Second Edition (2005) lugs for the connection of the apparatus to the supply mains shall comply with the Korean requirement (KSC 8305). 8: EMC The apparatus shall comply with the relevant CISR standards Dimensions of the plug checked according KSC 8305 and comply with the standard. Not part of the investigation. IEC / EN Clause Difference Test Result Remark Verdict AUSTRALIA-Differences to IEC :2001 (national differences for IEC :2005 do not exist) Annex ZZ (normative) Variations to IEC :2001 for application in Australia and New Zealand ZZ.1 Introduction This Annex sets out variations between this Standard and IEC :2001. These variations indicate national variations for purposes of the IECEE CB Scheme and will be published in the IECEE CB Bulletin. These variations are indicated within the body of the Standard. ZZ. Variations The variations are as follows : 1.2 Between the definitions for erson, service and Range, rated frequency insert the following: l ignition source After the definition of , add the following: potential ignition source: ossible fault which can start a fire if the open-circuit voltage measured across an interruption or faulty contact exceeds a value of 50 V (peak) a.c. or d.c. and the product of the peak value of this voltage and the measured r.m.s current under normal operating conditions exceeds 15 VA. Such a faulty contact or interruption in an electrical connection includes those which may occur in conductive patterns on printed boards. NOTE 201 An electronic protection circuit may be used to prevent such a fault from becoming a OTENTIAL IGNITION SOURCE. NOTE 202 This definition is from AS/NZS 60065: Add the following to the end of first paragraph: or the relevant Australian/New Zealand Standard Add the following to the end of first and third dash items: or the relevant Australian/New Zealand Standard. Considered. See abnormal testing. Refer to Enclosure No Delete the Note. Deleted National Differences

64 Enclosure No. 1 age 64 of 126 Report No.: T /12 National Differences IEC / EN Clause Difference Test Result Remark Verdict Delete Note 2. Not permanently connected equipment Modify Table 3B as follows: Delete the first four rows and replace with RATED CURRENT Minimum conductor sizes OF EQUIMENT A Over 0.2 up to and including 3 Over 3 up to and including 7,5 Over 7,5 up to and including 10 Over 10 up to and including 16 Nominal crosssectional area mm 2 AWG or Kcmil ( cross-sectional area in mm 2 ) See note 1 0,5 1) 18 (0,8) 0,75 16 (1,3) (0,75) 2) 1,00 16 (1,3) (1,0) 3) 1,5 14 (2) Replace footnote 1) with the following: 1) This nominal cross-sectional area is only allowed for Class II appliances if the length of the power supply cord, measured between the point where the cord, or cord guard, enters the appliance, and the entry to the plug does not exceed 2 m (0,5 mm 2 three-core supply flexible cords are not permitted; see AS/NZS 3191). Delete Note Add the following to the end of the first paragraph:, or AS/NZS Add the following paragraph: For alternative tests refer to Clause Add the following after Clause Resistance to fire Alternative tests General arts of non-metallic material shall be resistant to ignition and spread of fire. This requirement does not apply to decorative trims, knobs and other parts unlikely to be ignited or to propagate flames originating from inside the apparatus, or the following: Components that are contained in an enclosure having a flammability category of FV-0 according to AS/NZS and having openings only for the connecting wires filling the openings completely, and for ventilation not exceeding 1 mm in width regardless of length. The following parts which would contribute negligible fuel to a fire: small mechanical parts, the mass of which does not exceed 4 g, such as mounting parts, gears, cams, belts and bearings; small electrical components, such as capacitors with a volume not exceeding mm3, integrated circuits, transistors and optocoupler packages, if these components are mounted on material of flammability category FV-1, or better, according to AS/NZS NOTE In considering how to minimize No cord provided. The flame rating of the components was evaluated to the requirements of IEC. - The CB board is specified min. V-1. - Enclosure flame rating is specified min. V-1. - Bobbin flame rating is specified V-0. Therefore no needle test was considered as required.

65 Enclosure No. 1 age 65 of 126 Report No.: T /12 IEC / EN Clause Difference Test Result Remark Verdict propagation of fire and what small parts are, account should be taken of the cumulative effect of small parts adjacent to each other for the possible effect of propagating fire from one part to another. Compliance shall be checked by the tests of , , and For the base material of printed boards, compliance shall be checked by the test of The tests shall be carried out on parts of nonmetallic material which have been removed from the apparatus. When the glow wire test is carried out, the parts shall be placed in the same orientation as they would be in normal use. These tests are not carried out on internal wiring Testing of non-metallic materials arts of non-metallic material shall be subject to the glow-wire test of AS/NZS which shall be carried out at 550 C. arts for which the glow-wire test cannot be carried out, such as those made of soft or foamy material, shall meet the requirements specified in ISO 9772 for category FH-3 material. The glowwire test shall be not carried out on parts of material classified at least FH-3 according to ISO 9772 provided that the sample tested was not thicker than the relevant part Testing of insulating materials arts of insulating material supporting OTENTIAL IGNITION SOURCES shall be subject to the glow-wire test of AS/NZS which shall be carried out at 750 C. The test shall be also carried out on other parts of insulating material which are within a distance of 3mm of the connection. NOTE Contacts in components such as switch contacts are considered to be connections. For parts which withstand the glow-wire test but produce a flame, other parts above the connection within the envelope of a vertical cylinder having a diameter of 20 mm and a height of 50 mm shall be subjected to the needle-flame test. However, parts shielded by a barrier which meets the needle-flame test shall not be tested. The needle-flame test shall be made in accordance with AS/NZS with the following modifications: Clause of AS/NZS Change 5 Severities Replace with: The duration of application of the test flame shall be 30 s ±1 s. 8 Test procedure National Differences

66 Enclosure No. 1 age 66 of 126 Report No.: T /12 National Differences IEC / EN Clause Difference Test Result Remark Verdict 8.2 Replace the first sentence with: The specimen shall be arranged so that the flame can be applied to a vertical or horizontal edge as shown in the examples of figure The first paragraph does not apply. Addition: If possible, the flame shall be applied at least 10 mm from a corner. 8.5 Replace with: The test shall be made on one specimen. If the specimen does not 10 Evaluation of test results Replace with: The duration of burning (tb) shall not exceed 30 s. However, for printed circuit boards, it shall not exceed 15 s. The needle-flame test shall not be carried out on parts of material classified as V-0 or V-1 according to IEC , provided that the sample tested was not thicker than the relevant part Testing in the event of nonextinguishing material If parts, other than enclosures, do not withstand the glow wire tests of , by failure to extinguish within 30 s after the removal of the glow-wire tip, the needleflame test detailed in shall be made on all parts of non-metallic material which are within a distance of 50 mm or which are likely to be impinged upon by flame during the tests of arts shielded by a separate barrier which meets the needle-flame test need not be tested. NOTE 1 - If the enclosure does not withstand the glow-wire test the equipment is considered to have failed to meet the requirements of Clause without the need for consequential testing. NOTE 2 - If other parts do not withstand the glow-wire test due to ignition of the tissue paper and if this indicates that burning or glowing particles can fall onto an external surface underneath the equipment, the equipment is considered to have failed to meet the requirements of Clause without the need for consequential testing. NOTE 3 - arts likely to be impinged upon by the flame are considered to be those within the envelope of a vertical cylinder having a radius of 10 mm and a height equal to the height of the flame, positioned above the point of the material supporting, in contact with, or in close proximity to, connections Testing of printed boards The base material of printed boards shall be subjected to the needle-flame test of Clause The flame shall be applied to the edge of the board where the heat sink effect is lowest when the board is positioned as in normal use. The flame shall not be applied to an edge,

67 Enclosure No. 1 age 67 of 126 Report No.: T /12 IEC / EN Clause Difference Test Result Remark Verdict consisting of broken perforations, unless the edge is less than 3 mm from a OTENTIAL IGNITION SOURCE. The test is not carried out if the rinted board does not carry any OTENTIAL IGNITION SOURCE; Base material of printed boards, on which the available apparent power at a connection exceeds 15 VA operating at a voltage exceeding 50 V and equal or less than 400 V (peak) a.c. or d.c. under normal operating conditions, is of flammability category FV-1 or better according to AS/NZS , or the printed boards are protected by an enclosure meeting the flammability category FV-0 according to AS/NZS , or made of metal, having openings only for connecting wires which fill the openings completely; or Base material of printed boards, on which the available apparatus power at a connection exceeds 15 VA operating at a voltage exceeding 400 V (peak) a.c. or d.c. under normal operating conditions, and base material of printed boards supporting spark gaps which provides protection against overvoltages, is of flammability category FV-0 according to AS/NZS or the printed boards are contained in a metal enclosure, having openings only for connecting wires which fill the openings completely. Compliance shall be determined using the smallest thickness of the material. NOTE Available apparent power is the maximum apparent power which can be drawn from the supplying circuit through a resistive load whose value is chosen to maximise the apparent power for more than 2 min when the circuit supplied is disconnected Add the symbol NZ in the right hand margin beside the first paragraph. Add the following after the first paragraph: In Australia (this variation does not apply in New Zealand), compliance with shall be checked by the tests of both and Delete the note. No TNV circuit. National Differences

68 Enclosure No. 1 age 68 of 126 Report No.: T /12 IEC / EN Clause Difference Test Result Remark Verdict Add the symbol NZ in the right hand margin beside the first paragraph including Note 1. Delete Note 2 Add the following after the first paragraph: In Australia (this variation does not apply in New Zealand), the electrical separation is subjected to 10 impulses of alternating polarity, using the impulse test generator of annex N for 10/700µs impulses. The interval between successive impulses is 60 s and the initial voltage, Uc, is: for a):7.0 kv for hand-held telephones and for headsets and 2.5 kv for other equipment; and for b) and c):1.5 kv. NOTE 201 The 7 kv impulse simulates lightning surges on typical rural and semi-rural network lines. NOTE 202 The value of 2.5 kv for a) was chosen to ensure the adequacy of the insulation concerned and does not necessarily simulate likely overvoltages Add the symbol NZ in the right hand margin beside the second paragraph. Delete the Note. Add the following after the second paragraph: In Australia (this variation does not apply in New Zealand), the a.c. test voltage is: for a):3 kv; and for b) and c):1.5 kv. NOTE 201 Where there are capacitors across the insulation under test, it is recommended that d.c. test voltages are used. NOTE 202 The 3 kv and 1.5 kv values have been determined considering the low frequency induced voltages from the power supply distribution system. Annex Add the following Normative References to Annex : IEC 60065, Audio, Video and similar electronic apparatus Safety requirements AS/NZS 3191, Approval and test specification Electric flexible cords AS/NZS 3112, Approval and test specification lugs and socket-outlets AS/NZS , Fire hazard testing of electrotechnical products Methods of test for the determination of the flammability of solid electrical insulating materials when exposed to an igniting source Index Between the entries for polyimide insulating material and powder insert the following: potential ignition source , , No TNV No TNV Considered. IEC/UL approved material and components are used. National Differences

69 Enclosure No. 1 age 69 of 126 Report No.: T /12 IEC / EN Clause Difference Test Result Remark Verdict JAAN- Differences to IEC 60950, Third Edition (1999) (National differences to IEC :2005 do not exist) 1.2 Addition: Add the following terms. Equipment, Class 0I Material, VTM Addition: CLASS 0I EQUIMENT: Equipment where protection against electric shock is achieved by: a) using BASIC INSULATION, and b) providing a means of connecting to the protective earthing conductor in the building wiring those conductive parts that are otherwise capable of assuming HAZARDOUS VOLTAGES if the BASIC INSULATION fails, and c) using a supply cord without earthing conductor and a plug without earthing wire although the equipment has externally an earth terminal or a lead wire for earthing. Equipment provided with a cord set having a twopin type plug with a lead wire for earthing is also regarded as Class 0I. NOTE Class 0I equipment may have a part constructed with Double Insulation or Reinforced Insulation as well as an operating part as SELV circuit Replacement: FLAMMABILITY CLASSIFICATION OF MATERIALS: The recognition of the burning behaviour of materials and their ability to extinguish if ignited. Materials are classified as in to , and when tested in accordance with annex A. NOTE 1 - When applying the requirements in this standard, HF-1 CLASS FOAMED MATERIALS are regarded as better than those of CLASS HF-2, and HF-2 better than HBF. NOTE 2 - Similarly, other MATERIALS, including rigid (engineering structural) foam of CLASSES 5V or V-0 are regarded as better than those of CLASS V-1, V-1 better than V-2, and V-2 better than HB. NOTE 3 - Similarly, for thin MATERIALS, VTM-0 Class materials are regarded as better than those of VTM-1 Class, and VTM-1 better than VTM-2. Considered. Equipment is rated class II. IEC/UL approved materials are used. National Differences

70 Enclosure No. 1 age 70 of 126 Report No.: T /12 IEC / EN Clause Difference Test Result Remark Verdict Addition: VTM CLASS MATERIAL: Thin MATERIALS fulfill the specified conditions during the test of clause A.101 applied for materials that the test and evaluation of clauses A.6 to A.10 is difficult to enforce. Materials are classified to three classifications as VTM-0, VTM-1 and VTM-2 according to the conditions after the removal of the test flame Addition: Marking for CLASS 0I EQUIMENT For CLASS 0I EQUIMENT, the following instruction shall be indicated on the visible place of the mains plug or the main body: rovide an earthing connection Moreover, for CLASS 0I EQUIMENT, the following instruction shall be indicated on the visible place of the main body or written in the operating instructions: rovide an earthing connection before the mains plug is connected to the mains. And, when disconnecting the earthing connection, be sure to disconnect after pulling out the mains plug from the mains Replacement: Replace IEC to IEC or JIS C 8303 in b) Addition: Add the following after 1st paragraph. This also applies to the conductor of lead wire for protective earthing of CLASS 0I EQUIMENT Replacement: Replace 2nd sentence in 1st paragraph. For CLASS I EQUIMENT with a DETACHABLE OWER SULY CORD, the earthing terminal in the appliance inlet is regarded as the main protective earthing terminal Replacement: Replace 1st sentence. rotective earthing connections of CLASS I EQUIMENT shall make earlier and break later than the supply connections in each of the following: Addition: Earthing of CLASS 0I EQUIMENT lugs with a lead wire for earthing shall not be used for equipment having a rated voltage exceeding 150V. For plugs with a lead wire for earthing, the lead wire shall not be earthed by a clip. CLASS 0I EQUIMENT shall be provided with an earthing terminal or lead wire for earthing in the external where easily visible. IEC/UL approved materials are used. Considered Delete 1) in Table 3B. National Differences

71 Enclosure No. 1 age 71 of 126 Report No.: T /12 IEC / EN Clause Difference Test Result Remark Verdict Addition: Add the following informative remark after the last sentence. Remark - IEC is also applicable instead of IEC Addition: Add the following to suffix 5) as specified in Conditions applicable to Table 4A, arts 1 and 2. With regard to Table 4A, insulating materials complying with Japanese requirements (refer to Japanese differences for the current IEC (3rd Edition) in CB Bulletin 101B) are also acceptable. Add a suffix 7) in Conditions applicable to Table 4A, arts 1 and 2. In the right column of Table 4A, art 1, add suffix 7) to 50 (K), corresponding to - without T marking in the left column so as to become 50 7). Add 7) to Table 4A, art 2 as follows. 7) This value shall apply only to wiring or cords complying with relevant IEC standards. Others shall comply with Japanese requirements (refer to Japanese differences for the current IEC (3rd Edition) in CB Bulletin 101B) Addition: Add the following in 7th paragraph. - for thin materials, e.g., flexible printed boards, etc., used inside equipment, be of FLAMMABILITY CLASS VTM-2 or better Replacement: Replace Table 5A. Added Added Considered Replacement: Replace 3rd Item as follows. - BASIC INSULATION between the RIMARY CIRCUIT and accessible conductive parts of CLASS I or 0I EQUIMENT; Annex A Addition: Add the subclause A.101 with the title Flammability tests for classifying materials VTM and the following: Thin sheet materials shall comply with ISO Considered National Differences