Test with test finger and test probe No access with test finger to any hazardous live parts. Test...

<11006749 001>

Page 2 of 50

Test case verdicts

Test case does not apply to the test object .................. : N(.A.)

Test item does meet the requirement........................... : P(ass)

Test item does not meet the requirement .................... : F(ail)

Testing

Date of receipt of test item ........................................... :

Date(s) of performance of test………………………:

March, 2006

March, 2006 – April, 2006

General remarks 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 a NCB, in accordance with IECEE 02.

This report shall not be reproduced except in full without the written approval of the testing laboratory. The test results presented in this report relate only to the item(s) tested. "(see appended table)" refers to a table appended to the report. “(see remark #)” refers to a remark appended to the report. “(see Annex #) refers to an annex appended to the report. Throughout this report a point or comma is used as the decimal separator.

Countries:

Austria, Australia, Belgium, Denmark, Finland, France, Germany, Greece, Hungary, Israel, Republic of Korea, Malaysia, The Netherlands, Poland, Serbia and Montenegro, Slovakia, Slovenia, Sweden, Switzerland, Ukraine, United Kingdom

Factories:

1) Tech-Yeh (Shanghai) Computer Co., Ltd.

No.4, Lane 58, Sanzhuang Road, Songjiang Export Processing Zone, Shanghai 201613, P. R. China

2) Flextronics International kft.

Ikervari u. 42, Sarvar 9600, Hungary

<11006749 001>

Page 3 of 50

Comments:

The equipment models VWE6XXXXXXXX and AT2605XXXXXXXX (X = any alphanumeric character for marketing purpose) are 26” LCD TV monitor for the use in the scope of IEC 60065.

All models are identical to each other except for model designation and trademark.

The internal building-in switching power supply and LCD module with DC/AC inverter are CB approved component by TÜV Rheinland and evaluated according to standard IEC 60065: 2001. See appended table 14 for details.

The power supply cord set was not evaluated together with the apparatus. A suitable certified power supply cord set has to be added in the country where the apparatus is sold.

The unit was evaluated for a 40°C maximum ambient operating temperature.

The test samples were pre-production sample without serial numbers.

Summary of Testing and Conclusions

The sample(s) tested complies with the requirements of IEC/EN 60065:2002. Compliance with European Special National Conditions, Annex ZB, and A – Deviations, Annex ZC, is recorded at the end of this report.

<11006749 001>

Page 4 of 50

Copy of marking plate

<11006749 001>

Page 5 of 50

IEC/EN 60065

Clause Requirement – Test Result - Remark Verdict

3 GENERAL REQUIREMENTS P

Safety class of the apparatus ................................. : Class I apparatus. P

4 GENERAL CONDITIONS OF TESTS P

4.1.4 Ventilation instructions require the use of the test box

The equipment was test on bench. Not used the test box.

N

5 MARKING P

Comprehensible and easily discernible Compliance checked. P

Permanent durability against water and petroleum spirit

After rubbing test by water and petroleum spirit, the label still easily discernible, indelible and legible.

P

Maker:

1)

2)

5.1 Identification, maker, model ................................... :

Model:

1) VWE6XXXXXXXX (X= Blank or any alphanumeric character)

2) AT2605XXXXXXXX (X= Blank or any alphanumeric character)

P

Class II symbol if applicable Class I equipment. N

Rated supply voltage and symbol .......................... : 100-240V~ P

Frequency if safety dependant 50-60Hz P

Rated current or power consumption ..................... : 1.57A, 157W P

5.2 Earth terminal Approved appliance inlet used. Terminal for protective earthing conductors with symbol no. 5019 according to IEC 60417-2.

P

Hazardous live terminals No such terminals. N

Supply output terminals (other than mains) No supply output terminals. N

<11006749 001>

Page 6 of 50

IEC/EN 60065


5.3 Use of triangle with exclamation mark Provided in approved SPS and panel with inverter.

P

5.4 Instructions for use User’s manual provided in English language. Version of other languages will be provided when national approval.

P

5.4.1 Mains powered equipment not exposed to dripping or splashing. Warning concerning objects filled with liquid, etc.

State on the User manual. P

Hazardous live terminals, instructions for wiring No hazardous live terminals. N

Instructions for replacing lithium battery No lithium batteries used. N

Instructions for modem if fitted No modem used. N

Class I earth connection warning Stated in user’s manual. P

Instructions for multimedia system connection Stated in user’s manual. P

Special stability warning for fixed installation N

5.4.2 Disconnect device: plug/coupler or all-pole mains switch location, accessibility and markings

Applicance inlet was provided and remain readily operable.

P

Instructions for permanently connected equipment Not permanently connected equipment.

N

6 HAZARDOUS RADIATION N

6.1 Ionizing radiation < 36 pA/kg (0,5 mR/h) No CRT used. N

6.1

EN 60065

European Council Directive 96/29/Euratom of 13 May 1996 10cm from outer surface of apparatus <1µSv/h (0,1mR/h)

Ditto. N

6.2 Laser radiation, emission limits to IEC 60825-1 ..... : No laser. N

Emission limits under fault conditions .................... : Ditto. N

7 HEATING UNDER NORMAL OPERATING CONDITIONS P

7.1 Temperature rises not exceeding specified values, no operation of fuse links

(See appended table) P

7.1.1 Temperature rise of accessible parts (See appended table) P

7.1.2 Temperature rise of parts providing electrical insulation


7.1.3 Temperature rise of parts acting as a support or as a mechanical barrier


<11006749 001>

Page 7 of 50

IEC/EN 60065


7.1.4 Temperature rise of windings (See appended table) P

7.1.5 Parts not subject to a limit under 7.1.1 to 7.1.4 (See appended table) P

7.2 Softening temperature of insulating material supporting parts conductively connected to the mains carrying a current > 0,2 A at least 150 oC

In approved SPS unit. P

8 CONSTRUCTIONAL REQUIREMENTS WITH REGARD TO THE PROTECTION AGAINST ELECTRIC SHOCK

P

8.1 Conductive parts covered by lacquer, paper, untreated textile oxide films and beads etc. considered to be bare

Considered. P

8.2 No shock hazard when changing voltage setting device, fuse-links or handling drawers etc.

Full supply voltage range design. No fuse-link replaced and drawers handled while operation by hand.

N

8.3 Insulation of hazardous live parts not provided by hygroscopic material

The apparatus was subject of humidity treatment for 168 hours at R.H of 95% at 40°C. For test voltages after the test refer to appended table 10.3.

P

8.4 No risk of electric shock following the removal of a cover which can be removed by hand

Remote controller cover 3.0V, no hazard.

P

8.5 Class I equipment See below. P

Basic insulation between hazardous live parts and earthed accessible parts

Hazardous live parts to earthed parts are separated by basic insulation.

P

Resistors bridging basic insulation complying with 14.2.1 a)

No such resistor. N

8.6 Class II equipment and Class II constructions within Class I equipment

See below. P

Reinforced or double insulation between hazardous live parts and accessible parts

Hazardous live parts to accessible parts are separated by either reinforced or double insulation.

P

Components bridging reinforced or double insulation complying with 14.1 a) or 14.3

In approved SPS. P

Basic and supplementary insulation each being bridged by a capacitor complying with 14.2.1 a)

In approved SPS. P

Reinforced or double insulation being bridged with 2 capacitors in series complying with 14.2.1 a)

N

<11006749 001>

Page 8 of 50

IEC/EN 60065


Reinforced or double insulation being bridged with a single capacitor complying with 14.2.1 b)

In approved SPS. P

Basic insulation bridged by components complying with 14.3.4.3

No such components. N

8.7 Basic insulation between parts at 35 V to 71 V (peak) a.c. or 60 V to 120 V d.c. and accessible parts

See below. P

Reinforced or double insulation between circuits operating at voltages between 35 V and 71 V (peak) a.c. or between 60 V and 120 V d.c. and hazardous live parts at higher voltage

See 8.6. P

Separation by Class II isolating transformer In approved SPS. P

Separation by Class I transformer N

Separation by earthed conductive part N

8.8 Basic or supplementary insulation > 0,4 mm (mm) : In approved SPS. P

Reinforced insulation > 0,4 mm (mm) .................... : N

Thin sheet insulation In approved SPS. P

Basic or supplementary insulation, at least two layers, each meeting 10.3

In approved SPS. P

Basic or supplementary insulation, three layers any two of which meet 10.3

N

Reinforced insulation, two layers each of which meet 10.3

N

Reinforced insulation, three layers any two which meet 10.3

In approved SPS. P

8.9 Adequate insulation between internal hazardous live conductors and accessible parts

All hazardous live parts are cover by internal metal earthed enclosure. All internal wires are UL recognized wiring which is PVC insulated, rated VW-1, min. 80°C.

P

Adequate insulation between internal hazardous live parts and conductors connected to accessible parts

All internal hazardous live part is separated by double or reinforced insulation from these conductors.

P

8.10 Double insulation between conductors connected to the mains and accessible parts

Class I equipment. N

8.11 Detaching of wires No wire could be become detached.

P

<11006749 001>

Page 9 of 50

IEC/EN 60065


No undue reduction of creepages or clearance distances if wires become detached

Conductors with mechanical securing and quick connection.

P

Vibration test carried out ......................................... : See 12.1.2. P

8.12 Adequate cross-sectional area of internal wiring to mains socket-outlets

No mains socket outlet. N

8.13 Adequate fastening of windows, lenses, lamp covers etc. (pull test 20 N for 10 s)

No windows, lenses, lamp covers etc.

N

8.14 Adequate fastening of covers (pull test 50 N for 10 s)

Secured by screws. P

8.15 No risk of damage to the insulation of internal wiring due to hot parts or sharp edges

The internal wiring does not touch hot parts or sharp edges that may damage its insulation and cause hazard.

P

8.16 Only special supply equipment can be used Supply from mains only. N

8.17 Insulated winding wire without additional interleaved insulation

In approved SPS. P

8.18 Endurance test as required by 8.17 N

8.19 Disconnection from the mains See below. P

8.19.1 Disconnect device Appliance inlet used. P

All-pole switch or circuit breaker with >3mm contact separation

Ditto. N

8.19.2 Mains switch ON indication Compliance in approved SPS. P

8.20 Switch not fitted in the mains cord P

8.21 Bridging components comply with clause 14 N

9 ELECTRIC SHOCK HAZARD UNDER NORMAL OPERATING CONDITIONS P

9.1 Testing on the outside P

9.1.1 For voltages >1000 V ac or >1500 V dc complies with clause 13.3.1 for basic insulation

See 9.1.1.2. P

9.1.1.1 Touch current measured from terminal devices using the network in annex D ................................. :

The touch current was measured at output connectors, inverter output connectors and plastic enclosure were conducted with the results in appended table 9.1.1.

The measuring network according to annex D.

P

Discharge not exceeding 45 µC Less than 45 µC. P

<11006749 001>

Page 10 of 50

IEC/EN 60065


Energy of discharge not exceeding 350 mJ N

9.1.1.2 Test with test finger and test probe No access with test finger to any hazardous live parts. Test probe 13 of IEC 61032 cannot touch hazardous voltage through any openings in the whole enclosure.

P

9.1.2 No hazardous live shafts of knobs, handles or levers

No possible to be hazardous. Complied.

P

9.1.3 Ventilation holes tested by means of 4 mm x 100 mm test pin

No access to any parts at hazardous voltage.

P

9.1.4 Terminal devices tested with 1 mm x 20 mm test pin (10 N); test probe D of IEC 61032


P

Terminal devices tested with 1 mm x 100 mm straight wire (1 N); test probe D of IEC 61032


P

9.1.5 Pre-set controls tested with 2 mm x 100 mm test pin (10 N); test probe C of IEC 61032

No pre-set controls used. N

9.1.6 No shock hazard due to stored charge on withdrawal of the mains plug; voltage (V) after 2 s :

Evaluated during SPS approval.

P

If C is not greater than 0,1 µF no test needed N

9.1.7 Enclosure sufficiently resistant to external force See below. P

Test probe 11 of IEC 61032 for 10 s (50 N) No damage to the enclosure. P

Test hook of fig. 4 for 10 s (20 N) No damage to the enclosure. P

30 mm diameter test tool for 5 s (100 or 250 N) .... : 250 N applied. P

9.2 No hazard after removing a cover by hand Remote controller cover 3.0V, no hazard.

P

10 INSULATION REQUIREMENTS P

10.1 Insulation resistance (MΩ) at least 2 MΩ min. after surge test for basic and 4 MΩ min. for reinforced insulation ................................................................. :

See appended table 10.3. P

10.2 Humidity treatment 48 h or 120 h ........................... : At 40°C, R.H. 95% for 168 hours.

P

10.3 Insulation resistance and dielectric strength Refer to appended table 10.3. P

<11006749 001>

Page 11 of 50

IEC/EN 60065


11 FAULT CONDITIONS P

11.1 No shock hazard under fault condition Evaluation during SPS and DC/AC inverter approval. Refer to appended table 11.1 for blocked opening test.

P

11.2 Heating under fault condition No fire hazards, no excessive temperatures.

P

No hazard from softening solder No solder point became soft. P

11.2.1 Measurement of temperature rises (See appended table) P

11.2.2 Temperature rise of accessible parts (See appended table) P

11.2.3 Temperature rise of parts, other than windings, providing electrical insulation


Temperature rise of printed circuit boards (PCB) exceeding the limits of table 3 by max. 100 K for max. 5 min

Temperatures were not exceeded.

N

a) Temperature rise of printed circuit boards (PCB) to 20.1.3, exceeding the limits of table 3 by not more than 100 K for an area not greater than 2 cm²


N

b) Temperature rise of printed circuit boards (PCB) to 20.1.3 up to 300 K for an area not greater than 2 cm² for a maximum of 5 min


N

Meets all the special conditions if conductors on printed circuit boards are interrupted

N

Class I protective earthing maintained No loose. P

11.2.4 Temperature rise of parts acting as a support or mechanical barrier


11.2.5 Temperature rise of windings (See appended table) P

11.2.6 Temperature rise of parts not subject to the limits of 11.2.1 to 11.2.5


12 MECHANICAL STRENGTH P

12.1.1 Bump test where mass >7 kg No damage. P

12.1.2 Vibration test Compliance checked. P

12.1.3 Impact hammer test No damage to the apparatus after the impact test.

P

Steel ball test No damage to the apparatus after the steel ball test.

P

<11006749 001>

Page 12 of 50

IEC/EN 60065


12.1.4 Drop test for portable apparatus where mass < 7 kg

Apparatus is exceeded 7kg. N

12.1.5 Thermoplastic enclosures strain relief test After the test at temperature of 70°C, no shrinkage, distortion or loosening of any enclosure part was noticeable on the apparatus for enclosure material.

P

12.2 Fixing of knobs, push buttons, keys and levers No damage within the meaning of this standard.

P

12.3 Remote controls with hazardous live parts No hazardous live parts were contained in remote controls.

N

12.4 Drawers (pull test 50 N, 10 s) No drawers. N

12.5 Antenna coaxial sockets providing isolation Complied. P

12.6 Telescoping or rod antennas construction No telescoping or rod antennas.

N

12.6.1 Telescoping or rod antennas securement Ditto. N

13 CLEARANCE AND CREEPAGE DISTANCES P

13.1 Clearances in accordance with 13.3 See 13.3. P

Creepage distances in accordance with 13.4 See 13.4. P

13.2 Determination of operating voltage Done in approved SPS. P

13.3 Clearances See below. P

13.3.2 Circuits conductively connected to the mains comply with table 8 and, where applicable, table 9

In approved SPS. P

13.3.3 Circuits not conductively connected to the mains comply with table 10

In approved SPS. For sustain, see appended table.

P

13.4 Creepage distances See appended table. P

Creepage distances greater than table 11 minima Considered. P

13.5 Printed boards Not applied for. N

13.5.1 Clearances and creepage distances between conductors on printed circuit boards, one of which may be conductively connected to the mains, as in fig. 10

Ditto. N

13.5.2 Type B coated printed circuit boards complying with IEC 60664-3 (basic insulation only)

Ditto. N

<11006749 001>

Page 13 of 50

IEC/EN 60065


13.6 Conductive parts along uncemented joints clearances and creepage distances comply with 13.3 and 13.4


Conductive parts along reliably cemented joints comply with 8.8

Ditto. N

13.7 Enclosed, enveloped or hermetically sealed parts: not conductively connected to the mains: clearances and creepage distances as in table 12

Not such a construction. N

13.8 Parts filled with insulating compound, meeting the requirements of 8.8

Photo couplers used in SPS are approved components.

P

14 COMPONENTS P

14.1 Resistors N

a) Resistors between hazardous live parts and accessible metal parts

No such resistors used. N

b) Resistors, other than between hazardous live parts and accessible parts

Ditto. N

b) Resistors separately approved ........................... : Ditto. N

14.2 Capacitors and RC units In approved SPS. P

Capacitors separately approved Yes. P

14.2.1 Y capacitors tested to IEC 60384-14, 2nd edition ... : The subclass Y2 capacitors which used between hazardous live and PE were approved according to IEC 60384-14:1993. In approved SPS.

P

14.2.2 X capacitors tested to IEC 60384-14, 2nd edition ... : The X capacitors which conductively connected between the mains were approved according to IEC 60384-14:1993. In approved SPS.

P

14.2.3 Capacitors operating at mains frequency but not connected to the mains: tests for X2 ...................... :

No such capacitors used. N

14.2.5 Capacitors with volume exceeding 1750 mm³, where short-circuit current exceeds 0,2 A: compliance with IEC60384-1, 4.38 category B or better ....................................................................... :

In approved SPS. P

Capacitors with volume exceeding 1750 mm³, mounted closer to a potential ignition source than table 5 permits: compliance with IEC 60 384-1, 4.38 category B or better ........................................ :

Ditto. P

<11006749 001>

Page 14 of 50

IEC/EN 60065


Shielded by a barrier to V-0 or metal ...................... : Electrolytic can type capacitor is having a metal case.

P

14.3 Inductors and windings In approved SPS and DC/AC inverter.

P

Comply with IEC 61558-1, IEC 61558-2 (as relevant) and clause 20.1.4

N

14.3.1 Transformers and inductors marked with manufacturer's name and type ............................... :

In approved SPS and DC/AC inverter.

P

Transformers and inductors separately approved . : N

14.3.2 General Isolation transformer used in approved SPS.

P

14.3.3 Constructional requirements Ditto. P

14.3.3.1 Clearances and creepage distances comply with clause 13

Ditto. P

14.3.3.2 Transformers meet the constructional requirements

Ditto. P

14.3.4.1 Class II transformers have adequate separation between hazardous live parts and accessible parts (double or reinforced insulation)

N

Coil formers and partition walls > 0,4 mm N

14.3.4.2 Class I transformers, with basic insulation and protective screening only if all 7 conditions of 14.3.4.2 are met

Class II transformer. Used in approved SPS.

N

14.3.4.3 Separating transformers with at least basic insulation

No separating transformer. N

14.3.5.1 Class II transformers have adequate insulation between hazardous live parts and accessible parts (double or reinforced insulation)

In approved SPS. P

Coil formers and partition walls > 0,4 mm Ditto. P

14.3.5.2 Class I transformers have adequate insulation between hazardous live parts and accessible conductive parts or those conductive parts or protective screens connected to a protective earth terminal

Class II transformer used in approved SPS.

N

Winding wires connected to protective earth have adequate current-carrying capacity

Ditto. N

14.4 High voltage components No component operating at voltage exceeding 4kV.

N

High-voltage components and assemblies: U > 4 kV (peak) separately approved

Ditto. N

<11006749 001>

Page 15 of 50

IEC/EN 60065


Component meets category V-1 of IEC 60707 Ditto. N

14.4.1 High voltage transformers and multipliers tested as part of the submission

Ditto. N

14.4.2 High voltage assemblies and other parts tested as part of the submission

Ditto. N

14.5 Protective devices In approved SPS. P

Protective devices used within their ratings See 14.5.2.1. P

External clearances and creepage distances meet requirement of clause 13 for the voltage across the device when opened

In approved SPS. P

14.5.1.1 a) Thermal cut-outs separately approved No thermal cut-outs used. N

b) Thermal cut-outs tested as part of the submission

Ditto. N

14.5.1.2 a) Thermal links separately approved No thermal links used. N

b) Thermal links tested as part of the submission Ditto. N

14.5.1.3 Thermal devices re-settable by soldering N

14.5.2.1 Fuse-links in the mains circuit according to IEC 60127

In approved SPS. P

14.5.2.2 Correct marking of fuse-links adjacent to holder ... : Ditto. P

14.5.2.3 Not possible to connect fuses in parallel ................ : No fuse holder. N

14.5.2.4 Not possible to touch hazardous live parts when replacing fuse-links without the use of a tool ......... :

Only one fuse-link is provided in approved SPS.

N

14.5.3 PTC-S thermistors comply with IEC 60730-1 No such component used. N

PTC-S devices (15 W) category V-1 or better Ditto. N

14.5.4 Circuit protectors have adequate breaking capacity and their position is correctly marked


14.6 Switches In approved SPS. P

14.6.1 a) Separate testing to IEC 61058 including:

10 000 operations

Normal pollution suitability

Resistance to heat and fire level 3

and

V-0 compliance with annex G, G.1.1

N

14.6.1 b) Tested in the apparatus: N

<11006749 001>

Page 16 of 50

IEC/EN 60065


Switch controlling > 0.2A with open contact voltage > 35 V (peak)/24 V dc complying with 14.6.3, 14.6.4 and V-0 in annex G, G.1.1

N

Switch controlling > 0.2A with open contact voltage < 35 V (peak)/24 V dc complying with 14.6.3 and V-0 in annex G, G.1.1

N

Switch controlling < 0.2A with open contact voltage > 35 V (peak)/24 V dc complying with 14.6.4 and V-0 in annex G, G.1.1

N

14.6.2 Switch tested to 14.6.1 b) constructed to IEC 61058-1 subclause 13.1 and has making/breaking action independent of speed of actuation

Approved switches are used. N

14.6.3 Switch tested to 14.6.1 b) compliant with IEC 61058-1 subclause 16.2.2 d) and m) not attaining excessive temperatures in use

Ditto. N

14.6.4 Switch tested to 14.6.1 b) has adequate dielectric strength

Ditto. N

14.6.5 Mains switch controlling mains socket outlets additional tests to IEC 60058-1

No mains socket outlets. N

Socket outlet current marking correct N

14.7 Safety interlocks No safety interlocks. N

Safety interlocks to 2.8 of IEC 60950 N

14.8 Voltage setting devices No voltage setting devices. N

Voltage setting device not likely to be changed accidentally

N

14.9 Motors No motor provided. N

14.9.1 Endurance test on motors N

Motor start test N

Dielectric strength test N

14.9.2 Not adversely affected by oil or grease etc. N

14.9.3 Protection against moving parts N

14.9.4 Motors with phase-shifting capacitors, three-phase motors and series motors meet clause. B.8, B.9 and B.10 of IEC 60950, Annex B

N

14.10 Batteries See below. P

14.10.1 Batteries mounted with no risk of accumulation of flammable gases

2 “AAA” non-rechargeable batteries used in remote controller.

P

<11006749 001>

Page 17 of 50

IEC/EN 60065


14.10.2 No possibility of recharging non-rechargeable batteries

Compliance checked for non-rechargeable batteries in remote controller.

P

14.10.3 Recharging currents and times within manufacturers limits

N

Lithium batteries discharge and reverse currents within the manufacturers limits

N

14.10.4 Battery mould stress relief N

14.10.5 Battery drop test N

14.11 Optocouplers In approved SPS. P

Optocouplers comply with Cl. 8 Ditto. P

Internal and external dimensions to 13.1. or alternatively 13.6 (jointed insulation)

Ditto. P

14.12 Surge suppression varistors In approved SPS. P

Comply with IEC 61051-2 N

Not connected between mains and accessible parts except for earthed parts of permanently connected apparatus

N

Complies with the current pulse, fire hazard and thermal stress requirements of 14.12

N

15 TERMINALS P

15.1.1 Mains plug, appliance inlet, interconnection couplers and mains socket-outlet meet the appropriate standard

Appliance inlet used in approved SPS.

P

15.1.2 Connectors for antenna, earth, audio, video or data: P

No risk of insertion in mains socket-outlets Mismatch of connectors is prevented by its incompatible form or location.

P

No risk of insertion into audio or video: outlets marked with the symbol of 5.2

Mismatch of connectors is prevented by its incompatible form or location.

P

15.1.3 Output terminals of a.c. adaptors or similar devices not compatible with household mains socket-outlets

No such output terminal. N

15.2 Provision for protective earthing P

<11006749 001>

Page 18 of 50

IEC/EN 60065


Accessible conductive parts of Class I equipment reliably connected to earth terminal, within equipment

Green/yellow wire is connected from inlet to metal chassis. Green/Yellow wire is fixed reliably on the metal chassis with ring terminal, starwasher and screw.

P

Class I supply equipment with non-hazardous live output voltage: output circuit not connected to earth

N

Protective earth conductors correctly coloured Green/yellow wire provided. P

Equipment with non-detachable mains cord provided with separate protective earth terminal near mains input

Appliance inlet used. N

Protective earth terminal resistant to corrosion All safety earthing connection in compliance with annex F.

P

Earth resistance test: < 0,1 Ω at 25 A ................... : See appended table. P

15.3 Terminals for external flexible cords and for permanent connection to the mains supply

Approved class I appliance inlet provided.

N

15.3.1 Adequate terminals for connection of permanent wiring

N

15.3.2 Reliable connection of non-detachable cords: N

Not soldered to conductors of a printed circuit board

N

Adequate clearances and creepage distances between connections should a wire break away

N

Wire secured by additional means to the conductor N

15.3.3 Screws and nuts clamping conductors have adequate threads: ISO 261, ISO 262 or similar

N

15.3.4 Soldered conductors wrapped around terminal prior to soldering or held in place by additional means

N

Clamping of conductor and insulation if not soldered or held by screws

N

15.3.5 Terminals allow connection of appropriate cross-sectional area of conductors, for the rated current of the equipment

N

15.3.6 Terminals to 15.3.3 have sizes required by table 16 N

15.3.7 Terminals clamp conductors between metal and have adequate pressure

N

Terminals designed to avoid conductor slipping out when tightened or loosened

N

<11006749 001>

Page 19 of 50

IEC/EN 60065


Terminals adequately fixed to avoid loosening when the clamping is tightened or loosened and stress on internal wiring is avoided

N

15.3.8 Terminals carrying a current more than 0,2 A: contact pressure not transmitted by insulating material except ceramic

N

15.3.9 Termination of non-detachable cords: wires terminated near to each other

N

Terminals located and shielded: test with 8 mm strand

N

15.4 Devices forming a part of the mains plug Appliance inlet used. No power cord supplied.

N

15.4.1 No undue strain on mains socket-outlets N

15.4.2 Device complies with standard for dimensions of mains plugs

N

15.4.3 Device has adequate mechanical strength (tests a,b,c)

N

16 EXTERNAL FLEXIBLE CORDS N

16.1 Mains cords sheathed type, complying with IEC 60227 for PVC or IEC 60245 for synthetic rubber cords ............................................................ :

Power supply cord is not provided.

N

Non-detachable cords for Class I have green/yellow core for protective earth

Apparatus intended for use with detachable power cord.

N

16.2 Mains cords conductors have adequate cross-sectional area for rated current consumption of the equipment

No power supply cord provided.

N

16.3 a) Flexible cords not complying with 16.1, used for interconnections between separate units of equipment used in combination and carrying hazardous live voltages, have adequate dielectric strength

N

b) Flexible cords not complying with 16.1, withstand bending and mechanical stress (3.2 of IEC 60227-2)

N

16.4 Flexible cords used for connection between equipment have adequate cross-sectional areas to avoid temperature rise under normal and fault conditions

N

<11006749 001>

Page 20 of 50

IEC/EN 60065


16.5 Adequate strain relief on external flexible cords Detachable power supply cord is used.

N

Not possible to push cord back into equipment N

Strain relief device unlikely to damage flexible cord N

For mains cords of Class I equipment, hazardous live conductors become taut before earth conductor

N

16.6 Apertures for external flexible cord: no risk of damage to the cord during assembly or movement in use

N

16.7 Transportable musical instruments and amplifiers fitted with detachable cord set with appliance inlet to IEC 60320-1

The unit is not transportable apparatus.

N

Transportable musical instruments and amplifiers fitted with detachable cord sets or with means of stowage to protect the cord

Ditto. N

17 ELECTRICAL CONNECTIONS AND MECHANICAL FIXINGS P

17.1 Torque test to table 20: See below. P

- screws into metal: 5 times Metal screw (Ø3.9mm or Ø2.9mm) for fastening of internal metal enclosure.

P

- screws into non-metallic material: 10 times Metal screw (Ø3.9mm or Ø2.9mm) for fastening of plastic enclosure.

P

17.2 Correct introduction into female threads in non-metallic material

No screws into female threads in non-metallic.

N

17.3 Cover fixing screws: captive No reduction of clearance or creepage distance

P

Non-captive fixing screws: no hazard when replaced by a screw whose length is 10 times its diameter

No hazard when replaced by a screw whose length is 10 times nominal diameter.

P

17.4 No loosening of conductive parts carrying a current > 0,2 A

All conductive fire parts are fixed on PCB by at least two soldering points.

P

17.5 Contact pressure not transmitted through plastic other than ceramic for connections carrying a current > 0,2 A

No contact pressure by screws. N

<11006749 001>

Page 21 of 50

IEC/EN 60065


17.6 Stranded conductors of flexible supply cords carrying a current > 0,2 A with screw terminals not consolidated by solder

No stranded conductors connected to screw terminals.

N

17.7 Cover fixing devices other than screws have adequate strength and their positioning is unambiguous

No cover fixing devices. N

17.8 Fixing devices for detachable legs or stands provided

No detachable legs or stands. N

17.9 Internal pluggable connections, affecting safety, unlikely to become disconnected

Internal pluggable connections have mechanical securing.

P

18 MECHANICAL STRENGTH OF PICTURE TUBES AND PROTECTION AGAINST THE EFFECTS OF IMPLOSION

N

Picture tube separately approved to IEC 61965: No picture tube provided. N

Picture tube separately approved to 18.1 ................ N

18.1 Picture tubes > 16 cm intrinsically protected N

Non-intrinsically protected tubes > 16 cm used with protective screen

N

18.2 Intrinsically protected tubes: tests on 12 samples N

18.2.1 Samples subject to ageing: 6 N

18.2.2 Samples subject to implosion test: 6 N

18.2.3 Samples subject to mechanical strength test (steel ball): 6

N

18.3 Non-intrinsically protected tubes tested to 18.3 N

19 STABILITY AND MECHANICAL HAZARDS P

Mass of the equipment exceeding 7 kg ................. : Mass of equipment: 15.5 kg P

Apparatus intended to be fastened in place – suitable instructions

Apparatus is not intended to be fastended in place.

N

19.1 Test on a plane, inclined at 10o to the horizontal Complied.

As client’s requirement, the equipment was placed on a glass surface and tilt 10°. No overbalance during the test.

P

19.2 100 N force applied vertically downwards Ditto. P

19.3 Apparatus mass > 25 kg or height > 1 M or supplied with cart or stand

N

<11006749 001>

Page 22 of 50

IEC/EN 60065


19.4 Edges or corners not hazardous Edges or corners are smoothed.

P

19.5 Glass surfaces with an area exceeding 0,1 m² or maximum dimension > 450 mm, pass the test of 19.5.1

No glass surfaces. N

19.6 Wall or ceiling mountings adequate N

20 RESISTANCE TO FIRE P

20.1 Electrical components and mechanical parts P

a) Exemption for components contained in an enclosure of material V-0 to IEC 60707 with openings not exceeding 1 mm in width

Not applied. N

b) Exemption for small components as defined in 20.1

All capacitors smaller than 1750mm2, IC, transistors and photo couplers are mounted on a PCB with V-0 (or better).

P

20.1.1 Electrical components meet the requirements of Clause 14 or 20.1.4

See sub clause 14 and 20.1.4. P

20.1.2 Insulation of internal wiring working at voltages > 4 kV or leaving an internal fire

enclosure, not contributing to the spread of fire

Internal PVC wiring working at voltage less then 4 kV.

N

20.1.3 Material of printed circuit boards on which the available power exceeds 15 W at a voltage between 50 V and 400 V (peak) a.c. or d.c. meets V-1 or better to IEC60707, unless used in a fire enclosure

See below. P

Material of printed circuit boards on which the available power exceeds 15 W at a voltage >400 V (peak) a.c. or d.c. meets V-0 to IEC 60707

PCB with V-0 or better material used for power supply.

P

20.1.4 Components and parts not covered by 20.1.1, 20.1.2 and 20.1.3 (other than fire enclosures) mounted nearer to a potential ignition source than the distances in Table 21 comply with the relevant flammability category in Table 21

Plastic enclosure material is rated with flammability class V-0.

P

Components and parts as above but shielded from a potential ignition source, with the barrier area in accordance with Table 21 and fig. 13

N

20.2 Fire enclosure N

20.2.1 Potential ignition sources with open circuit voltage > 4 kV (peak) a.c. or d.c. contained in a fire enclosure to V-1

Less than 4 kV. N

<11006749 001>

Page 23 of 50

IEC/EN 60065


20.2.2 Internal fire enclosures with openings not exceeding 1 mm in width and with openings for wires completely filled

N

20.2.3 Requirements of 20.2.1 and 20.2.2 met by an internal fire enclosure

N

<11006749 001>

Page 24 of 50

IEC/EN 60065


A APPENDIX A, ADDITIONAL REQUIREMENTS FOR APPARATUS WITH PROTECTION AGAINST SPLASHING WATER

N

A.5.1 j) Marked with IPX4 (IEC 60529), 5.4.1 a) does not apply

N

A.10.2.1 Enclosure provides protection against splashing water

N

A.10.2.2 Humidity treatment carried out for 7 days N

B APPENDIX B, APPARATUS TO BE CONNECTED TO THE TELECOMMUNICATION NETWORKS

N

Complies with IEC 62151 clause 1 N


Complies with IEC 62151 clause 3 but with 3.5.4 modified to 2.4.10 of this standard

N

Complies with IEC 62151 clause 4 but with 4.1.2, 4.1.3 and 4.2.1.2 modified in accordance with annex B of this standard

N

Complies with IEC 62151 cause 5 but with 5.3.1 modified in accordance with annex B of this standard

N



Complies with IEC 62151 annex A, B and C N

<11006749 001>

Page 25 of 50

7.1 TABLE: temperature rise measurements P

Power consumption in the OFF/Stand-by N/A N

Position of the functional switch (W) ...................... : N/A —

Operating conditions

Unit was operated in full white pattern.

Un/ freq. In (A) Pn (W) Pout (W)

Condition: AV mode with AUO panel

90V/ 50Hz 1.40 125.3 --

90V/ 60Hz 1.37 123.0 --

100V/ 50Hz 1.22 121.6 --

100V/ 60Hz 1.22 121.4 --

240V/ 50Hz 0.52 118.3 --

240V/ 60Hz 0.53 117.6 --

254V/ 50Hz 0.50 117.6 --

254V/ 60Hz 0.51 117.1 --

264V/ 50Hz 0.49 117.1 --

264V/ 60Hz 0.50 116.8 --

Condition: VGA mode with AUO panel

90V/ 50Hz 1.41 125.8 --

90V/ 60Hz 1.39 124.9 --

100V/ 50Hz 1.24 122.7 --

100V/ 60Hz 1.24 123.1 --

240V/ 50Hz 0.53 119.8 --

240V/ 60Hz 0.54 119.4 --

254V/ 50Hz 0.50 118.3 --

254V/ 60Hz 0.51 118.9 --

264V/ 50Hz 0.49 117.9 --

264V/ 60Hz 0.50 118.4 --

Condition: Tuner (Analog) mode with AUO panel

90V/ 50Hz 1.53 137.4 --

90V/ 60Hz 1.52 137.2 --

100V/ 50Hz 1.35 134.4 --

100V/ 60Hz 1.35 134.5 --

240V/ 50Hz 0.57 131.1 --

<11006749 001>

Page 26 of 50


240V/ 60Hz 0.58 130.8 --

254V/ 50Hz 0.55 129.7 --

254V/ 60Hz 0.56 139.6 --

264V/ 50Hz 0.53 129.1 --

264V/ 60Hz 0.54 129.3 --

Condition: Tuner (Digital) mode with AUO panel

90V/ 50Hz 1.49 132.0 --

90V/ 60Hz 1.49 132.0 --

100V/ 50Hz 1.32 130.2 --

100V/ 60Hz 1.32 130.2 --

240V/ 50Hz 0.56 128.4 --

240V/ 60Hz 0.57 128.4 --

254V/ 50Hz 0.54 127.9 --

254V/ 60Hz 0.55 127.4 --

264V/ 50Hz 0.52 127.4 --

264V/ 60Hz 0.53 126.9 --

Condition: AV mode with QDI panel

90V/ 50Hz 1.46 131.0 --

90V/ 60Hz 1.48 132.3 --

100V/ 50Hz 1.31 130.4 --

100V/ 60Hz 1.30 129.8 --

240V/ 50Hz 0.54 125.4 --

240V/ 60Hz 0.56 126.3 --

254V/ 50Hz 0.52 125.5 --

254V/ 60Hz 0.53 125.2 --

264V/ 50Hz 0.50 125.0 --

264V/ 60Hz 0.51 124.8 --

Condition: VGA mode with QDI panel

90V/ 50Hz 1.49 133.8 --

90V/ 60Hz 1.49 133.8 --

100V/ 50Hz 1.32 131.2 --

100V/ 60Hz 1.32 131.1 --

240V/ 50Hz 0.55 128.0 --

<11006749 001>

Page 27 of 50


240V/ 60Hz 0.56 127.6 --

254V/ 50Hz 0.52 126.4 --

254V/ 60Hz 0.53 126.2 --

264V/ 50Hz 0.51 125.6 --

264V/ 60Hz 0.52 125.8 --

Condition: Tuner (Analog) mode with QDI panel

90V/ 50Hz 1.61 143.9 --

90V/ 60Hz 1.62 145.7 --

100V/ 50Hz 1.44 143.5 --

100V/ 60Hz 1.43 142.8 --

240V/ 50Hz 0.60 139.0 --

240V/ 60Hz 0.61 139.0 --

254V/ 50Hz 0.57 138.5 --

254V/ 60Hz 0.58 137.8 --

264V/ 50Hz 0.55 137.6 --

264V/ 60Hz 0.56 137.2 --

Condition: Tuner (Digital) mode with QDI panel

90V/ 50Hz 1.46 131.1 --

90V/ 60Hz 1.46 131.4 --

100V/ 50Hz 1.31 130.2 --

100V/ 60Hz 1.31 130.5 --

240V/ 50Hz 0.57 129.7 --

240V/ 60Hz 0.57 128.4 --

254V/ 50Hz 0.53 127.1 --

254V/ 60Hz 0.54 127.1 --

264V/ 50Hz 0.52 125.9 --

264V/ 60Hz 0.53 126.8 --

Loudspeaker impedance (Ω) .................................. : 4Ω x 2 —

Several loudspeaker systems N/A N

Marking of loudspeaker terminals N/A N

Monitored point: ∆T (K) Limit ∆T (K)

<11006749 001>

Page 28 of 50


Test voltage 90V/ 50Hz 264V/ 60Hz --

Test condition: Tuner (Analog) mode with AUO panel

T2 coil (power) 51.9 45.8 70

T2 core (power) 45.9 40.6 70

T901 coil (power) 34.2 28.7 70

T901 core (power) 36.5 31.2 70

Body of IC504 (power) 32.4 27.1 60

Body of IC14 (power) 39.1 33.6 60

L1 coil (power) 25.7 14.0 90

FL1 coil (power) 24.7 12.1 90

FL3 coil (power) 22.4 10.9 80

L6 coil (power) 39.9 26.8 90

Switch (power) 6.2 4.3 45

Inlet near L (power) 9.8 6.4 30

U3 heatsink (DAVWE7AB4D9 REV: D) 50.2 48.9 65

L11 coil (DAVWE7AB4D9 REV: D) 35.2 33.6 65

PWB near U7 (DAVWE7AB4D9 REV: D) 30.8 29.6 65

U12 heatsink (DA0VW2MB6F REV: F) 40.7 40.0 65

PWB near U2 (DA0VW2MB6F REV: F) 16.0 15.4 65

PWB near U37 (DA0VW2MB6F REV: F) 26.4 25.3 65

L40 coil (DA0VW2MB6F REV: F) 18.1 17.2 65

PWB near U4 (DA0AD6CB4D7 REV: D) 19.6 18.9 65

PWB near U7 (DA0AD6CB4D7 REV: D) 13.5 13.0 65

PL1 body (DA0AD6CB4D7 REV: D) 21.6 20.9 65

PWB near U3 (DAVWE7PI4D5 REV: D) 19.9 18.8 65

T2 coil (inverter) 46.8 45.6 65

T2 core (inverter) 39.5 38.3 65

L1 coil (inverter) 44.7 43.4 65

PWB near IC1 (inverter) 49.2 48.1 65

PWB near U1 (DA0VWETH2C3 REV: C) 20.9 20.4 65

Body of TU1 (DA0VWETH2C3 REV: C) 15.0 14.4 65

PWB near U1 (DA0AD6TB4B3 REV: B) 13.7 13.2 65

Inside enclosure near power 9.5 8.2 --

<11006749 001>

Page 29 of 50


Outside enclosure near power 7.9 5.8 55

Panel surface 25.5 24.6 55

Button 0.8 0.9 45

Ambient (°C) 23.6 23.7 --

Test condition: Tuner (Analog) mode with QDI panel

T2 coil (power) 52.8 46.4 70

T2 core (power) 51.6 43.7 70

T901 coil (Power) 37.2 30.8 70

T901 core (Power) 33.4 27.5 70

Body of IC504 (power) 33.4 27.5 60

Body of IC14 (power) 39.3 34.1 60

L1 coil (power) 25.9 14.0 90

FL1 coil (power) 22.6 11.0 90

FL3 coil (power) 22.2 10.8 80

L6 coil (power) 40.8 37.2 90

Switch (power) 6.8 4.6 45

Inlet near L (power) 10.8 6.7 30

U3 heatsink (DAVWE7AB4D9 REV:D) 50.7 49.3 65

L11 (DAVWE7AB4D9 REV:D) 37.1 35.8 65

PWB near U7 (DAVWE7AB4D9 REV:D) 29.5 28.5 65

U12 heatsink (DA0VW2MB6F REV:F) 40.4 39.9 65

PWB near U2 (DA0VW2MB6F REV:F) 17.4 16.9 65

PWB near U37 (DA0VW2MB6F REV:F) 26.4 25.5 65

L40 (DA0VW2MB6F REV:F) 18.4 17.5 65

PWB near U4 (DA0AD6CB4D7 REV:D) 17.5 17.0 65

PWB near U7 (DA0AD6CB4D7 REV:D) 12.8 12.3 65

PL1 (DA0AD6CB4D7 REV:D) 18.9 18.5 65

PWB near U3 (DAVWE7PI4D5 REV:D) 20.5 19.8 65

T8 coil (inverter) 47.1 46.4 65

T8 core (inverter) 36.1 35.9 65

PWB near U16 (inverter) 48.2 47.7 65

Body of C100 (inverter) 32.9 32.4 65

PWB near U1 (DA0VWETH2C3 REV:C) 18.9 18.5 65

<11006749 001>

Page 30 of 50


Body of TU1 (DA0VWETH2C3 REV:C) 13.2 12.9 65

Body of U1 (DA0AD6TB4B3 REV:B) 10.2 9.6 65

Inside enclosure near power 8.2 7.4 --

Outside enclosure near power 7.8 5.8 55

Panel surface 24.9 25.0 55

Button 2.0 1.8 45

Ambient (ºC) 24.1 23.6 --

Winding temperature rise measurements N

Ambient temperature t1 (oC) .................................. : -- —

Ambient temperature t2 (oC) .................................. : —

Temperature rise ∆T of winding: R1 (Ω) R2 (Ω) ∆T (K) Limit ∆T (K) Insulation class

Comments:

The temperatures were measured under worst case normal mode defined in 4.2.1 For winding wires note 4 and for thermoplastics note 6 have been considered in accordance with IEC 60085.

The maximum ambient temperature is defined as 40°C.

Winding components:

- Polyurethane resin insulation → ∆Tmax = 85 K - 10 K - (40-35) K = 70 K

Components with:

- max. absolute temp. of 130°C → ∆Tmax = (130-40) K = 90 K





User touchable surface with:

- plastic part → 60K-(40-35) K = 55 K

7.2 TABLE: softening temperature of thermoplastics N

Temperature T of part T - normal condi-tions (oC)

T - fault condi-tions (oC)

T softening (oC)

9.1.1 TABLE: Electric shock hazard under normal condition P

<11006749 001>

Page 31 of 50

measured between: U1 (V) required U1 (Vpk)

U2 (V) required U2 (Vpk)

For equipment equipped with AUO panel

Line – plastic enclosure *) -- -- -- --

Neutral – plastic enclosure *) -- -- -- --

Line – SELV (earthed) 0.16 35 0.04 0.35

Neutral – SELV (earthed) 0.15 35 0.04 0.35

Line – CN10 Hi 0.13 35 0.03 0.35

Neutral – CN10 Hi 0.13 35 0.03 0.35

Line – CN10 Lo 0.13 35 0.03 0.35

Neutral – CN10 Lo 0.13 35 0.03 0.35

Line – T8 Pin 10 *) -- -- -- --

Neutral – T8 Pin 10 *) -- -- -- --

Line – T8 Pin 9 *) -- -- -- --

Neutral – T8 Pin 9 *) -- -- -- --

For equipment equipped with QDI panel





Line – CN3 Pin 1 0.02 35 0.02 0.35

Neutral – CN3 Pin 1 0.02 35 0.02 0.35

Line – CN3 Pin 2 0.02 35 0.02 0.35

Neutral – CN3 Pin 2 0.02 35 0.02 0.35

Line – T2 Pin 6, 7 *) -- -- -- --

Neutral – T2 Pin 6, 7 *) -- -- -- --

Line – T2 Pin 5 0.02 35 0.02 0.35

Neutral – T2 Pin 5 0.02 35 0.02 0.35

Line – T2 Pin 8 0.02 35 0.02 0.35

Neutral – T2 Pin 8 0.02 35 0.02 0.35

Note:

Test at 264Vac, 60Hz

The above test location with symbol “*)“

denoted that open-circuit voltage is below than 35V (peak)

or 60Vdc.

<11006749 001>

Page 32 of 50

10.3 TABLE: insulation resistance measurements P

Insulation resistance R between: R (MΩ) Required R (MΩ)

Hazardous live and enclosure with metal foil 999 4

Hazardous live and accessible 999 4

Hazardous live and protective earth terminal 999 2

Hazardous live and tuner terminal 999 4

Note:

Performed with all types of tuner.

10.3 TABLE: electric strength measurements P

Test voltage applied between: Test voltage (V) Breakdown

Hazardous live and accessible DC 4240 No

Hazardous live and enclosure with metal foil DC 4240 No

Hazardous live and protective earth terminal DC 2718 No

Hazardous live and tuner terminal DC 4240 No

Note:

Performed with all types of tuner.

11.1 TABLE: Electric shock hazard under fault condition P








Line – CN10 Hi 0.13 35 0.03 0.35

Neutral – CN10 Hi 0.13 35 0.03 0.35

Line – CN10 Lo 0.13 35 0.03 0.35

Neutral – CN10 Lo 0.13 35 0.03 0.35

Line – T8 Pin 10 *) -- -- -- --

<11006749 001>

Page 33 of 50



Neutral – T8 Pin 10 *) -- -- -- --

Line – T8 Pin 9 *) -- -- -- --

Neutral – T8 Pin 9 *) -- -- -- --






Line – CN3 Pin 1 0.02 35 0.02 0.35

Neutral – CN3 Pin 1 0.02 35 0.02 0.35

Line – CN3 Pin 2 0.02 35 0.02 0.35

Neutral – CN3 Pin 2 0.02 35 0.02 0.35

Line – T2 Pin 6, 7 *) -- -- -- --

Neutral – T2 Pin 6, 7 *) -- -- -- --

Line – T2 Pin 5 0.02 35 0.02 0.35

Neutral – T2 Pin 5 0.02 35 0.02 0.35

Line – T2 Pin 8 0.02 35 0.02 0.35

Neutral – T2 Pin 8 0.02 35 0.02 0.35

Note:

Test at 264Vac, 60Hz

The above test conducted after blocked opening test.

The above test location with symbol “*)“

denoted that open-circuit voltage is below than 35V (peak)

or 60Vdc.

11.2 TABLE: summary of fault condition tests P

Voltage (V) 0,9 or 1,1 times rated voltage .............. : Rated voltage AC 264V —

Ambient temperature (oC) ...................................... : See below —

Monitored point:

Under fault conditions specified below

∆T (K) Limit ∆T (K)

Part Fault Test Voltage

Test Time

Input current

Remark -- --


<11006749 001>

Page 34 of 50

T2 coil (power) 61.9

T2 core (power) 57.4



Body of IC504 (power)

45.1


51.4

L1 coil (power) 30.8

FL1 coil (power) 26.4



Switch (power) 13.8

Inlet near L (power) 15.1

U3 heatsink (DAVWE7AB4D9 REV: D)

67.6

L11 coil (DAVWE7AB4D9 REV: D)

52.7

PWB near U7 (DAVWE7AB4D9 REV: D)

46.6

U12 heatsink (DA0VW2MB6F REV: F)

57.4

PWB near U2 (DA0VW2MB6F REV: F)

30.4

PWB near U37 (DA0VW2MB6F REV: F)

41.8

L40 coil (DA0VW2MB6F REV: F)

32.4

PWB near U4 (DA0AD6CB4D7 REV: D)

33.5

PWB near U7 (DA0AD6CB4D7 REV: D)

27.0

Opening blocked 264V 6 hrs -- Unit operated normally, no component damaged. No hazards.

PL1 body (DA0AD6CB4D7 REV: D)

36.7

T2 and T901= 135K, outside enclosure= 60K, Switch and button= 60K

<11006749 001>

Page 35 of 50

PWB near U3 (DAVWE7PI4D5 REV: D)

35.7

T2 coil (inverter) 57.0

T2 core (inverter) 49.8

L1 coil (inverter) 54.9

PWB near IC1 (inverter)

59.1

PWB near U1 (DA0VWETH2C3 REV: C)

35.9

Body of TU1 (DA0VWETH2C3 REV: C)

28.4

PWB near U1 (DA0AD6TB4B3 REV: B)

27.2

Inside enclosure near power

16.4

Outside enclosure near power

15.2

Panel surface 29.3

Button 2.4

Ambient (°C) 24.0




T901 coil (Power) 46.5

T901 core (Power) 44.2


44.2


50.9





Switch (power) 12.5

Opening blocked 264V 5 hrs -- Unit operated normally, no component damaged. No hazards.

Inlet near L (power) 15.0

T2 and T901= 135K, outside enclosure= 60K, Switch and button= 60K

<11006749 001>

Page 36 of 50

U3 heatsink (DAVWE7AB4D9 REV:D)

68.6

L11 (DAVWE7AB4D9 REV:D)

54.6

PWB near U7 (DAVWE7AB4D9 REV:D)

46.1

U12 heatsink (DA0VW2MB6F REV:F)

56.3

PWB near U2 (DA0VW2MB6F REV:F)

30.8

PWB near U37 (DA0VW2MB6F REV:F)

41.1

L40 (DA0VW2MB6F REV:F)

31.4

PWB near U4 (DA0AD6CB4D7 REV:D)

31.5

PWB near U7 (DA0AD6CB4D7 REV:D)

25.7

PL1 (DA0AD6CB4D7 REV:D)

35.6

PWB near U3 (DAVWE7PI4D5 REV:D)

35.8

T8 coil (inverter) 56.3

T8 core (inverter) 45.1

PWB near U16 (inverter)

58.5

Body of C100 (inverter)

43.4

PWB near U1 (DA0VWETH2C3 REV:C)

33.6

Body of TU1 (DA0VWETH2C3 REV:C)

25.3

Body of U1 (DA0AD6TB4B3 REV:B)

22.4

<11006749 001>

Page 37 of 50

Inside enclosure near power

14.4

Outside enclosure near power

14.1

Panel surface 27.4

Button 2.9

Ambient (ºC) 23.8

Winding temperature rise measurements N



13.1 TABLE: Clearances and creepage distances in accordance with 13.2 P

clearance cl and creepage distance dcr at/of:

Up (V)

U r.m.s. (V)

required cl (mm)

cl (mm)

required dcr (mm)

dcr (mm)

Hazardous live components (with 2N) → earthed metal chassis

420 250 2.0 ↓ 2.5 ↓

- HS1 → metal chassis 7.1 7.1

- Primary HS1 top → metal

chassis 7.7 7.7

Hazardous live trace → earthed metal chassis

420 250 2.0 ↓ 2.5 ↓

- Primary trace → metal

chassis 8.0 8.0

Hazardous live trace → secondary trace

420 250 4.0 ↓ 5.0 ↓

- Primary trace → Main board

trace 21.6 21.6

Notes:

1. Internal wires were fixed on PCB by quick connector. Also used cable tie, hook and PVC tube to keep the double insulation to Hazardous live parts.

2. Cl and cr. in the SPS was already considered during the component approval.

14 TABLE: list of critical components and materials P

<11006749 001>

Page 38 of 50

Component Manufacturer/

trademark

Type/model Value / rating Standard Approval/

Reference

Plastic Enclosure Grand D-1000 D-1200

V-0, min. 2.86 mm thick

UL 94 UL

Base Various Various HB or better, weight 2.6 kg

UL 94 UL

Internal Metal Enclosure

Various Various Metal, min. 1.6 mm thick.

-- --

PCB Various Various V-0 or better, min. 105 °C

UL 94 UL

SPS Delta DPS-157DP XX (X=0-9, A-Z or blank)

i/p: 100-240V, 2.2A, 47-63Hz 55°C, Class I o/p: -For output terminal CN902: DC +24V/3.8A -For output terminal CN903: DC +12V/2A -For output terminal CN904: DC +5V/4.4A, +5Vsb/0.5A, +12V/1.4A

EN 60065:2002, IEC 60065:2001,

TÜV, CB by TÜV, UL

LCD Panel (with inverter)

QDI QD26HLXXXXXX (X=0-9, A-Z or blank)

26” TFT-LCD Module, 50 °C

IEC 60065:2001, EN 60065:2002

CB by TÜV, TÜV, UL

LCD Panel (with inverter)

AUO T260XWYY (YY=0-9, A-Z or blank)

26” TFT-LCD Module, 40 °C

IEC 60065:2001, EN 60065:2002

CB by TÜV, TÜV

Analog Tuner (Optional)

Philips FQ1216ME/I H-5, FQ1216ME MK5

5Vdc, 100mA -- --

DVB-T Tuner (Optional)

Philips TD1316AF/IHP-3

5Vdc, 185mA -- --

Alkaline battery for remote controller (Optional)

Various Various AAA type, 1.5 Vdc, 2 provided

-- --

Speaker (Optional)

Various Various Two provided, 4Ω, 5W

-- --

Note:

1) An asterisk indicates a mark that assures the agreed level of surveillance.

<11006749 001>

Page 39 of 50

15.2 TABLE: ground continue test P

Location Resistance measured (mΩ) Comments

Earthed pin of AC inlet to chassis 14 25A/ 1min.

Earthed pin of AC inlet to chassis 15 40A/ 2min.

Note(s):

Remarks

<11006749 001>

Page 40 of 50

National Deviation


ZB ANNEX ZB TO EN 60 065, SPECIAL NATIONAL CONDITIONS P

2.6.1 DK: certain types of Class I apparatus, see 15.1.1, may be provided with a plug not establishing earthing continuity when inserted in Danish socket-outlets

No power cord provided. N

13.3.1 NO: In Norway, due to IT power distribution system used, the a.c. MAINS supply voltage is considered to be equal to the line-to-line voltage, and will remain 230V in case of a single earth fault.

Not applied for IT power system.

N

15.1.1 DK: mains cord for single-phase equipment having a rated current not exceeding 10 A shall be provided with a plug according to Heavy Current Regulations Section 107-2-D1


DK: Class I equipment with socket-outlets with earthing contact, or which are intended to be used in locations where protection against indirect contact is required shall be provided with a plug in compliance with Standard Sheet DK 2-1a

No socket-outlets provided. N

DK: socket-outlets for providing power to Class II equipment with a rated current of 2,5 A shall have dimensions according to the drawing on page 131 of EN 60 065:98 other dimensions shall be to IEC 60 083 Standard Sheet C 1a for portable socket-outlets


DK: mains socket-outlets with earthing contact shall comply with Heavy Current Regulations Section 107-2-D1, Standard Sheet DK 1-3a, DK 1-5a or DK 1-7a


GB: equipment fitted with a flexible cable or cord provided with a 13A BS 1363 plug as in Statutory Instrument 1768:94


IE: equipment fitted with a flexible cable or cord provided with a 13 A plug in accordance with Statutory Instrument 525:97


NO: mains socket-outlets on Class II equipment meet CEE Publication 7 with the following amendments:

N

- dimensions 2,5 A, 250 V socket-outlets shall comply with Standard Sheet 1 page 132 of EN 60 065:98


- mechanical strength 2,5 A, 250 V socket-outlets tested as specified in EN 60 065, 12.1.3

Ditto. N

- protecting rim also tested Ditto. N

<11006749 001>

Page 41 of 50

National Deviation


NO: method b) of 8.1 is not permitted. Double or reinforced insulation is required between parts connected to the mains and parts connected to the public telecommunications network

No TNV. N

J.2 NO: In Norway, due to IT power distribution system used, the a.c. MAINS supply voltage is considered to be equal to the line-to-line voltage, and will remain 230V in case of a single earth fault.

Not applied for IT power system.

N

ZC ANNEX ZC TO EN 60 065, A-DEVIATIONS P

5 DE: additional markings required in German language: N

- cathode ray tubes with an accelerating voltage between 20 kV and 30 kV (marking on the tube)

No CRT. N

- TV receivers whose picture tube has an accelerating voltage between 20 kV and 30 kV

No picture tube. N

- TV receivers whose picture tube has an accelerating voltage greater than 30 kV

Ditto. N

- TV receivers whose picture tube has an accelerating voltage less than 20 kV

Ditto. N

5.1 IT: additional markings on the outside of the TV receiver in Italian language

Not applied for. N

IT: user instructions in Italian language including a conformity declaration

N

IT: certification number on the back cover N

14 SE: Switches containing mercury such as thermostats, relays and level controllers are not allowed.


<11006749 001>

Page 42 of 50

National Deviation


Australia National Differences according to CB Bulletin No. 107A, May 2004

APPENDIX Australia National Differences to CB Bulletin No. 107A, May 2004

(IEC Publication 60065 7th edition, 2001)

P

EXPLANATION FOR ABBREVIATIONS

P=Pass, F=Fail, N=Not applicable. Placed in the column to the right.

ZZ.1 Introduction

This Annex sets out variations between this Standard and IEC 60065:2001. 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 by shading and strikethrough.

Complied. P

ZZ.2 Variations

The variations are as follows:

Complied. P

7.1.5 In table 3, under item c) add an h) in both columns against “thermoplastic materials’ and add the following new footnote:

h As an alternative to the method described in footnote f) the following variation may be used where there is any doubt about the suitability of the material:

The ball-pressure test described in AS/NZS 60695.10.2 may be carried out.

To assess compliance under normal operating conditions the test is made in a heating cabinet at a temperature of 40°C ±2°C plus the maximum temperature rise determined under normal operating conditions but, it shall be at least

- for external parts.......................75°C±2°C

- for materials supporting parts

CONDUCTIVELY CONNECTED

TO THE MAINS.............................125°C±2°C

The alternative method did not used.

N

7.2 After the second paragraph, add the following:

The alternative method described in footnote h) of Table 3 may be used.

Added. P

<11006749 001>

Page 43 of 50

National Deviation



15.1.1 After the second paragraph, add the following:

Plugs for the connection of apparatus to mains-powered socket-outlets shall comply with AS/NZS 3112 or AS/NZS 3123. Apparatus with a plug portion, suitable for insertion into a 10A 3 pin flat-pin flat-pin socket-outlet complying with AS/NZS 3112, shall comply with the requirements of AS/NZS 3112 for equipment with integral pins for insertion into socket-outlets.

Added. P

15.3.5 In Table 15, in the second and third rows of the first column replace “6” with “7.5”.

Replaced. P

16.2 In Table 18, in the second and third rows of the first column replace “6” with “7.5”.

Replaced. P

16.3 After item (b) add the following:

A flexible cord complying with AS/NZS 3191 need not undergo this test.

Added. P

20 Add the following after NOTE 2:

For alternative test refer to Clause 20.201.

Added. P

20.1.4 In Table 21, in the third and fourth columns change both “HB75” and “No requirement” to “V-1”.

Ditto. P

<11006749 001>

Page 44 of 50

National Deviation



20.2.3 After this Clause, add the following variation:

20.201 Resistance to fire - Alternative tests

20.201.1 General

Parts of non-metallic material shall be resistant to ignition and the 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:

(a) Components that are contained in an enclosure having a flammability category of V-0 according to AS/NZS 60695.11.10 and having openings only for the connecting wires filling the openings completely, and for ventilation not exceeding 1 mm in width regardless of length.

(b) The following parts which would contribute negligible fuel to a fire:

- small mechanical parts, the mass of which does not exceed 4g, such as mounting parts, gears, cams, belts and bearings;

- small electrical components, such as capacitors with a volume not exceeding 1750mm3, integrated circuits, transistors and optocoupler packages, if these components are mounted on material of flammability category V-1 or better according to AS/NZS 60695.11.10

Equipment under test and materials used materials and components in compliance with requirements of IEC 60065.

N

<11006749 001>

Page 45 of 50

National Deviation



NOTE – In considering how to minimize 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 tests of 20.201.2.1, 20.201.2.2 and 20.201.2.3

For the base material of PRINTED BOARDS, compliance is checked by the test of 20.201.2.4.

The test shall be carried out on parts of non-metallic material which have been removed from the apparatus. When the glow-wire test is carried out, they are placed in the same orientation as they would be in normal use.

These tests are not carried out on internal wiring.

20.201.2 Test

20.201.2.1 Testing of non-matallic parts

Parts of non-metallic material are subjected to the glow-wire test of AS/NZS 60695.2.11 which shall be carried out at 550°C.

Parts 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 glow-wire test shall not be 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.

20.201.2.2 Testing of insulated parts

Part of insulating material supporting POTENTIAL IGNITION SOURCES shall be subject to the glow-wire test of AS/NZS 64695.2.11 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 3 mm of the connection.

NOTE-Contacts in components such as switch contacts are considered to be coneections.

<11006749 001>

Page 46 of 50

National Deviation



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 are subjected to the needle-flame test. However, parts shielded by a barrier which meets the needle-flame test need not be tested.

The needle-flame test shall be made in accordance with AS/NZS 4695.2.2 with the following modifications:

Clause of AS/NZS 4695.2.2 Change

5 Severities Replace with: The duration of application of the test flame is 30 s ± 1 s.

8 Test procedure 8.2 8.4 8.5

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 1. The first paragraph does not apply. Addition: If possible, the flame shall be applied at least 10 mm from a corner. Replace with: The test shall be made on one specimen. If the specimen does not withstand the test, the test may be repeated on two further specimens, both of which shall then withstand the test.

10 Evaluation of test results

Replace with: The duration of burning (tb) shall not exceed 30 s. However, for PRINTED BOARDS, it shall not exceed 15 s.

The needle-flame test shall not be carried out

<11006749 001>

Page 47 of 50

National Deviation



on parts of material classified as V-0 or V-1 according to IEC 60695-11-10 provided that the sample tested was not thicker than the relevant part.

20.201.2.3 Testing by needle-flame test

If parts, other than enclosures, do not withstand the glow wire tests of 20.201.2.2, by failure to extinguish within 30 s after the removal of the glow-wire tip, the needle-flame test detailed in 20.201.2.2 shall be made on all parts of non-metallic material which are whithin a distance of 50 mm or which are likely to be impinged upon by flame during the tests of 20.201.2.2. Parts shielded by a separate barrier which meets the needle-flame test shall not be tested.

NOTE 1– If the enclosure does not withstand the glow-wire test the appliance is considered to have failed to meet the requirement of Clause 21.201 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 apparatus, the apparatus is considered to have failed to meet the requirement of Clause 21.201 without the need for consequential testing.

NOTE 3– Parts 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.

20.201.2.4 Testing of printed boards

The base material of PRINTED BOARDS shall be subjected to the needle-flame test of Clasue 21.201.2.3. The flame shall be applied to the edge of the board where the heatsink effect is lowest when the board is positioned as in normal use. The flame shall not be appllied to an edge consisting of broken perforations, unless the edge is less than 3 mm from a POTENTIAL IGNITION SOURCE.

The test is not carried out if the

- printed board does not carry any

potential ignition source;

<11006749 001>

Page 48 of 50

National Deviation



- base material of printed boards, on which the available power at a connection

exceeds 15VA operating at a voltage exceeding 50V and equal or less than 400V (peak) a.c. or d.c. under normal operating conditions, is of flammability category V-1 or better according to AS/NZS 60695.11.10, or the printed boards are protected by an enclosure meeting the flammability category V-0 according to AS/NZS 60695.11.10, 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 power at a connection exceeds 15VA operating at a voltage exceeding 400V (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 V-0 according to AS/NZS 60695.11.10 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 power is the maximum power which can be drawn from the supplying circuit through a resistive load whose value is chose to maximize the power for more than 2 min when the circuit supplied is disconnected.

21.201.3 For open circuit voltages greater than 4 kV

potential ignition sources with open circuit voltages exceeding 4kV (peak) a.c. or d.c. under normal operating conditions shall be contained in a fire enclosure which shall comply with flammability category V-1 or better according to AS/NZS 60695.11.10.

<11006749 001>

Page 49 of 50

National Deviation



Annex B After the heading add:

For Australia only, this Annex is replaced by the requirements of the Telecommunications Labelling Notice issued under the Telecommunications Act.

Note – The Telecommunications Act is administered by the Australian Communications Authority.

Added. P

<11006749 001>

Page 50 of 50

National Deviation


Malaysia National Difference according to CB Bulletin No. 107A, May 2004

APPENDIX Malaysia National Differences according to CB Bulletin No. 107A, May 2004

(IEC Publication 60 065 7th edition, 2001)

P

EXPLANATION FOR ABBREVIATIONS

P=Pass, F=Fail, N=Not applicable. Placed in the column to the right.

Energy Commission circular no. 1 year 2003 (no. 1/2003) states that a Certification of Approval is required for manufacturing, selling, advertising, displaying or importing into Malaysia, electrical/electronic products listed in Annex A.

- The supply voltage in Malaysia is 240 Vac, at 50Hz

- Class 0 and 01 appliances are not allowed

- 13A fused plug-tops shall comply to Malaysian standard (MS 589:Part1:1997), if applicable

- 2-pin plug tops shall comply to Malaysian standard (MS 1578:2003) if applicable

To be evaluated in national approval.

N

Test with test finger and test probe No access with test finger to any hazardous live parts. Test...

Documents

Transcript of Test with test finger and test probe No access with test finger to any hazardous live parts. Test...