ProductFiles/100892/CertsReports/KINGNOD LVD

Page 1 of 32

Report reference No.: B-S07040099

TEST REPORT EN 60950-1, Second Edition Information technology equipment – Safety – Part 1: General requirements Report reference No . ................... : B-S07040099 Tested by (printed name and signature) ........... : Shirley Li Approved by (printed name and signature) ........... : Michael Wang

................................................. .................................................

Date of issue ................................. : Mar. 24, 2007 Testing By .................................... : Beide Product Service Limited Address ........................................ : R.1001-1006, New East Bld. B, Nanxin Road, Nanshan, Shenzhen Report body ................................. : Beide Product Service Limited Address(U.K.)… … … … … … … … … … . 10 Coptic Street, London WC1A 1NH, England, United Kingdom. Address(China)............................... : R.1001-1006, New East Bld. B, Nanxin Road, Nanshan, Shenzhen Applicant's Name ........................ : Kingnod Technology Group Limited Address ........................................ : Dapu Industrial Park, Longdong Village, Longgang, Shenzhen, China Test specification Standard........................................ : EN 60950-1:2006, Second Edition Test procedure .............................. : Approval Procedure deviation ........................ : None Non-standard test method .............. : N.A Test Report Form No. ................... : EN60950_1_2A TRF originator ................................ : Beide Product Service Limited Master TRF ................................... : dated 2006-12 Test item description ................... : High-quality Universal AC Adapter Trademark ..................................... : N.A Manufacturer ............................... : Kingnod Technology Group Limited Address ........................................ : Dapu Industrial Park, Longdong Village, Longgang, Shenzhen, China Model and/or type reference ............ : KA-XXXYY (X=0-9, or blank, Y=A-Z) Serial number ................................ : Engineering sample without serial number Rating(s)........................................ : Input: 100 - 240Vac, 50/60Hz, 1.8A Output for Line: DC 12/15V, 5A(max); DC 16/18/19/20V, 4.5A(max); DC 24V, 3.75A(max)

EN60950_1_2A

TRF originator: Beide

Page 2 of 32

Report reference No.: B-S07040099

Copy of marking plate and summary of test results (information/comments):

1:1

EN60950_1_2A

TRF originator: Beide

Page 3 of 32

Report reference No.: B-S07040099

Particulars: test item vs. test requirements Equipment mobility ...................................:

Movable

Operating condition....................................:

Continuous

Mains supply tolerance (%) ........................:

+/- 10%

Tested for IT power systems ......................:

Not for IT power systems

IT testing, phase-phase voltage (V) :

Single phase

Class of equipment ...................................:

Class II

Mass of equipment… … … … … … … … … … … .:

350g

Protection against ingress of water .............:

IP20

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 .........................:

Mar. 24, 2007

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

Mar. 24-28, 2007

General remarks The test result presented in this report relate only to the object(s) 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. Throughout this report a comma (point) is used as the decimal separator.

General product information: Factory is the same as the applicant and license holder. The equipment has the following features: 1. For line, output DC voltage provided adjustment. Adjustment scope 12/15/16/18/19/20/24Vdc.

EN60950_1_2A

TRF originator: Beide

Page 4 of 32

Report reference No.: B-S07040099

1

GENERAL

P

1.5

Components

P

1.5.1

General

P

Comply with IEC 60950 or relevant component standard

(see appended table 1.5.1)

P

1.5.2

Evaluation and testing of components

Components which are certified to IEC and/or national standards are used correctly within their ratings. Components not covered by IEC standards are tested under the conditions present in the equipment.

P

1.5.3

Thermal controls

No such ones

N

1.5.4

Transformers

The internal transformer meets the requirements of this standard including the Annex C.

P

1.5.5

Interconnecting cables

Output wire only carrying SELV voltage on an energy level below 240VA.

P

1.5.6

Capacitors in primary circuits ........................... : Between lines: A X2 type capacitor according to IEC 60384-14:1993 with 21 days damp heat test was used.

P

Between primary and secondary: Y1 capacitors according to IEC 60384-14: 1993 with 21 days damp heat test was used. 1.5.7

Resistors bridging insulation

No such resistors

N

1.5.7.1

Resistors bridging functional insulation, basic insulation or supplementary insulation

No such resistors

N

1.5.7.2

Resistors bridging double insulation or reinforced No such resistors insulation between the a.c. mains supply and other circuits

N

1.5.7.3

Resistors bridging double insulation or reinforced insulation between the a.c. mains supply and circuits connected to an antenna or coaxial cable

No such resistors

N

1.5.8

Components in equipment for IT power systems

No such equipment

N

1.5.9

Surge suppressors

VDR used

P

1.5.9.1

General

P

1.5.9.2

Protection of VDRs

P

1.5.9.3

Bridging of functional insulation by a VDR

N

1.5.9.4

Bridging of basic insulation by a VDR

P

1.5.9.5

Bridging of supplementary, double or reinforced insulation by a VDR

N

EN60950_1_2A

TRF originator: Beide

Page 5 of 32

Report reference No.: B-S07040099

1.6

Power interface

P

1.6.1

AC power distribution systems

TN power system

P

1.6.2

Input current

(see appended table 1.6.2)

P

1.6.3

Voltage limit of hand-held equipment

No hand-held equipment

N

1.6.4

Neutral conductor

Neutral conductor was insulated from body throughout the equipment as if it was a line conductor.

P

1.7

Marking and instructions

1.7.1

Power rating

See as follows

P

Rated voltage(s) or voltage range(s) (V) ............. : 100 - 240Vac

P

Symbol for nature of supply, for d.c. only............ : AC supply

N

Rated frequency or rated frequency range (Hz) ... : 50/60Hz

P

Rated current (mA or A) ................................... : Input: 1.8A

P

Manufacturer’ s name or trademark or identification mark .............................................................. :

P

Type/model or type reference ............................ : KA-XXXYY (X=0-9, or blank, YA-Z)

P

Symbol of or Class II equipment only ................ : Class II

P

Other symbols ................................................ : Additional symbol or marking does not give rise to misunderstanding.

P

Certification marks .......................................... : See marking plate on page 2

P

1.7.2

Safety instructions and marking

N

1.7.2.1

General

N

1.7.2.2

Disconnect devices

No such disconnect devices

N

1.7.2.3

Overcurrent protective devices

No such devices

N

1.7.2.4

IT power distribution systems

TN power system

N

1.7.2.5

Operator access with a tool

No such access

N

1.7.2.6

Ozone

No produce ozone

N

1.7.3

Short duty cycles

For continuous operation

P

1.7.4

Supply voltage adjustment ............................... : Single input voltage range without adjustment.

N

1.7.5

Power outlets on the equipment ........................ : No standard socket-outlet.

N

1.7.6

Fuse identification ........................................... : One soldered-in fuses located in primary, and not in operator access areas, marked with “F5A L250V”.

P

1.7.7

Wiring terminals

N

1.7.7.1

Protective earthing and bonding terminals .......... : Class II equipment.

P

1.7.7.2

Terminal for a.c. mains supply conductors

Appliance inlet used.

N

1.7.7.3

Terminals for d.c. mains supply conductors

No such parts.

N

1.7.8

Controls and indicators

See below

P

EN60950_1_2A

Connected via device cord

TRF originator: Beide

Page 6 of 32 1.7.8.1

Report reference No.: B-S07040099

Identification, location and marking ................... : Provided output voltage Controls and indicators. Controls range: 12/15/16/18/19/20/24Vdc

P

The output voltage and the indicators are comprehensible. LEDs provided, located on the foront panel: Red colour: ( Normal) 1.7.8.2

Colours ......................................................... : No colour relevant to safety used.

N

1.7.8.3

Symbols according to IEC 60417....................... : No symbols relevant to safety used.

N

1.7.8.4

Markings using figures .................................... : 15 indicated output voltage 15 volt.

P

24 indicated output voltage 24 volt. 1.7.9

Isolation of multiple power sources .................... : Not for multiple power sources

N

1.7.10

IT power distribution systems

Not for connection to IT power systems

N

1.7.11

Thermostats and other regulating devices

Output voltage regulating devices. The output voltage and the indicators are comprehensible.

P

1.7.12

Language ....................................................... : Markings and user manual in English



1.7.13

Durability

P

The label was subjected to the durability of marking test. The label was rubbed with cloth soaked with water for 15 sec and then again for 15 sec with the cloth soaked with petroleum spirit. After this test there was no damage to the label. The marking on the label did not fade. There was no curling nor lifting of the label edge.

1.7.14

Removable parts

2

PROTECTION FROM HAZARDS

P

2.1

Protection from electric shock and energy hazards

P

2.1.1

Protection in operator access areas

Protection provided by enclosure without any opening

P

2.1.1.1

Access to energized parts

SELV and no dangerous E-level.

P

2.1.1.2

No removable parts

N

Test by inspection ...........................................:

P

Test with test finger .........................................:

P

Test with test pin .............................................:

P

Test with test probe .........................................:

P

Battery compartments .....................................:

EN60950_1_2A

There are no battery compartments

N

TRF originator: Beide

Page 7 of 32 2.1.1.3

Report reference No.: B-S07040099

Access to ELV wiring

There are no accessible ELV wiring

N

Working voltage (V); minimum distance (mm) through insulation

(see appended table 2.10.5)



2.1.1.4

Access to hazardous voltage circuit wiring

There is no access to hazardous voltage circuits

N

2.1.1.5

Energy hazards ...............................................:

There are no hazards from stored energy

P

(see appended table 2.1.1.5) 2.1.1.6

Manual controls

There are no manual controls

N

2.1.1.7

Discharge of capacitors in equipment

Pluggable equipment type A

P

Time-constant (s); measured voltage (V).............:

τ < 1s under load and no-load



(see appended table 2.1.1.7) 2.1.1.8

Energy hazards - d.c. mains supplies

AC mains

N

2.1.1.9

Audio amplifiers in information technology equipment

No audio amplifiers

N

2.1.2

Protection in service access areas

There are no service access areas

N

2.1.3

Protection in restricted access locations

Not for such areas

N

2.2

SELV circuits

P

2.2.1

General requirements

P

2.2.2

Voltages under normal conditions (V)................. : (see appended table 2.2.2)

P

2.2.3

Voltages under fault conditions (V)..................... : (see appended table 2.2.3 and 5.3)

P

2.2.3.1

Separation by double insulation or reinforced insulation (method 1)

Separation by double and reinforced insulation

P

2.2.3.2

Separation by earthed screen (method 2)

Not used

N

2.2.3.3

Protection by earthing of the SELV circuit (method 3)

Not used

N

2.2.4

Connection of SELV circuits to other circuits ....... : SELV circuit separated from primary by double insulation or reinforced insulation within the equipment.

P

2.3

TNV circuits

N

2.3.1

Limits

N

Type of TNV circuits ......................................... :



Separation from other circuits and from accessible parts

N

Insulation employed.......................................... :



2.3.2

2.3.2.1

General requirements

2.3.2.2

Protection by basic insulation

2.3.2.3

Protection by earthing

2.3.2.4

Protection by other constructions

2.3.3

Separation from hazardous voltages

EN60950_1_2A

N TRF originator: Beide

Page 8 of 32

Report reference No.: B-S07040099

Insulation employed.......................................... :



Connection of TNV circuits to other circuits

N

Insulation employed.......................................... :



2.3.5

Test for operating voltages generated externally

N

2.4

Limited current circuits

P

2.4.1

General requirements

The pins of output connector are accessible to the user and connected to primary circuit by one capacitor Y1, therefore the output pins must comply as limited current circuit

P

2.4.2

Limit values

See appended table 2.4.2

P

2.3.4

Frequency (Hz)................................................ :



Measured current (mA)..................................... :



Measured voltage (V)........................................ :



Measured capacitance (µF)............................... :



2.4.3

Connection of limited current circuits to other circuits

P

2.5

Limited power sources

N

Inherently limited output

N

Impedance limited output

N

Overcurrent protective device limited output

N

See 2.4.1

Regulating network limited output under normal operating and single fault condition

A regulating network limited output under normal operating and single fault condition

P

Regulating network limited output under normal operating conditions and overcurrent protective device limited output under single fault condition

A regulating network limited output under normal operating and an overcurrent protective fuse limited output under single fault condition.

P

Output voltage (V), output current (A), apparent power (VA) .....................................................:

See appended table 2.5.



Current rating of overcurrent protective device (A)

3.6 x 9mm current fuse 5A250V



2.6

Provisions for earthing and bonding

N

2.6.1

Protective earthing

N

2.6.2

Functional earthing

2.6.3

Protective earthing and protective bonding conductors

N

2.6.3.1

General

N

2.6.3.2

Size of protective earthing conductors

N

Rated current (A), cross-sectional area (mm2), AWG .............................................................. :



EN60950_1_2A

Usually this earthing is not considered

P

TRF originator: Beide

Page 9 of 32 2.6.3.3

Report reference No.: B-S07040099

Size of protective bonding conductors

N

Rated current (A), cross-sectional area (mm ), AWG .............................................................. :



2.6.3.4

Resistance (Ω) of earthing conductors and their terminations, test current (A)............................. :

N

2.6.3.5

Colour of insulation........................................... :

N

2.6.4

Terminals

N

2.6.4.1

General

N

2.6.4.2

Protective earthing and bonding terminals

N

Rated current (A), type and nominal thread diameter (mm) ................................................. :



2.6.4.3

Separation of the protective earthing conductor from protective bonding conductors

N

2.6.5

Integrity of protective earthing

N

2.6.5.1

Interconnection of equipment

N

2.6.5.2

Components in protective earthing conductors and protective bonding conductors

N

2.6.5.3

Disconnection of protective earth

N

2.6.5.4

Parts that can be removed by an operator

N

2.6.5.5

Parts removed during servicing

N

2.6.5.6

Corrosion resistance

N

2.6.5.7

Screws for protective bonding

N

2.6.5.8

Reliance on telecommunication network or cable distribution system

N

2.7

Overcurrent and earth fault protection in primary circuits

P

2.7.1

Basic requirements

P

2

There is an UL approved current fuse in PRI circuit, F5A L250V

Instructions when protection relies on building installation

N

2.7.2

Faults not covered in 5.3

N

2.7.3

Short-circuit backup protection

It is a “Pluggable Equipment Type A”, the building installation provides the back-up protection

P

2.7.4

Number and location of protective devices .......... : The fuse is right after the socket inlet.

P

2.7.5

Protection by several devices

N

2.7.6

Warning to service personnel............................. :

N

2.8

Safety interlocks

N

2.8.1

General principles

N

2.8.2

Protection requirements

N

2.8.3

Inadvertent reactivation

N

2.8.4

Fail-safe operation

N

EN60950_1_2A

Only one line protected

TRF originator: Beide

Page 10 of 32

Report reference No.: B-S07040099

2.8.5

Moving parts

N

2.8.6

Overriding

N

2.8.7

Switches and relays

N

2.8.7.1

Contact gaps (mm) ......................................... :

N

2.8.7.2

Overload test

N

2.8.7.3

Endurance test

N

2.8.7.4

Electric strength test

2.8.8

Mechanical actuators

N

2.9

Electrical insulation

P

2.9.1

Properties of insulating materials

2.9.2

Humidity conditioning

(see appended table 5.2)

P

Natural rubber, asbestos or hygroscopic material is not used.

P

P

Humidity (%) .................................................. :

95%



Temperature (°C) ............................................ :

28°C



2.9.3

Grade of insulation

Insulation complies with subclauses 5.2, 2.10 and 4.5.1.

P

2.9.4

Separation from hazardous voltages

Both parameters were considered.

P

2.10

Clearances, creepage distances and distances through insulation

P

2.10.1

General

See 2.10.3, 2.10.4, 2.10.5

P

2.10.1.1

Frequency

Considered.

P

2.10.1.2

Pollution degrees

Considered.

P

2.10.1.3

Reduced values for functional insulation

Considered.

P

2.10.1.4

Intervening unconnected conductive parts

Considered.

P

2.10.1.5

Insulation with varying dimensions

Considered.

P

2.10.1.6

Special separation requirements

Considered.

P

2.10.1.7

Insulation in circuits generating starting pulses

Considered.

P

2.10.2

Determination of working voltage

Voltage measured under the condition of short circuit between neutral and secondary ground.

P

See appended table 2.10.2. 2.10.2.1

General

Considered.

P

2.10.2.2

RMS working voltage

Considered.

P

2.10.2.3

Peak working voltage

Considered.

P

2.10.3

Clearances

See below.

P

2.10.3.1

General

Considered.

P

2.10.3.2

Clearances in primary circuit

(see appended table 2.10.3 and 2.10.4)

P

2.10.3.3

Clearances in secondary circuits

(see appended table 2.10.3 and 2.10.4)

P

EN60950_1_2A

TRF originator: Beide

Page 11 of 32

Report reference No.: B-S07040099

2.10.3.4

Measurement of transient voltage levels

Equipment is not subject to transient voltages

N

2.10.3.5

Clearances in circuits having starting pulses

Considered.

P

2.10.3.6

Transients from an a.c. mains supply

Considered.

P

2.10.3.7

Transients from a d.c. mains supply

Considered.

P

2.10.3.8

Transients from telecommunication networks and cable distribution systems

N

2.10.3.9

Measurement of transient voltages

N

2.10.4

Creepage distances

(see appended table 2.10.3 and 2.10.4)

P

CTI tests ......................................................... : Material group IIIb was assumed



2.10.4.1

General



2.10.4.2

Material group and comparative tracking index



2.10.4.3

Minimum creepage distances



2.10.5

Solid insulation

See below.

P

2.10.5.1

Minimum distance through insulation

(see appended table 2.10.5)

P

2.10.5.2

Thin sheet material

Used on heat sinks and in transformer

P

2.10.5.3

Number of layers (pcs) ..................................... : 2 layers for reinforced insulation



Electric strength test

(see appended table 5.2)



Printed boards

Two layer PCB

P

Distance through insulation

Distance through insulation 1.8mm

P

Electric strength test for thin sheet insulating material

(see appended table 5.2)



Number of layers (pcs) ..................................... : 2.10.5.4

Wound components

N No wound components

N

Number of layers (pcs) ..................................... :

N

Two wires in contact inside wound component; angle between 45° and 90° ............................... :

N

2.10.5.5

Cemented joints

N

2.10.5.6

Thin sheet material - General

N

2.10.5.7

Separable thin sheet material

N

2.10.5.8

Non-separable thin sheet material

N

2.10.5.9

Thin sheet material - standard test procedure

N

2.10.5.10

Thin sheet material - alternative test procedure

N

2.10.5.11

Insulation in wound components

N

2.10.5.12

Wire in wound components

N

2.10.5.13

Wire with solvent-based enamel in wound components

N

2.10.5.14

Additional insulation in wound components

N

2.10.6

Construction of printed boards

2.10.6.1

Uncoated printed boards

N

2.10.6.2

Coated printed boards

N

EN60950_1_2A

No coated PCB

N

TRF originator: Beide

Page 12 of 32

Report reference No.: B-S07040099

2.10.6.3

Insulation between conductors on the same inner surface of a printed board

N

2.10.6.4

Insulation between conductors on different surfaces of a printed board

N

2.10.7

Component external terminations

No hermetically sealed component.

N

2.10.8

Tests on coated printed boards and coated components

Photo-coupler is approved component. (See appended table 2.10.5)

P

2.10.8.1

Sample preparation and preliminary inspection

(See appended table 5.2)

P

2.10.8.2

Thermal conditioning

N

2.10.8.3

Electric strength test

N

2.10.8.4

Abrasion resistance test

N

Photo-coupler is approved component. (See appended table 2.10.5)

Electric strength test



(see appended table 5.2)

2.10.9

Thermal cycling

N

2.10.10

Test for Pollution Degree 1 environment and for insulating compound

2.10.11

Tests for semiconductor devices and for cemented joints

N

2.10.12

Enclosed and sealed parts

N

3

WIRING, CONNECTIONS AND SUPPLY

P

3.1

General

P

3.1.1

Current rating and overcurrent protection

All internal wires are PVC insulated. Internal wiring gauge is suitable for current intended to be carried. (See appended table 4.5.1)

P

3.1.2

Protection against mechanical damage

Internal wireways are smooth, no sharp edge exists, a hazard not possible to be created.

P

3.1.3

Securing of internal wiring

Internal wires reliably soldered after the wires are put through the hole in the PCB and bended.

P

3.1.4

Insulation of conductors

The insulation of each individual conductors suitable for the application and the working voltage. For the insulation material see 3.1.1.

P

Insulation kept homogenous.

N

(See appended table 5.2) 3.1.5

Beads and ceramic insulators

No beads and ceramic insulators

N

3.1.6

Screws for electrical contact pressure

No screws for electrical contact pressure

N

3.1.7

Insulating materials in electrical connections

Contact pressure is not transmitted through insulating material.

N

EN60950_1_2A

TRF originator: Beide

Page 13 of 32

Report reference No.: B-S07040099

3.1.8

Self-tapping and spaced thread screws

No self-tapping screws are used.

N

3.1.9

Termination of conductors

All conductors are reliable secured.

P

10 N pull test

P

3.1.10

Sleeving on wiring

There are no sleeves used as supplementary insulation

3.2

Connection to an a.c. mains supply or a d.c. mains supply

P

3.2.1

Means of connection ........................................: Connection via appliance cord to a VDE approved appliance plug (IEC 60320, C8)

P

3.2.1.1

Connection to an a.c. mains supply

N

3.2.1.2

Connection to a d.c. mains supply

N

3.2.2

Multiple supply connections

No multiple connection

N

3.2.3

Permanently connected equipment

No permanently connected equipment

N 

Number of conductors, diameter (mm) of cable and conduits ...................................................: 3.2.4

Appliance inlets

P

Appliance inlet for appliance cord

P

(See 3.2.1) 3.2.5

Power supply cords

3.2.5.1

AC power supply cords

No power supply cord

N N 

Type................................................................: Rated current (A), cross-sectional area (mm ), AWG.............................................................. :



3.2.5.2

DC power supply cords

N

3.2.6

Cord anchorages and strain relief

2

No have

N

Mass of equipment (kg), pull (N) ..................... :



Longitudinal displacement (mm) ....................... :



3.2.7

Protection against mechanical damage

There is no power cord

N

3.2.8

Cord guards

There is no power cord

N

D (mm); test mass (g) ..................................... :



Radius of curvature of cord (mm)....................... :



3.2.9

Supply wiring space

3.3

Wiring terminals for connection of external conductors

N

3.3.1

Wiring terminals

N

3.3.2

Connection of non-detachable power supply cords

N

3.3.3

Screw terminals

N

3.3.4

Conductor sizes to be connected

N

Rated current (A), cord/cable type, crosssectional area (mm2)......................................... :



EN60950_1_2A

No need for this space, since there is no power cord

VDE approved C8 inlet used

N

TRF originator: Beide

Page 14 of 32 3.3.5

Report reference No.: B-S07040099

Wiring terminal sizes

N

Rated current (A), type and nominal thread diameter (mm) ................................................ :



3.3.6

Wiring terminals design

N

3.3.7

Grouping of wiring terminals

N

3.3.8

Stranded wire

3.4

Disconnection from the mains supply

3.4.1

General requirement

Via plug - socket-outlet

P

3.4.2

Disconnect devices

Appliance coupler used as disconnect device.

P

3.4.3

Permanently connected equipment

Not permanently connected equipment.

N

3.4.4

Parts which remain energized

There are energised parts (C > 0.1µF), but not hazardous any more. See also 2.1.1.7

P

3.4.5

Switches in flexible cords

None

N

3.4.6

Single-phase equipment and d.c. equipment

The appliance coupler disconnects both poles simultaneously.

P

3.4.7

Three-phase equipment

Single phase.

N

3.4.8

Switches as disconnect devices

See sub-clause 3.4.2.

N

3.4.9

Plugs as disconnect devices

No power supply cord

N

3.4.10

Interconnected equipment

No interconnected equipment.

N

3.4.11

Multiple power sources

Only one supply connection provided.

N

3.5

Interconnection of equipment

3.5.1

General requirements

3.5.2

Types of interconnection circuits......................... : Conform to the requirements of 2.2 for SELV circuit.

P

3.5.3

ELV circuits as interconnection circuits

N

4

PHYSICAL REQUIREMENTS

P

4.1

Stability

P

Angle of 10°

Might only applicable for the SEC wiring in this case.

P

P

N

It must be connected to other equipment for working

No overturn

P

P

Test: force (N)................................................... : By inspection

N

4.2

Mechanical strength

P

4.2.1

General

P

EN60950_1_2A

TRF originator: Beide

Page 15 of 32 4.2.2

Steady force test, 10 N

Report reference No.: B-S07040099

No such parts

N

Each component should be checked with 1kg 4.2.3

Steady force test, 30 N

No such parts

N

4.2.4

Steady force test, 250 N

The test is performed at all sides of enclosure

P

4.2.5

Impact test

Equipment according to 4.2.5

N

Fall test

1.3m, 3 times

P

Swing test

N

4.2.6

Drop test

3 times drop from 1000mm height

P

4.2.7

Stress relief test

7h in 70°C oven

P

Tested at 72°C, no shrinkage or distortion. 4.2.8

Cathode ray tubes

No such tubes

N

Picture tube separately certified.........................: (see separate test report or attached certificate)

N

4.2.9

High pressure lamps

N

4.2.10

Wall or ceiling mounted equipment; force (N) .....: No such mountable equipment

4.3

Design and construction

4.3.1

Edges and corners

Corners and edges are rounded

P

4.3.2

Handles and manual controls; force (N) ..............:

No handles and controls

N

4.3.3

Adjustable controls

No controls

N

4.3.4

Securing of parts

4.3.5

Connection of plugs and sockets

No such bulbs

N

N PRI and SEC are not possible to be mixed

P

Output connector does not comply with IEC 60083 or IEC 60320. 4.3.6

Direct plug-in equipment

Not for direct plug in

N

Dimensions (mm) of mains plug for direct plug-in ...................................................................... :

N

Torque and pull test of mains plug for direct plug-in; torque (Nm); pull (N) ......................................... :

N

4.3.7

Heating elements in earthed equipment

No heating elements

N

4.3.8

Batteries

No batteries

N

4.3.9

Oil and grease

No oil or grease

N

4.3.10

Dust, powders, liquids and gases

No dust, powder, fluids or liquids

N

Equipment in intended use not considered to be exposed to these. 4.3.11

Containers for liquids or gases

No containers

N

4.3.12

Flammable liquids ............................................:

No liquids

N

Quantity of liquid (l) ..........................................: EN60950_1_2A

N TRF originator: Beide

Page 16 of 32

Report reference No.: B-S07040099

Flash point (°C)................................................:

N

4.3.13

Radiation; type of radiation ...............................:

4.3.13.1

General

N

4.3.13.2

Ionizing radiation

N

Measured radiation (pA/kg) ............................... :



Measured high-voltage (kV) ............................... :



Measured focus voltage (kV) ............................. :



CRT markings .................................................. :



4.3.13.3

Effect of ultraviolet (UV) radiation on materials

No radiation

N

No equipment operated with UV radiating lamps

N

Part, property, retention after test, flammability classification .................................................... :

N

4.3.13.4

Human exposure to ultraviolet (UV) radiation ....... :

N

4.3.13.5

Laser (including LEDs)

(see separate test report of IEC/EN 60825-1 / IEC/EN 60825-2)

P

Laser class ...................................................... :



4.3.13.6

Other types ..................................................... :

N

4.4

Protection against hazardous moving parts

N

4.4.1

General

4.4.2

Protection in operator access areas

N

4.4.3

Protection in restricted access locations

N

4.4.4

Protection in service access areas

N

4.5

Thermal requirements

P

4.5.1

General

P

4.5.2

Temperature tests

4.5.3

Temperature limits for materials

P

4.5.4

Touch temperature limits

P

4.5.5

Resistance to abnormal heat

P

4.6

Openings in enclosures

P

4.6.1

Top and side openings

4.6.2

Bottoms of fire enclosures

P

4.6.3

Doors or covers in fire enclosures

P

4.6.4

Openings in transportable equipment

N

4.6.4.1

Constructional design measures

N

4.6.4.2

Evaluation measures for larger openings

N

4.6.4.3

Use of metallized parts

4.6.5

Adhesives for constructional purposes

N

Conditioning temperature (°C)/time (weeks) ........ :



EN60950_1_2A

No moving parts

N

See appended table 4.5.2

Width test circuit 5A

P

5.1.4

Application of measuring instrument

Measuring circuit according to circuit D.1

P

5.1.5

Test procedure

Test performed with between lines and housing, SEC contacts in all polarities

P

5.1.6

Test measurements

P

Test voltage (V) ...............................................:

See appended table 5.1.6.



Measured touch current (mA) ...........................:

See appended table 5.1.6.



Max. allowed touch current (mA) ......................:

See appended table 5.1.6.



Measured protective conductor current (mA) ......:

See appended table 5.1.6.



EN60950_1_2A

TRF originator: Beide

Page 18 of 32 Max. allowed protective conductor current (mA) ..:

Report reference No.: B-S07040099

See appended table 5.1.6.



5.1.7

Equipment with touch current exceeding 3.5 mA ......................................................................:

N

5.1.7.1

General

N

5.1.7.2

Simultaneous multiple connections to the supply

N

5.1.8

Touch currents to and from telecommunication networks and cable distribution systems and from telecommunication networks

5.1.8.1

Limitation of the touch current to a telecommunication network and a cable distribution system

N

Test voltage (V) ...............................................:



Measured touch current (mA) ...........................:



Max. allowed touch current (mA) ......................:



5.1.8.2

Summation of touch currents from telecommunication networks ............................ :

N

5.2

Electric strength

P

5.2.1

General

(see appended table 5.2)

P

5.2.2

Test procedure

(see appended table 5.2)

P

5.3

Abnormal operating and fault conditions

5.3.1

Protection against overload and abnormal operation

(see appended table 5.3)

P

5.3.2

Motors

(see appended Annex B)

N

5.3.3

Transformers

(see appended Annex C)

P

There is no Telecommunication network

N

P

(See appended Annex C and table 5.3) 5.3.4

Functional insulation......................................... : By short-circuited or opencircuited, results see appended table 5.3.

P

5.3.5

Electromechanical components

No such components

N

5.3.6

Audio amplifiers in information technology equipment

(See appended table 5.3.)

P

5.3.7

Simulation of faults

Unattended by no have

N

No thermostat, temperature limiter or thermal cut-out. 5.3.8

Unattended equipment

5.3.9

Compliance criteria for abnormal operating and fault conditions

N

5.3.9.1

During the tests

N

EN60950_1_2A

No fire or molten metal occurred and no deformation of enclosure during the tests. No reduction of clearance and creepage distance. Electric strength test is made on basic, supplementary and reinforced insulation after test

P

TRF originator: Beide

Page 19 of 32

Report reference No.: B-S07040099

5.3.9.2

After the tests

N

6

CONNECTION TO TELECOMMUNICATION NETWORKS

N

6.1

Protection of telecommunication network service persons, and users of other equipment connected to the network, from hazards in the equipment

N

6.1.1

Protection from hazardous voltages

N

6.1.2

Separation of the telecommunication network from earth

N

6.1.2.1

Requirements

N

(see appended table 5.2)

Test voltage (V) ...............................................:



Current in the test circuit (mA) ........................:



6.1.2.2

Exclusions ......................................................:

N

6.2

Protection of equipment users from overvoltages on telecommunication networks

N

6.2.1

Separation requirements

N

6.2.2

Electric strength test procedure

N

6.2.2.1

Impulse test

(see appended table 5.2)

N

6.2.2.2

Steady-state test

(see appended table 5.2)

N

6.2.2.3

Compliance criteria

N

6.3

Protection of the telecommunication wiring system from overheating

N

Max. output current (A)..................................... :



Current limiting method..................................... :



7

CONNECTION TO CABLE DISTRIBUTION SYSTEMS

N

7.1

General

N

7.2

Protection of cable distribution system service persons, and users of other equipment connected to the system, from hazardous voltages in the equipment

N

7.3

Protection of equipment users from overvoltages on the cable distribution system

N

7.4

Insulation between primary circuits and cable distribution systems

N

7.4.1

General

N

7.4.2

Voltage surge test

N

7.4.3

Impulse test

N

A

ANNEX A, TESTS FOR RESISTANCE TO HEAT AND FIRE

N

A.1

Flammability test for fire enclosures of movable equipment having a total mass exceeding 18 kg, and of stationary equipment (see 4.7.3.2)

N

A.1.1

Samples.......................................................... :



Wall thickness (mm) ........................................ :



A.1.2

Conditioning of samples; temperature (°C) .......... :

N

A.1.3

Mounting of samples ........................................ :

N

EN60950_1_2A

TRF originator: Beide

Page 20 of 32

Report reference No.: B-S07040099

A.1.4

Test flame

N

A.1.5

Test procedure

N

A.1.6

Compliance criteria

N

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 4.7.3.2 and 4.7.3.4)

N

A.2.1

Samples, material ............................................ :



Wall thickness (mm) ........................................ :



A.2.2

Conditioning of samples

N

A.2.3

Mounting of samples

N

A.2.4

Test flame

N

A.2.5

Test procedure

N

A.2.6

Compliance criteria

N

Sample 1 burning time (s)................................. :



Sample 2 burning time (s)................................. :



Sample 3 burning time (s)................................. :



Alternative test acc. to IEC 60695-2-2, cl. 4, 8

N

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)

N

A.3.1

Mounting of samples

N

A.3.2

Test procedure

N

A.3.3

Compliance criterion

N

B

ANNEX B, MOTOR TESTS UNDER ABNORMAL CONDITIONS (see 4.7.2.2 and 5.3.2)

N

B.1

General requirements

N

Position .......................................................... :



Manufacturer ................................................... :



Type .............................................................. :



Rated values .................................................. :



B.2

Test conditions

N

B.3

Maximum temperatures

(see appended table 5.3)

N

B.4

Running overload test

(see appended table 5.3)

N

B.5

Locked-rotor overload test

N

Test duration (days) ......................................... :



Electric strength test: test voltage (V) ............... :



Running overload test for d.c. motors in secondary circuits

N

A.2.7

B.6

EN60950_1_2A

TRF originator: Beide

Page 21 of 32

Report reference No.: B-S07040099

B.6.1

General

N

B.6.2

Test procedure

N

B.6.3

Alternative test procedure

N

B.6.4

Electric strength test

N

B.7

Locked-rotor overload test for d.c. motors in secondary circuits

N

B.7.1

General

N

B.7.2

Test procedure

N

B.7.3

Alternative test procedure

N

B.7.4

Electric strength test

N

B.8

Test for motors with capacitors

(see appended table 5.3)

N

B.9

Test for three-phase motors

(see appended table 5.3)

N

B.10

Test for series motors

N

Operating voltage (V) ....................................... :



ANNEX C, TRANSFORMERS (see 1.5.4 and 5.3.3)

P

Position .......................................................... : Transformer which is marked as T1 on the PCB



Manufacturer ................................................... :



Type .............................................................. : Model name



Rated values .................................................. : Ratings



Method of protection......................................... : External to transformer (electronic protections) shortcircuit protection



C.1

Overload test

(see appended table 5.3)

P

C.2

Insulation

(see appended table 5.2)

P

C

(see appended table 5.3)

See appended table C.2 Protection from displacement of windings ........... : Bobbin

P

D

ANNEX D, MEASURING INSTRUMENTS FOR TOUCH-CURRENT TESTS

P

D.1

Measuring instrument

P

D.2

Alternative measuring instrument

N

E

ANNEX E, TEMPERATURE RISE OF A WINDING

P

F

ANNEX F, MEASUREMENT OF CLEARANCES AND CREEPAGE DISTANCES (see 2.10)

P

G

ANNEX G, ALTERNATIVE METHOD FOR DETERMINING MINIMUM CLEARANCES

N

G.1

Clearances

N

G.1.1

General

N

G.1.1

Summary of the procedure for determining minimum clearances

N

EN60950_1_2A

Was used for testing according to clause 5.1.6

This method was not used

TRF originator: Beide

Page 22 of 32

Report reference No.: B-S07040099

G.2

Determination of mains transient voltage (V) ....... :

N

G.2.1

AC mains supply

N

G.2.2

DC mains supply

N

G.2.3

Unearthed d.c. mains supplies

N

G.2.4

Battery operation

N

G.3

Determination of telecommunication network transient voltage (V).......................................... :

N

G.4

Determination of required withstand voltage (V) ... :

N

G.4.1

Mains transients and internal repetitive peaks

N

G.4.2

Transients from telecommunication networks

N

G.4.3

Combination of transients

N

G.4.4

Transients from cable distribution systems

N

G.5

Measurement of transient levels (V) ................... :

N

G.6

Determination of minimum clearances ................ :

N

H

ANNEX H, IONIZING RADIATION (see 4.3.13)

N

J

ANNEX J, TABLE OF ELECTROCHEMICAL POTENTIALS (see 2.6.5.6)

N

Metal used ....................................................... :



K

ANNEX K, THERMAL CONTROLS (see 1.5.3 and 5.3.7)

N

K.1

Making and breaking capacity

N

K.2

Thermostat reliability; operating voltage (V).........:

N

K.3

Thermostat endurance test; operating voltage (V) .......................................................................:

N

K.4

Temperature limiter endurance; operating voltage (V) .................................................................:

N

K.5

Thermal cut-out reliability

N

K.6

Stability of operation

L

ANNEX L, NORMAL LOAD CONDITIONS FOR SOME TYPES OF ELECTRICAL BUSINESS EQUIPMENT (see 1.2.2.1 and 4.5.1)

N

L.1

Typewriters

N

L.2

Adding machines and cash registers

N

L.3

Erasers

N

L.4

Pencil sharpeners

N

L.5

Duplicators and copy machines

N

L.6

Motor-operated files

N

L.7

Other business equipment

N

M

ANNEX M, CRITERIA FOR TELEPHONE RINGING SIGNALS (see 2.3.1)

N

M.1

Introduction

N

M.2

Method A

N

EN60950_1_2A

(see appended table 5.3)

N

TRF originator: Beide

Page 23 of 32

Report reference No.: B-S07040099

M.3

Method B

N

M.3.1

Ringing signal

N

M.3.1.1

Frequency (Hz) ...............................................:



M.3.1.2

Voltage (V) .....................................................:



M.3.1.3

Cadence; time (s), voltage (V) ...........................:



M.3.1.4

Single fault current (mA)....................................:



M.3.2

Tripping device and monitoring voltage ................:

N

M.3.2.1

Conditions for use of a tripping device or a monitoring voltage

N

M.3.2.2

Tripping device

N

M.3.2.3

Monitoring voltage (V) .......................................:

N

N

ANNEX N, IMPULSE TEST GENERATORS (see 2.10.3.4, 6.2.2.1, 7.3.2 and clause G.5)

N

N.1

ITU-T impulse test generators

N

N.2

IEC 60065 impulse test generator

N

P

ANNEX P, NORMATIVE REFERENCES

N

Q

ANNEX Q, VOLTAGE DEPENDENT RESISTORS(VDRs)

N

R

ANNEX R, EXAMPLES OF REQUIREMENTS FOR QUALITY CONTROL PROGRAMMES

N

R.1

Minimum separation distances for unpopulated coated printed boards (see 2.10.6)

N

R.2

Reduced clearances (see 2.10.3)

N

S

ANNEX S, PROCEDURE FOR IMPULSE TESTING (see 6.2.2.3)

N

S.1

Test equipment

N

S.2

Test procedure

N

S.3

Examples of waveforms during impulse testing

N

T

ANNEX T, GUIDANCE ON PROTECTION AGAINST INGRESS OF WATER (see 1.1.2)

N

U

ANNEX U, INSULATED WINDING WIRES FOR USE WITHOUT INTERLEAVED INSULATION (see 2.10.5.4)

N

U.1

Wire construction

N

U.2

Type tests

N

U.2.1

Electric strength

N

U.2.2

Flexibility and adherence

N

U.2.3

Heat shock

N

U.2.4

Retention of electric strength after bending

N

U.3

Tests during manufacture

N

EN60950_1_2A

TRF originator: Beide

Page 24 of 32

Report reference No.: B-S07040099

U.3.1

Routine testing

N

U.3.2

Sampling tests

N

V

Annex V AC power distribution systems

N

V.1

Introduction

N

V.2

TN power distribution systems

N

V.3

TT power distribution systems

N

V.4

IT power distribution systems

N

W

Annex W Summation of touch currents

N

W.1

Touch current from electronic circuits

N

W.1.1

Floating circuits

N

W.1.2

Earthed circuits

N

W.2

Interconnection of several equipments

N

W.2.1

Isolation

N

W.2.2

Common return, isolated from earth

N

W.2.3

Common return, connected to protective earth

N

X

Annex X Maximum heating effect in transformer tests

N

X.1

Determination of maximum input current

N

X.2

Overload test procedure

N

Y

Annex Y Ultraviolet light conditioning test

N

Y.1

Test apparatus

N

Y.2

Mounting of test samples

N

Y.3

Carbon-arc light-exposure apparatus

N

Y.4

Xenon-arc light-exposure apparatus

N

Z

Annex Z Overvoltage categories

N

AA

Annex AA Mandrel test

N N

BB

Annex BB Changes in the second edition

N

BB.1

Numbering changes table

N

BB.2

Changes to this edition

N

EN60950_1_2A

TRF originator: Beide

Page 25 of 32

1.6.2

Report reference No.: B-S07040099

TABLE: electrical data (in normal conditions)

P

Input (V.I)

Output (V.I)

Fuse 3

Irates (A)

Rated U (V)

Input(A) of 12V

Input(A) of 24V

12V

24V

5V

F1

--

90V/50Hz

1.51

1.75

11.91/ 4.94

19.65/4.93

4.51/1.0

F1

5.0

90V/60Hz

1.53

1.77

11.81/ 4.93

19.95/ 4.95

4.71/1.0

F1

--

100V/50Hz

1.36

1.85

11.78/ 4.93

20.92/ 4.95

4.75/1.0

F1

5.0

100V/60Hz

1.38

1.80

11.78/ 4.93

21.11/ 4.94

4.81/1.0

F1

--

240V/50Hz

0.87

0.91

11.77/ 4.92

18.34/ 4.97

4.80/1.0

F1

5.0

240V/60Hz

0.87

0.94

11.76/ 4.92

18.31/ 4.96

4.82/1.0

F1

--

264V/50Hz

0.81

0.92

11.75/ 4.93

17.42/ 4.96

4.79/1.0

F1

5.0

264V/60Hz

0.81

0.93

11.75/ 4.95

17.25/ 4.96

4.80/1.0

Note: All test load with rated load

2.1.1.7

TABLE: discharge test

P

τ calculated

τ measured

(s)

(s)

t u→ 0V (s)

L-N

--

0.214

1.0

L-N

--

0.055

0.086

Condition

Comments

Vp=356V, 37%Vp=132V, Voltage reduced to 132V after 201ms, and reduced to 16V after 1s. (without load). Vp=356V, 37%Vp=132V, Voltage reduced to 132V after 48ms, and reduced to 0V after 86 ms. (with load).

Note(s): supplied with 264V/50Hz Capacity=0.22uF

2.2.2

TABLE: Hazardous voltage measurement

Component

P

Location

max. Voltage V peak

V d.c.

Voltage Limitation Component

T1

Pin 5-6

34

--

Output open

Output

Pin24V

--

24.1

Ditto

Output

Pin5V

--

5.45

Ditto

Note(s):

2.2.3

TABLE: SELV voltage measurement

Location

P

Voltage measured (V)

Comments

12V Output

11.60

Normal load

12V Output

12.08

No load

24V Output

22.1

Normal load

24V Output

24.1

No load

EN60950_1_2A

TRF originator: Beide

Page 26 of 32

Report reference No.: B-S07040099

5V Output

4.68

Normal load

5V Output

5.30

No load

Note(s):

2.4.2

TABLE: limited current circuit measurement

Location CY2

P

Voltage (V)

Current (mA)

Freq. (kHz)

Limit (mA)

4.6

2.3

50

35

Comments A 2kOhm resistor in series with CY2.

Input voltage: 264V Input frequency: 50Hz Capacity: CY2=2200pF

2.10.3 and 2.10.4

TABLE: clearance and creepage distance measurements

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)

Primary to secondary on PCB

650

153

5.4

9.2

5.6

9.2

Primary to secondary of U1 opto-coupler

650

153

5.4

6.7

5.6

7.0

Different polarity of CY1

650

153

5.4

5.6

5.6

5.6

Different polarity of CY2

650

153

5.4

5.8

5.6

5.8

Primary to core

650

153

2.1

4.0

3.0

4.0

Secondary to core

650

153

2.1

4.0

3.0

4.0

Different polarity across F1

380

264

2.0

2.0

2.6

2.6

Different polarity L/N before F1

380

264

2.0

4.0

2.6

4.0

Note(s):

2.10.5

TABLE: distance through insulation measurements

P

distance through insulation di at/of:

Up (V)

test voltage (V)

required di (mm)

di (mm)

Opto-coupler (reinforced insulation)

264

AC 3000

0.4

0.8

Enclosure

264

AC 3000

0.4

Min 1.5

Note(s):

EN60950_1_2A

TRF originator: Beide

Page 27 of 32

4.5

Report reference No.: B-S07040099

TABLE: maximum temperatures

P 

test voltage (V) ..............................: 90V 50Hz

100V 60Hz

240V 60Hz

264V 50Hz

Output voltage (V) ..........................: 12V 5.0A

12V 5.0A

24V 3.75A

24V 3.75A

tamb1 (°C) ........................................: 39.2

39.7

39.6

39.3



tamb2 (°C) ........................................: 40.1

40.3

39.9

39.8



∆T (K)

maximum temperature T of part/at::

Allowed ∆T (K)

AC inlet

29.7

28.8

27.4

26.1

55 (95-40)

Fuse

46.3

46.6

44.4

44.3

65 (105-40)

NTC

101.7

96.8

76.3

73.3

--

X2-cap

54.2

50.8

50.6

48.9

65 (105-40)

Inductance L3

58.4

65.8

54.8

53.2

75 (125-40-10)

Y1-cap

52.3

51.2

55.6

57.4

65 (105-40)

C2-cap

52.2

53.7

55.3

55.3

65 (105-40)

T1 bobbin

62.7

65.3

65.7

66.3

85 (125-40)

T1 core

59.5

57.7

62.1

63.1

--

T1 wire

59.6

58.3

66.7

65.8

75 (125-40-10)

Inductance L2

45.3

44.1

49.7

51.0

75 (125-40-10)

Rectifier DB1

76.5

74.0

59.7

59.2

--

Opto-coupler

55.9

55.8

60.3

62.3

--

Heatsink near D5

43.6

41.7

47.1

49.7

--

Heatsink near Q1

43.0

40.2

45.0

47.1

--

Bottom enclosure inside

29.7

27.9

33.0

32.4

55 (95-40)

Top enclosure inside

28.4

27.1

24.0

24.8

55 (95-40)

Output wire

29.5

23.6

25.1

24.8

65 (105-40)

PCB near Q5

51.5

51.6

57.0

52.6

65 (105-40)

Top enclosure outside near T1 transformer

27.6

22.9

23.5

20.3

55 (95-40)

Ambient

40.1

40.3

39.9

39.8

--

EN60950_1_2A

TRF originator: Beide

Page 28 of 32 temperature T of winding:

R1 (Ω)

Report reference No.: B-S07040099

R2 (Ω)

T (°C)

allowed Tmax (°C)

insulation class

Note(s): With a specified maximum ambient temperature of 40ｏC, the max. temperature-rise is calculated as follows: Winding components: Class B à dTmax = (120-40-10)K = 70K Electrolyte capacitor or components with Max. absolute temp. of 90ｏC of accessible enclosure à dTmax = (95-40)K = 55K Max. absolute temp. of 100ｏC of X-Cap à dTmax = (100-40)K = 60K Max. absolute temp. of 105ｏC of E-Cap à dTmax = (105-40)K = 65K Max. absolute temp. of 130ｏC of PCB à dTmax = (130-40)K = 90K

4.5.2

TABLE: ball pressure test of thermoplastic parts

P

allowed impression diameter (mm) .....................: ≤ 2 mm



part

test temperature (°C) impression diameter (mm)

Bobbin of transformer

125

0.9

Enclosure

95

1.1

Note(s):

5.1.6

TABLE: touch current measurement

P

L→ terminal A (mA)

N → terminal A (mA)

Limit (mA)

Comments

+12V output terminal

0.16

0.16

0.25

Supplied with 264V/50Hz

+24 output terminal

0.17

0.17

0.25

Ditto

Enclosure and output cable

0.01

0.015

0.25

Ditto

Output metal ground

0.17

0.17

0.25

Ditto

Condition

Note(s): Supplied with 264V/50Hz

5.2

TABLE: electric strength tests, impulse tests and voltage surge tests

test voltage applied between:

P

test voltage (V) a.c. / d.c.

breakdown Yes / No

L/N to accessible enclosure and output connector

AC 3000

No

L to N with disconnection of F1

AC 1500

No

One layer insulated tape wrapped on heatsink

AC 1500

No

Two layer insulated tape wrapped on transformer

AC 3000

No

EN60950_1_2A

TRF originator: Beide

Page 29 of 32 test voltage applied between:

Report reference No.: B-S07040099 test voltage (V) a.c. / d.c.

breakdown Yes / No

Primary to secondary of transformer

AC 3000

No

Primary to core of transformer

AC 1500

No

Secondary to core of transformer

AC 1500

No

supplementary information

C.2

Safety isolation transformer

Model SC-9045LED

P

Construction details: Transformer part name: T1 Recurring peak voltage

560

Required clearance for reinforced insulation (from table 2H and 2J)

5.4mm

Effective voltage rms

153

Required creepage distance for reinforced insulation (from table 2L)

5.6mm

Measured min. creepage distance Location

inside (mm)

outside (mm)

Primary-secondary

6.6

6.5

Primary-core

3.6

6.0

Secondary-core

3.6

4.7

Primary-primary

%

%

Location

inside (mm)

outside (mm)

Primary-secondary

5.5

5.5

Primary-core

3.6

6.0

Secondary-core

3.6

4.7

Primary-primary

%

%

Measured min. clearances

EN60950_1_2A

TRF originator: Beide

Page 30 of 32

Report reference No.: B-S07040099

Photo documentation

Photo 1 View:

[√] Whole view

Photo documentation

Photo 2 View:

[√] Internal

EN60950_1_2A

TRF originator: Beide

Page 31 of 32

Report reference No.: B-S07040099

Photo documentation

Photo 3 View:

[√] PCB-1

Photo documentation

Photo 4 View:

[√] PCB-2

EN60950_1_2A

TRF originator: Beide

Page 32 of 32

Report reference No.: B-S07040099

TCF List: Appendix 1: 4 pages of temperature curve Appendix 2: 1 page user manual Appendix 3: 1 page of circuit diagram Appendix 4: 3 pages of PCB layout Appendix 5: 4 pages of Transformer specification Appendix 6: 3 pages of CDF

EN60950_1_2A

TRF originator: Beide

High-quality Universal AC Adapter MAX Temperature test Input voltage 90V/50Hz Output 12V/5A File Name : 0021.DAQ Device Type : DA100 Expandable Data Count : 1709 Group : Group03 Channel Count : 32 Sampling Interval : 5.000 Sec Start Time : 2008/05/28 18:17:26.5 End Time : 2008/05/28 21:31:56.5 Print Range [ 2008/05/28 19:33:36.5 - 2008/05/28 20:26:46.5 ] Section Channel

986

-

Min

1624 Max

P-P

Mean

RMS

AC inlet

69.3

69.8

0.5

69.3

Fuse 1

85.3

86.4

1.1

86.0

86.0

140.5

141.8

1.3

141.1

141.1

NTC

69.3

X2-cap

93.0

94.3

1.3

94.3

94.3

Inductance L3

98.1

98.5

0.4

98.3

98.3

Y1-cap

91.3

92.4

1.1

91.9

91.9

92.0

92.3

0.3

92.1

92.1

101.6

102.8

1.2

102.3

102.3

C2-cap T1 bobbin

97.3

99.6

2.3

99.0

99.0

T1 wire

99.6

99.7

0.1

99.2

99.2

Inductance L2

84.5

85.4

0.9

85.1

85.1

Rectifier DB1

115.3

116.6

1.3

115.9

115.9

Opto-coupler

95.0

96.0

1.0

95.6

95.6

Heatsink near D5

83.5

83.7

0.2

83.8

83.8

Heatsink near Q1

82.3

83.1

0.8

82.7

82.7

Bottom enclosure inside

68.4

69.8

1.4

69.2

69.2

Top enclosure inside

67.4

68.5

2.1

61.8

61.8

Output wire

68.9

69.6

0.7

69.6

69.6

PCB near Q5

90.8

91.6

0.8

91.3

91.3

Top enclosure outside

66.4

67.7

2.3

67.0

67.0

Ambient

39.2

40.1

0.9

39.7

39.7

W09:CH221

T1 core

200 150 100

100.0

50 25.0

0 19:40:00

19:50:00

20:00:00 Absolute Time [h:m:s]

20:10:00

20:20:00

High-quality Universal AC Adapter MAX Temperature test Input voltage 100V/60Hz Output 12V/5A File Name : 0022.DAQ Device Type : DA100 Expandable Data Count : 1710 Group : Group02 Channel Count : 32 Sampling Interval : 5.000 Sec Start Time : 2008/05/29 11:55:36.0 End Time : 2008/05/29 15:44:36.0 Print Range [ 2008/05/29 11:09:15.0 - 2008/05/29 13:44:54.0 ] Section Channel

51

-

Min

1439 Max

P-P

Mean

RMS

AC inlet

58.8

69.1

10.3

64.8

Fuse 1

70.8

86.9

16.1

83.3

83.4

119.0

137.1

18.1

135.1

135.1

NTC

64.9

75.1

91.1

16.0

86.9

87.1

Inductance L3

79.0

106.1

27.1

99.7

99.9

Y1-cap

72.8

91.5

18.7

87.5

87.6

C2-cap

79.9

94.0

14.1

92.8

92.9

T1 bobbin

81.9

105.6

23.7

98.0

98.1

T1 core

78.8

98.0

19.2

93.5

93.6

T1 wire

87.8

98.6

10.8

91.9

91.9

Inductance L2

70.9

84.4

13.5

80.0

80.1

Rectifier DB1

84.0

114.3

30.3

109.5

109.6

Opto-coupler

76.6

96.1

19.5

92.0

92.1

Heatsink near D5

66.1

82.0

15.9

78.6

78.6

Heatsink near Q1

64.9

80.5

15.6

77.2

77.3

Bottom enclosure inside

55.5

68.2

12.7

65.1

65.1

Top enclosure inside

54.3

67.4

13.1

63.7

63.8

Output wire

50.7

63.9

13.2

59.1

59.2

PCB near Q5

79.1

91.9

12.8

86.8

86.9

Top enclosure outside

55.7

63.2

7.5

59.0

59.1

Ambient

39.7

40.3

0.6

40.0

40.0

W09:CH221

X2-cap

200 150 100

100.0

50 25.0

0 12:00:00

12:15:00

12:30:00

12:45:00 13:00:00 Absolute Time [h:m:s]

13:15:00

13:30:00

13:45:00

High-quality Universal AC Adapter MAX Temperature test Input voltage 240V/60Hz Output 24V/3.75A File Name : 0023.DAQ Device Type : DA100 Expandable Data Count : 1711 Group : Group02 Channel Count : 32 Sampling Interval : 5.000 Sec Start Time : 2008/05/30 17:46:00.0 End Time : 2008/05/30 19:04:10.0 Print Range [ 2008/05/30 17:55:15.0 - 2008/05/30 18:59:50.0 ] Section Channel

111

-

Min

886 Max

P-P

Mean

RMS

AC inlet

66.0

67.3

1.3

67.1

Fuse 1

83.1

84.3

0.8

83.7

83.7

113.1

116.2

3.1

114.9

114.9

X2-cap

87.8

90.5

2.7

88.5

88.5

Inductance L3

93.2

94.7

1.5

93.7

93.7

Y1-cap

93.4

95.5

2.5

95.4

95.4

NTC

C2-cap

67.1

95.2

3.8

95.1

95.1

105.6

5.3

103.9

103.9

T1 core

98.9

102.0

3.1

101.2

101.3

T1 wire

102.2

106.6

4.4

104.8

104.8

Inductance L2

84.9

89.6

4.7

88.2

88.2

Rectifier DB1

99.1

99.6

0.5

99.3

99.3

Opto-coupler

98.7

100.2

1.5

99.8

99.8

Heatsink near D5

85.0

87.0

2.0

86.5

86.5

Heatsink near Q1

82.3

84.9

2.6

83.9

83.9

Bottom enclosure inside

70.4

72.9

2.5

71.9

71.9

Top enclosure inside

61.2

63.9

2.7

62.7

62.7

Output wire

63.7

65.0

1.3

64.1

64.1

PCB near Q5

93.5

96.9

3.4

93.0

93.0

Top enclosure outside

61.3

63.4

2.1

62.8

62.8

Ambient

39.1

39.9

0.8

39.4

39.4

W09:CH221

94.7 100.3

T1 bobbin

200 150 100

100.0

50 25.0

0 18:00:00

18:10:00

18:20:00

18:30:00 Absolute Time [h:m:s]

18:40:00

18:50:00

High-quality Universal AC Adapter MAX Temperature test Input voltage 264V/50Hz Output 24V/3.75A File Name : 0024.DAQ Device Type : DA100 Expandable Data Count : 1712 Group : Group02 Channel Count : 32 Sampling Interval : 5.000 Sec Start Time : 2008/05/31 19:05:11.0 End Time : 2008/05/31 20:38:51.0 Print Range [ 2008/05/31 19:29:16.0 - 2008/05/31 20:38:51.0 ] Section Channel

289

-

Min

1124 Max

P-P

Mean

RMS

50.4

65.9

15.4

61.1

Fuse 1

63.0

84.1

21.1

78.0

78.0

NTC

98.7

113.1

14.4

107.6

107.7

X2-cap

64.7

88.7

25.0

81.9

82.0

Inductance L3

68.8

93.0

24.2

86.5

86.8

Y1-cap

72.8

97.2

24.4

90.9

91.1

C2-cap

69.8

95.1

25.3

88.1

88.2

T1 bobbin

79.1

106.1

27.0

97.4

97.7

T1 core

74.6

102.9

28.3

95.3

95.5

T1 wire

81.1

105.6

24.5

103.7

104.0

Inductance L2

65.3

90.8

25.5

84.1

84.4

Rectifier DB1

76.6

99.0

22.4

93.2

93.3

Opto-coupler

76.2

102.1

25.9

95.2

95.5

Heatsink near D5

70.3

89.5

19.2

84.5

84.5

Heatsink near Q1

67.2

86.9

19.7

80.9

80.9

Bottom enclosure inside

56.7

72.2

15.5

67.5

67.6

Top enclosure inside

50.6

64.6

14.0

60.9

60.9

Output wire

52.4

64.6

12.2

61.7

61.9

PCB near Q5

73.5

92.4

24.9

91.9

92.2

Top enclosure outside

50.8

60.1

9.3

54.1

54.1

Ambient

39.3

39.8

0.5

32.0

32.0

W09:CH221

AC inlet

61.1

200 150 100

100.0

50 25.0

0 19:30:00

19:40:00

19:50:00

20:00:00 20:10:00 Absolute Time [h:m:s]

20:20:00

20:30:00

90W Universal Laptop AC Adapter Specification Model: KA-XXXYY 1.General Description: Universal Notebook transformer and charger with LED display (Patented Technology), One touch voltage choosing design, chosen voltage would be locked in 30 seconds after choosing, operation at

input AC100-240V 50/60Hz, Output: DC 7 voltages: 12V/15V/16V/18V/19V/20V/[email protected] max, output power 90 Watt max, with protection functions: Overload protection, Short Circuit Protection, power supply by mains supply. With 8PCS tip connecter to suit to almost Laptops, Select output voltage to suit to Laptop and LCD Monitor make sure the polarity of tips connect correct before use. 2.Electric Characteristics: No. 1.

Item Rated Input Voltage(50/60Hz) Vibration Input Voltage Range(47/63Hz)

Specification AC100-240V AC90-264V

2.

Input Rated Current Input Power

1.8A 120VA

3.

Output power(max) Efficiency

90W >85%(TYP)

4.

Output voltage:12V/15V/16V/18V/19V/20V/24V(0/+0.8V NO LOAD) Output voltage: 12V/15V/16V/18V/19V/20V/24V(-0.5/+0.5V@rating load) Output: DC 12V 5A max Output: DC 15V 5A max Output: DC 16V 4.5A max Output: DC 18V 4.5A max Output: DC 19V 4.5 A max Output: DC 20V 4.5 A max Output: DC 24V 3.75 A max

DC12-24V

Overload protection Short Circuit Protection

Yes Yes

5

6. 7.

8. Line Regulation 9. Load Regulation 3.Weight: 350g 4. Case Size: 13.2*6.2*3.5cm 5. Normal Operating Temperature and Humidity: 5.1 Operating Temperature: 0℃ to 40℃ 5.2 Humidity: 20% to 80% 6. Storage Temperature and Humidity: 6.1 Storage Temperature: -10℃ to 70℃ 6.2 Humidity: 10% to 90%

DC12-24V 4.5A(max)

+/-5% +/-5%

3

4

5

33R 1206

t

100UF/400V

25mH 0.6*42T

900uH 0.8*7T

RTH1 10D-9

SR5 91K 1206

SR7

FR107

SR8 10R1206

EC8 470UF/25V

7

1

SC10 104

20N60

SR9

SC22

Port

1

8

7

3

4

U2

0.15R 1W

D5 1N5819

5 SR14 1K 0805 222 400V

1

50 uH 0.4*27T

6 EC9 10UF/50V

R1 0.22R 1W

L2

MC34063

1K 0805 SC4 102

JK3 1/2

OUTPUT DC24V/3.75A

R2

3 4

EC11 SR16 330R 0805

FR2 8.2K 0805

C

2 SC13 104

SC14 102

CY2

FR1 100K 0805

OUTPUT DC19V/4.5A

2 SC12 104

220K

SR10

4

2

1 3

EC10 10UF/50V

104

SR41

10R 1206 3

SC11 104

3

5

JK2 USB PORT

330UF/25V

4

3

2

SR17 100R 0805

104 SC5 473 24V

SC19 104

0R SJ3

SC23 104

20V

19V

18V

16V

SQ5 SOT-23 Vr5 2N3906

SQ4 SOT-23 Vr4 2N3906

SQ3 SOT-23 Vr3 2N3906

SQ2 SOT-23 Vr2 2N3906

SQ1 SOT-23 2N3906

SR18 0805 1.91K

SR19 0805 3.3K

SR20 0805 3.9K

SR21 0805 4.7K

SR22 0805 8.2K

SR23 0805 15K

U4

10K*6 19 SR24 18 SR25 17 SR26 16 SR27 15 SR28 14 SR29 13 10 9

SQ8 SOT-23 2N3906

PB7/UCSK/SCK/PCINT7 PB6/MISO/DO/PCINT6 PB5/MOSI/DI/SDA/PCINT5 PB4/OC1B/PCINT4 PB3/OC1A/PCINT3 yan1981 PB2/OC0A/PCINT2 PB1/AIN0/PCINT1 PB0/AIN0/PCINT0 +5Vb

1

RXD/PD0

T/XCK/INT0/PD2 8

Vcc2

TXD/PD1 XTAL2/PA1 XTAL1/PA0 PD6/ICP INT1/PD3 T0/PD4 OC0B/T1/PD5

SR37 1206 5.1K

9

Vcc1

7 SR30 2K*7 12 8 SR31 2 SJ4 SJ5 3 3 SR32 2 SR33 4 SJ6 SJ7 5 1 SR34 SJ8 6 10SR35 4 SR36 7 5

11

DPY2 a2

a1,a2 b1,b2 f1 b1 f2 b2 c1,c2 g1 g2 d1,d2 e1 c1 e2 c2 e1,e2 d1 d2 f1,f2 dp1 dp2 g1,g2 dp1,dp2

6

SR15 1K 0805

U3 TL431

B

FR3 2K 0805

20

小板 DPY1 DPY1 a1

NEC817

15V

SQ6 SOT-23 Vr6 2N3906

RESET/PA2

1

SC15 ISO1

Vf2

Vr7

SR39

SR38

SC20 104

0805 10K

Vr7 Vr6 Vr5 Vr4 Vr3 Vr2 N.G

SR40 0805 10K

SC21 104

SW1 A

0805 5.1K

Title SJ9 0805 0R

Size B Date: File:

1

OUTPUT DC18V/4.5A OUTPUT DC 20V/4.5A

4

Q1

2

EC2 10UF/50V

1N4148

LD7575PS

D

OUTPUT DC16V/4.5A SR13 4.3K

SC9 104

JK3 1/2 4PIN PORT U2 78L05

1

6

8

D2

SD1

1

A

OUTPUT DC15V/5A

900uH 1.0*4T

3

SC2 104

SU1

SQ7 SOT-23 2N3906

OUTPUT DC12V/5A

L1

1 SC1 104

2

C

2

3

SC3 104

SJ2 0R

Port D4 STPS20S100

SC8 SR12 102 1KV(1206) 33R 1206 EC4 470UF/25V

SC6 101 1KV(1206) 2

D6 IN4007

SJ1 OR

EC3 10UF/50V

B

2

T1 PQ3220

D1 HER 207 U1 78L15

+5Vb SC16 104 SC17 104 SC18 104

1

D3 STPS20S100

EC7 470UF/25V

2

2

J3 0.6*10mm

0.47UF 275V SR2 470K 1206

LF1

BD1 KBJ406

4

1

9

LF2 CX1

3

CY1 222 275V INPUT100-240V~

SR6 91K 1206

VOR1 471KD07

D

SR3 91K 1206 EC1

500uH max

SR1 470K 1206

F5A 250V

SR4 91K 1206

1

F1

JK1

C1 C/C 103 1KV 4

0.6*10MM

6

J1

J2 0.6*10MM

6

SC7 102 1KV(1206)

SR11

EC5 470UF/45V

2

EC6 470UF/25V

1

2

3

4

5

Rita Lee-Fontastic Number

Revision

1699XXXYY 4-Jul-2007 D:\Rita\SC-9045LED.DDB

A Sheet of Drawn By: 6

1of1 yan

SR13 SC9

SC17

SQ2

P0SR1801 P0SR1901 P0SR2001 P0SR2101 P0SR2201 P0SR2301

SQ1

P0SC1101 P0SC1002

SQ3

P0SR1301

P0SQ601 P0SQ501P0SQ401 P0SQ301 P0SQ201P0SQ101 P0SQ602 P0SQ502P0SQ402 P0SQ302 P0SQ202P0SQ102 P0SQ603 P0SQ503P0SQ403 P0SQ303 P0SQ203P0SQ103

SQ4

P0SC902

P0SR802 P0SR702

SQ5

P0SC1102 P0SC1001

P0SR2402 P0SR2502 P0SR2602 P0SR2702 P0SR2802 P0SR2902

SQ6

P0SC901

P0SR1302

P0SR1802 P0SR1902 P0SR2002 P0SR2102 P0SR2202 P0SR2302

P0SC2301

P0C2102 P0R6402

P0C2101 P0R6401

P0SR3801P0SR3302 P0SR3702

P0SR3802 P0SR3301 P0SR3701

P0SR3402

P0SR3401

P0SQ702

P0SQ802 P0SQ801

P0SJ202

P0SJ201

P0SC1302 P0SC1301

P0SR1602 P0SR1601

P0SR1701 P0SR1702

P0SC1401 P0SC1402

P0SJ901 P0SR4002 P0SC2302

P0SJ302

SJ3

SC14

SC22

SC5

SR15 SC15 SC12

FR2

P0FR202 P0FR201

P0SJ902P0SR4001

SC23

SC7 FR3

P0FR102 P0FR101 P0SC402 P0SC401

SQ8

P0SR3202 P0SR3602 P0SJ301

SJ9

SJ2

SR14

P0SC501 P0SC502

SJ4 SR38 SR37

P0SR3201 P0SR3601

C21 R64

SC2

SC3

SU1

P0SR1001 P0SR1002

SR33

P0SJ401 P0SJ601

SR40

P0SR901

SR20 SR19 SR18

SR23 SR22 SR21 P0SJ701 P0SJ501 P0SJ602 P0SJ402

SJ6

P0SC2201 P0SC2202

P0SJ502 P0SJ702

SJ7

SR10 P0SR1401 P0SR1402

P0SQ703 P0SQ701

SR36

SD1

SR9

SR41

P0SR4102

P0SC1501 P0SC1502 P0SR1501 P0SR1502 P0SC1202 P0SC1201 P0FR301 P0FR302

P0SQ803

SR32

SC6

P0SC601 P0SC602P0SR4101 P0SR902 P0SD101

SR17

P0SD102

SR34

P0SR301 P0SR401

P0SU101 P0SU102 P0SU103 P0SU104

SR16

P0SU108 P0SU107 P0SU106 P0SU105

SJ5

P0SC301 P0SC302

FR1 SC4

SR4 SR3

P0SR402 P0SR302

P0SC201 P0SC202

P0SJ802 P0SR3501P0SR3101 P0SR3001

SQ7

P0SR601 P0SR501

SJ8

P0SC702 P0SC701

SR30 SR31

P0SJ102

SC13

SR5 SR6

P0SR602 P0SR502

P0SR1101

P0SJ801 P0SR3502P0SR3102 P0SR3002

SR35

P0SR102 P0SR101 P0SR202 P0SR201

SJ1

P0SJ101

SC11

SC10

SR11

P0SR1102

P0SC1902 P0SC1802

P0SR2401 P0SR2501 P0SR2601 P0SR2701 P0SR2801 P0SR2901

P0SC1901 P0SC1801

SC8 P0SR701 P0SR801

SR29 SR28 SR27 SR26 SR25 SR24

SR12

P0SC802 P0SC801

SC18

SC1 SR7 SR8

P0SC1701 P0SC1601

SC16

P0SR1201 P0SR1202

SC19

P0SC1702 P0SC1602

P0SC102 P0SC101

SR2

SR1

ＫＡ－ＸＸＸＹＹ PQ3220 X'FMR JKY070704

PART NO. PART NAME SAMPLE NO.

ISSUE DATE REVISON NO. PAGE

2007/0３/04 A0 1/4

ＫＡ－ＸＸＸＹＹ YYWW

MARKING: JKY 35MAX

1

4.5±0.5

23MAX

36.5MAX

6

5.0±0.5

6 30.5±0.5

1

0.8±0.1

12

7.6±0.5

7

NOTE: (1),FIXING TAPE FOR CORE:0.05mm*13.5mm*2TS; (2),CORE GAP,CORＥ　ＮＥＡＲE　TOP； (3),PIN 9，10 CUT OFF,PIN 5 CUT OFF 2/3； (4)，ＡＦＴＥＲ　ＶＡＲＮＩＳＨＥＤ，　ＣＯＶＥＲ　ＷＩＴＨ　0.05*9.5mm TAPE 2TS, ＴＨＥＮ，　ＶＯＶＥＲ　ＡＬＯＮＧ　ＣＯＲＥ　ＷＩＴＨ　0.05*22mm TAPE 2TS.

REVSION 1

DRAWN

CHECKED

REVSION 2 REVSION 3

SHEN ZHEN JIAKEYUAN INDUSTRY CO.,LTD

APPROVED

PART NO.

ＫＡ－ＸＸＸＹＹ PQ3220 X'FMR JKY070704

PART NAME MODEL NO.

2 1 3 4 5 6

ISSUE DATE REVISON NO. PAGE

２００７／０３／０４ A0 2/4

N3 N6 N5

11,12 N2

N4

7,8

N1 :START

:TUBE

PIN N6 N5 N4 N3 N2 N1

WINDING N1(6-5) N2(11,12-7,8) N3(2- ) N4(5-4) N5(1-3) N6(2- ) REVSION 1

MAGNET WIRE 2UEW Φ0.30*2 TEX-E Φ0.45*4 0.05(T)*5(W) 2UEW Φ0.30*2 2UEW Φ0.25 0.05(T)*5(W)

TURNS 25TS 9TS 0.9TS 20TS 9TS 0.9TS DRAWN

TAPE LAYERS 3TS 3TS 3TS 2TS 2TS 3TS CHECKED

REVSION 2 REVSION 3

SHEN ZHEN JIAKEYUAN INDUSTRY CO.,LTD

ATTENTION CLOSED CLOSED COPPER FOIL CLOSED COPPER FOIL CLOSED APPROVED

ＫＡ－ＸＸＸＹＹ PQ3220 X'FMR JKY070704

PART NO. PART NAME MODEL NO.

ISSUE DATE REVISON NO. PAGE

２００７／０３／０４ A0 3/4

L(6-4):500uH±10%

LK(6-4):N/A R(6-4):N/A;

BETWEEN PRI TO SEC AND PRI TO CORE AND SEC TO CORE THE RESISTANCE STRENGTH IS MORE THAN 100MOHM;

APPLY AC 3000V/3mA BETWEEN PRI TO SEC FOR ONE MINUTE; APPLY AC 1500V/3mA BETWEEN PRI TO CORE FOR ONE MINUTE; APPLY AC 1500V/3mA BETWEEN SEC TO CORE FOR ONE MINUTE ;

REVSION 1

DRAWN

CHECKED

REVSION 2 REVSION 3

SHEN ZHEN JIAKEYUAN INDUSTRY CO.,LTD

APPROVED

PART NO. PART NAME MODEL NO.

ＫＡ－ＸＸＸＹＹ PQ3220 X'FMR JKY070704

MATERIAL PHENOLIC T373J OR T375J BOBBIN 94V-0 150° POLYURETHANE ENAMELLED MAGNET WIRE COPPER WIRE UEW 130° POLYURETHANE ENAMELLED MAGNET WIRE COPPER WIRE TEX-E

ISSUE DATE REVISON NO. PAGE

SUPPLER

UL NO.

CHANG CHUN PLASTICS CO.,LTD

E59481(S)

PACIFIC ELECTRIE CORP

E201757(S)

XIN LONG WIRE CORP

E171082(S)

DESCRIPTION

FERRITE CORE PQ32/20 HE4

RUYUAN DONGYANGGUANG MATERIALS CO.,LTD

N/A

FERRITE CORE PQ32/20 TP4

TIANTONG ELECTRONICS CO.,LTD

N/A

CORE

TAPE VARNISH TUBE COPPER FOIL

REVSION 1

２００７／０３／０４ A0 4/4

POL YESTER FILM INSULATION JINGJIANG YAHUA PRESSURE SENSITIVE GLUE CO.,LTD TAPE 130° INSULATION VARNISH ML-1236 MING LUHENTERPRISE CO.,LTD INSULATION VARNISH 8562/C ADVANCED LNK&COATNGSLTD GREAT LEOFLON INDUSTRIAL TEFLON TUBE CO.,LTD 0.05mm(T)x5mm(W)

E165111(S) N/A E200154 E156256(S)

SHANGHAI DAIQIANG CO.,LTD

DRAWN

CHECKED

REVSION 2 REVSION 3

SHEN ZHEN JIAKEYUAN INDUSTRY CO.,LTD

APPROVED

Beide Product Service Limited 10 Coptic Street, London WC1A 1NH, England, United Kingdom Certificate No.

B-S07040099

Our Reference

M0099

Constructional Data Form (CDF) for Electrical Appliances Certificate holder

Appendix No.

6

Page 1 of 3

: KINGNOD TECHNOLOGY GROUP LIMITED

Address

DAPU INDUSTRIAL PARK, LONGDONG VILLAGE, LONGGANG, SHENZHEN, CHINA

Manufacturer

KINGNOD TECHNOLOGY GROUP LIMITED

Address

DAPU INDUSTRIAL PARK, LONGDONG VILLAGE, LONGGANG, SHENZHEN, CHINA

Type of Appliance

:

High-quality Universal AC Adapter

Type Designation

:

Rating

:

Protection Class

:

KA-XXXYY(X=0-9, OR BLANK, Y=A-Z) Input: AC 100-240V, 50/60Hz, 1.8A Output for Line: DC 12/15V, 5A(max); DC 16/18/19/20V, 4.5A(max); DC 24V, 3.75A(max) Class II

Supply connection

:

fixed power cord permanent connection x appliance inlet direct plug in battery operated

Please tick above box x when applicable

Additional information

:

Ambient temperature: 0-40 °C for normal operation and -10-70℃ for storage Humidity: 20%-80% for normal operation and 10%-90% for storage Short-circuit protection: Yes, see test report Protection against electric shock: Yes, see test report Protection against overheating: Yes, see test report Protection against ingress of water: IP20 Mass: 350g Case size: 13.2 by 6.2 by 3.5cm

Beide Product Service Limited Jul. 04, 2007 Date

Michael Wang Name

Signature

Beide Product Service Limited 10 Coptic Street, London WC1A 1NH, England, United Kingdom Certificate No.

B-S07040099

Our Reference

M0099

Appendix No.

Constructional Data Form (CDF) for Electrical Appliances

6

Page 2 of 3

Critical Components Material: e.g. external enclosure, PCB, closed-end connector, sleeves, cord anchorage etc Components with winding: e.g. motor, transformer, magnetic coil etc. Other components: e.g. switch, thermostat, heater, plug, internal wire, capacitor, relay etc. Object/part No.

Type/ model

Technical data

Standard

Mark(s) of conformity

NST-02

94V-0, 130°C

UL94

UL E205740

V-0, 130℃

UL94

UL E238086

600V, 125ºC

UL94

UL E203950

94V-0

UL 94

UL E56070

UL 1446

UL E109056

V-0

UL 94

UL E59481

130℃

UL 510

UL E165111

130℃

UL 1446

UL E227475

130℃

UL 1446

UL E171082

Tube of T1

GREAT HOLDING TFS INDUSTRIAL CO LTD

600V, 200℃

UL 224

UL E180908

Vanish of T1

Hang Cheung Petrochemical Ltd

155℃

UL 1446

UL E200154

AC250V, 5A

EN 60127-1

VDE 40012824

PCB Insulate paper under PCB Heat Shrinkable tube Enclosure

Manufacturer/ trademark New Star PCB Factory Co Ltd

Zhongshan Napu PPS-FRG Engineering Plastic Co Ltd Shenzhen Woer Heat -Shrinkable RSFR-x Material Co Ltd Chi Mei Corporation

Winding wire Bridgeport for L1, L2, LF1, Insulated Wire LF2 Co

PA-765(+)

Class F, 155ºC; φ1.0mm for Polyurethance15 L1, φ0.4mm for L2,　φ0.8mm 5 for LF1 and LF2

Chang Chun

T375J Plastics Co Ltd Jingjiang Yahua Insulation tape Pressure CT Sensitive Glue of T1 Co Ltd Pacific Electric Wire & Cable UEW Magnet wire of (Shenzhen) Co Ltd T1 Xin Long Magnet UEW Wire Co Ltd Bobbin of T1

Fuse

8562/C

Walter Electronic ICP Co Ltd

EN 60127-3

Beide Product Service Limited Jul. 04, 2007 Date

Michael Wang Name

Signature

Beide Product Service Limited 10 Coptic Street, London WC1A 1NH, England, United Kingdom Certificate No.

B-S07040099

Our Reference

M0099

Appendix No.

Constructional Data Form (CDF) for Electrical Appliances

6

Page 3 of 3

Critical Components Material: e.g. external enclosure, PCB, closed-end connector, sleeves, cord anchorage etc Components with winding: e.g. motor, transformer, magnetic coil etc. Other components: e.g. switch, thermostat, heater, plug, internal wire, capacitor, relay etc. Object/part No.

Manufacturer/ trademark

Type/ model

Technical data

Standard

Mark(s) of conformity

Inlet

Leonhardy GmbH

07-38.1200

2.5A, 250VAC, C8

IEC 60320

VDE 136023

Power plug

Shenzhen Xie Kang Electric Co., Ltd.

XK-01

2.5A, 250VAC

EN 50075

VDE 40009009

Power cord

Good Clear Group Limited

H03VVH2-F

2X0.75mm

DIN VDE 0281-5

VDE 134558

X2 capacitor (CX1)

Ultra Tech Xiphi Enterprise Co., Ltd.

HQX

0.22uF, 275V

IEC 60384-14: VDE nd 40015608 1993 2 edition

Y1 capacitor (CY1)

Dain Electronics Co Ltd

MEX/NPX/MPX

2200pF, 275V

IEC 60384-14: VDE 094719 nd 1993 2 edition

Y1 capacitor (CY2)

Jyh Chung Electronic Co., Ltd.

JD

2200pF, 400V

IEC 60384-14: VDE 137027 nd 1993 2 edition

Opto-coupler

Cosmo Electronics Corporation

K1010

Internal Cr.=5.3mm, external Cr.=8.0mm. Dti=0.5mm

IEC 60747-52, IEC 60065

500uH for L1, 900uH for L2 and -LF1, 25mH for LF2 ---

L1, L2, LF1, LF2

XINMAO

L-x1, L-x2, L-x3, L-x4

T1

JIAKEYUAN

JKY070704

2

Beide Product Service Limited Jul. 04, 2007 Date

Michael Wang Name

Signature

VDE 134558

Test in appliance Test in appliance