Enclosure - ZIPPY
Enclosure - ZIPPY
Enclosure - ZIPPY
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Issue Date: 2009-11-04 Page 1 of 3 Report Reference #<br />
Amendment 1 2009-12-18<br />
COVER PAGE FOR TEST REPORT<br />
Copyright © 2009<br />
E143756-A57-UL-2<br />
Product Category: Power Supplies for Information Technology Equipment Including Electrical<br />
Business Equipment<br />
Product Category CCN: QQGQ2, QQGQ8<br />
Test Procedure: Component Recognition<br />
Product: Redundant Power Supply and Power Module<br />
Model/Type Reference: Module: GIN-3800V, KIN-2800V, KIN-2A00V and KIN-2C00V.<br />
Power Supply: R2G-5800V, GIN1-5800V4H, GIN1-5800V4D, R2K-5800V,<br />
R2K-5A00V and R2K-5C00V.<br />
Rating(s): Model R2G-5800V:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +5V/32A, +3.3V/0-32A, +12V/65A, +5VSB/0-3.5A, -12V/0-0.8A; +5V &<br />
+3.3V max. 190W, Total 800W (Max.).<br />
Model GIN-3800V:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +12V/65A, +5VSB/0-3.5A, -12V/0-0.8A; Total 800W (Max.).<br />
Models GIN1-5800V4H and GIN1-5800V4D:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +5V/32A, +3.3V/0-32A, +12V/65A, +5VSB/0-3.5A, -12V/0-0.8A; +5V &<br />
+3.3V max. 190W, Total 800W (Max.).<br />
Model R2K-5800V:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +5V/0-32A, +3.3V/0-32A, +12V/65A, +5VSB/0-3.5A, -12V/0-0.5A; +5V &<br />
+3.3V max. 190W, Total 800W (Max.).<br />
Model KIN-2800V:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +12V/65A, +5VSB/0-3.5A; Total 800W (Max.).<br />
Model R2K-5A00V:<br />
I/P: 100 - 240 Vac, 15 - 7 A, 47 - 63 Hz.<br />
O/P: +5V/0-32A, +3.3V/0-32A, +12V/83A, +5VSB/0-3.5A, -12V/0-0.5A; +5V &<br />
+3.3V max. 190W, Total 1000W (Max.).<br />
Model KIN-2A00V:<br />
I/P: 100 - 240 Vac, 15 - 7 A, 47 - 63 Hz.<br />
O/P: +12V/83A, +5VSB/0-3.5A; Total 1000W (Max.).<br />
Model R2K-5C00V:<br />
I/P: 100 - 240 Vac, 15 - 7 A, 47 - 63 Hz.<br />
O/P: +5V/0-32A, +3.3V/0-32A, +12V/0-100A, +5VSB/0-3.5A, -12V/0-0.5A; +5V<br />
& +3.3V max. 190W, Total 1000W (Max.).<br />
or<br />
I/P: 200-240 Vac, 9A, 47 - 63 Hz.<br />
O/P: +5V/0-32A, +3.3V/0-32A, +12V/0-100A, +5VSB/0-3.5A, -12V/0-0.5A; +5V<br />
& +3.3V max. 190W, Total 1200W (Max.).
Issue Date: 2009-11-04 Page 2 of 3 Report Reference #<br />
Amendment 1 2009-12-18<br />
Model KIN-2C00V:<br />
I/P: 100 - 240 Vac, 15 - 7 A, 47 - 63 Hz.<br />
O/P: +12V/0-100A, +5VSB/0-3.5A; Total 1000W(Max.).<br />
or<br />
I/P: 200-240 Vac, 9A, 47 - 63 Hz.<br />
O/P: +12V/0-100A, +5VSB/0-3.5A; Total 1200W (Max.).<br />
Copyright © 2009<br />
E143756-A57-UL-2<br />
Standards: UL 60950-1, 2nd Edition, 2007-03-27 (Information Technology Equipment -<br />
Safety - Part 1: General Requirements)<br />
CSA C22.2 No. 60950-1-07, 2nd Edition, 2007-03 (Information Technology<br />
Equipment - Safety - Part 1: General Requirements)<br />
Applicant Name and<br />
Address:<br />
<strong>ZIPPY</strong> TECHNOLOGY CORP<br />
10TH FL<br />
50 MIN CHYUAN RD<br />
SHIN-TIEN<br />
TAIPEI HSIEN 231 TAIWAN<br />
This Report includes the following parts, in addition to this cover page:<br />
1. Specific Technical Criteria<br />
2. Clause Verdicts<br />
3. Critical Components<br />
4. Test Results<br />
5. National Differences<br />
6. <strong>Enclosure</strong>s
Issue Date: 2009-11-04 Page 3 of 3 Report Reference #<br />
Amendment 1 2009-12-18<br />
Copyright © 2009<br />
E143756-A57-UL-2<br />
This is to certify that representative samples of the products covered by this Test Report have been investigated in accordance with the<br />
above referenced Standards. The products have been found to comply with the requirements covering the category and the products are<br />
judged to be eligible for Follow-Up Service under the indicated Test Procedure. The manufacturer is authorized to use the UL Mark on<br />
such products which comply with this Test Report and any other applicable requirements of Underwriters Laboratories Inc. ('UL') in<br />
accordance with the Follow-Up Service Agreement. Only those products which properly bear the UL Mark are considered as being<br />
covered by UL's Follow-Up Service under the indicated Test Procedure.<br />
The applicant is authorized to reproduce the referenced Test Report provided it is reproduced in its entirety.<br />
UL authorizes the applicant to reproduce the latest pages of the referenced Test Report consisting of the first page of the Specific<br />
Technical Criteria through to the end of the Conditions of Acceptability.<br />
Any information and documentation provided to you involving UL Mark services are provided on behalf of Underwriters Laboratories<br />
Inc(ULI) or any authorized license of ULI.<br />
Test Report By: Reviewed By:<br />
Jonathan Chen Yasli Tsai<br />
Associate Project Engineer Project Engineer<br />
Underwriters Laboratories Taiwan Co., Ltd. Underwriters Laboratories Taiwan Co., Ltd.
Issue Date: 2009-11-04 Page 1 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
Report Reference No .......................:<br />
Compiled by ....................................:<br />
Reviewed by ....................................:<br />
Date of issue ...................................:<br />
Standards ........................................:<br />
Test procedure ................................:<br />
Non-standard test method ...............:<br />
Test item description ......................:<br />
Trademark .......................................:<br />
Model and/or type reference ...........:<br />
Rating(s) ..........................................:<br />
SPECIFIC TECHNICAL CRITERIA<br />
UL 60950-1:2005 (2nd Edition)<br />
Information technology equipment - Safety -<br />
Part 1: General requirements<br />
E143756-A57-UL-2<br />
Jonathan Chen<br />
Yasli Tsai<br />
2009-11-04<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
E143756-A57-UL-2<br />
UL 60950-1, 2nd Edition, 2007-03-27 (Information Technology<br />
Equipment - Safety - Part 1: General Requirements)<br />
CSA C22.2 No. 60950-1-07, 2nd Edition, 2007-03 (Information<br />
Technology Equipment - Safety - Part 1: General Requirements)<br />
Component Recognition<br />
N/A<br />
Redundant Power Supply and Power Module<br />
Zippy<br />
Module: GIN-3800V, KIN-2800V, KIN-2A00V and KIN-2C00V.<br />
Power Supply: R2G-5800V, GIN1-5800V4H, GIN1-5800V4D, R2K-<br />
5800V, R2K-5A00V and R2K-5C00V.<br />
Model R2G-5800V:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +5V/32A, +3.3V/0-32A, +12V/65A, +5VSB/0-3.5A, -12V/0-0.8A;<br />
+5V & +3.3V max. 190W, Total 800W (Max.).<br />
Model GIN-3800V:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +12V/65A, +5VSB/0-3.5A, -12V/0-0.8A; Total 800W (Max.).<br />
Models GIN1-5800V4H and GIN1-5800V4D:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +5V/32A, +3.3V/0-32A, +12V/65A, +5VSB/0-3.5A, -12V/0-0.8A;<br />
+5V & +3.3V max. 190W, Total 800W (Max.).<br />
Model R2K-5800V:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +5V/0-32A, +3.3V/0-32A, +12V/65A, +5VSB/0-3.5A, -12V/0-0.5A;<br />
+5V & +3.3V max. 190W, Total 800W (Max.).<br />
Model KIN-2800V:<br />
I/P: 100 - 240 Vac, 12 - 6 A, 47 - 63 Hz.<br />
O/P: +12V/65A, +5VSB/0-3.5A; Total 800W (Max.).<br />
Model R2K-5A00V:<br />
I/P: 100 - 240 Vac, 15 - 7 A, 47 - 63 Hz.
Issue Date: 2009-11-04 Page 2 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
Particulars: test item vs. test requirements<br />
Equipment mobility ...................................................:<br />
Connection to the mains ...........................................:<br />
Operating condition ..................................................:<br />
Over voltage category ..............................................:<br />
Mains supply tolerance (%) ......................................:<br />
Tested for IT power systems ....................................:<br />
IT testing, phase-phase voltage (V) .........................:<br />
Class of equipment ..................................................:<br />
Mass of equipment (kg) ............................................:<br />
Pollution degree .......................................................:<br />
IP protection class ....................................................:<br />
Possible test case verdicts:<br />
- test case does not apply to the test object .............:<br />
- test object does meet the requirement ...................:<br />
- test object does not meet the requirement .............:<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
E143756-A57-UL-2<br />
O/P: +5V/0-32A, +3.3V/0-32A, +12V/83A, +5VSB/0-3.5A, -12V/0-0.5A;<br />
+5V & +3.3V max. 190W, Total 1000W (Max.).<br />
Model KIN-2A00V:<br />
I/P: 100 - 240 Vac, 15 - 7 A, 47 - 63 Hz.<br />
O/P: +12V/83A, +5VSB/0-3.5A; Total 1000W (Max.).<br />
Model R2K-5C00V:<br />
I/P: 100 - 240 Vac, 15 - 7 A, 47 - 63 Hz.<br />
O/P: +5V/0-32A, +3.3V/0-32A, +12V/0-100A, +5VSB/0-3.5A, -12V/0-<br />
0.5A; +5V & +3.3V max. 190W, Total 1000W (Max.).<br />
or<br />
I/P: 200-240 Vac, 9A, 47 - 63 Hz.<br />
O/P: +5V/0-32A, +3.3V/0-32A, +12V/0-100A, +5VSB/0-3.5A, -12V/0-<br />
0.5A; +5V & +3.3V max. 190W, Total 1200W (Max.).<br />
Model KIN-2C00V:<br />
I/P: 100 - 240 Vac, 15 - 7 A, 47 - 63 Hz.<br />
O/P: +12V/0-100A, +5VSB/0-3.5A; Total 1000W(Max.).<br />
or<br />
I/P: 200-240 Vac, 9A, 47 - 63 Hz.<br />
O/P: +12V/0-100A, +5VSB/0-3.5A; Total 1200W (Max.).<br />
for building-in<br />
pluggable A or B<br />
continuous<br />
OVC II<br />
+10%, -10%<br />
No<br />
N/A<br />
Class I (earthed)<br />
R2G-5800V 5kg; GIN1-5800V4H/V4D 2.5kg; GIN-<br />
3800 1.5kg; R2K-5800V, R2K-5A00V, R2K-5C00V<br />
4.7kg; KIN-2800V, KIN-2A00V, KIN-2C00V 1.44kg<br />
PD 2<br />
IP X0<br />
N / A<br />
Pass<br />
Fail (acceptable only if a corresponding, less stringent<br />
national requirement is "Pass")
Issue Date: 2009-11-04 Page 3 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
General remarks:<br />
- "(see <strong>Enclosure</strong> #)" refers to additional information appended to the Test Report<br />
- "(see appended table)" refers to a table appended to the Test Report<br />
- Throughout the Test Report a point is used as the decimal separator<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 4 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
GENERAL PRODUCT INFORMATION:<br />
CA1.0 Report Summary<br />
CA1.1 N/A<br />
CB1.0 Product Description<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
E143756-A57-UL-2<br />
CB1.1 The products are Switch Mode Redundant Power Supplies and Power Module for use in<br />
Information Technology Equipment (ITE).<br />
CC1.0 Model Differences<br />
CC1.1 Models GIN-3800V, KIN-2800V, KIN-2C00V and KIN-2A00V are as power module.<br />
Models GIN1-5800V4D and GIN1-5800V4H are as switching power supply.<br />
Models R2G-5800V, R2K-5800V, R2K-5A00V and R2K-5C00V are as redundant power supply.<br />
For Power Module:<br />
Model KIN-2800V is similar to Model GIN-3800V except output rating, main PWB layout and<br />
circuit (removed -12V output design from main PWB).<br />
Models KIN-2C00V and KIN-2A00V are similar to Model KIN-2800V except output rated, fuse<br />
rating, DC Fan source and amount.<br />
For Switching Power Supply:<br />
Models GIN1-5800V4D and GIN1-5800V4H consist of one power module GIN-3800V and<br />
backboard (output modules).<br />
Model GIN1-5800V4D is similar to Model GIN1-5800V4H except secondary layout of back board<br />
(output module).<br />
For Redundant Power Supply:<br />
Model R2G-5800V consists of up to two power modules GIN-3800V.<br />
Model R2K-5800V consists of up to two power modules KIN-2800V.<br />
Model R2K-5C00V consists of up to two power modules KIN-2C00V.<br />
Model R2K-5A00V consists of up to two power modules KIN-2A00V.<br />
Model R2K-5800V is similar to Model R2G-5800V except power module, output rating and<br />
secondary layout of back board (output module).<br />
Models R2K-5C00V, R2K-5A00V are similar to Model R2K-5800V except power module and<br />
input/output rating.<br />
CD1.0 Additional Information<br />
CD1.1 DC fan could be used with airflow inward or outward.<br />
For Amendment 1, add the following models:<br />
Power Module: Models KIN-2800V, KIN-2C00V and KIN-2A00V.<br />
Redundant Power Supply: Models R2K-5800V, R2K-5A00V and R2K-5C00V.<br />
CE1.0 Technical Considerations<br />
CE1.2 The product was submitted and evaluated for use at the maximum ambient temperature (Tma)
Issue Date: 2009-11-04 Page 5 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
permitted by the manufacturer’s specification of: 40 degreeC<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
E143756-A57-UL-2<br />
CE1.3 The means of connection to the mains supply is: Pluggable A or B, Detachable power cord<br />
CE1.4 The product is intended for use on the following power systems: TN<br />
CE1.5 The equipment disconnect device is considered to be: Appliance inlet<br />
CE1.13 The following are available from the Applicant upon request: Specific data sheets for LED<br />
indicators that are class I and operate at wavelength in the 400-710 nm range., Installation<br />
(Safety) Instructions / Manual<br />
CF1.0 Engineering Conditions of Acceptability<br />
CF1.1 For use only in or with complete equipment where the acceptability of the combination is<br />
determined by Underwriters Laboratories Inc.<br />
When installed in an end-product, consideration must be given to the following:<br />
CF1.3 The end-product Electric Strength Test is to be based upon a maximum working voltage of:<br />
Primary-SELV: 430 Vrms, 672 Vpk maximum, Primary-Earthed Dead Metal: 424 Vrms, 672 Vpk<br />
maximum<br />
CF1.5 The following secondary output circuits are SELV: All outputs of all models<br />
CF1.6 The following secondary output circuits are at hazardous energy levels: +12 V dc output of all<br />
models<br />
CF1.7 The following secondary output circuits are at non-hazardous energy levels: All outputs except<br />
+12 V dc output.<br />
CF1.10 The following output terminals were referenced to earth during performance testing: Secondary<br />
Return<br />
CF1.11 The power supply terminals and/or connectors are: Suitable for factory wiring only<br />
CF1.12 The maximum investigated branch circuit rating is: 20 A<br />
CF1.13 The investigated Pollution Degree is: 2<br />
CF1.15 Proper bonding to the end-product main protective earthing termination is: Required<br />
CF1.16 An investigation of the protective bonding terminals has: Been conducted<br />
CF1.18 The following magnetic devices (e.g. transformers or inductor) are provided with an OBJY2<br />
insulation system with the indicated rating greater than Class A (105°C): Transformers T1 & T2<br />
(Class B)<br />
CF1.19 The following end-product enclosures are required: Fire and Electrical. Appliance Inlet side<br />
evaluated for Fire, Electrical and Mechanical <strong>Enclosure</strong>. All other enclosure sides evaluated for<br />
internal enclosure<br />
CF1.23 The equipment is suitable for direct connection to: AC mains supply<br />
CF2.0 The product was investigated to the following additional standards: IEC 60664-1: 2002 clearance<br />
requirements for 10170 ft (3100 m) above sea level. The required clearance is multiplied by the<br />
altitude correction factor (1.155), as specified in Table A.2.<br />
CF2.1 The power supply is expected to use in hot-swappable condition and clause 4.3.5 Connector<br />
Current Interruption Test has been conducted.
Issue Date: 2009-11-04 Page 6 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
1.5.8 Components in equipment for IT power systems N/A<br />
2.1.1.5 Energy hazards..................................................... :<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
The output (+12V output) of<br />
the power supply presents an<br />
energy hazard. No operator<br />
access permitted.<br />
See Miscellaneous 7-01 & 7-<br />
02 for detail<br />
2.9.2 Humidity conditioning 120 hours for Models GIN-<br />
3800V, R2G-5800V, GIN1-<br />
5800V4H and GIN1-5800V4D.<br />
48 hours for Models KIN-<br />
2800V, KIN-2A00V, KIN-<br />
2C00V, R2K-5800V, R2K-<br />
5A00V and R2K-5C00V.<br />
2.10.7 Component external terminations N/A<br />
4.6 Openings in enclosures Pass<br />
4.6.1 Top and side openings Foreign objects entering the<br />
enclosure will not contact bare<br />
parts at hazardous voltage or<br />
energy. (No hazardous parts<br />
within 5 degree projection).<br />
Appliance Inlet side evaluated<br />
for Fire, Electrical and<br />
Mechanical.<br />
5.3.9 Compliance criteria for abnormal operating and<br />
fault conditions<br />
J Metal(s) used ........................................................ :<br />
Unit intended for building-in.<br />
To be evaluated other sides in<br />
end product.<br />
No fire, emission of molten<br />
metal or deformation was<br />
noted during the tests. The<br />
maximum temperature of 300<br />
degree C was not exceeded.<br />
No indication of dielectric<br />
breakdown.<br />
Nickel Plated Steel and<br />
Aluminum Magnesium alloy<br />
Pass<br />
Pass<br />
Pass<br />
Pass<br />
-
Issue Date: 2009-11-04 Page 7 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
1.5.1 TABLE: list of critical components Pass<br />
Object/part No. Manufacturer/<br />
trademark<br />
Redundant Power<br />
Supply<br />
Zippy R2G-5800V, R2K-<br />
5800V, R2K-<br />
5C00V, R2K-<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
type/model technical data Product Category<br />
CCN(s)<br />
5A00V<br />
Consist of the following<br />
components.<br />
01. Chassis -- -- Metal (Nickel Plated Steel), two<br />
pieces construction and<br />
secured together by screws.<br />
Overall measured<br />
approximately 340 by 101 by<br />
82 mm, minimum 1.0 mm thick.<br />
Can be provided with two<br />
Power Modules. Provided with<br />
the following ventilation<br />
openings: 1. Top side and<br />
Bottom side - Provided with 10<br />
slot ventilation openings, each<br />
measuring 19.4 by 4.0 mm and<br />
4 slot openings each<br />
measuring 15 mm by 4.0 mm.<br />
2. Right side - Provide with 7<br />
slot ventilation opening, each<br />
measuring 19.4 by 4.0 mm, 4<br />
slot openings each measuring<br />
15 mm by 4.0 mm and two slot<br />
ventilation openings, each<br />
minimum 184 by 11 mm. 3. Left<br />
side !V Provide with 22 slot<br />
ventilation openings, each<br />
measuring 15 by 4.0 mm and<br />
Required<br />
Marks of<br />
Conformity<br />
-- -- 3-02<br />
-- --<br />
Supplement ID
Issue Date: 2009-11-04 Page 8 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
two slot ventilation openings,<br />
each minimum 184 by 11 mm.<br />
02. Label Various Various Rated minimum 60 degree C,<br />
suitable for surface applied to<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
metal.<br />
03. Output Wires Various Various Rated VW-1, minimum 80<br />
degree C, minimum 300 V.<br />
Style no. 1007, Minimum 22<br />
AWG.<br />
04. Back Board Various Various Rated minimum V-2, minimum<br />
130 degree C. Secured to<br />
Redundant Chassis by screws<br />
with studs. Contains one<br />
daughter board, secured and<br />
05. Power Module Zippy GIN-3800V, KIN-<br />
2800V, KIN-<br />
2C00V, KIN-<br />
2A00V<br />
Power Module Zippy GIN-3800V, KIN-<br />
2800V, KIN-<br />
2C00V, KIN-<br />
2A00V<br />
PGDQ2 UL<br />
AVLV2 UL<br />
ZPMV2 UL<br />
soldered to main Back Board.<br />
One or two provided. QQGQ2 UL<br />
Consist of the following<br />
components.<br />
01.Chassis -- -- Metal (Nickel Plated Steel and<br />
Aluminum Magnesium alloy).<br />
Overall approximately 305 by<br />
79 by 40.0 mm, minimum 1.0<br />
mm thick. Three pieces<br />
construction, Secured together<br />
by screws. Provided with the<br />
following ventilation openings:<br />
1. Fan side - Provide with<br />
numerous square openings<br />
each measuring approximately<br />
-- -- 3-03<br />
-- --
Issue Date: 2009-11-04 Page 9 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
6.5 by 6.5 mm, cover an area<br />
approximately 36.5 by 36.5<br />
mm. 2. Top side - Provided with<br />
two slot openings, each<br />
measuring 28.0 by 4 mm. 3.<br />
Right side - Provided with two<br />
circle openings, each<br />
measuring 4.5 mm OD.<br />
02. Label Various Various Rated minimum 60 degree C,<br />
suitable for surface applied to<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
metal.<br />
03. Handle -- -- Plastics, U-shaped, overall<br />
measured approximate 36.9 by<br />
24.7 mm, 4.9 mm OD.<br />
Secured to Chassis at Fan side<br />
by screws.<br />
03-1. Material of Handle Teijin Polycarbonate LN-1250G Rated V-0, minimum 105<br />
Singapore pte Ltd<br />
degree C.<br />
04. EMI Filter High & Low Corp. 15SS1 series Rated 250V, 10 A; X-Cap: 0.22<br />
uF, Y-Cap 2200 pF x 2.<br />
05. Bonding wire Various Various VW-1, minimum 16 AWG,<br />
minimum 105 degree C,<br />
minimum 600 Vac.<br />
Green/yellow lead; one end<br />
mechanically secured then<br />
soldered to earth terminal of<br />
EMI Filter and provided with<br />
Insulation Tubing / Sleeving;<br />
other end terminates in closedloop,<br />
double crimp-type<br />
connector, secured to chassis<br />
with dedicated threaded post,<br />
nut and lock-washer. Bonding<br />
symbol (IEC 60417, No. 5019)<br />
PGDQ2 UL<br />
-- --<br />
QMFZ2 UL<br />
FOKY2 UL<br />
AVLV2 UL
Issue Date: 2009-11-04 Page 10 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
06. Internal Wire Various Various<br />
provided adjacent to<br />
termination.<br />
FEP, PTEF, PVC, TFE, AVLV2 UL<br />
connected L and N on<br />
neoprene or surface marked<br />
Main Board<br />
VW-1, minimum 105 degree C,<br />
minimum 600 Vac, minimum 16<br />
AWG. One end mechanically<br />
secured then soldered to<br />
terminals of EMI Filter; other<br />
end terminates secured to<br />
Printed Wiring Board by quick<br />
connector and provided with<br />
Insulating Tubing / Sleeving.<br />
06-1 Quick Connector Weli Sheng Terminal<br />
Industrial Co Ltd<br />
D70604BS-2 Min. 105 degree C, 600V Max. RFWV UL<br />
07. LED -- -- (SELV) Secured to front<br />
Chassis with LED plastic cover<br />
by snap-fit. Green color denote<br />
unit operating normally. The<br />
wavelength range of 400 nm to<br />
710 mm. Lead wires provided<br />
with Insulating Tubing /<br />
Sleeving, minimum 0.4 mm<br />
thick.<br />
-- --<br />
08. DC Fan (Airflow can Sanyo Denki Co., Ltd 9GV0412G3XXy Rated 12 Vdc, 0.47 A, 18.36 GPWV2 UL<br />
be inward or outward)<br />
CFM. Secured to front chassis<br />
(For Models GIN-3800V,<br />
by screw. fans leads provided<br />
KIN-2800V)<br />
with Insulating Tubing and<br />
Sleeving, minimum 0.4 mm<br />
thick.<br />
08a. DC Fan (Airflow Sanyo Denki Co., 9GV0412J3XXy Rated 12Vdc, 0.66A,<br />
GPWV2 UL<br />
can be inward or Ltd.<br />
20.83CFM, Secured to front<br />
outward) (For Models<br />
chassis by screw.fans leads<br />
GIN-3800V, KIN-2800V)<br />
provided with Insulating Tubing<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 11 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
08b. DC Fan (Airflow Sunonwealth Electric PMD1204WQB2and<br />
Sleeving, minimum 0.4 mm<br />
thick.<br />
Rated 12Vdc, 0.6A, 21.5CFM, GPWV2 UL<br />
can be inward or Machine Industry A<br />
Secured to front chassis by<br />
outward) (For Models Co., Ltd. (SUNON)<br />
screw. fans leads provided with<br />
GIN-3800V, KIN-2800V)<br />
Insulating Tubing and Sleeving,<br />
minimum 0.4 mm thick.<br />
08c. DC Fan (Airflow can Sunonwealth Electric PMD1204WQB1- Rated 12Vdc, 0.76A, 24CFM, GPWV2 UL<br />
be inward or outward) Machine Industry A<br />
Secured to front chassis by<br />
(For Models GIN-3800V, Co., Ltd. (SUNON)<br />
screw. fans leads provided with<br />
KIN-2800V)<br />
Insulating Tubing and Sleeving,<br />
minimum 0.4 mm thick.<br />
08d. DC Fan (Airflow Delta Electronics Inc FFB0412SHN Rated 12Vdc, maximum 0.6A, GPWV2 UL<br />
can be inward or<br />
21.6CFM, Secured to front<br />
outward) (For Models<br />
chassis by screw.fans leads<br />
GIN-3800V, KIN-2800V)<br />
provided with Insulating Tubing<br />
and Sleeving, minimum 0.4 mm<br />
thick.<br />
08e. DC Fan (Airflow Asia Vital<br />
DB04028B12U Rated 12Vdc, maximum 0.6A, GPWV2 UL<br />
can be inward or Components Co Ltd)<br />
21.88CFM, Secured to front<br />
outward) (For Models<br />
chassis by screw.fans leads<br />
GIN-3800V, KIN-2800V)<br />
provided with Insulating Tubing<br />
and Sleeving, minimum 0.4 mm<br />
thick.<br />
08f. DC Fan (Airflow can Sunonwealth Electric PMD1204PJB1-A Rated 12Vdc, 1.0A, 26.5CFM, GPWV2 UL<br />
be inward or outward) Machine Industry Co<br />
Secured to front chassis by<br />
(For Models KIN-2C00V, Ltd<br />
screw.fans leads provided with<br />
KIN-2A00V)<br />
Insulating Tubing and Sleeving,<br />
minimum 0.4 mm thick.<br />
08g. DC Fan (Airflow Protechnic Electric MGT4012YB-(f)48 Rated 12Vdc, 1.0A, minimum GPWV2 UL<br />
can be inward or Co Ltd<br />
(f = 0-9, a-z), A-Z) 29.53CFM, Secured to front<br />
outward) (For Models<br />
chassis by screw.fans leads<br />
KIN-2C00V, KIN-2A00V)<br />
provided with Insulating Tubing<br />
and Sleeving, minimum 0.4 mm<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 12 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
thick.<br />
09. Printed Wiring Board Various Various Rated minimum V-1, minimum<br />
130 degree C. The Main Board<br />
is secured to Chassis by<br />
screws and contains the<br />
following daughter boards. IC1<br />
Board, (primary) secured and<br />
soldered to Main Board<br />
vertically. IC2 Board, (primary)<br />
secured and soldered to Main<br />
Board vertically U9 and CN6<br />
Board (secondary), secured<br />
and soldered to Main Board<br />
10. Fuse (F1) (For<br />
Models GIN-3800V, KIN-<br />
2800V)<br />
10a. Fuse (F1)<br />
(Alternate) (For Models<br />
GIN-3800V, KIN-2800V)<br />
10-1. Fuse (F1) (For<br />
Models KIN-2C00V, KIN-<br />
2A00V)<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
vertically.<br />
Various Various Rated 250 Vac, T12 A. Fast<br />
acting and pig-tail type, Wired<br />
in hot side of Line, fuse leads<br />
mechanically secured and<br />
soldered to PWB. Fuse body<br />
and lead provided with<br />
Insulating Tubing / Sleeving.<br />
Littelfuse Inc 215 Rated 250 Vac, T12 A. Fast<br />
acting and pig-tail type, Wired<br />
in hot side of Line, fuse leads<br />
mechanically secured and<br />
soldered to PWB. Fuse body<br />
and lead provided with<br />
Insulating Tubing / Sleeving.<br />
Various Various Rated 250 Vac, F15 A. Fast<br />
acting and pig-tail type, Wired<br />
on hot side of Line, fuse leads<br />
mechanically secured and<br />
soldered to Printed Wiring<br />
Board. Fuse body and lead<br />
ZPMV2 UL<br />
JDYX UL<br />
JDYX2 UL<br />
JDYX UL
Issue Date: 2009-11-04 Page 13 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
10-1a. Fuse (F1) Walter Electronic Co FSC<br />
provided with Insulating Tubing<br />
/ Sleeving.<br />
Rated 250 Vac, F15 A. Fast JDYX2 UL<br />
(Alternate) (For Models Ltd<br />
acting and pig-tail type, Wired<br />
KIN-2C00V, KIN-2A00V)<br />
on hot side of Line, fuse leads<br />
mechanically secured and<br />
soldered to Printed Wiring<br />
Board. Fuse body and lead<br />
provided with Insulating Tubing<br />
/ Sleeving.<br />
10-1b. Fuse (F1) Conquer Electronics GBF, GBF-A Rated 250 Vac, F15 A. Fast JDYX2 UL<br />
(Alternate) (For Models Co Ltd<br />
acting and pig-tail type, Wired<br />
KIN-2C00V, KIN-2A00V)<br />
on hot side of Line, fuse leads<br />
mechanically secured and<br />
soldered to Printed Wiring<br />
Board. Fuse body and lead<br />
provided with Insulating Tubing<br />
/ Sleeving.<br />
10-1c. Fuse (F1) Sun Electric Co 5C, 5CP Rated 250 Vac, F15 A. Fast JDYX2 UL<br />
(Alternate) (For Models<br />
acting and pig-tail type, Wired<br />
KIN-2C00V, KIN-2A00V)<br />
on hot side of Line, fuse leads<br />
mechanically secured and<br />
soldered to Printed Wiring<br />
Board. Fuse body and lead<br />
provided with Insulating Tubing<br />
/ Sleeving.<br />
11. Thermistor (RT1) -- -- Rated minimum 4 A, 16 ohm at<br />
25 degree C, mounted<br />
minimum 12 mm above PWB.<br />
-- --<br />
12. Relay (REL1) Rayex Electronics Co LM1H-12D Contact: AC 250 V, 16 A; Coil NRNT2 UL<br />
Ltd<br />
voltage DC 12 V.<br />
12-1. Relay (REL1) Song Chuan 881H-1CH-F-C Contact: AC 250 V, 16 A; Coil NRNT2 UL<br />
Precision Co Ltd<br />
voltage DC 12 V.<br />
13. X-Capacitors (C1, Arcotronics Spa R.49 Rated minimum 250 V, FOWX2 UL<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 14 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
C6A, C6) (Optional) minimum 85 degree C, C1 and<br />
C6A maximum 0.68 uF. C6<br />
maximum 0.33 uF. Marked with<br />
a "X1" or "X2" and Certified by<br />
VDE, DEMKO or SEV. (Meets<br />
13a. X-Capacitors (C1,<br />
C6A, C6) (Optional)<br />
(Alternate)<br />
13b. X-Capacitors (C1,<br />
C6A, C6) (Optional)<br />
(Alternate)<br />
13c. X-Capacitors (C1,<br />
C6A, C6) (Optional)<br />
(Alternate)<br />
13d. X-Capacitors (C1,<br />
C6A, C6) (Optional)<br />
(Alternate)<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
IEC 60384-14)<br />
Arcotronics Spa R.46 Rated minimum 250 V,<br />
minimum 85 degree C, C1 and<br />
C6A maximum 0.68 uF. C6<br />
maximum 0.33 uF. Marked with<br />
a "X1" or "X2" and Certified by<br />
VDE, DEMKO or SEV. (Meets<br />
Jenn Fu Electronics<br />
Corp<br />
Cheng Tung<br />
Industrial Co Ltd<br />
Iskra Kondenzatorji D<br />
D<br />
IEC 60384-14)<br />
MPX Rated minimum 250 V,<br />
minimum 85 degree C, C1 and<br />
C6A maximum 0.68 uF. C6<br />
maximum 0.33 uF. Marked with<br />
a "X1" or "X2" and Certified by<br />
VDE, DEMKO or SEV. (Meets<br />
IEC 60384-14)<br />
CTX Rated minimum 250 V,<br />
minimum 85 degree C, C1 and<br />
C6A maximum 0.68 uF. C6<br />
maximum 0.33 uF. Marked with<br />
a "X1" or "X2" and Certified by<br />
VDE, DEMKO or SEV. (Meets<br />
KNB 1530, KNB<br />
1532, KNB 1533<br />
IEC 60384-14)<br />
Rated minimum 250 V,<br />
minimum 85 degree C, C1 and<br />
C6A maximum 0.68 uF. C6<br />
maximum 0.33 uF. Marked with<br />
a "X1" or "X2" and Certified by<br />
VDE, DEMKO or SEV. (Meets<br />
IEC 60384-14)<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL
Issue Date: 2009-11-04 Page 15 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
13e. X-Capacitors (C1,<br />
C6A, C6) (Optional)<br />
(Alternate)<br />
13f. X-Capacitors (C1,<br />
C6A, C6) (Optional)<br />
(Alternate)<br />
13g. X-Capacitors (C1,<br />
C6A, C6) (Optional)<br />
(Alternate)<br />
13h. X-Capacitors (C1,<br />
C6A, C6) (Optional)<br />
(Alternate)<br />
Ultra Tech Xiphi<br />
Enterprise Co Ltd<br />
Pilkor Electronics Co<br />
Ltd<br />
Pilkor Electronics Co<br />
Ltd<br />
Hua Jung<br />
Components Co Ltd<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
HQX Rated minimum 250 V,<br />
minimum 85 degree C, C1 and<br />
C6A maximum 0.68 uF. C6<br />
maximum 0.33 uF. Marked with<br />
a "X1" or "X2" and Certified by<br />
VDE, DEMKO or SEV. (Meets<br />
IEC 60384-14)<br />
PCX2 337 Rated minimum 250 V,<br />
minimum 85 degree C, C1 and<br />
C6A maximum 0.68 uF. C6<br />
maximum 0.33 uF. Marked with<br />
a "X1" or "X2" and Certified by<br />
VDE, DEMKO or SEV. (Meets<br />
IEC 60384-14)<br />
PCX2 339 Rated minimum 250 V,<br />
minimum 85 degree C, C1 and<br />
C6A maximum 0.68 uF. C6<br />
maximum 0.33 uF. Marked with<br />
a "X1" or "X2" and Certified by<br />
VDE, DEMKO or SEV. (Meets<br />
IEC 60384-14)<br />
MKP Rated minimum 250 V,<br />
minimum 85 degree C, C1 and<br />
C6A maximum 0.68 uF. C6<br />
maximum 0.33 uF. Marked with<br />
a "X1" or "X2" and Certified by<br />
VDE, DEMKO or SEV. (Meets<br />
IEC 60384-14)<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL<br />
14. Bleeder Resistors -- -- Rated 1 M ohm, 1/4 W, SMD -- --<br />
(R1, R2, R3, R4)<br />
type.<br />
15. Bleeder Resistors Various Various Rated 1 M ohm, 1/4 W, SMD -- --<br />
(RX1) (Secured on EMI<br />
Filter)<br />
type.<br />
16. Y-Capacitors (CY3, Murata Mfg Co Ltd KH Rated maximum 2200 pF, FOWX2 UL
Issue Date: 2009-11-04 Page 16 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
C3) (Optional) minimum 250 Vac, 125 degree<br />
C , Marked with an Y1 or Y2<br />
and Certified by VDE, DEMKO<br />
16a. Y-Capacitors (CY3,<br />
C3) (Optional)<br />
(Alternate)<br />
16b. Y-Capacitors (CY3,<br />
C3) (Optional)<br />
(Alternate)<br />
16c. Y-Capacitors (CY3,<br />
C3) (Optional)<br />
(Alternate)<br />
16d. Y-Capacitors (CY3,<br />
C3) (Optional)<br />
(Alternate)<br />
16e. Y-Capacitors (CY3,<br />
C3) (Optional)<br />
(Alternate)<br />
17. Y-Capacitors (C2)<br />
(Optional)<br />
Walsin Technology<br />
Corp<br />
Welson Industrial Co<br />
Ltd<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
or SEV. (Meets IEC60384-14.)<br />
AC, AH Rated maximum 2200 pF,<br />
minimum 250 Vac, 125 degree<br />
C, Marked with an Y1 or Y2<br />
and Certified by VDE, DEMKO<br />
or SEV. (Meets IEC60384-14.)<br />
KL, WD Rated maximum 2200 pF,<br />
minimum 250 Vac, 125 degree<br />
C. Marked with an Y1 or Y2<br />
and Certified by VDE, DEMKO<br />
or SEV. (Meets IEC60384-14.)<br />
TDK-EPC Corp CD, CS Rated maximum 2200 pF,<br />
minimum 250 Vac, 125 degree<br />
C. Marked with an Y1 or Y2<br />
and Certified by VDE, DEMKO<br />
or SEV. (Meets IEC60384-14.)<br />
Netron Tech Co Ltd AA, AD Rated maximum 2200 pF,<br />
minimum 250 Vac, 105 degree<br />
C. Marked with an Y1 or Y2<br />
and Certified by VDE, DEMKO<br />
Success Electronics<br />
Co Ltd<br />
or SEV. (Meets IEC60384-14.)<br />
SB, SE Rated maximum 2200 pF,<br />
minimum 250 Vac, 125 degree<br />
C. Marked with an Y1 or Y2<br />
and Certified by VDE, DEMKO<br />
or SEV. (Meets IEC60384-14.)<br />
Murata Mfg Co Ltd KH Rated maximum 2200 pF,<br />
minimum 250 Vac, minimum 85<br />
degree C, Marked with an Y1<br />
or Y2 and Certified by VDE,<br />
DEMKO or SEV. (Meets<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL
Issue Date: 2009-11-04 Page 17 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
17a. Y-Capacitors (C2)<br />
(Optional) (Alternate)<br />
17b. Y-Capacitors (C2)<br />
(Optional) (Alternate)<br />
17c. Y-Capacitors (C2)<br />
(Optional) (Alternate)<br />
17d. Y-Capacitors (C2)<br />
(Optional) (Alternate)<br />
17e. Y-Capacitors (C2)<br />
(Optional) (Alternate)<br />
17f. Y-Capacitors (C2)<br />
(Optional) (Alternate)<br />
Walsin Technology AC, AH<br />
IEC60384-14.)<br />
Rated maximum 2200 pF, FOWX2 UL<br />
Corp<br />
minimum 250 Vac, minimum 85<br />
degree C, Marked with an Y1<br />
or Y2 and Certified by VDE,<br />
DEMKO or SEV. (Meets<br />
IEC60384-14.)<br />
Samhwa Capacitor SC, SD Rated maximum 2200 pF, FOWX2 UL<br />
Co Ltd<br />
minimum 250 Vac, minimum 85<br />
degree C, Marked with an Y1<br />
or Y2 and Certified by VDE,<br />
DEMKO or SEV. (Meets<br />
IEC60384-14.)<br />
Welson Industrial Co KL, WD Rated maximum 2200 pF, FOWX2 UL<br />
Ltd<br />
minimum 250 Vac, minimum 85<br />
degree C, Marked with an Y1<br />
or Y2 and Certified by VDE,<br />
DEMKO or SEV. (Meets<br />
IEC60384-14.)<br />
TDK-EPC Corp CS Rated maximum 2200 pF,<br />
minimum 250 Vac, minimum 85<br />
degree C, Marked with an Y1<br />
or Y2 and Certified by VDE,<br />
DEMKO or SEV. (Meets<br />
IEC60384-14.)<br />
FOWX2 UL<br />
TDK-EPC Corp CD Rated maximum 2200 pF,<br />
minimum 250 Vac, minimum 85<br />
degree C, Marked with an Y1<br />
or Y2 and Certified by VDE,<br />
DEMKO or SEV. (Meets<br />
IEC60384-14.)<br />
FOWX2 UL<br />
Netron Tech Co Ltd AA, AD Rated maximum 2200 pF,<br />
minimum 250 Vac, minimum 85<br />
degree C, Marked with an Y1<br />
FOWX2 UL<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 18 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
17g. Y-Capacitors (C2)<br />
(Optional) (Alternate)<br />
18. Bridge-Capacitors<br />
(CY2) (Optional)<br />
18a. Bridge-Capacitors<br />
(CY2) (Optional)<br />
(Alternate)<br />
18b. Bridge-Capacitors<br />
(CY2) (Optional)<br />
(Alternate)<br />
18c. Bridge-Capacitors<br />
(CY2) (Optional)<br />
(Alternate)<br />
19. Varistor (VZ1,VZ2,<br />
VZ3) (Optional)<br />
Success Electronics<br />
Co Ltd<br />
Walsin Technology<br />
Corp<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
or Y2 and Certified by VDE,<br />
DEMKO or SEV. (Meets<br />
IEC60384-14.)<br />
SF Rated maximum 2200 pF,<br />
minimum 250 Vac, minimum 85<br />
degree C, Marked with an Y1<br />
or Y2 and Certified by VDE,<br />
DEMKO or SEV. (Meets<br />
IEC60384-14.)<br />
AH Rated maximum 1000 pF,<br />
minimum 250 Vac 125 degree<br />
C. Marked with an Y1 and<br />
Certified by VDE, DEMKO or<br />
SEV. (Meets IEC60384-14.)<br />
TDK-EPC Corp CD Rated maximum 1000 pF,<br />
minimum 250 Vac minimum<br />
125 degree C. Marked with an<br />
Y1 and Certified by VDE,<br />
DEMKO or SEV. (Meets<br />
Welson Industrial Co<br />
Ltd<br />
Success Electronics<br />
Co Ltd<br />
Epcos (Zhuhai Ftz)<br />
Co Ltd<br />
IEC60384.<br />
WD Rated maximum 1000 pF,<br />
minimum 250 Vac, 125 degree<br />
C. Marked with an Y1 and<br />
Certified by VDE, DEMKO or<br />
SEV. (Meets IEC60384.<br />
SE Rated maximum 1000 pF,<br />
minimum 250 Vac, 125 degree<br />
C. Marked with an Y1 and<br />
Certified by VDE, DEMKO or<br />
SEV. (Meets IEC60384.<br />
S14K300 Rated 300Vac, 385Vdc. The<br />
body provided with Insulation<br />
Tubing / Sleeving.<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL<br />
FOWX2 UL<br />
XUHT2 UL<br />
19a. Varistor (VZ1,VZ2, Epcos (Zhuhai Ftz) SIOV-S14K300, Rated 300Vac, 385Vdc. The VZCA2 UL
Issue Date: 2009-11-04 Page 19 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
VZ3) (Optional) Co Ltd body provided with Insulation<br />
(Alternate)<br />
Tubing / Sleeving.<br />
19b. Varistor (VZ1,VZ2, Epcos (Zhuhai Ftz) S14K320 Rated 320Vac, 420Vdc. The<br />
VZ3) (Optional) Co Ltd<br />
body provided with Insulation<br />
(Alternate)<br />
Tubing / Sleeving.<br />
19c. Varistor (VZ1,VZ2, Epcos (Zhuhai Ftz) SIOV-S14K320, Rated 320Vac, 420Vdc. The<br />
VZ3) (Optional) Co Ltd<br />
body provided with Insulation<br />
(Alternate)<br />
Tubing / Sleeving.<br />
19d. Varistor (VZ1,VZ2, Nippon Chemi-con TND14V-471K Rated 300Vac, 385Vdc. The<br />
VZ3) (Optional) Corp<br />
body provided with Insulation<br />
(Alternate)<br />
Tubing / Sleeving.<br />
19e. Varistor (VZ1,VZ2, Nippon Chemi-con TND14V-471K Rated 300Vac, 385Vdc. The<br />
VZ3) (Optional) Corp<br />
body provided with Insulation<br />
(Alternate)<br />
Tubing / Sleeving.<br />
19f. Varistor (VZ1,VZ2, Centra Science Corp CNR-14D471K Rated 300Vac, 385Vdc. The<br />
VZ3) (Optional)<br />
body provided with Insulation<br />
(Alternate)<br />
Tubing / Sleeving.<br />
19g. Varistor (VZ1,VZ2, Centra Science Corp CNR-14D471K Rated 300Vac, 385Vdc. The<br />
VZ3) (Optional)<br />
body provided with Insulation<br />
(Alternate)<br />
Tubing / Sleeving.<br />
19h. Varistor (VZ1,VZ2, Thinking Electronic TVR14471 Rated 300Vac, 385Vdc. The<br />
VZ3) (Optional) Industrial<br />
body provided with Insulation<br />
(Alternate)<br />
Co Ltd<br />
Tubing / Sleeving.<br />
19i. Varistor (VZ1,VZ2, Thinking Electronic TVR14471 Rated 300Vac, 385Vdc. The<br />
VZ3) (Optional) Industrial<br />
body provided with Insulation<br />
(Alternate)<br />
Co Ltd<br />
Tubing / Sleeving.<br />
19j. Varistor (VZ1,VZ2, Uppermost Electronic V14K300 Rated 300Vac, 385Vdc. The<br />
VZ3) (Optional) Industries Co Ltd<br />
body provided with Insulation<br />
(Alternate)<br />
Tubing / Sleeving.<br />
19k. Varistor (VZ1,VZ2, Uppermost Electronic V14K300 Rated 300Vac, 385Vdc. The<br />
VZ3) (Optional) Industries Co Ltd<br />
body provided with Insulation<br />
(Alternate)<br />
Tubing / Sleeving.<br />
19l. Varistor (VZ1,VZ2, Dongguan Littelfuse SAS-471KD14 Rated 300Vac, 385Vdc. The<br />
VZ3) (Optional) Electronics Co Ltd<br />
body provided with Insulation<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
XUHT2 UL<br />
VZCA2 UL<br />
XUHT2 UL<br />
VZCA2 UL<br />
XUHT2 UL<br />
VZCA2 UL<br />
XUHT2 UL<br />
VZCA2 UL<br />
XUHT2 UL<br />
VZCA2 UL<br />
XUHT2 UL
Issue Date: 2009-11-04 Page 20 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
(Alternate) Tubing / Sleeving.<br />
19m. Varistor (VZ1,VZ2,<br />
VZ3) (Optional)<br />
(Alternate)<br />
20. Bridge Diode (BD1,<br />
BD2) (BD2 for Models<br />
KIN-2800V, KIN-2C00V,<br />
KIN-2A00V)<br />
21. Electrolytic Capacitor<br />
(C8)<br />
Dongguan Littelfuse<br />
Electronics Co Ltd<br />
21-1 Insulation tape 3M Company<br />
Electrical Markets Div<br />
(EMD)<br />
22. Electrolytic Capacitor<br />
(C9)<br />
23. Transistor (Q8) (For<br />
Models GIN-3800V, KIN-<br />
2800V)<br />
23a. Transistor (Q8) (For<br />
Models KIN-2C00V, KIN-<br />
2A00V) (Alternate)<br />
24. Transistor (Q11, Q7)<br />
(For Models GIN-3800V,<br />
KIN-2800V)<br />
24a. Transistor (Q11,<br />
Q7) (For Models KIN-<br />
2C00V, KIN-2A00V)<br />
(Alternate)<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
SAS-471KD14 Rated 300Vac, 385Vdc. The<br />
body provided with Insulation<br />
Tubing / Sleeving.<br />
-- -- Rated minimum 25 A, minimum<br />
600 V. Provide with Heat sink<br />
(H1) on BD1, BD2 body.<br />
-- -- Provided with integral pressure<br />
relief. Rated 420 V,<br />
85 degree C, 100 to 150 uF.<br />
1350-1, 1350F-1 One layer covered top side and<br />
extend side surface of body,<br />
3mm wide min from edge of top<br />
side<br />
-- -- Provided with integral pressure<br />
relief. Rated 420 V,<br />
105 degree C, 320 to 470 uF.<br />
-- -- Rated minimum 17 A, minimum<br />
800 V. Secured to H3 and H2<br />
by screw.<br />
-- -- Rated 17 A, minimum 800 V.<br />
Secured to H3 and H2 by<br />
screw.<br />
-- -- Rated minimum 3A, minimum<br />
800 V. Secured to H2 and H3<br />
by screw.<br />
-- -- Rated 3 A, minimum 800 V.<br />
Secured to H2 and H3 by<br />
screw.<br />
25. Choke (LD1) -- -- Rated 105 degree C. Toroidal<br />
type. Core: Ferrite, 27.5 OD by<br />
14.3 mm wide including<br />
VZCA2 UL<br />
-- --<br />
-- --<br />
OANZ2 UL<br />
-- --<br />
-- --<br />
-- --<br />
-- --<br />
-- --<br />
-- --
Issue Date: 2009-11-04 Page 21 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
windings. Coil: Copper magnet<br />
wire wound on core.<br />
26. Choke (LF1) -- -- Rated 105 degree C. Toroidal<br />
type. Core: Ferrite, 30.5 OD by<br />
16.5 mm wide including<br />
windings. Coil: Copper magnet<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
wire wound on core.<br />
27. Choke (L4) -- -- Rated 105 degree C. Toroidal<br />
type. Core: Ferrite, 31.8 OD by<br />
29.5 mm wide including<br />
windings. Coil: Copper magnet<br />
28. Drive Transformer<br />
(T3)<br />
wire wound on core.<br />
-- -- Rated 105 degree C. Open<br />
type construction. Core: Ferrite,<br />
overall 8.9 by 8.85 by 4 mm.<br />
Coil: Copper magnet wire<br />
wound on bobbin.),<br />
Chang Chun Plastic T375J Rated 150 degree C. minimum<br />
-- --<br />
-- --<br />
-- --<br />
28-1 Drive Transformer<br />
QMFZ2 UL<br />
(T3) Bobbin<br />
Co Ltd<br />
V-2, Phenolic 0.71mm min.<br />
29. Drive Transformer -- -- Rated 105 degree C. Open -- --<br />
(T4)<br />
type construction. Core: Ferrite,<br />
overall 8.5 by 8.7 by 4 mm.<br />
Coil: Copper magnet wire<br />
wound on bobbin.<br />
29-1 Drive Transformer Sumitomo Co Ltd PM-9630 Rated 150 degree C, minimum QMFZ2 UL<br />
(T4) Bobbin<br />
V-2, Phenolic 0,71mm min.<br />
30. Heat Sink (H1) -- -- Aluminum, overall<br />
approximately 30 by 32 by 16<br />
mm, minimum 1.8 mm thick,<br />
secured to PWB by screws.<br />
(H1 is Primary)<br />
-- --<br />
31. Heat Sink (H2) -- -- Aluminum, two pieces<br />
construction, Secured together<br />
by screws. Overall<br />
-- --
Issue Date: 2009-11-04 Page 22 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
approximately 89.0 by 29.4 by<br />
9.0 mm, minimum 1.5 mm thick<br />
and overall approximately 89.0<br />
by 29.4 by 1.0 mm, minimum<br />
1.5 mm thick, secured to PWB<br />
by soldering. (H2 is Primary)<br />
32. Heat Sink (H3) -- -- Copper, overall approximately<br />
17.3 by 23.0 by 32.2 mm,<br />
minimum 1.5 mm thick,<br />
secured to PWB by soldering.<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
(H3 is Primary)<br />
33. Heat Sink (H4) -- -- Copper, overall approximately<br />
10.2 by 32 by 16.0 mm,<br />
minimum 1.0 mm thick,<br />
secured to PWB by soldering.<br />
(H4 is Secondary)<br />
34. Heat Sink (H5) -- -- Aluminum, two pieces<br />
construction, Secured together<br />
by screws. Overall<br />
approximately 45.0 by 6 by<br />
29.3 mm, minimum 2.0 mm<br />
thick and overall approximately<br />
44 by 40.0 by 29.0 mm,<br />
minimum 1.0 mm thick,<br />
secured to PWB by soldering.<br />
35. Insulator sheet Sabic Innovative<br />
Plastics Us L L C.<br />
(H5 is Secondary)<br />
FR1 Rated minimum V-2, See<br />
<strong>Enclosure</strong> Id. 4-03 for<br />
construction details. Provided<br />
located between solder side of<br />
PWB and bottom chassis.<br />
36. Thermal pad Bergquist Co GAP PAD VOS Rated minimum V-2. Provided<br />
between bottom chassis and<br />
top side of H1, H2, H3. For H1<br />
-- --<br />
-- --<br />
-- --<br />
QMFZ2 UL 4-03<br />
QMFZ2 UL 3-07
Issue Date: 2009-11-04 Page 23 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
36-1. Adhesive (For top<br />
Insulation Pad used)<br />
3M Company<br />
Electrical Markets Div<br />
(EMD)<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
467MP, 468MP<br />
and H3 measured 40 by 27 mm<br />
min, 1mm thickness min. For<br />
H2 measured 98 by 27 mm<br />
min, 1mm thickness.<br />
Maximum 85 degree C. QOQW2 UL<br />
37. Transformer (T1) -- -- Open type construction. Core:<br />
Ferrite, overall approximately<br />
22.5 by 30.5 by 6.0 mm. Coil<br />
Copper magnet wire wound on<br />
bobbin. Provided with 3 layers<br />
insulation tape between<br />
primary and secondary. Exit<br />
leads provided with tubing.<br />
Provided with Margin tape on<br />
winding top / bottom side 4.0<br />
mm. See <strong>Enclosure</strong> Id. 4-01<br />
for construction details.<br />
-- -- 4-01<br />
37-1. Insulation system Li Chieh Electronic DASH 2 B-5 Class B. OBJY2 UL<br />
of Transformer (T1)<br />
37-1-1-2. Insulation<br />
Tape of Transformer<br />
(T1)<br />
37-1-2. Bobbin of<br />
Transformer (T1)<br />
37-1-3. Varnish of<br />
Transformer (T1)<br />
37-1-4. Tubing of<br />
Transformer (T1)<br />
37-1-5. Margin tape of<br />
Transformer (T1)<br />
Industrial Co Ltd<br />
3M Company<br />
Electrical Markets Div<br />
(EMD)<br />
Chang Chun Plastics<br />
Co Ltd<br />
Elantas Electrical<br />
Insulation Elantas<br />
Pdg Inc<br />
Great Holding<br />
Industrial Co Ltd<br />
3M Company<br />
Electrical Markets Div<br />
1350-1 Rated 130 degree C. OANZ2 UL<br />
T375J Phenolic. Minimum V-0,<br />
minimum 0.71 mm thick, rated<br />
150 degree C.<br />
QFMZ2 UL<br />
468-2FC Rated 155 degree C. OBJS2 UL<br />
TFL Rated 200 degree C. YDPU2 UL<br />
44 Rated 130 degree C. OANZ2 UL
Issue Date: 2009-11-04 Page 24 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
37-1-6. Windings of<br />
Transformer (T1)<br />
(EMD)<br />
Various Various Rated 130 degree C. OBMW2 UL<br />
37-2. Insulation system Main Power MP SAF003 Class B. OBJY2 UL<br />
of Transformer (T1) Technology Co., Ltd<br />
37-2-1. Insulation Tape 3M Company 1350F-1 Rated 130 degree C. OANZ2 UL<br />
of Transformer (T1) Electrical Markets Div<br />
(EMD)<br />
37-2-2. Bobbin of Chang Chun Plastics T375J Phenolic. Minimum V-2, QFMZ2 UL<br />
Transformer (T1) Co Ltd<br />
minimum 0.71 mm thick, rated<br />
150 degree C.<br />
37-2-3. Varnish of Elantas Electrical V1630FS Rated 155 degree C. OBJS2 UL<br />
Transformer (T1) Insulation Elantas<br />
Pdg Inc<br />
37-2-4. Tubing of Great Holding TW Rated 200 degree C. YDPU2 UL<br />
Transformer (T1) Industrial Co Ltd<br />
37-2-5. Margin tape of 3M Company 44(a) Rated 130 degree C. OANZ2 UL<br />
Transformer (T1) Electrical Markets Div<br />
(EMD)<br />
37-2-6. Windings of<br />
Transformer (T1)<br />
Various Various Rated 130 degree C. OBMW2 UL<br />
37-3. Insulation system Large Magnetic SBI 4.2 Class B. OBJY2 UL<br />
of Transformer (T1) Electronics Co., Ltd<br />
37-3-1. Insulation Tape<br />
of Transformer (T1)<br />
Symbio Inc 35660 Rated 130 degree C. OANZ2 UL<br />
37-3-2 Insulation Tape of 3M Company 1350F-1 Rated 130 degree C. OANZ2 UL<br />
Transformer (T1) Electrical Markets Div<br />
(Alternate)<br />
(EMD)<br />
37-3-2-1. Insulation Bondtec Pacific Co 371F Rated 130 degree C. OANZ2 UL<br />
Tape of Transformer<br />
(T1) (Alternate)<br />
Ltd<br />
37-3-3. Bobbin of Sumitomo Bakelite PM-9820 Phenolic. Minimum V-2, QFMZ2 UL<br />
Transformer (T1) Co Ltd<br />
minimum 0.71 mm thick, rated<br />
150 degree C.<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 25 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
37-3-4 Varnish of<br />
Transformer (T1)<br />
Elantas Electrical<br />
Insulation Elantas<br />
Pdg Inc<br />
Great Holding<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
468-2(+) Rated 155 degree C. OBJS2 UL<br />
37-3-5. Tubing of<br />
TFL Rated 200 degree C. YDPU2 UL<br />
Transformer (T1) Industrial Co Ltd<br />
37-3-6. Margin tape of 3m Company 44T, 44D Rated 130 degree C. OANZ2 UL<br />
Transformer (T1) Electrical Markets Div<br />
(Emd)<br />
37-3-7. Windings of<br />
Transformer (T1)<br />
Various Various Rated 130 degree C. OBMW2 UL<br />
38. Transformer (T2) -- -- Open type construction. Core:<br />
Ferrite, overall approximately<br />
46.4 by 39.6 by 12.7 mm. Coil<br />
Copper magnet wire wound on<br />
bobbin. Provided with 4 layers<br />
insulation tape between<br />
primary and secondary. Exit<br />
leads provided with tubing.<br />
Provided with Margin tape on<br />
winding top / bottom side 4.0<br />
mm. See <strong>Enclosure</strong> Id. 4-02<br />
for construction details.<br />
-- -- 4-02<br />
38-1. Insulation system Li Chieh Electronic DASH 2 B-5 Class B. OBJY2 UL<br />
of Transformer (T2) Industrial Co Ltd<br />
38-1-1. Insulation Tape 3M Company 1350-1 Rated 130 degree C. OANZ2 UL<br />
of Transformer (T2) Electrical Markets Div<br />
(EMD)<br />
38-1-2. Bobbin of Chang Chun Plastics T375J Phenolic. Minimum V-2, QFMZ2 UL<br />
Transformer (T2) Co Ltd<br />
minimum 0.71 mm thick, rated<br />
150 degree C.<br />
38-1-3. Varnish of Elantas Electrical 468-2FC Rated 155 degree C. OBJS2 UL<br />
Transformer (T2) Insulation Elantas<br />
Pdg Inc<br />
38-1-4 Tubing of Great Holding TFL Rated 200 degree C. YDPU2 UL
Issue Date: 2009-11-04 Page 26 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Transformer (T2) Industrial Co Ltd<br />
38-1-5. Margin tape of<br />
Transformer (T2)<br />
38-1-6. Windings of<br />
Transformer (T2)<br />
38-2. Insulation system<br />
of Transformer (T2)<br />
38-2-1. Insulation Tape<br />
of Transformer (T2)<br />
38-2-2. Bobbin of<br />
Transformer (T2)<br />
38-2-3. Varnish of<br />
Transformer (T2)<br />
38-2-4. Tubing of<br />
Transformer (T2)<br />
38-2-5. Margin tape of<br />
Transformer (T2)<br />
38-2-6. Windings of<br />
Transformer (T2)<br />
38-3. Insulation system<br />
of Transformer (T2)<br />
38-3-1. Insulation Tape<br />
of Transformer (T2)<br />
38-3-1-1. Insulation<br />
Tape of Transformer<br />
(T2) (Alternate)<br />
38-3-2. Insulation Tape<br />
of Transformer (T2)<br />
(Alternate)<br />
3M Company<br />
Electrical Markets Div<br />
(EMD)<br />
44 Rated 130 degree C. OANZ2 UL<br />
Various Various Rated 130 degree C. OBMW2 UL<br />
Main Power<br />
Technology Co., Ltd<br />
MP SAF003 Class B. OBJY2 UL<br />
3M Company<br />
Electrical Markets Div<br />
(EMD)<br />
1350F-1 Rated 130 degree C. OANZ2 UL<br />
Chang Chun Plastics T375J Phenolic. Minimum V-2, QFMZ2 UL<br />
Co Ltd<br />
minimum 0.71 mm thick, rated<br />
150 degree C.<br />
Elantas Electrical<br />
Insulation Elantas<br />
Pdg Inc<br />
V1630FS Rated 155 degree C. OBJS2 UL<br />
Great Holding<br />
Industrial Co Ltd<br />
TW Rated 200 degree C. YDPU2 UL<br />
3M Company<br />
Electrical Markets Div<br />
(EMD)<br />
44(a) Rated 130 degree C. OANZ2 UL<br />
Various Various Rated 130 degree C. OBMW2 UL<br />
Large Magnetic<br />
Electronics Co., Ltd<br />
SBI 4.2 Class B. OBJY2 UL<br />
Symbio Inc 35660 Rated 130 degree C. OANZ2 UL<br />
3M Company<br />
Electrical Markets Div<br />
(EMD)<br />
Bondtec Pacific Co<br />
Ltd<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
1350F-1 Rated 130 degree C. OANZ2 UL<br />
371F Rated 130 degree C. OANZ2 UL
Issue Date: 2009-11-04 Page 27 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
38-3-3. Bobbin of<br />
Transformer (T2)<br />
38-3-4. Varnish of<br />
Transformer (T2)<br />
38-3-5. Tubing of<br />
Transformer (T2)<br />
38-3-6. Margin tape of<br />
Transformer (T2)<br />
38-3-6. Windings of<br />
Transformer (T2)<br />
39. Optical Isolator (U2,<br />
U5, U6)<br />
39-1. Optical Isolator<br />
(U2, U5, U6) (Alternate)<br />
39-2. Optical Isolator<br />
(U2, U5, U6) (Alternate)<br />
39-3. Optical Isolator<br />
(U2, U5, U6) (Alternate)<br />
Sumitomo Bakelite<br />
Co Ltd<br />
Elantas Electrical<br />
Insulation Elantas<br />
Pdg Inc<br />
Great Holding<br />
Industrial Co Ltd<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
PM-9820 Phenolic. Minimum V-2,<br />
minimum 0.71 mm thick, rated<br />
150 degree C.<br />
QFMZ2 UL<br />
468-2(+) Rated 155 degree C. OBJS2 UL<br />
TFL Rated 200 degree C. YDPU2 UL<br />
3m Company<br />
Electrical Markets Div<br />
(Emd)<br />
44T, 44D Rated 130 degree C. OANZ2 UL<br />
Various Various Rated 130 degree C. OBMW2 UL<br />
Sharp Corp<br />
Electronic<br />
Components Group<br />
Everlight Electronics<br />
Co Ltd<br />
Fairchild<br />
Semiconductor Corp.<br />
Lite-On Technology<br />
Corp<br />
PC817 Rated Isolation minimum 5000<br />
V ac. (Insulation thickness<br />
minimum 0.4 mm.). DIP Type.<br />
Di. = 0.7mm, int.dcr. = 5.0mm,<br />
ext..dcr. = 8.0mm.<br />
EL817 series Rated Isolation minimum 5000<br />
V ac. (Insulation thickness<br />
minimum 0.4 mm.). DIP Type.<br />
Di.= 0.5mm, int.dcr. = 6.0mm,<br />
ext.dcr. = 7.7mm.<br />
H11A817 series Rated Isolation minimum 5000<br />
V ac. (Insulation thickness<br />
minimum 0.4 mm.). DIP Type.<br />
Di. =1.0mm, ext.dcr. =7.0mm,<br />
int.dcr. =Thermal cycling test.<br />
LTV 817X Rated Isolation minimum 5000<br />
V ac. (Insulation thickness<br />
minimum 0.4 mm.). DIP Type.<br />
Di. = 0.8mm, int.dcr. = 5.2mm,<br />
ext.dcr. = 7.8mm.<br />
FPQU2 UL<br />
FPQU2 UL<br />
FPQU2 UL<br />
FPQU2 UL<br />
40. Insulation Tubing / Various Various FEP, PTFE, PVC, TFE, YDTU2 UL
Issue Date: 2009-11-04 Page 28 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Sleeving neoprene, polyimide or marked<br />
VW-1; minimum 105 degree C,<br />
41. Thermistor (R106A) Thinking Electronic<br />
Industrial Co Ltd<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
minimum 300 V.<br />
TTC-103 Rated 900 mW, 10 k ohm at 25<br />
degree C. Secured to PWB by<br />
solder.<br />
XGPU2 UL<br />
42. Choke (L6) (SEC) -- -- Rated 130 degree C. Toroidal<br />
type.<br />
-- --<br />
43. Output Wires Various Various Rated VW-1, minimum 80<br />
degree C, minimum 300 V.<br />
Style no. 1007, Minimum 22<br />
AWG.<br />
AVLV2 UL<br />
44. Output Connector Positronic Industries GFSH89M47H, Rated Minimum 12V, 16 A. ECBT2 UL<br />
Inc.<br />
GFSH89F47H,<br />
GFSH89F37H<br />
45. EMI Shielding -- -- One provided minimum 30 mm<br />
wide. Completely cover with<br />
two layers of Insulation Tape.<br />
Wrapped around on IC2 board.<br />
Provided with lead, one end<br />
secured then soldered to EMI<br />
Shielding; other end secured to<br />
PWB by solder.<br />
-- --<br />
45-1 Insulation tape 3M Company<br />
Electrical Markets Div<br />
(EMD)<br />
1350F-1, 1350-1 Wide 60 mm maximum OANZ2 UL<br />
46. Transistor (Q1, Q1A, -- -- Rated minimum 20 A, minimum -- --<br />
Q2)<br />
600 V. Secured to H3 and H2<br />
by screw.<br />
Switching Power Supply Zippy GIN1-5800V4D, Consist of the following -- -- 3-05<br />
GIN1-5800V4H components.<br />
01. Back Board Chassis -- -- Metal, two pieces construction<br />
and secured together by<br />
screws and snap-fit. Overall<br />
-- --
Issue Date: 2009-11-04 Page 29 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
measures approximately 110.5<br />
by 79.1 by 40.1 mm, minimum<br />
1.0 mm thick. Provided with<br />
the following ventilation<br />
openings: 1. Top side - Provide<br />
with 14 slot ventilation<br />
openings, each measuring 14.8<br />
by 3.9 mm and 4 slot openings<br />
each measuring 5.7 mm by 3.8<br />
mm. 2. Right side and left side -<br />
Provide with 2 slot ventilation<br />
opening, each measuring 19.8<br />
by 3.8 mm, 3 slot openings<br />
each measuring 12.6 mm by<br />
3.9 mm and 2 slot ventilation<br />
openings, each minimum 13.9<br />
by 11.3 mm.<br />
02. Output Wires Various Various Rated VW-1, minimum 80<br />
degree C, minimum 300 V.<br />
Style no. 1007, Minimum 22<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
AWG.<br />
03. Printed Wiring Board Various Various Rated minimum V-1, 105<br />
degree C. The Main Board<br />
secured to Chassis by screws<br />
and contains the following<br />
daughter boards. U1 and U2<br />
Board, (secondary) secured<br />
and soldered to Main Board<br />
04. Insulator sheet Sabic Innovative<br />
Plastics Us L L C<br />
vertically.<br />
FR1 Rated minimum V-2, See<br />
<strong>Enclosure</strong> Id. 4-04 for<br />
construction details. Provided<br />
between solder side of Back<br />
Board PWB and bottom<br />
AVLV2 UL<br />
ZPMV2 UL<br />
QMFZ2 UL 4-04
Issue Date: 2009-11-04 Page 30 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
chassis.<br />
05. Power Module Zippy GIN-3800V One or two provided. -- --<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 31 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
1.6.2 TABLE: electrical data (in normal conditions) Pass<br />
U (V) I (A) I rated (A) P (W) Fuse # I fuse (A) condition/status<br />
-- -- -- -- -- -- For Amendment 1:<br />
-- -- -- -- -- -- Test on Model: R2K-5C00V (Used<br />
one Module) (Total 1200W)<br />
180V/47<br />
Hz<br />
180V/63<br />
Hz<br />
200V/47<br />
Hz<br />
200V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
180V/47<br />
Hz<br />
180V/63<br />
Hz<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
(Ambient 40 degree C)<br />
8.160 -- 1450 F1 8.160 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
8.150 -- 1450 F1 8.150 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
7.310 9 1440 F1 7.310 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
7.310 9 1450 F1 7.310 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
6.050 9 1430 F1 6.050 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
6.050 9 1430 F1 6.050 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
5.500 -- 1420 F1 5.500 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
5.510 -- 1420 F1 5.510 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
8.130 -- 1440 F1 8.130 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
8.120 -- 1450 F1 8.120 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
200V/47 7.260 9 1440 F1 7.260 Maximum Normal Load, Test on
Issue Date: 2009-11-04 Page 32 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Hz Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
200V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
180V/47<br />
Hz<br />
180V/63<br />
Hz<br />
200V/47<br />
Hz<br />
200V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
+5VSB / 3.5A<br />
7.260 9 1430 F1 7.260 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
6.030 9 1430 F1 6.030 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
6.020 9 1430 F1 6.020 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
5.460 -- 1420 F1 5.460 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
5.470 -- 1420 F1 5.470 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
7.970 -- 1420 F1 7.970 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
7.980 -- 1420 F1 7.980 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
7.140 9 1410 F1 7.140 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
7.150 9 1410 F1 7.150 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
5.920 9 1400 F1 5.920 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
5.920 9 1400 F1 5.920 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
5.370 -- 1400 F1 5.370 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
5.380 -- 1400 F1 5.380 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
-- -- -- -- -- -- Test On Model: R2K-5C00V (Used
Issue Date: 2009-11-04 Page 33 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
180V/47<br />
Hz<br />
180V/63<br />
Hz<br />
200V/47<br />
Hz<br />
200V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
180V/47<br />
Hz<br />
180V/63<br />
Hz<br />
200V/47<br />
Hz<br />
200V/63<br />
Hz<br />
7.780 -- 1380 F1 7.780<br />
two Module) (Total 1200W)<br />
(Ambient 25 degree C)<br />
Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
7.790 -- 1380 F1 7.790 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
6.990 9 1370 F1 6.990 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
7.000 9 1370 F1 7.000 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
5.790 9 1370 F1 5.790 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
5.810 9 1370 F1 5.810 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
5.250 -- 1360 F1 5.250 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
5.260 -- 1370 F1 5.260 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
7.750 -- 1370 F1 7.750 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
7.760 -- 1370 F1 7.760 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
6.970 9 1370 F1 6.970 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
6.960 9 1370 F1 6.960 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 34 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
240V/47 5.770 9 1360 F1 5.770<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
Maximum Normal Load, Test on<br />
Hz<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
240V/63 5.790 9 1360 F1 5.790 Maximum Normal Load, Test on<br />
Hz<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
264V/47 5.200 -- 1360 F1 5.200 Maximum Normal Load, Test on<br />
Hz<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
264V/63 5.210 -- 1360 F1 5.210 Maximum Normal Load, Test on<br />
Hz<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 82.21A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
180V/47 7.630 -- 1350 F1 7.630 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
180V/63 7.640 -- 1350 F1 7.640 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
200V/47 6.830 9 1350 F1 6.830 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
200V/63 6.840 9 1350 F1 6.840 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
240V/47 5.690 9 1340 F1 5.690 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
240V/63 5.680 9 1340 F1 5.680 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
264V/47 5.170 -- 1340 F1 5.170 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
264V/63 5.160 -- 1340 F1 5.160 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 100A, -12V / 0A, +5VSB / 0A<br />
-- -- -- -- -- -- Test On Model: R2K-5C00V (Used<br />
one Module) (Total 1000W)<br />
(Ambient 25 degree C)<br />
90V/47 14.390 -- 1290 F1 14.390 Maximum Normal Load, Test on<br />
Hz<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 35 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
100V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
100V/63<br />
Hz<br />
240V/47<br />
Hz<br />
14.420 -- 1290 F1 14.420<br />
+5VSB / 3.5A<br />
Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
12.710 15 1263 F1 12.710 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
12.720 15 1263 F1 12.720 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.976 7 1185 F1 4.976 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.978 7 1186 F1 4.978 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.512 -- 1181 F1 4.512 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.515 -- 1181 F1 4.515 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
14.320 -- 1286 F1 14.320 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
14.350 -- 1286 F1 14.350 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
12.600 15 1259 F1 12.600 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
12.620 15 1258 F1 12.620 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.942 7 1179 F1 4.942 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 36 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
240V/63 4.938 7 1176 F1 4.938<br />
+5VSB / 3.5A<br />
Maximum Normal Load, Test on<br />
Hz<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
264V/47 4.485 -- 1174 F1 4.485 Maximum Normal Load, Test on<br />
Hz<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
264V/63 4.490 -- 1174 F1 4.490 Maximum Normal Load, Test on<br />
Hz<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
90V/47 13.930 -- 1253 F1 13.930 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
0A<br />
90V/63 13.970 -- 1256 F1 13.970 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
0A<br />
100V/47 12.310 15 1229 F1 12.310 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
0A<br />
100V/63 12.370 15 1229 F1 12.370 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
0A<br />
240V/47 4.849 7 1157 F1 4.849 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
0A<br />
240V/63 4.855 7 1157 F1 4.855 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
0A<br />
264V/47 4.400 -- 1153 F1 4.400 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
0A<br />
264V/63 4.405 -- 1153 F1 4.405 Maximum Normal Load, Test on<br />
Hz<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
0A<br />
-- -- -- -- -- -- Test On Model: R2K-5C00V (Used<br />
two Module) (Total 1000W)<br />
(Ambient 25 degree C)<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 37 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
100V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
100V/63<br />
Hz<br />
13.380 -- 1200 F1 13.380 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
+5VSB / 3.5A<br />
13.410 -- 1200 F1 13.410 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
11.920 15 1190 F1 11.920 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
11.940 15 1191 F1 11.940 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.844 7 1155 F1 4.844 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.858 7 1155 F1 4.858 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.415 -- 1151 F1 4.415 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.428 -- 1152 F1 4.428 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
13.330 -- 1196 F1 13.330 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
13.360 -- 1196 F1 13.360 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
11.910 15 1186 F1 11.910 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
11.930 15 1186 F1 11.930 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A
Issue Date: 2009-11-04 Page 38 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
100V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
4.824 7 1149 F1 4.824 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
+5VSB / 3.5A<br />
4.838 7 1150 F1 4.838 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.393 -- 1146 F1 4.393 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
4.398 -- 1146 F1 4.398 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 65.54A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
13.090 -- 1174 F1 13.090 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
13.130 -- 1176 F1 13.130 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
11.720 15 1166 F1 11.720 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
11.690 15 1165 F1 11.690 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
4.737 7 1129 F1 4.737 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
4.740 7 1129 F1 4.740 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
4.312 -- 1126 F1 4.312 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
4.324 -- 1126 F1 4.324 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0A, 5V / 0A,<br />
12V / 83.34A, -12V / 0A, +5VSB /<br />
0A<br />
0A<br />
0A<br />
0A<br />
0A<br />
0A<br />
0A<br />
0A
Issue Date: 2009-11-04 Page 39 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
-- -- -- -- -- -- Test On Model: R2K-5800V (Used<br />
one Module) (Ambient 25 degree<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
100V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
11.090 -- 994 F1 11.090 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
C)<br />
+5VSB / 3.5A<br />
11.100 -- 994 F1 11.100 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
9.840 12 981 F1 9.840 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
9.860 12 981 F1 9.860 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.902 6 931 F1 3.902 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.912 6 931 F1 3.912 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.553 -- 928 F1 3.553 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.560 -- 929 F1 3.560 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
11.010 -- 989 F1 11.010 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
11.050 -- 990 F1 11.050 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
9.720 12 973 F1 9.720 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
100V/63 9.730 12 973 F1 9.730 Maximum Normal Load, Test on
Issue Date: 2009-11-04 Page 40 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Hz Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
100V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
+5VSB / 3.5A<br />
3.887 6 926 F1 3.887 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.893 6 926 F1 3.893 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.530 -- 923 F1 3.530 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.535 -- 923 F1 3.535 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
10.870 -- 973 F1 10.870 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
10.900 -- 975 F1 10.900 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
9.610 12 958 F1 9.610 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
9.630 12 958 F1 9.630 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.836 6 914 F1 3.836 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.843 6 914 F1 3.843 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.484 -- 911 F1 3.484 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
264V/63 3.490 -- 910 F1 3.490 Maximum Normal Load, Test on<br />
3.5A<br />
3.5A<br />
3.5A<br />
3.5A<br />
3.5A<br />
3.5A
Issue Date: 2009-11-04 Page 41 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Hz Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
-- -- -- -- -- -- Test On Model R2K-5800V (Used<br />
two Module) (Ambient 25 degree<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
100V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
10.710 -- 962 F1 10.710 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
C)<br />
+5VSB / 3.5A<br />
10.720 -- 963 F1 10.720 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
9.630 12 957 F1 9.630 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
9.640 12 957 F1 9.640 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.908 6 929 F1 3.908 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.923 6 929 F1 3.923 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.562 -- 926 F1 3.562 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.578 -- 926 F1 3.578 Maximum Normal Load, Test on<br />
Condition A : 3.3V / 32A, 5V /<br />
16.88A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
10.630 -- 957 F1 10.630 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
10.660 -- 957 F1 10.660 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
9.570 12 951 F1 9.570 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /
Issue Date: 2009-11-04 Page 42 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
100V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
264V/63<br />
Hz<br />
90V/47<br />
Hz<br />
90V/63<br />
Hz<br />
100V/47<br />
Hz<br />
100V/63<br />
Hz<br />
240V/47<br />
Hz<br />
240V/63<br />
Hz<br />
264V/47<br />
Hz<br />
9.590 12 952 F1 9.590<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.894 6 925 F1 3.894 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.910 6 925 F1 3.910 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.542 -- 922 F1 3.542 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
3.558 -- 922 F1 3.558 Maximum Normal Load, Test on<br />
Condition B : 3.3V / 9.1A, 5V /<br />
32A, 12V / 48.88A, -12V / 0.5A,<br />
+5VSB / 3.5A<br />
10.570 -- 947 F1 10.570 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
10.610 -- 947 F1 10.610 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
9.440 12 940 F1 9.440 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
9.460 12 941 F1 9.460 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
3.851 6 915 F1 3.851 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
3.867 6 915 F1 3.867 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
3.503 -- 912 F1 3.503 Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 43 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
264V/63<br />
Hz<br />
3.519 -- 913 F1 3.519<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
Maximum Normal Load, Test on<br />
Condition C : 3.3V / 0.76A, 5V /<br />
0A, 12V / 65A, -12V / 0A, +5VSB /<br />
3.5A<br />
supplementary information:<br />
Maximum Normal Load: Output was connected to resistive load and operated continuously.<br />
2.10.3 and<br />
2.10.4<br />
TABLE: clearance and creepage distance measurements Pass<br />
Clearance (cl) and creepage<br />
distance (cr) at/of/between:<br />
Following measured Model:<br />
GIN-3800V, With EMI Filter on<br />
chassis. Specified the<br />
equipment to be operated up to<br />
3100m above sea level, so the<br />
required clearance is multiplied<br />
by the altitude correction factor<br />
(1.155) specified in table A.2 of<br />
IEC 60664-1: 1992+A1:2000.<br />
U peak<br />
(V)<br />
U r.m.s.<br />
(V)<br />
Required cl<br />
(mm)<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
cl<br />
(mm)<br />
Required cr<br />
(mm)<br />
-- -- -- -- -- --<br />
T1: Transformer, the core<br />
considered as floating, all exit<br />
lead of Transformer with<br />
insulating tubing.<br />
-- -- -- -- -- --<br />
Primary windings to core. 600 361 2.7 (2.3 x<br />
1.155)<br />
4.0 3.7 4.0<br />
Secondary windings to core. 600 361 2.7 (2.3 x<br />
1.155)<br />
4.0 3.7 4.0<br />
Primary pins to Secondary 600 361 5.4 (2.7 x 7.6 7.4 7.6<br />
windings<br />
1.155)<br />
Primary windings to Secondary 600 361 5.4 (2.7 x 7.6 7.4 7.6<br />
pins<br />
1.155)<br />
Primary windings to Secondary 600 361 5.4 (2.7 x 8.0 7.4 8.0<br />
windings.<br />
1.155)<br />
Primary winding to T2 core. 600 361 2.7 (2.3 x<br />
1.155)<br />
7.9 3.7 10.0<br />
Secondary winding to T2 core. 600 361 2.7 (2.3 x<br />
1.155)<br />
3.3 3.7 10.0<br />
T2: Transformer, the core<br />
considered as floating all exit<br />
lead of Transformer with<br />
insulating tubing.<br />
-- -- -- -- -- --<br />
Primary pins to core 624 398 2.7 (2.3 x 10.5 4.0 10.5<br />
cr<br />
(mm)
Issue Date: 2009-11-04 Page 44 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Secondary pins to core 624 398<br />
1.155)<br />
2.7 (2.3 x<br />
1.155)<br />
10.5 4.0 10.5<br />
Primary windings to core. 624 398 2.7 (2.3 x<br />
1.155)<br />
4.4 4.0 4.4<br />
Secondary windings to core. 624 398 2.7 (2.3 x<br />
1.155)<br />
4.4 4.0 4.4<br />
Primary pins to Secondary 624 398 5.4 (4.6 x 8.0 8.0 8.0<br />
windings.<br />
1.155)<br />
Secondary pins to Primary 624 398 5.4 (4.6 x 8.0 8.0 8.0<br />
windings.<br />
1.155)<br />
Primary winding to secondary 624 398 5.4 (4.6 x 8.0 8.0 11.5<br />
winding.<br />
1.155)<br />
Core to Primary component T4 624 398 2.7 (2.3 x<br />
1.155)<br />
2.8 4.0 10.0<br />
Core to Primary component 624 398 2.7 (2.3 x 3.0 4.0 4.0<br />
C21<br />
1.155)<br />
Core to Secondary component 624 398 2.7 (2.3 x 3.0 4.0 4.0<br />
C34<br />
1.155)<br />
Core to Secondary Hear sink 624 398 2.7 (2.3 x 4.3 4.0 10.0<br />
(H5)<br />
1.155)<br />
Core to primary Hear sink (H2) 624 398 2.7 (2.3 x<br />
1.155)<br />
5.8 4.0 10.0<br />
Following measured on Main<br />
board component side.<br />
-- -- -- -- -- --<br />
Primary line trace before F1 340 240 2.4 (2.0 x 4.6 2.5 4.6<br />
under L/N.<br />
1.155)<br />
Primary line trace before F1 to 340 240 2.4 (2.0 x 4.6 2.5 4.6<br />
R19 trace.<br />
1.155)<br />
Primary line trace under F1. 340 240 1.8 (1.5 x 3.7 2.5 3.7<br />
Primary trace to earth trace,<br />
under C2. Note: Provided with<br />
slot minimum 1.0 mm wide by<br />
minimum 12.7 mm in length.<br />
Primary trace to earth trace,<br />
under C3. Note: Provided with<br />
slot minimum 1.0 mm wide by<br />
minimum 12.7 mm in length.<br />
Primary trace to earth trace,<br />
under CY3.<br />
Primary trace to secondary<br />
trace under CY2<br />
Primary trace to secondary<br />
trace under U5<br />
Primary trace to secondary<br />
trace under U6<br />
1.155)<br />
340 240 2.4 (2.0 x<br />
1.155)<br />
340 240 2.4 (2.0 x<br />
1.155)<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
2.6 2.5 10.0<br />
3.5 2.5 3.8<br />
340 240 2.4 (2.0 x<br />
1.155)<br />
5.6 2.5 5.6<br />
360 165 4.7 (4.0 x<br />
1.155)<br />
4.7 5.0 10.0<br />
384 244 4.7 (4.0 x<br />
1.155)<br />
6.3 5.0 6.3<br />
356 216 4.7 (4.0 x<br />
1.155)<br />
6.3 5.0 6.3<br />
Primary trace to secondary 384 176 4.7 (4.0 x 6.3 5.0 6.3
Issue Date: 2009-11-04 Page 45 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
trace under U2 1.155)<br />
Primary trace to secondary 600 361 5.4 (4.6 x 5.4 7.4 7.6<br />
trace under T1.<br />
1.155)<br />
Primary H3 trace to secondary 392 239 4.7 (4.0 x 4.7 5.0 5.6<br />
T1 trace.<br />
1.155)<br />
Following measured on Main<br />
board solder side.<br />
-- -- -- -- -- --<br />
Primary line trace before F1 340 240 2.4 (2.0 x 4.5 2.5 4.5<br />
under L/N.<br />
1.155)<br />
Primary line trace under F1. 340 240 1.8 (1.5 x<br />
1.155)<br />
2.9 2.5 2.9<br />
Primary trace to earth trace, 340 240 2.4 (2.0 x 3.1 2.5 10.0<br />
under C2. Note: Provided with<br />
slot minimum 1.0 mm wide by<br />
minimum 12.7 mm in length.<br />
1.155)<br />
Primary trace to earth trace, 340 240 2.4 (2.0 x 3.4 2.5 10.0<br />
under C3. Note: Provided with<br />
slot minimum 1.0 mm wide by<br />
minimum 12.7 mm in length.<br />
1.155)<br />
Primary trace to earth trace, 340 240 2.4 (2.0 x 5.8 2.5 5.8<br />
under CY3.<br />
1.155)<br />
Primary trace to secondary 360 165 4.7 (4.0 x 7.2 5.0 10.0<br />
trace under CY2<br />
1.155<br />
Primary trace to secondary 384 244 4.7 (4.0 x 6.2 5.0 10.0<br />
trace under U5<br />
1.155<br />
Primary trace on U6 to 384 251 4.7 (4.0 x 9.0 5.2 10.0<br />
secondary trace under R47<br />
1.155<br />
Primary trace to secondary 356 216 4.7 (4.0 x 6.3 5.0 6.3<br />
trace under U6<br />
1.155<br />
Primary trace to secondary 384 176 4.7 (4.0 x 6.3 5.0 6.3<br />
trace under U2<br />
1.155<br />
Primary trace on T1 to 384 196 4.7 (4.0 x 5.6 5.0 5.6<br />
secondary trace under Heat<br />
Sink (H4)<br />
1.155)<br />
Primary trace to secondary 600 361 5.4 (4.6 x 6.4 7.4 7.5<br />
trace, under T1<br />
1.155)<br />
Amendment 1:<br />
Following measured Model:<br />
KIN-2C00V, With EMI Filter on<br />
chassis. Specified the<br />
equipment to be operated up to<br />
3100m above sea level, so the<br />
required clearance is multiplied<br />
by the altitude correction factor<br />
(1.155) specified in table A.2 of<br />
IEC 60664-1:2007.<br />
-- -- -- -- -- --<br />
T1: Transformer, the core<br />
considered as floating, all exit<br />
-- -- -- -- -- --<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 46 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
lead of Transformer with<br />
insulating tubing.<br />
Primary windings to core. 624 355 2.7 (2.3 x<br />
1.155)<br />
4.0 3.6 4.0<br />
Secondary windings to core. 624 355 2.7 (2.3 x<br />
1.155)<br />
4.0 3.6 4.0<br />
Primary pins to Secondary 624 355 5.4 (2.7 x 7.6 7.2 7.6<br />
windings<br />
1.155)<br />
Primary windings to Secondary 624 355 5.4 (2.7 x 7.6 7.2 7.6<br />
pins<br />
1.155)<br />
Primary windings to Secondary 624 355 5.4 (2.7 x 8.0 7.2 8.0<br />
windings.<br />
1.155)<br />
Primary winding to T2 core. 624 355 2.7 (2.3 x<br />
1.155)<br />
7.9 3.6 10.0<br />
Secondary winding to T2 core. 624 355 2.7 (2.3 x<br />
1.155)<br />
3.3 3.6 10.0<br />
T2: Transformer, the core<br />
considered as floating all exit<br />
lead of Transformer with<br />
insulating tubing.<br />
-- -- -- -- -- --<br />
Primary pins to core 672 430 2.8 (2.4 x<br />
1.155)<br />
10.5 4.3 10.5<br />
Secondary pins to core 672 430 2.8 (2.4 x<br />
1.155)<br />
10.5 4.3 10.5<br />
Primary windings to core. 672 430 2.8 (2.4 x<br />
1.155)<br />
6.0 4.3 6.0<br />
Secondary windings to core. 672 430 2.8 (2.4 x<br />
1.155)<br />
6.0 4.3 6.0<br />
Primary pins to Secondary 672 430 5.6 (4.8 x 8.6 8.6 8.6<br />
windings.<br />
1.155)<br />
Secondary pins to Primary 672 430 5.6 (4.8 x 8.6 8.6 8.6<br />
windings.<br />
1.155)<br />
Primary winding to secondary 672 430 5.6 (4.8 x 8.0 8.6 11.5<br />
winding.<br />
1.155)<br />
Core to Primary component T4 672 430 2.8 (2.4 x<br />
1.155)<br />
2.8 4.3 10.0<br />
Core to Primary component 672 430 2.8 (2.4 x 5.5 4.3 5.5<br />
C21<br />
1.155)<br />
Core to Secondary component 672 430 2.8 (2.4 x 7.0 4.3 7.0<br />
C34<br />
1.155)<br />
Core to Secondary Hear sink 672 430 2.8 (2.4 x 4.3 4.3 10.0<br />
(H5)<br />
1.155)<br />
Core to primary Hear sink (H2) 672 430 2.8 (2.4 x<br />
1.155)<br />
5.8 4.3 10.0<br />
Following measured on Main<br />
board component side.<br />
-- -- -- -- -- --<br />
Primary line trace before F1 340 240 2.4 (2.0 x 4.6 2.5 4.6<br />
under L/N.<br />
1.155)<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 47 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Primary line trace before F1 to 340 240 2.4 (2.0 x 4.6 2.5 4.6<br />
R19 trace.<br />
1.155)<br />
Primary line trace under F1. 340 240 1.8 (1.5 x<br />
1.155)<br />
3.7 2.5 3.7<br />
Primary trace to earth trace, 340 240 2.4 (2.0 x 2.6 2.5 10.0<br />
under C2. Note: Provided with<br />
slot minimum 1.0 mm wide by<br />
minimum 12.7 mm in length.<br />
1.155)<br />
Primary trace to earth trace, 340 240 2.4 (2.0 x 3.5 2.5 3.8<br />
under C3. Note: Provided with<br />
slot minimum 1.0 mm wide by<br />
minimum 12.7 mm in length.<br />
1.155)<br />
Primary trace to earth trace, 340 240 2.4 (2.0 x 5.6 2.5 5.6<br />
under CY3.<br />
1.155)<br />
Primary trace to secondary 356 172 4.7 (4.0 x 4.7 5.0 10.0<br />
trace under CY2<br />
1.155)<br />
Primary trace to secondary 352 169 4.7 (4.0 x 6.3 5.0 6.3<br />
trace under U5<br />
1.155)<br />
Primary trace to secondary 344 162 4.7 (4.0 x 6.3 5.0 6.3<br />
trace under U6<br />
1.155)<br />
Primary trace to secondary 368 172 4.7 (4.0 x 6.3 5.0 6.3<br />
trace under U2<br />
1.155)<br />
Primary trace to secondary 624 355 5.4 (4.6 x 5.4 7.2 7.6<br />
trace under T1.<br />
1.155)<br />
Primary H3 trace to secondary 392 239 4.7 (4.0 x 4.7 5.0 5.6<br />
T1 trace.<br />
1.155)<br />
Primary heatsink H1(BD1/BD2) 340 240 2.4 (2.0 x 4.3 2.5 4.3<br />
to Earth screw of DC Fan<br />
1.155)<br />
Following measured on Main<br />
board solder side.<br />
-- -- -- -- -- --<br />
Primary line trace before F1 340 240 2.4 (2.0 x 4.5 2.5 4.5<br />
under L/N.<br />
1.155)<br />
Primary line trace under F1. 340 240 1.8 (1.5 x<br />
1.155)<br />
2.9 2.5 2.9<br />
Primary trace to earth trace, 340 240 2.4 (2.0 x 3.1 2.5 10.0<br />
under C2. Note: Provided with<br />
slot minimum 1.0 mm wide by<br />
minimum 12.7 mm in length.<br />
1.155)<br />
Primary trace to earth trace, 340 240 2.4 (2.0 x 3.4 2.5 10.0<br />
under C3. Note: Provided with<br />
slot minimum 1.0 mm wide by<br />
minimum 12.7 mm in length.<br />
1.155)<br />
Primary trace to earth trace, 340 240 2.4 (2.0 x 5.8 2.5 5.8<br />
under CY3.<br />
1.155)<br />
Primary trace to secondary 356 172 4.7 (4.0 x 7.2 5.0 10.0<br />
trace under CY2<br />
1.155<br />
Primary trace to secondary 352 169 4.7 (4.0 x 6.2 5.0 10.0<br />
trace under U5<br />
1.155<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 48 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Primary trace on U6 to 384 251 4.7 (4.0 x<br />
secondary trace under R47<br />
1.155<br />
Primary trace to secondary 344 162 4.7 (4.0 x<br />
trace under U6<br />
1.155<br />
Primary trace to secondary 368 172 4.7 (4.0 x<br />
trace under U2<br />
1.155<br />
Primary trace on T1 to 384 196 4.7 (4.0 x<br />
secondary trace under Heat<br />
Sink (H4)<br />
1.155)<br />
Primary trace to secondary 624 355 5.4 (4.6 x<br />
trace, under T1<br />
1.155)<br />
Primary C40 trace to T1 544 416 5.1 (4.4 x<br />
secondary trace. Note:<br />
Provided with slot minimum 1.0<br />
mm wide by minimum 19 mm<br />
in length.<br />
1.155)<br />
supplementary information:<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
9.0 5.2 10.0<br />
6.3 5.0 6.3<br />
6.3 5.0 6.3<br />
5.6 5.0 5.6<br />
6.4 7.2 7.5<br />
6.0 8.4 10.0<br />
2.10.5 TABLE: distance through insulation measurements Pass<br />
Distance through insulation (DTI) at/of: U peak<br />
(V)<br />
Urms<br />
(V)<br />
Test voltage<br />
(V)<br />
Required DTI<br />
(mm)<br />
DTI<br />
(mm)<br />
Optical Isolator (Reinforced Insulation) 386 243 3000 Vac 0.4 Certified<br />
compone<br />
nts used.<br />
See Table<br />
1.5.1 for<br />
details.<br />
supplementary information:<br />
4.3.8 TABLE: Batteries N/A<br />
The tests of 4.3.8 are applicable only when appropriate<br />
battery data is not available.<br />
Is it possible to install the battery in a reverse polarity<br />
position?<br />
Non-rechargeable batteries Rechargeable batteries<br />
Discharging Un-<br />
intentional<br />
charging<br />
Meas.<br />
current<br />
Manuf.<br />
specs.<br />
Charging Discharging Reversed<br />
charging<br />
Meas. current Manuf.<br />
specs.<br />
Meas.<br />
current<br />
Manuf.<br />
specs.<br />
Meas.<br />
current<br />
Manuf.<br />
specs.
Issue Date: 2009-11-04 Page 49 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Max.<br />
current<br />
during<br />
normal<br />
operation<br />
Max.<br />
current<br />
during fault<br />
operation<br />
Test results: Verdict<br />
- Chemical leaks<br />
- Explosion of the battery<br />
- Emission of flame or expulsion of molten metal<br />
- Electric strength tests of equipment after completion of tests<br />
supplementary information:<br />
4.5 TABLE: Thermal requirements Pass<br />
Supply voltage (V) .......................................... See<br />
below<br />
See<br />
below<br />
See<br />
below<br />
See<br />
below<br />
-- —<br />
for for for for<br />
details. details. details. details.<br />
Ambient Tmin (°C) .......................................... -- -- -- -- -- —<br />
Ambient Tmax (°C) ......................................... -- -- -- -- -- —<br />
Maximum measured temperature T of part/at: T (°C) allowed<br />
Tmax<br />
(°C)<br />
Test on Model: GIN1-5800V4H (used with<br />
one power model) Condition A (See power<br />
supply reference page)<br />
Test voltage Input: 90<br />
V / 47<br />
Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
inward.<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
-- -- -- -- -- --<br />
Input:<br />
264 V /<br />
47 Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
inward.<br />
Input: 90<br />
V / 47<br />
Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
outward.<br />
Input:<br />
264 V /<br />
47 Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
outward.<br />
-- --
Issue Date: 2009-11-04 Page 50 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
CY3 body (Y-Capacitor) 22/40 21/41 81/99 62/79 -- 105<br />
L4 coil 37/55 24/44 63/81 51/68 -- 105<br />
C3 body (Y-Capacitor) 28/46 22/42 70/88 50/67 -- 105<br />
PCB near H1, BD1 43/61 26/46 74/92 54/71 -- 105<br />
PCB near H2, Q1 36/54 26/46 82/100 69/86 -- 105<br />
C9 body (Bulk Capacitor) 34/52 24/44 61/79 53/70 -- 105<br />
LF1 coil 45/63 23/43 70/88 47/64 -- 105<br />
C1 body (X-Capacitor) 37/55 23/43 54/72 50/67 -- 85<br />
C6 body (X-Capacitor) 27/45 21/41 59/77 46/63 -- 85<br />
LD1 coil 39/57 23/43 59/77 49/66 -- 105<br />
REL1 body 38/56 23/43 50/68 46/63 -- 105<br />
T3 coil 40/58 28/48 71/89 68/85 -- 105<br />
T4 coil 38/56 26/46 68/86 66/83 -- 105<br />
PCB near H3, Q11 37/55 27/47 49/67 48/65 -- 105<br />
CY2 body (Bridging Capacitor) 48/66 34/54 58/76 57/74 -- 85<br />
U5 body 47/65 33/53 68/86 67/84 -- 100<br />
T2 coil 57/75 42/62 60/78 59/76 -- 110<br />
T2 core 55/73 40/60 44/62 44/61 -- 110<br />
U6 body near U2 38/56 26/46 59/77 58/78 -- 100<br />
T1 core 38/56 28/48 46/64 45/62 -- 110<br />
T1 coil 38/56 29/49 42/60 42/59 -- 110<br />
PCB near H4, D8 41/59 31/51 51/69 50/67 -- 105<br />
PCB near H5, Q10A 56/74 43/63 33/51 33/50 -- 105<br />
L6 coil 86/104 71/91 68/86 66/83 -- 130<br />
Handle 20/38 19/39 29/47 27/44 -- 60<br />
Inlet body 25/43 20/40 28/46 24/41 -- 70<br />
L1 coil 67/85 55/75 44/62 43/60 -- 105<br />
L1 coil for U1 77/95 63/83 51/69 50/67 -- 105<br />
Ambient/Tma 22/40 20/40 22/40 23/40 -- --<br />
Test Duration: (hour; minute) 1:21 1:13 1:16 1:31 -- --<br />
Test on Model: R2G-5800V (used with two -- -- -- -- -- --<br />
modules, one of the module disconnect)<br />
Test voltage Input: 90<br />
V / 47<br />
Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
outward.<br />
Input:<br />
264 V /<br />
47 Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
outward.<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
Input: 90<br />
V / 47<br />
Hz,<br />
Standby<br />
mode<br />
(5Vsb /<br />
3.5A).<br />
Input:<br />
264 V /<br />
47 Hz,<br />
Standby<br />
mode<br />
(5Vsb /<br />
3.5A).<br />
-- --<br />
CY3 body (Y-Capacitor) 81/101 60/80 34/52 36/53 -- 105<br />
L4 coil 70/90 56/76 37/55 38/55 -- 105<br />
C3 body (Y-Capacitor) 67/87 46/66 37/55 37/54 -- 105<br />
PCB near H1, BD1 72/92 50/70 38/56 38/55 -- 105<br />
PCB near H2, Q1 79/99 63/83 37/55 40/57 -- 105
Issue Date: 2009-11-04 Page 51 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
C9 body (Bulk Capacitor) 66/86 56/76 38/56 40/57 -- 105<br />
LF1 coil 69/89 43/63 37/55 39/56 -- 105<br />
C1 body (X-Capacitor) 50/70 45/65 41/59 44/61 -- 85<br />
C6 body (X-Capacitor) 56/76 42/62 36/54 37/54 -- 85<br />
LD1 coil 55/75 43/63 39/57 42/59 -- 105<br />
REL1 body 48/68 44/64 45/63 48/65 -- 105<br />
T3 coil 67/87 62/82 39/57 42/59 -- 105<br />
T4 coil 64/84 61/81 45/63 49/66 -- 105<br />
PCB near H3, Q11 44/64 43/63 55/73 64/81 -- 105<br />
CY2 body (Bridging Capacitor) 51/71 50/70 42/60 46/63 -- 85<br />
U5 body 60/80 58/78 43/61 47/64 -- 100<br />
T2 coil 67/87 65/85 43/61 47/64 -- 110<br />
T2 core 50/70 48/68 41/59 44/61 -- 110<br />
U6 body near U2 49/69 48/68 54/72 58/75 -- 100<br />
T1 core 41/61 40/60 61/79 71/88 -- 110<br />
T1 coil 40/60 39/59 64/82 74/91 -- 110<br />
PCB near H4, D8 46/66 45/65 73/91 79/96 -- 105<br />
PCB near H5, Q10A 39/59 38/58 36/54 38/55 -- 105<br />
L6 coil 55/75 53/73 39/57 41/58 -- 130<br />
Handle 32/52 28/48 26/44 27/44 -- 60<br />
Inlet body 28/48 23/43 27/45 28/45 -- 70<br />
L1 coil 34/54 33/53 29/47 30/47 -- 105<br />
L1 coil for U1 49/69 48/68 28/46 30/47 -- 105<br />
Ambient/Tma 20/40 20/40 22/40 23/40 -- --<br />
Test Duration: (hour; minute) 0:59 1:05 4:23 2:16 -- --<br />
Test on Model: R2G-5800V (used with two -- -- -- -- -- --<br />
modules, one of the module disconnect)<br />
Test voltage Input: 90<br />
V / 47<br />
Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
inward.<br />
Input:<br />
264 V /<br />
47 Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
inward.<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
-- -- -- --<br />
CY3 body (Y-Capacitor) 27/43 25/41 -- -- -- 105<br />
L4 coil 43/59 29/45 -- -- -- 105<br />
C3 body (Y-Capacitor) 33/49 26/42 -- -- -- 105<br />
PCB near H1, BD1 50/66 31/47 -- -- -- 105<br />
PCB near H2, Q1 43/59 31/47 -- -- -- 105<br />
C9 body (Bulk Capacitor) 39/55 29/45 -- -- -- 105<br />
LF1 coil 53/69 28/44 -- -- -- 105<br />
C1 body (X-Capacitor) 44/60 28/44 -- -- -- 85<br />
C6 body (X-Capacitor) 32/48 25/41 -- -- -- 85<br />
LD1 coil 46/62 27/43 -- -- -- 105
Issue Date: 2009-11-04 Page 52 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
REL1 body 44/60 28/44 -- -- -- 105<br />
T3 coil 46/62 33/49 -- -- -- 105<br />
T4 coil 44/60 31/47 -- -- -- 105<br />
PCB near H3, Q11 42/58 31/47 -- -- -- 105<br />
CY2 body (Bridging Capacitor) 57/73 40/56 -- -- -- 85<br />
U5 body 55/71 39/55 -- -- -- 100<br />
T2 coil 66/82 50/66 -- -- -- 110<br />
T2 core 63/79 47/63 -- -- -- 110<br />
U6 body near U2 45/61 31/47 -- -- -- 100<br />
T1 core 44/60 33/49 -- -- -- 110<br />
T1 coil 43/59 34/50 -- -- -- 110<br />
PCB near H4, D8 46/62 36/52 -- -- -- 105<br />
PCB near H5, Q10A 76/92 62/78 -- -- -- 105<br />
L6 coil 90/106 75/91 -- -- -- 130<br />
Handle 24/40 23/39 -- -- -- 60<br />
Inlet body 31/47 24/40 -- -- -- 70<br />
L1 coil 58/74 50/66 -- -- -- 105<br />
L1 coil for U1 73/89 61/77 -- -- -- 105<br />
Ambient/Tma 24/40 24/40 -- -- -- --<br />
Test Duration: (hour; minute) 1:28 3:13 -- -- -- --<br />
Test voltage Input: 90 --<br />
V / 47<br />
Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
inward.<br />
-- -- -- --<br />
Label 38/59 -- -- -- -- --<br />
Ambient/Tma 19/40 -- -- -- -- --<br />
Test Duration: (hour; minute) 1:28 -- -- -- -- --<br />
Amendment 1 -- -- -- -- -- --<br />
Test on Model: R2K-5C00V (Used one<br />
Module) (1200W)<br />
-- -- -- -- -- --<br />
Test voltage Input: Input: Input: Input: -- --<br />
180 V / 264 V / 180 V / 264 V /<br />
47 Hz, 63 Hz, 47 Hz, 63 Hz,<br />
Maximu Maximu Maximu Maximu<br />
m m m m<br />
Normal Normal Normal Normal<br />
load, load, load, load,<br />
Conditio Conditio Conditio Conditio<br />
n A, Fan n A, Fan n A, Fan n A, Fan<br />
outward. outward. outward. outward.<br />
CY3 body near L4 (Y-cap) 54.0 52.0 66.2 64.0 -- 125<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 53 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
L4 coil 55.3 52.6 67.3 64.3 -- 105<br />
C3 body (Y-cap) 47.1 45.0 57.8 55.5 -- 125<br />
PCB near H1 (BD1) 47.0 45.1 57.9 55.8 -- 130<br />
PCB near H2 (Q1) 63.5 62.9 76.3 75.5 -- 130<br />
C9 body (Bulk cap) (Rated 390uF) 51.1 50.1 62.4 61.3 -- 105<br />
LF1 coil 46.6 44.0 57.5 54.6 -- 105<br />
C1 body (X-cap) 44.9 44.6 55.9 55.3 -- 85<br />
C6 body (X-cap) 50.2 49.4 61.4 60.5 -- 85<br />
LD1 coil 44.0 42.8 54.7 53.4 -- 105<br />
REL1 body 49.9 49.2 60.7 60.1 -- 105<br />
T3 coil 63.7 63.2 75.7 75.2 -- 105<br />
T4 coil 62.8 62.3 74.7 74.2 -- 105<br />
PCB near H3 (Q11) 51.2 50.9 66.1 61.0 -- 130<br />
CY2 body (Bridge cap) 64.5 63.8 78.5 77.3 -- 125<br />
U5 body 43.7 43.4 55.1 54.8 -- 100<br />
T2 coil (Class B) 66.8 66.6 78.7 77.8 -- 110<br />
T2 core (Class B) 55.6 55.6 67.2 66.6 -- 110<br />
U6 body near U2 62.0 61.4 73.8 73.5 -- 100<br />
T1 coil (Class B) 48.4 48.6 58.7 58.3 -- 110<br />
T1 core (Class B) 43.0 43.0 53.3 53.1 -- 110<br />
PCB near H4 (D8) 48.6 48.6 59.0 58.8 -- 130<br />
PCB near H5 (Q10A) 51.5 51.4 62.7 62.3 -- 130<br />
L6 coil (secondary) 77.1 77.0 89.5 89.1 -- 130<br />
Handle body (plastic) 47.4 45.9 57.7 56.0 -- 85<br />
Inlet body near Line pin 41.9 37.6 51.8 47.0 -- 70<br />
L1 coil (on back board) 51.4 51.5 61.4 61.1 -- 105<br />
L1 coil for U1 (on back board) 47.9 47.8 58.2 58.0 -- 105<br />
Label body 41.5 40.9 51.8 50.9 -- 60<br />
Output connector 44.2 44.2 54.3 54.0 -- --<br />
Ambient 25.0 25.0 34.8 34.9 -- --<br />
Test Duration: (hour; minute) 1:35 0:59 1:11 1:46 -- --<br />
Test on Model: R2K-5C00V (Used one -- -- -- -- -- --<br />
Module) (1200W)<br />
Test voltage Input:<br />
180 V /<br />
47 Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
outward.<br />
CY3 body near L4 (Y-cap) 72.6/73.<br />
L4 coil 73.7/74.<br />
1<br />
Input:<br />
264 V /<br />
63 Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
0<br />
outward.<br />
65.2/65.<br />
5<br />
64.9/65.<br />
2<br />
Input:<br />
180 V /<br />
47 Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
inward.<br />
47.0/47.<br />
3<br />
50.9/51.<br />
2<br />
Input:<br />
264 V /<br />
63 Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
inward.<br />
46.6/46.<br />
7<br />
48.9/49.<br />
0<br />
-- --<br />
-- 125<br />
-- 105
Issue Date: 2009-11-04 Page 54 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
C3 body (Y-cap) 62.6/63. 56.3/56. 48.6/48. 47.6/47. -- 125<br />
0 6 9 7<br />
PCB near H1 (BD1) 63.4/63. 56.9/57. 49.0/49. 47.9/48. -- 130<br />
8 2 3 0<br />
PCB near H2 (Q1) 82.6/83. 77.0/77. 55.5/55. 53.0/53. -- 130<br />
0 3 8 1<br />
C9 body (Bulk cap) (Rated 390uF) 68.1/68. 62.3/62. 50.7/51. 49.0/49. -- 105<br />
5 6 0 1<br />
LF1 coil 62.9/63. 55.5/55. 56.5/56. 51.2/51. -- 105<br />
3 8 8 3<br />
C1 body (X-cap) 61.1/61. 56.3/56. 51.6/51. 49.2/49. -- 85<br />
5 6 9 3<br />
C6 body (X-cap) 67.0/67. 61.5/61. 52.1/52. 49.9/50. -- 85<br />
4 8 4 0<br />
LD1 coil 60.0/60. 54.4/54. 52.5/52. 49.5/49. -- 105<br />
4 7 8 6<br />
REL1 body 66.3/66. 60.9/61. 56.9/57. 53.2/53. -- 105<br />
7 2 2 3<br />
T3 coil 82.3/82. 76.3/76. 58.9/59. 55.9/56. -- 105<br />
7 6 2 0<br />
T4 coil 80.8/81. 75.0/75. 58.7/59. 56.0/56. -- 105<br />
2 3 0 1<br />
PCB near H3 (Q11) 67.6/68. 63.3/63. 59.9/60. 62.8/62. -- 130<br />
0 6 2 9<br />
CY2 body (Bridge cap) 84.9/85. 76.5/76. 67.3/67. 64.9/65. -- 125<br />
3 8 6 0<br />
U5 body 60.5/60. 54.9/55. 57.2/57. 55.1/55. -- 100<br />
9 2 5 2<br />
T2 coil (Class B) 84.8/85. 78.5/78. 86.7/87. 83.6/83. -- 110<br />
2 8 0 7<br />
T2 core (Class B) 73.0/73. 66.6/66. 74.7/75. 71.7/71. -- 110<br />
4 9 0 8<br />
U6 body near U2 79.9/80. 74.5/74. 61.2/61. 58.4/58. -- 100<br />
3 8 5 5<br />
T1 coil (Class B) 64.1/64. 59.7/60. 65.1/65. 62.2/62. -- 110<br />
5 0 4 3<br />
T1 core (Class B) 58.5/58. 53.7/54. 60.8/61. 57.8/57. -- 110<br />
9 0 1 9<br />
PCB near H4 (D8) 64.1/64. 59.9/60. 63.7/64. 60.8/60. -- 130<br />
5 2 0 9<br />
PCB near H5 (Q10A) 68.3/68. 63.9/64. 105.5/10 101.7/10 -- 130<br />
7 2 5.8 1.8<br />
L6 coil (secondary) 95.9/96. 89.6/89. 90.6/90. 87.1/87. -- 130<br />
3 9 9 2<br />
Handle body (plastic) 62.6/63. 56.5/56. 46.1/46. 46.5/46. -- 85<br />
0 8 4 6<br />
Inlet body near Line pin 54.7/55. 46.5/46. 54.0/54. 51.1/51. -- 70<br />
1 8 3 2<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 55 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
L1 coil (on back board) 66.4/66. 63.0/63. 97.1/97. 93.7/93. -- 105<br />
8 3 4 8<br />
L1 coil for U1 (on back board) 63.3/63. 59.3/59. 88.7/89. 84.9/85. -- 105<br />
7 6 0 0<br />
Label body 56.9/57. 51.4/51. 57.1/57. 53.4/53. -- 60<br />
3 7 4 5<br />
Output connector 59.6/60. 55.2/55. 87.2/87. 84.2/84. -- --<br />
0 5 5 3<br />
Ambient/ Tma 39.6/40. 39.7/40. 39.7/40. 39.9/40. -- --<br />
0 0 0 0<br />
Test Duration: (hour; minute) 1:38 1:18 1:08 1:51 -- --<br />
Test on Model: R2K-5C00V (Used one<br />
Module) (1000W)<br />
-- -- -- -- -- --<br />
Test voltage Input: 90 Input: Input: 90 Input: -- --<br />
V / 63 264 V / V / 63 264 V /<br />
Hz, 63 Hz, Hz, 63 Hz,<br />
Maximu Maximu Maximu Maximu<br />
m m m m<br />
Normal Normal Normal Normal<br />
load, load, load, load,<br />
Conditio Conditio Conditio Conditio<br />
n A, Fan n A, Fan n A, Fan n A, Fan<br />
outward. outward. outward. outward.<br />
CY3 body near L4 (Y-cap) 55.3 46.7 65.7 55.5 -- 125<br />
L4 coil 58.1 47.2 68.2 55.7 -- 105<br />
C3 body (Y-cap) 51.9 41.7 61.6 50.3 -- 125<br />
PCB near H1 (BD1) 51.5 41.7 61.3 50.3 -- 130<br />
PCB near H2 (Q1) 55.7 54.4 65.7 62.8 -- 130<br />
C9 body (Bulk cap) (Rated 390uF) 49.5 45.1 59.2 53.8 -- 105<br />
LF1 coil 55.7 40.7 65.5 49.4 -- 105<br />
C1 body (X-cap) 43.0 41.2 52.5 49.8 -- 85<br />
C6 body (X-cap) 48.8 45.1 58.5 53.8 -- 85<br />
LD1 coil 46.1 40.0 55.6 48.6 -- 105<br />
REL1 body 48.4 45.8 57.7 53.6 -- 105<br />
T3 coil 56.3 55.1 65.9 63.3 -- 105<br />
T4 coil 55.2 54.5 64.9 62.3 -- 105<br />
PCB near H3 (Q11) 47.2 47.3 60.6 63.0 -- 130<br />
CY2 body (Bridge cap) 56.9 54.7 67.1 65.3 -- 125<br />
U5 body 41.4 40.5 50.9 49.4 -- 100<br />
T2 coil (Class B) 58.0 57.2 67.6 65.2 -- 110<br />
T2 core (Class B) 50.7 49.7 60.1 58.0 -- 110<br />
U6 body near U2 54.3 54.1 64.2 62.1 -- 100<br />
T1 coil (Class B) 46.6 46.0 55.9 54.5 -- 110<br />
T1 core (Class B) 42.0 41.0 51.0 49.5 -- 110<br />
PCB near H4 (D8) 46.7 46.3 55.7 54.3 -- 130<br />
PCB near H5 (Q10A) 47.4 46.7 56.9 55.4 -- 130<br />
L6 coil (secondary) 64.0 64.1 73.7 71.4 -- 130<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 56 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Handle body (plastic) 49.0 41.7 58.3 50.7 -- 85<br />
Inlet body near Line pin 48.9 33.7 56.7 42.4 -- 70<br />
L1 coil (on back board) 48.4 47.4 57.4 56.3 -- 105<br />
L1 coil for U1 (on back board) 48.1 47.4 57.7 56.2 -- 105<br />
Label body 41.5 38.0 50.9 46.4 -- 60<br />
Output connector 41.3 40.3 50.6 49.2 -- --<br />
Ambient 25.0 25.0 34.8 35.0 -- --<br />
Test Duration: (hour; minute) 1:42 1:10 1:04 1:16 -- --<br />
Test on Model: R2K-5C00V (Used one -- -- -- -- -- --<br />
Module) (1000W)<br />
Test voltage Input: 90<br />
V / 63<br />
Hz,<br />
Maximu<br />
m<br />
Normal<br />
load,<br />
Conditio<br />
n A, Fan<br />
outward.<br />
CY3 body near L4 (Y-cap) 71.6/72.<br />
3<br />
L4 coil 74.1/74.<br />
8<br />
C3 body (Y-cap) 67.0/67.<br />
7<br />
PCB near H1 (BD1) 66.8/67.<br />
5<br />
PCB near H2 (Q1) 71.5/72.<br />
2<br />
C9 body (Bulk cap) (Rated 390uF) 64.4/65.<br />
1<br />
LF1 coil 71.2/71.<br />
9<br />
C1 body (X-cap) 57.7/58.<br />
4<br />
C6 body (X-cap) 63.9/64.<br />
6<br />
LD1 coil 60.9/61.<br />
6<br />
REL1 body 62.8/63.<br />
5<br />
T3 coil 71.3/72.<br />
0<br />
T4 coil 70.2/70.<br />
PCB near H3 (Q11) 63.0/63.<br />
7<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
9<br />
Input: Input: 90 Input: -- --<br />
264 V / V / 63 264 V /<br />
63 Hz, Hz, 63 Hz,<br />
Maximu Maximu Maximu<br />
m m m<br />
Normal Normal Normal<br />
load, load, load,<br />
Conditio Conditio Conditio<br />
n A, Fan n A, Fan n A, Fan<br />
outward. inward. inward.<br />
60.9 47.0/47.<br />
5<br />
44.9 -- 125<br />
61.1 52.9/53.<br />
4<br />
46.9 -- 105<br />
55.5 51.4/51.<br />
9<br />
45.8 -- 125<br />
55.5 52.4/52.<br />
9<br />
46.1 -- 130<br />
68.4 58.7/59.<br />
2<br />
49.9 -- 130<br />
59.1 52.7/53.<br />
2<br />
47.0 -- 105<br />
54.5 76.8/77.<br />
3<br />
48.4 -- 105<br />
55.0 57.0/57.<br />
5<br />
47.2 -- 85<br />
58.8 57.4/57.<br />
9<br />
47.8 -- 85<br />
53.7 63.1/63.<br />
6<br />
47.1 -- 105<br />
59.0 66.8/67.<br />
3<br />
50.2 -- 105<br />
68.7 62.7/63.<br />
2<br />
51.7 -- 105<br />
67.7 63.2/63.<br />
7<br />
52.3 -- 105<br />
60.8 70.5/71.<br />
0<br />
54.3 -- 130
Issue Date: 2009-11-04 Page 57 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
CY2 body (Bridge cap) 72.3/73. 69.2 70.3/70. 55.6 -- 125<br />
0<br />
8<br />
U5 body 55.9/56. 53.5 65.0/65. 51.2 -- 100<br />
6<br />
5<br />
T2 coil (Class B) 72.9/73. 70.1 82.8/83. 71.3 -- 110<br />
6<br />
3<br />
T2 core (Class B) 65.1/65. 62.7 75.4/75. 63.2 -- 110<br />
8<br />
9<br />
U6 body near U2 69.4/70. 66.9 65.0/65. 53.4 -- 100<br />
1<br />
5<br />
T1 coil (Class B) 60.8/61. 59.4 72.8/73. 59.1 -- 110<br />
5<br />
3<br />
T1 core (Class B) 55.9/56. 54.2 68.8/69. 55.0 -- 110<br />
6<br />
3<br />
PCB near H4 (D8) 60.6/61. 59.1 71.5/72. 58.0 -- 130<br />
3<br />
0<br />
PCB near H5 (Q10A) 62.0/62. 60.3 95.7/96. 82.3 -- 130<br />
7<br />
2<br />
L6 coil (secondary) 79.1/79. 76.8 85.3/85. 72.5 -- 130<br />
8<br />
8<br />
Handle body (plastic) 63.2/63. 55.5 47.7/48. 44.4 -- 85<br />
9<br />
2<br />
Inlet body near Line pin 63.4/64. 47.1 57.9/58. 47.6 -- 70<br />
1<br />
4<br />
L1 coil (on back board) 62.2/62. 60.9 91.4/91. 78.9 -- 105<br />
9<br />
9<br />
L1 coil for U1 (on back board) 62.4/63. 60.8 86.9/87. 73.9 -- 105<br />
1<br />
4<br />
Label body 56.1/56. 51.3 57.9/58. 50.1 -- 60<br />
8<br />
4<br />
Output connector 55.4/56. 54.0 83.7/84. 71.5 -- --<br />
1<br />
2<br />
Ambient 39.3/40. 40.0 39.5/40. 40.0 -- --<br />
0<br />
0<br />
Test Duration: (hour; minute) 1:52 1:59 1:01 1:26 -- --<br />
temperature T of winding: t1 (°C) R1 (Ω) t2 (°C) R2 ( Ω) T (°C) allowed<br />
Tmax (°C)<br />
supplementary information:<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
insulation<br />
class<br />
4.5.5 TABLE: Ball pressure test of thermoplastic parts N/A<br />
allowed allowed impression diameter (mm) .......... :<br />
—
Issue Date: 2009-11-04 Page 58 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
part test temperature (°C)<br />
supplementary information:<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
impression diameter<br />
(mm)<br />
5.2 TABLE: electric strength tests, impulse tests and voltage surge tests Pass<br />
Test voltage applied between: Voltage shape<br />
(AC, DC,<br />
impulse, surge)<br />
Test voltage<br />
(V)<br />
Test on Model: GIN1-5800V4H (used with one power --<br />
module)<br />
-- --<br />
Primary to Secondary DC 4242 No<br />
Primary to Earth DC 2759 No<br />
Test on Model: R2G-5800V (used with two power<br />
modules)<br />
-- -- --<br />
Primary to Secondary DC 4242 No<br />
Primary to Earth DC 2759 No<br />
T1 : One layer of insulation, Top surface to Bottom<br />
surface<br />
AC 3000 No<br />
T1 : Primary winding to SELV winding AC 3000 No<br />
T1 : Primary winding to core AC 2006 No<br />
T1 : SELV winding to core AC 2006 No<br />
T1 : Sleeving for exit lead of transformer one layer,<br />
Top surface to Bottom surface<br />
AC 2006 No<br />
T1 : Insulation tape on core, one layer Top surface to<br />
Bottom surface<br />
AC 2006 No<br />
T1 : Bobbin, Top surface to Bottom surface AC 2006 No<br />
T2 : One layer of insulation, Top surface to Bottom<br />
surface<br />
AC 3000 No<br />
T2 : Primary winding to SELV winding AC 3000 No<br />
T2 : Primary winding to core AC 1951 No<br />
T2 : SELV winding to core AC 1951 No<br />
T2 : Sleeving for exit lead of transformer, Top<br />
surface to Bottom surface<br />
AC 1951 No<br />
T2 : Insulation tape on core, one layer Top surface to AC<br />
Bottom surface<br />
1951 No<br />
T2 : Bobbin, Top surface to Bottom surface AC 1951 No<br />
Mylar sheet, (Located between PWB and bottom<br />
chassis), Top surface to Bottom surface<br />
AC 2006 No<br />
Insulation Thermal Pab, (Located on Heat Sink H1,<br />
H2, H3), Top surface to Bottom surface<br />
AC 2006 No<br />
Insulation Tubing, (Sleeving with DC Fan and LED),<br />
Top surface to Bottom surface<br />
AC 3000 No<br />
T1: One layer of insulation tape (Mfr. 3M Company<br />
Electrical Markets Div (EMD), Type 1350-1)<br />
AC 3000 No<br />
Breakdown<br />
Yes / No
Issue Date: 2009-11-04 Page 59 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
T1: One layer of insulation tape (Mfr. 3M Company<br />
Electrical Markets Div (EMD), Type 1350F-1)<br />
AC 3000 No<br />
T1: One layer of insulation tape (Mfr. Bondtec Pacific<br />
Co Ltd., Type 371F)<br />
AC 3000 No<br />
T1: One layer of insulation tape (Mfr. Symbio Inc,<br />
Type 35660)<br />
AC 3000 No<br />
For Amendment 1: -- -- --<br />
Test on model: *R2K-5C00V (Used one Module)<br />
(1200W) and *R2K-5C00V(Used one Module)<br />
(1000W)<br />
-- -- --<br />
Unit: Primary to Secondary DC 4242 No<br />
Unit: Primary to Earth DC 2837 No<br />
Transformer T2: Primary winding to SELV winding AC 3000 No<br />
Transformer T2: Primary winding to core AC 2006 No<br />
Transformer T2: SELV to core AC 2006 No<br />
supplementary information:<br />
5.3 TABLE: fault condition tests Pass<br />
Component<br />
No.<br />
ambient temperature (°C) ...................................... :<br />
Power source for EUT: Manufacturer, model/type,<br />
output rating............................................................ :<br />
Fault Supply<br />
voltage<br />
(V)<br />
Test time Fuse<br />
#<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
See below for details. —<br />
See below for details. —<br />
Fuse current<br />
(A)<br />
Observation<br />
-- -- -- -- -- -- Ambient = 21 degree C,<br />
Test on Model: R2G-5800V<br />
(used with one power<br />
module), Fuse (F1) Rating<br />
250V/T12A, Manufacture<br />
Conquer, Type GPA, Note:<br />
Time is for reference only.<br />
BD1 (AC- s - c 240 1 second F1 0 IP (F1), NC, NT, NB.<br />
(+))<br />
C8 s - c 240 1 second F1 0 IP (F1), NC, NT, NB.<br />
T1 (5-8) s - c 240 0.5 hours F1 0.104 Unit shut down and no<br />
indication of output voltage<br />
and current, NC, NT, NB,<br />
CT.<br />
T1 (5-6) s - c 240 0.5 hours F1 0.108 Unit shut down and no<br />
indication of output voltage<br />
and current, NC, NT, NB,<br />
CT.<br />
T1 (5-7) s - c 240 0.5 hours F1 0.107 Unit shut down and no<br />
indication of output voltage
Issue Date: 2009-11-04 Page 60 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
and current, NC, NT, NB,<br />
CT.<br />
T1 (1-4) s - c 240 0.5 hours F1 0.108 Unit shut down and no<br />
indication of output voltage<br />
and current, NC, NT, NB,<br />
T2 (2, 3 - 5,<br />
6)<br />
T2 (13, 14 -<br />
15, 16)<br />
s - c 240 2.5 hours F1 0.311 Unit shut down immediately<br />
except +5Vsb, T1 = 78<br />
degree C, T2 = 54 degree<br />
C, U5 = 48 degree C, U6 =<br />
64 degree C, NC, NT, NB,<br />
s - c 240 3 hours F1 0.314 Unit shut down immediately<br />
except +5Vsb, T1 = 80<br />
degree C, T2 = 56 degree<br />
C, U5 = 50 degree C, U6 =<br />
66 degree C, NC, NT, NB,<br />
CT.<br />
U2 (3 - 4) s - c 240 2 hours F1 4.01 Unit operation normally,<br />
temperature was stable, T1<br />
= 38 degree C, T2 = 49<br />
degree C, U5 = 54 degree<br />
C, U6 = 39 degree C, NC,<br />
NT, NB, CT.<br />
U2 (1-2) s - c 240 0.5 hours F1 0.104 Unit shut down and no<br />
indication of output voltage<br />
and current, NC, NT, NB,<br />
CT.<br />
U5 (3 - 4) s - c 240 2 hours F1 4.01 Unit operation normally,<br />
temperature was stable, T1<br />
= 37 degree C, T2 = 48<br />
degree C, U5 = 54 degree<br />
C, U6 = 39 degree C, NC,<br />
NT, NB, CT.<br />
U5 (1 - 2) s - c 240 3 hours F1 0.310 Unit shut down immediately<br />
except +5Vsb, T1 = 85<br />
degree C, T2 = 60 degree<br />
C, U5 = 52 degree C, U6 =<br />
68 degree C, NC, NT, NB,<br />
CT.<br />
U6 (3 - 4) s - c 240 4 hours F1 0.312 Unit shut down immediately<br />
except +5Vsb, T1 = 80<br />
degree C, T2 = 58 degree<br />
C, U5 = 54 degree C, U6 =<br />
65 degree C, NC, NT, NB,<br />
CT.<br />
U6 (1 - 2) s - c 240 3 hours F1 0.314 Unit shut down immediately<br />
except +5Vsb, T1 = 78<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
CT.<br />
CT.
Issue Date: 2009-11-04 Page 61 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Q8 (D - S) s - c 240 1 second F1 0<br />
degree C, T2 = 59 degree<br />
C, U5 = 56 degree C, U6 =<br />
64 degree C, NC, NT, NB,<br />
CT.<br />
CD (F1, Q8), NC, NT, NB.<br />
Q8 (D - G) s - c 240 1 second F1 0 CD (F1, Q8, R34), NC, NT,<br />
NB.<br />
Q8 (S - G) s - c 240 2.5 hours F1 0.311 Unit shut down immediately<br />
except +5Vsb, T1 = 80<br />
degree C, T2 = 50 degree<br />
C, U5 = 55 degree C, U6 =<br />
65 degree C, NC, NT, NB,<br />
CT.<br />
Q11 (D - S) s - c 240 1 second F1 0 CD (F1, R19), NC, NT, NB.<br />
Q11 (D - G) s - c 240 1 second F1 0 CD (F1, Q11, R17), NC, NT,<br />
Q11 (S - G) s - c 240 0.5 hours F1 0.105 Unit shut down and no<br />
indication of output voltage<br />
and current, NC, NT, NB,<br />
CT.<br />
D6 s - c 240 0.5 hours F1 0.104 Unit shut down and no<br />
indication of output voltage<br />
and current, NC, NT, NB,<br />
CT.<br />
T4 (1 - 4) s - c 240 1 second F1 0 CD (F1), NC, NT, NB.<br />
T4 (2 - 3) s - c 240 1 second F1 0 CD (F1), NC, NT, NB.<br />
D7 s - c 240 0.5 hours F1 0.104 Unit shut down and no<br />
indication of output voltage<br />
and current, NC, NT, NB,<br />
CT.<br />
REL1 o - p 240 30 mins F1 4.01 Unit operation normally,<br />
temperature was stable, T1<br />
= 39 degree C, T2 = 50<br />
degree C, U5 = 54 degree<br />
C, U6 = 39 degree C, NC,<br />
NT, NB, CT.<br />
Q1 (D - S) s - c 240 1 second F1 0 CD (F1, Q1, R10), NC, NT,<br />
NB.<br />
Q1 (D - G) s - c 240 1 second F1 0 CD (F1, Q1, R11), NC, NT,<br />
NB.<br />
Q1 (S - G) s - c 240 1 hours F1 0.105 Unit shut down and no<br />
indication of output voltage<br />
and current, NC, NT, NB,<br />
CT.<br />
Q1A (D - S) s - c 240 1 second F1 0 CD (F1, Q1A), NC, NT, NB.<br />
Q1A (D - s - c 240 1 second F1 0 CD (F1, Q1A, R55), NC,<br />
G)<br />
NT, NB.<br />
Q1A (S - s - c 240 1 hours F1 0.105 Unit shut down and no<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
NB.
Issue Date: 2009-11-04 Page 62 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
G) indication of output voltage<br />
and current, NC, NT, NB,<br />
CT.<br />
-- -- -- -- -- -- Fuse (F1) Rating<br />
250V/T12A, Manufacture<br />
Littelfuse Inc, Type 215<br />
BD1 (AC-<br />
(+))<br />
s - c 240 1 second F1 0 IP (F1), NC, NT, NB.<br />
C8 s - c 240 1 second F1 0 IP (F1), NC, NT, NB.<br />
Q8 (D - S) s - c 240 1 second F1 0 CD (F1, Q8), NC, NT, NB.<br />
Q8 (D - G) s - c 240 1 second F1 0 CD (F1, Q8, R34), NC, NT,<br />
NB.<br />
Q11 (D - S) s - c 240 1 second F1 0 CD (F1, R19), NC, NT, NB.<br />
Q11 (D - G) s - c 240 1 second F1 0 CD (F1, Q11, R17), NC, NT,<br />
NB.<br />
T4 (1 - 4) s - c 240 1 second F1 0 CD (F1), NC, NT, NB.<br />
T4 (2 - 3) s - c 240 1 second F1 0 CD (F1), NC, NT, NB.<br />
Q1 (D - S) s - c 240 1 second F1 0 CD (F1, Q1, R10), NC, NT,<br />
NB.<br />
Q1 (D - G) s - c 240 1 second F1 0 CD (F1, Q1, R11), NC, NT,<br />
NB.<br />
Q1A (D - S) s - c 240 1 second F1 0 CD (F1, Q1A), NC, NT, NB.<br />
Q1A (D - s - c 240 1 second F1 0 CD (F1, Q1A, R55), NC,<br />
G)<br />
NT, NB.<br />
-- -- -- -- -- -- Ambient = 19 degree C,<br />
Test on Model: R2G-5800V<br />
(used with one power<br />
module), Note: Time is for<br />
reference only.<br />
Unit (R2G- Locked Fan 240 2 hours F1 4.03 to 0.314 Unit shut down after 10<br />
5800V)<br />
minutes, T2 = 132 degree<br />
C, T1 = 107 degree C, U5 =<br />
127 degree C, U6 = 116<br />
degree C, NC, NT, NB, CT.<br />
Unit (R2G- Blocked 240 2.5 hours F1 4.03 to 0.108 Unit shut down after 2<br />
5800V) Openings<br />
hours, T2 = 142 degree C,<br />
T1 = 108 degree C, U5 =<br />
151 degree C, U6 = 117<br />
degree C, NC, NT, NB, CT.<br />
Unit (GIN1- Locked Fan 240 2 hours F1 4.04 Unit shut down after 5<br />
5800V4H)<br />
minutes, T2 = 141 degree<br />
C, T1 = 155 degree C, U5 =<br />
129 degree C, U6 = 120<br />
degree C, NC, NT, NB, CT.<br />
Unit (GIN1- Blocked 240 2.5 hours F1 4.06 Unit Operation Normally, T2<br />
5800V4H) Openings<br />
= 104 degree C, T1 = 97<br />
degree C, U5 =73 degree<br />
C, U6 = 71 degree C, NC,<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 63 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
NT, NB, CT.<br />
-- -- -- -- -- -- Ambient = 21 degree C,<br />
Test on Model: R2G-5800V<br />
(used with one power<br />
module), Note: Time is for<br />
T2 (13, 14 -<br />
15, 16)<br />
after L6<br />
T1 (5 - 6)<br />
after D8<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
reference only.<br />
o - l 240 4 hours F1 4.64 Temperature was stable at<br />
load 69 A, T1 = 77 degree<br />
C, T2 = 106 degree C, U5 =<br />
81 degree C, U6 = 75<br />
degree C, Unit shut down at<br />
load 70 A except 5Vsb, NC,<br />
NT, NB.<br />
o - l 240 6.5 hours F1 0.414 Temperature was stable at<br />
load 55 A, T1 = 80 degree<br />
C, T2 = 77 degree C, U5 =<br />
63 degree C, U6 = 62<br />
degree C, Unit shut down at<br />
load 6 A, NC, NT, NB.<br />
-- -- -- -- -- -- Ambient = 19 degree C,<br />
Test on Model: R2G-5800V<br />
(used with one power<br />
module), *Note: Time is for<br />
reference only.<br />
3.3V / 32 A s - c 240 4 hours F1 0.310 Unit shut down immediately,<br />
except 5 Vsb, T1 = 78<br />
degree C, T2 = 52 degree<br />
C, U5 = 49 degree C, U6 =<br />
69 degree C, NC, NT, NB,<br />
CT.<br />
3.3V / 32 A o - l 240 4 hours F1 4.51 Temperature was stable at<br />
load 36A, T1 = 77 degree<br />
C, T2 = 88 degree C, U5 =<br />
64 degree C, U6 = 51<br />
degree C, Unit shut down at<br />
load 37 A except 5 Vsb, NC,<br />
NT, NB.<br />
5V / 32 A s - c 240 3 hours F1 0.308 Unit shut down immediately,<br />
except 5 Vsb, T1 = 76<br />
degree C, T2 = 50 degree<br />
C, U5 = 50 degree C, U6 =<br />
67 degree C, NC, NT, NB,<br />
CT.<br />
5V / 32 A o - l 240 3 hours F1 4.32 Temperature was stable at<br />
load 34A, T1 = 71 degree<br />
C, T2 = 90 degree C, U5 =<br />
71 degree C, U6 = 76<br />
degree C, Unit shut down at
Issue Date: 2009-11-04 Page 64 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
load 34.5 A except 5 Vsb,<br />
NC, NT, NB.<br />
12V / 65 A s - c 240 3 hours F1 0.311 Unit shut down immediately,<br />
except 5 Vsb, T1 = 76<br />
degree C, T2 = 58 degree<br />
C, U5 = 46 degree C, U6 =<br />
68 degree C, NC, NT, NB,<br />
CT.<br />
12V / 65 A o - l 240 2.5 hours F1 4.61 Temperature was stable at<br />
load 68A, T1 = 60 degree<br />
C, T2 = 77 degree C, U5 =<br />
48 degree C, U6 = 61<br />
degree C, Unit shut down at<br />
load 68.5 A except 5 Vsb,<br />
-12V / 0.8<br />
A<br />
-12V / 0.8<br />
A<br />
5Vsb / 3.5<br />
A<br />
5Vsb / 3.5<br />
A<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
NC, NT, NB.<br />
s - c 240 3.5 hours F1 0.310 Unit shut down immediately,<br />
except 5 Vsb, T1 = 50<br />
degree C, T2 = 73 degree<br />
C, U5 = 42 degree C, U6 =<br />
32 degree C, NC, NT, NB,<br />
o - l 240 5 hours F1 4.14 Temperature was stable at<br />
load 2A, T1 = 50 degree C,<br />
T2 = 73 degree C, U5 = 42<br />
degree C, U6 = 32 degree<br />
C, Unit shut down at load<br />
2.4 A except 5 Vsb, NC, NT,<br />
s - c 240 0.5 hours F1 0.104 Unit shut down and no<br />
indication of output voltage<br />
CT.<br />
NB.<br />
and current, NC, NT, NB.<br />
o - l 240 6 hours F1 0.392 Temperature was stable at<br />
load 4.5A, T1 = 82 degree<br />
C, T2 = 76 degree C, U5 =<br />
49 degree C, U6 = 48<br />
degree C, Unit shut down at<br />
load 4.8 A, NC, NT, NB.<br />
-- -- -- -- -- -- Ambient = 19 degree C,<br />
Test on Model: R2G-5800V<br />
(used with one power<br />
module), Note: Time is for<br />
+3.3V to<br />
+5V<br />
reference only.<br />
s - c 240 3 hours F1 0.309 Unit shut down immediately<br />
except +5Vsb, T1 = 78<br />
degree C, T2 = 54 degree<br />
C, U5 = 50 degree C, U6 =<br />
67 degree C, NC, NT, NB,<br />
CT.
Issue Date: 2009-11-04 Page 65 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
+3.3V to<br />
+12V<br />
+3.3V to -<br />
12V<br />
+3.3V to<br />
+5Vsb<br />
+5V to<br />
+12V<br />
+5V to -<br />
12V<br />
12V to -<br />
12V<br />
s - c 240 2.5 hours F1 0.312 Unit shut down immediately<br />
except +5Vsb, T1 = 79<br />
degree C, T2 = 53 degree<br />
C, U5 = 50 degree C, U6 =<br />
68 degree C, NC, NT, NB,<br />
s - c 240 3 hours F1 0.311 Unit shut down immediately<br />
except +5Vsb, T1 = 79<br />
degree C, T2 = 54 degree<br />
C, U5 = 52 degree C, U6 =<br />
65 degree C, NC, NT, NB,<br />
s - c 240 0.5 hours F1 0.105 Unit shut down immediately,<br />
no output voltage and<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
CT.<br />
CT.<br />
current, NC, NT, NB, CT.<br />
s - c 240 3 hours F1 0.311 Unit shut down immediately<br />
except +5Vsb, T1 = 80<br />
degree C, T2 = 56 degree<br />
C, U5 = 52 degree C, U6 =<br />
65 degree C, NC, NT, NB,<br />
s - c 240 2.5 hours F1 0.314 Unit shut down immediately<br />
except +5Vsb, T1 = 80<br />
degree C, T2 = 54 degree<br />
C, U5 = 51 degree C, U6 =<br />
64 degree C, NC, NT, NB,<br />
s - c 240 3 hours F1 0.311 Unit shut down immediately<br />
except +5Vsb, T1 = 79<br />
degree C, T2 = 53 degree<br />
C, U5 = 49 degree C, U6 =<br />
68 degree C, NC, NT, NB,<br />
CT.<br />
5V to 5Vsb s - c 240 1.5 hours F1 4.01 Unit operation normally,<br />
temperature was stable, T1<br />
= 36 degree C, T2 = 48<br />
degree C, U5 = 54 degree<br />
C, U6 = 39 degree C, NC,<br />
12V to<br />
+5Vsb<br />
-12V to<br />
+5Vsb<br />
CT.<br />
CT.<br />
NT, NB, CT.<br />
s - c 240 0.5 hours F1 0.106 Unit shut down immediately,<br />
no output voltage and<br />
current, NC, NT, NB, CT.<br />
s - c 240 0.5 hours F1 0.104 Unit shut down immediately,<br />
no output voltage and<br />
current, NC, NT, NB, CT.<br />
-- -- -- -- -- -- For Amendment 1:<br />
-- -- -- -- -- -- Ambient = 23.8 degree C,<br />
Test on Model: R2K-5C00V
Issue Date: 2009-11-04 Page 66 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
BD1 (AC to<br />
+)<br />
Short 240 1 sec F1 5.97 to 0<br />
(used one module). Test<br />
Loading Condition A, Fan<br />
outward. Fuse (F1) Rating<br />
250V, F15A, Manufacture<br />
Conquer Electronics Co Ltd,<br />
Type GBP+. (Listed).<br />
CD (F1), NC, NT, NB<br />
C9 Short 240 1 sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q8(D-G)<br />
(rated 17A)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1, Q8) NC, NT, NB<br />
Q8(D-S) Short 240 1 sec F1 5.99 to 0 CD (F1, Q8, R34) NC, NT,<br />
(rated 17A)<br />
NB<br />
Q11(D-G)<br />
(rated 3A)<br />
Short 240 1 sec F1 5.98 to 0 CD (F1,Q11) NC, NT, NB<br />
Q11(D-S)<br />
(rated 3A)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1,Q11) NC, NT, NB<br />
T3 (1-2) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
T3 (3-4) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q1 (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1 (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1A (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R10A), NC,<br />
NT, NB<br />
Q1A (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R11A), NC,<br />
NT, NB<br />
D28 Short 240 1.5 hrs F1 5.99 Unit operation Normally,<br />
T2=71.8 degree C, T1=43.9<br />
degree C, U2=54.0 degree<br />
C, U5=69.3 degree C, NC,<br />
NT, NB<br />
C60 Short 240 0.5 hrs F1 5.99 Unit operation Normally,<br />
NC, NT, NB<br />
R76 Short 240 1.5 hrs F1 5.97 Unit operation Normally,<br />
NC, NT, NB<br />
R78A Short 240 0.5 hrs F1 5.97 Unit operation Normally,<br />
NC, NT, NB<br />
R78 Short 240 0.5 hrs F1 5.99 Unit operation Normally,<br />
NC, NT, NB<br />
R79A Short 240 0.5 hrs F1 5.99 Unit operation Normally,<br />
NC, NT, NB<br />
R81 Short 240 0.5 hrs F1 5.97 Unit operation Normally,<br />
NC, NT, NB<br />
-- -- -- -- -- -- Ambient = 23.8 degree C,<br />
Test on Model: R2K-5C00V<br />
(used one module). Test<br />
Loading Condition A, Fan<br />
outward. Fuse (F1) Rating<br />
250V, F15A, Manufacture<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 67 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
BD1 (AC to<br />
+)<br />
Short 240 1 sec F1 5.97 to 0<br />
Walter Electronic Co Ltd,<br />
Type FSC.<br />
CD (F1), NC, NT, NB<br />
C9 Short 240 1 sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q8(D-G)<br />
(rated 17A)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1, Q8) NC, NT, NB<br />
Q8(D-S) Short 240 1 sec F1 5.99 to 0 CD (F1, Q8, R34) NC, NT,<br />
(rated 17A)<br />
NB<br />
Q11(D-G)<br />
(rated 3A)<br />
Short 240 1 sec F1 5.98 to 0 CD (F1,Q11) NC, NT, NB<br />
Q11(D-S)<br />
(rated 3A)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1,Q11) NC, NT, NB<br />
T3 (1-2) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
T3 (3-4) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q1 (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1 (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1A (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R10A), NC,<br />
NT, NB<br />
Q1A (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R11A), NC,<br />
NT, NB<br />
-- -- -- -- -- -- Ambient = 23.8 degree C,<br />
Test on Model: R2K-5C00V<br />
(used one module). Test<br />
Loading Condition A, Fan<br />
outward. Fuse (F1) Rating<br />
250V, F15A, Manufacture<br />
Conquer Electronics Co Ltd,<br />
Type GBF.<br />
BD1 (AC to<br />
+)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1), NC, NT, NB<br />
C9 Short 240 1 sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q8(D-G)<br />
(rated 17A)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1, Q8) NC, NT, NB<br />
Q8(D-S) Short 240 1 sec F1 5.99 to 0 CD (F1, Q8, R34) NC, NT,<br />
(rated 17A)<br />
NB<br />
Q11(D-G)<br />
(rated 3A)<br />
Short 240 1 sec F1 5.98 to 0 CD (F1,Q11) NC, NT, NB<br />
Q11(D-S)<br />
(rated 3A)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1,Q11) NC, NT, NB<br />
T3 (1-2) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
T3 (3-4) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q1 (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1 (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1A (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R10A), NC,<br />
NT, NB<br />
Q1A (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R11A), NC,<br />
NT, NB<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 68 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
-- -- -- -- -- -- Ambient = 23.8 degree C,<br />
Test on Model: R2K-5C00V<br />
(used one module). Test<br />
Loading Condition A, Fan<br />
outward. Fuse (F1) Rating<br />
250V, F15A, Manufacture<br />
Conquer Electronics Co Ltd,<br />
Type GBF-A.<br />
BD1 (AC to<br />
+)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1), NC, NT, NB<br />
C9 Short 240 1 sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q8(D-G)<br />
(rated 17A)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1, Q8) NC, NT, NB<br />
Q8(D-S) Short 240 1 sec F1 5.99 to 0 CD (F1, Q8, R34) NC, NT,<br />
(rated 17A)<br />
NB<br />
Q11(D-G)<br />
(rated 3A)<br />
Short 240 1 sec F1 5.98 to 0 CD (F1,Q11) NC, NT, NB<br />
Q11(D-S) Short 240 1 sec F1 5.97 to 0 CD (F1,Q11) NC, NT, NB<br />
(rated 3A)<br />
T3 (1-2) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
T3 (3-4) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q1 (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1 (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1A (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R10A), NC,<br />
NT, NB<br />
Q1A (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R11A), NC,<br />
NT, NB<br />
-- -- -- -- -- -- Ambient = 23.8 degree C,<br />
Test on Model: R2K-5C00V<br />
(used one module). Test<br />
Loading Condition A, Fan<br />
outward. Fuse (F1) Rating<br />
250V, F15A, Manufacture<br />
Sun Electric Co, Type 5C.<br />
BD1 (AC to<br />
+)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1), NC, NT, NB<br />
C9 Short 240 1 sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q8(D-G)<br />
(rated 17A)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1, Q8) NC, NT, NB<br />
Q8(D-S) Short 240 1 sec F1 5.99 to 0 CD (F1, Q8, R34) NC, NT,<br />
(rated 17A)<br />
NB<br />
Q11(D-G)<br />
(rated 3A)<br />
Short 240 1 sec F1 5.98 to 0 CD (F1,Q11) NC, NT, NB<br />
Q11(D-S) Short 240 1 sec F1 5.97 to 0 CD (F1,Q11) NC, NT, NB<br />
(rated 3A)<br />
T3 (1-2) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
T3 (3-4) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q1 (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.
Issue Date: 2009-11-04 Page 69 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
Q1 (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1A (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R10A), NC,<br />
NT, NB<br />
Q1A (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R11A), NC,<br />
NT, NB<br />
-- -- -- -- -- -- Ambient = 23.8 degree C,<br />
Test on Model: R2K-5C00V<br />
(used one module). Test<br />
Loading Condition A, Fan<br />
outward. Fuse (F1) Rating<br />
250V, F15A, Manufacture<br />
Sun Electric Co, Type 5CP.<br />
BD1 (AC to<br />
+)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1), NC, NT, NB<br />
C9 Short 240 1 sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q8(D-G)<br />
(rated 17A)<br />
Short 240 1 sec F1 5.97 to 0 CD (F1, Q8) NC, NT, NB<br />
Q8(D-S) Short 240 1 sec F1 5.99 to 0 CD (F1, Q8, R34) NC, NT,<br />
(rated 17A)<br />
NB<br />
Q11(D-G)<br />
(rated 3A)<br />
Short 240 1 sec F1 5.98 to 0 CD (F1,Q11) NC, NT, NB<br />
Q11(D-S) Short 240 1 sec F1 5.97 to 0 CD (F1,Q11) NC, NT, NB<br />
(rated 3A)<br />
T3 (1-2) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
T3 (3-4) Short 240 1sec F1 5.98 to 0 CD (F1), NC, NT, NB<br />
Q1 (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1 (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1), NC, NT, NB<br />
Q1A (D-G) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R10A), NC,<br />
NT, NB<br />
Q1A (D-S) Short 240 1sec F1 5.98 to 0 CD (F1, Q1A, R11A), NC,<br />
NT, NB<br />
-- -- -- -- -- -- Test on Model: R2K-5C00V<br />
(used one module). Test<br />
Loading Condition A, Fan<br />
Unit Fan Locked 240 1.5 hrs F1 6.10 to<br />
0.159<br />
Unit Opening<br />
blocked<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
outward.<br />
Unit shut down after 2<br />
minutes, T2 = 126.6 degree<br />
C T1 = 65.2 degree C U5 =<br />
81.2 degree C U6 = 100.5<br />
degree C, ambient = 24.7<br />
degree C, NC, NT, NB.<br />
240 1.5 hrs F1 6.19 to 0.158 Unit shut down after 5<br />
minutes, T2 = 104.2 degree<br />
C T1 = 101.8 degree C, U5<br />
= 98.4 degree C, U6 =<br />
101.6 degree C, ambient =<br />
24.1 degree C, NC, NT, NB.<br />
T2 (13.14 Overload 240 2.1 hrs F1 5.90 to 0.158 Temperature was stable at
Issue Date: 2009-11-04 Page 70 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
to 10) after<br />
L6 for +12V<br />
T1 (8-6)<br />
after D9 for<br />
internal<br />
+24V<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
load 103A, unit shut down<br />
at load 104A except +5VSB,<br />
T2 coil = 85.7 degree C, T1<br />
coil = 83.1, degree C, U5<br />
coil = 73.8, degree C, U6 =<br />
69.0 degree C, ambient =<br />
22.1 degree C, NC, NT, NB.<br />
Overload 240 5 hrs F1 5.98 to 0.156 Temperature was stable at<br />
load 1A, unit shut down at<br />
load 1.5A except +5VSB,<br />
T2 coil = 89.9 degree C, T1<br />
coil = 86.0 degree C, U5 coil<br />
= 78.3 degree C, U6 = 74.4<br />
degree C, ambient = 20.5<br />
degree C, NC, NT, NB.<br />
-- -- -- -- -- -- Fan outward. Test<br />
condition A for 3.3V,<br />
+5VSB. Test condition B<br />
for 5V. *Test condition C for<br />
12V. Test condition A for -<br />
12V.<br />
3.3V/32A Short 240 1.5 hrs F1 5.98 to 0.158 Unit shut down except<br />
+5VSB, T2 coil = 44.6<br />
degree C, T1 coil = 75.5<br />
degree C, U5 coil = 61.7<br />
degree C, U6 = 44.9 degree<br />
C, ambient = 21.9 degree<br />
C, NC, NT, NB.<br />
5V/32A Short 240 0.5 hr F1 5.99 to 0.158 Unit shut down except<br />
5VSB, NC, NT, NB<br />
12V/100A Short 240 0.5 hr F1 5.97 to 0.157 Unit shut down except<br />
5VSB, NC, NT, NB<br />
-12V/0.5A Short 240 0.5 hr F1 5.97 to 0.159 Unit shut down except<br />
+5VSB/3.5<br />
A<br />
Short 240 0.5 hr F1 5.97 to 0.104<br />
5VSB, NC, NT, NB<br />
SD NC, NT, NB<br />
3.3V/32A Short 240 4.6 hrs F1 6.07 to 6.10 to Temperature was stable at<br />
0.157 load 38A, unit shut down at<br />
load 39A except +5VSB, T2<br />
coil=96.1 degree C, T1 coil<br />
= 89.3 degree C, U5 coil =<br />
82.0 degree C, U6 = 79.4<br />
degree C, ambient = 21.5<br />
degree C, NC, NT, NB<br />
5V/32A Overload 240 1.6 hrs F1 6.10 to 6.13 to Temperature was stable at<br />
0.158 load 37A, unit shut down at<br />
load 38A except +5VSB, T2<br />
coil = 90.2 degree C, T1 coil
Issue Date: 2009-11-04 Page 71 of 71 Report Reference #<br />
Amendment 1 2009-12-18<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Clause Requirement + Test Result - Remark Verdict<br />
12V/100A 3 240 3.1 hrs F1 5.82 to 5.90 to<br />
0.158<br />
-12V/0.5A 3 240 2.5 hr F1 5.98 to 6.03 to<br />
0.157<br />
+5VSB/3.5<br />
A<br />
3 240 6 hrs F1 0.300 to 0.331<br />
to 0.105<br />
supplementary information:<br />
TRF No. IECEN60950_1C Underwriters Laboratories Inc.<br />
= 86.0 degree C, U5 coil =<br />
78.0 degree C, U6 = 74.4<br />
degree C, ambient = 21.2<br />
degree C, NC, NT, NB<br />
Temperature was stable at<br />
load 102A, unit shut down<br />
at load 103A except +5VSB,<br />
T2 coil = 86.1 degree C, T1<br />
coil = 53.1 degree C, U5 coil<br />
= 63.1 degree C, U6 = 70.2<br />
degree C, ambient = 21.9<br />
degree C, NC, NT, NB<br />
Temperature was stable at<br />
load 1A, unit shut down at<br />
load 1.5A except +5VSB,<br />
T2 coil = 89.0 degree C, T1<br />
coil = 87.4 degree C, U5 coil<br />
= 78.4 degree C, U6 = 73.6<br />
degree C, ambient = 22.5<br />
degree C, NC, NT, NB<br />
Temperature was stable at<br />
load 4.2A, unit shut down at<br />
load 4.3A except +5VSB,<br />
T2 coil=51.2 degree C, T1<br />
coil=84.5 degree C, U5<br />
coil=68.2 degree C,<br />
U6=50.5 degree C,<br />
ambient=21.3 degree C,<br />
NC, NT, NB (See Fig D7)<br />
Results Key: IP = Internal protection operated (component indicated) CD = Components damaged (damaged<br />
components indicated) NB = No indication of dielectric breakdown NC = Cheesecloth remained intact NT =<br />
Tissue paper remained intact CT = Constant Temperature
Issue Date: 2009-11-04 Page 1 of 2 Report Reference #<br />
Amendment 1 2009-12-18<br />
<strong>Enclosure</strong><br />
National Differences<br />
USA / Canada<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 2 of 2 Report Reference #<br />
Amendment 1 2009-12-18<br />
SubClause<br />
IEC 60950-1:2005<br />
E143756-A57-UL-2<br />
Difference + Test Result - Remark Verdict<br />
USA / Canada - Differences to IEC 60950-1:2005, Second Edition<br />
5.3.7 Overloading of SELV connectors and printed wiring<br />
board receptacles accessible to the operator.<br />
Underwriters Laboratories Inc.<br />
N/A
Issue Date: 2009-11-04 Page 1 of 9 Report Reference #<br />
Amendment 1 2009-12-18<br />
Supplement Id Description<br />
<strong>Enclosure</strong><br />
Photographs<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2<br />
3-01 Overall view of front side (for Models R2G-5800V, R2K-5800V, R2K-5C00V)<br />
3-02 Overall view or rear side (for Models R2G-5800V, R2K-5800V, R2K-5C00V)<br />
3-03 Overall view of front side (for Models GIN-3800V, KIN-2800V)<br />
3-04 Overall view of rear side (for Models GIN-3800V, KIN-2800V)<br />
3-05 Overall view of front side (for Models GIN1-5800V4H, GIN1-5800V4D)<br />
3-06 Overall view of rear side (for Models GIN1-5800V4H, GIN1-5800V4D)<br />
3-07 Internal view of component side (for Model GIN-3800V)<br />
3-08 Internal view of solder side (for Model GIN-3800V)<br />
3-09 Component side of back board (for Model GIN1-5800V4H)<br />
3-10 Trace side of back board (for Model GIN1-5800V4H)<br />
3-11 Component side of back board (for Model GIN1-5800V4D)<br />
3-12 Trace side of back board (for Model GIN1-5800V4D)<br />
3-13 Component side of back board (for Model R2G-5800)<br />
3-14 Trace side of back board (for Model R2G-5800)<br />
3-15 Overall view of front side (for Models KIN-2C00V, KIN-2A00V)<br />
3-16 Internal view of component side (for Models KIN-2C00V and KIN-2A00V)<br />
3-17 Internal view of solder side (for Models KIN-2800V, KIN-2C00V, KIN-2A00V)<br />
3-18 Component side of back board (for Models R2K-5800V, R2K-5C00V, R2K-<br />
5A00V)<br />
3-19 Trace side of back board view 1 (for Models R2K-5800V, R2K-5C00V, R2K-<br />
5A00V)<br />
3-20 Trace side of back board view 2 (for Models R2K-5800V, R2K-5C00V, R2K-<br />
5A00V)<br />
3-21 Trace side of back board view 3 - mylar removed (for Models R2K-5800V,<br />
R2K-5C00V, R2K-5A00V)<br />
3-22 Internal view of component side (for Model KIN-2800V)
Issue Date: 2009-11-04 Page 2 of 9 Report Reference #<br />
Amendment 1 2009-12-18<br />
Photographs ID 3-15<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 3 of 9 Report Reference #<br />
Amendment 1 2009-12-18<br />
Photographs ID 3-16<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 4 of 9 Report Reference #<br />
Amendment 1 2009-12-18<br />
Photographs ID 3-17<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 5 of 9 Report Reference #<br />
Amendment 1 2009-12-18<br />
Photographs ID 3-18<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 6 of 9 Report Reference #<br />
Amendment 1 2009-12-18<br />
Photographs ID 3-19<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 7 of 9 Report Reference #<br />
Amendment 1 2009-12-18<br />
Photographs ID 3-20<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 8 of 9 Report Reference #<br />
Amendment 1 2009-12-18<br />
Photographs ID 3-21<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 9 of 9 Report Reference #<br />
Amendment 1 2009-12-18<br />
Photographs ID 3-22<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 1 of 5 Report Reference #<br />
Amendment 1 2009-12-18<br />
Supplement Id Description<br />
4-01 Transformer (T1) spec<br />
4-02 Transformer (T2) spec<br />
<strong>Enclosure</strong><br />
Diagrams<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2<br />
4-03 Insulation sheet for Models GIN-3800V, KIN-2800V, KIN-2C00V, KIN-2A00V<br />
4-04 Insulation sheet for Model GIN1-5800V4D/ V4H
Issue Date: 2009-11-04 Page 2 of 5 Report Reference #<br />
Amendment 1 2009-12-18<br />
Diagrams ID 4-01<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 3 of 5 Report Reference #<br />
Amendment 1 2009-12-18<br />
Diagrams ID 4-01<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 4 of 5 Report Reference #<br />
Amendment 1 2009-12-18<br />
Diagrams ID 4-02<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 5 of 5 Report Reference #<br />
Amendment 1 2009-12-18<br />
Diagrams ID 4-02<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 1 of 7 Report Reference #<br />
Amendment 1 2009-12-18<br />
Supplement Id Description<br />
<strong>Enclosure</strong><br />
Schematics + PWB<br />
5-01 Trace Layout of PWB (For Model GIN-3800V)<br />
5-02 Component side of PWB (For Model GIN-3800V)<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2<br />
5-03 Trace Layout of PWB (For Models KIN-2800V, KIN-2C00V, KIN-2A00V)<br />
5-04 Component side of PWB (For Models KIN-2800V, KIN-2C00V, KIN-2A00V)
Issue Date: 2009-11-04 Page 2 of 7 Report Reference #<br />
Amendment 1 2009-12-18<br />
Schematics ID 5-03<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 3 of 7 Report Reference #<br />
Amendment 1 2009-12-18<br />
Schematics ID 5-03<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 4 of 7 Report Reference #<br />
Amendment 1 2009-12-18<br />
Schematics ID 5-04<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 5 of 7 Report Reference #<br />
Amendment 1 2009-12-18<br />
Schematics ID 5-04<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 1 of 4 Report Reference #<br />
Amendment 1 2009-12-18<br />
Supplement Id Description<br />
7-01 Additional Test Result<br />
<strong>Enclosure</strong><br />
Miscellaneous<br />
7-02 Additional Test Result (for Amendment 1, test reference only)<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 2 of 4 Report Reference #<br />
Amendment 1 2009-12-18<br />
Misc ID 7-02<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 3 of 4 Report Reference #<br />
Amendment 1 2009-12-18<br />
Misc ID 7-02<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 4 of 4 Report Reference #<br />
Amendment 1 2009-12-18<br />
Misc ID 7-02<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 1 of 3 Report Reference #<br />
Amendment 1 2009-12-18<br />
Description<br />
Test Record 1<br />
CRD<br />
Datasheet<br />
Test Record 2<br />
CRD form<br />
Test Datasheet under TPTDP<br />
Test Datasheet under WTDP<br />
<strong>Enclosure</strong><br />
Test Record<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2
Issue Date: 2009-11-04 Page 2 of 3 Report Reference #<br />
Amendment 1 2009-12-18<br />
Test Record No. 2<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2<br />
--The manufacturer submitted representative production samples of Redundant Power Supply and Power<br />
Module, added Models KIN-2800V, KIN-2A00V, KIN-2C00V, R2K-5800V, R2K-5A00V and R2K-5C00V.<br />
--All tests were conducted by Superior Product Consulting, Inc/3F, No. 10, Alley 6, Lane 235, Pao Chiao<br />
Road, Hsien Tien, Taipei, Taiwan under TPTDP, except for (4.3.5) Connector Current Interruption Test<br />
under WTDP.<br />
--Tests conducted on Models KIN-2800V, KIN-2C00V, R2K-5800V and R2K-5C00V were considered to be<br />
representative of Models KIN-2A00V and R2K-5A00V.<br />
--Only limited tests were performed on Models KIN-2800V, KIN-2C00V, R2K-5800V and R2K-5C00V<br />
because of similarity in construction to Models R2G-5800V, GIN-3800V, GIN1-5800V4H and, GIN1-<br />
5800V4D, except for power module, input/output rating, secondary layout of back board (output module)<br />
and DC Fan, which previously performed on the subject unit.<br />
--The results of this investigation, including construction review and testing, indicate that the products<br />
evaluated comply with the applicable requirements in the U.S. and Canadian (Bi-National) Standard for<br />
Safety of Information Technology Equipment, Including Electrical Business Equipment, CAN/CSA-C22.2<br />
No. 60950-1-07 * UL 60950-1, 2nd Edition, 2007-03-27. Any information and documentation involving UL<br />
Mark services are provided on behalf of Underwriters Laboratories Inc. (UL) or any authorized licensee of<br />
UL.<br />
--The following tests conducted in accordance with UL 60950-1, Second Edition, Information Technology<br />
Equipment-Safety-Part 1: General Requirements were considered representative of the same tests<br />
required by Canadian National Standard, CAN/CSA-C22.2 No.60950-1, Second Edition, Information<br />
Technology Equipment-Safety-Part 1: General Requirements.
Issue Date: 2009-11-04 Page 3 of 3 Report Reference #<br />
Amendment 1 2009-12-18<br />
The following tests were conducted:<br />
Test Testing Location/Comments<br />
End Product Reference Page<br />
General Guidelines<br />
Power Supply Reference Page<br />
Maximum Output Voltage, Current, and Volt-Ampere Measurement<br />
(1.2.2.1)<br />
Input: Single-Phase (1.6.2)<br />
Energy Hazard Measurements (2.1.1.5, 2.1.2, 1.2.8.10)<br />
SELV Reliability (2.2.2, 2.2.3, 2.2.4, Part 22 6.1)<br />
Humidity (2.9.1, 2.9.2, 5.2.2)<br />
Determination of Working Voltage; Working Voltage Measurement<br />
(2.10.2)<br />
Determination of Working Voltage; Hazardous Voltage (Circuit)<br />
Measurement (2.10.2, Part 22 6.1)<br />
Transformer and Wire /Insulation Electric Strength (2.10.5.6,<br />
2.10.5.13)<br />
Connector Current Interruption (4.3.5)<br />
Heating (4.5.1, 1.4.12, 1.4.13)<br />
Electric Strength (5.2.2)<br />
Component Failure (5.3.1, 5.3.4, 5.3.7)<br />
Abnormal Operation (5.3.1 - 5.3.9)<br />
Transformer Abnormal Operation (5.3.3, 5.3.7b, Annex C.1)<br />
Power Supply Output Short-Circuit/Overload (5.3.7)<br />
Underwriters Laboratories Inc.<br />
E143756-A57-UL-2<br />
Test results are valid only for the tested equipment. These tests are considered representative of the<br />
products covered by this Test Report. The test methods and results of the above tests have been reviewed<br />
and found to be in accordance with the requirements in the Standard(s) referenced at the beginning of this<br />
Test Report.