126198-CB_report-FSP550,500,460-80GHN,GCM(85)_139234.pdf

126198-CB_report-FSP550,500,460-80GHN,GCM(85)_139234.pdf
Test Report issued under the responsibility of
www.nemko.com
TEST REPORT
IEC 60950-1: 2005 (2nd Edition) and/or EN 60950-1:2006
Information technology equipment – Safety –
Part 1: General requirements
Report Reference No. .................... :
Date of issue .................................... :
Total number of pages ......................
CB Testing Laboratory Name :
Address ........................................... :
Applicant’s name ..................:
139234
January 11, 2009
95 pages and refer to page 13
Nemko Taiwan
Phone: (+ 886) 2 8797 8790
5 Fl., No. 409, Sec.2, Tiding Blvd., Neihu, Taipei 114, Taiwan
FSP Group Inc.
Address ............................................ :
Manufacturer’s name ..................... :
No. 22, Jianguo East Road, Taoyuan City 330, Taiwan
Address ............................................ :
Same as applicant
Factory’s name ............................... :
See name and address of production-sites (Factories) for details.
Address ............................................ :
See name and address of production-sites (Factories) for details.
Test specification:
Standard ........................................... :
Same as applicant
IEC 60950-1:2005 (2nd Edition) and/or
EN 60950-1:2006, A11:2009
Test procedure ................................. :
Non-standard test method…………..:
Test Report Form No. .................... :
CB
N/A
IECEN60950_1C (With unofficial A11)
Test Report Form(s) Originator ....................... :
Master TRF ..................................................... :
SGS Fimko Ltd (Nemko)
Dated 2007-06 (2008 02)
Copyright © 2007 IEC System for Conformity Testing and Certification of Electrical Equipment
(IECEE), Geneva, Switzerland. All rights reserved.
This publication may be reproduced in whole or in part for non-commercial purposes as long as the IECEE is acknowledged as
copyright owner and source of the material. IECEE takes no responsibility for and will not assume liability for damages resulting from
the reader's interpretation of the reproduced material due to its placement and context.
If this Test Report Form is used by non-IECEE members, the IECEE/IEC logo and the reference to the CB Scheme
procedure shall be removed.
This report is not valid as a CB Test Report unless signed by an approved CB Testing Laboratory and appended
to a CB Test Certificate issued by an NCB in accordance with IECEE 02.
This Test Report , when bearing the Nemko name and logo is only valid when issued by a Nemko
laboratory, or by a laboratory having special agreement with Nemko.
- Page 2 of 95 -
Report No. 139234
Test item description………………:
Switching Power Supply for building-in
Trade Mark ....................................... :
1),4) FSP; 2) SPI; 3) Amacrox; 5) AOpen
Manufacturer .................................... :
Same as applicant
Model/Type reference ...................... :
1) FSP.-80.(85)
(The first dot ”.” in the model name can be 460, 500 or 550 to
denote different total output power.
The second dot “.” in the model name can be GHN or GCM to
denote different enclosure shape.)
2) SPI.ACHBB
(The dot ”.” in the model name can be 460, 500 or 550 to denote
different total output power.)
3) AX.-85PLUS
(The dot ”.” in the model name can be 450 or 550 to denote
different total output power.)
4) EPSILON 85PLUS 500; EVEREST 85PLUS 500
5) AT85PLUS-550
Ratings ............................................. :
I/P:
See page 17 and 18.
DC-outputs:
See page 17 and 18.
TRF No. IECEN60950_1C
- Page 3 of 95 -
Report No. 139234
Testing procedure and testing location:
CB Testing Laboratory:
Testing location/ address ...................... :
Nemko Taiwan
5 Fl., No. 409, Sec.2, Tiding Blvd., Neihu, Taipei 114, Taiwan
Associated CB Laboratory:
Testing location/ address ...................... :
Tested by (name + signature) ..... :
Mars Chen
Approved by (+ signature)........... :
Wilson Wang
Testing procedure: TMP
Tested by (name + signature) ..... :
Approved by (+ signature)............ :
Testing location/ address ...................... :
Testing procedure: WMT
Tested by (name + signature) ..... :
Witnessed by (+ signature) .......... :
Approved by (+ signature)........... :
Testing location/ address ...................... :
Testing procedure: SMT
Tested by (name + signature) ..... :
Approved by (+ signature)............ :
Supervised by (+ signature) ........ :
Testing location/ address ................ :
Testing procedure: RMT
Tested by (name + signature) ..... :
Approved by (+ signature)............ :
Supervised by (+ signature) ........ :
Testing location/ address ...................... :
TRF No. IECEN60950_1C
- Page 4 of 95 -
Report No. 139234
Name and address of production-sites (Factories):
1. Shenzhen Huili Electronics Co., Ltd.
Blk. C, Bldg. 7, County 73, Baoan Shenzhen, Guangdong, P.R. China
2. Fortron/Source (China) Corp.
F2, The 2nd industrial Park Mabu, Xi Xiang, Baoan Area, Shenzhen, Guangdong, P.R. China
3. Zhonghan Electronics (Shenzhen) Co. Ltd.
Juyuan Industrial Zone, Tangwei Village, Fuyong Town, Baoan District, ShenZhen, P.R. China
4. Wuxi SPI Technology Co., Ltd.
No. 96, Xin Mei Road, New District, Wuxi City, Jiangsu, China
5. Wuxi Zhonghan Technology Co., Ltd.
No. 96, Xin Mei Road, New District, Wuxi City, Jiangsu, China
Summary of testing:
Tests performed (name of test and test clause):
1.6.2
1.7.11
2.1.1.5 c1)
2.1.1.7
2.2
Electrical data
Durability
Max. V, A, VA test
Discharge of capacitors in equipment
Evaluation of voltage limiting
components in SELV circuits
2.6.3.4
Resistance of earthing conductors
and their terminations
2.9.2
Humidity conditioning
2.10.2
Working voltage measurement
2.10.3 and 2.10.4 Clearance and creepage
distance measurements
2.10.5
Distance through insulation
measurements
4.2.2
Steady force test, 10 N
4.2.3
Steady force test, 30 N
4.2.4
Steady force test, 250 N
4.2.5
Impact test
4.5
Thermal requirements
5.1
Touch current measurement
5.2
Electric strength tests
5.3
Fault condition test
Annex C.2 Transformers
Operation condition:
Refer to General Product Information
TRF No. IECEN60950_1C
Testing location:
See page 3
- Page 5 of 95 -
Report No. 139234
Radio and television interference suppression
compliance with the EMC directive is necessary for
achieving type certification. The appliance shall
comply with the relevant EMC standards,
depending on the equipment in question.
In NO, compliance with standards for radio
interference suppression is a part of Nemko’s
certification.
In FI, DK and SE compliance is not necessary for
achieving safety certification.
The power supply has not been tested for EMC, the
end product must be tested with this power supply
installed.
Power supply for building-in.
Compliance with requirements regarding buildingin, protection against electric shock must be
checked in the end use.
1.5, 3.2.5
Power supply cord set.
Component for building-in, should be considered
when install in the end product.
1.7.2.1, NOTE 3
Language of safety markings/instructions.
Instructions and equipment marking related to
safety is applied in the language that is acceptable
in the country in which the equipment is to be sold.
2.1.1.5
Energy hazards
The +12V1, +12V2, +12V3 and +12V4 outputs from
the power supply represents an energy hazard.
Must be considered for the end product.
2.7.5
Protection by several devices.
The standard require also a protective device in the
neutral phase when connected to IT power system.
For Norway, this is not required; refer to Lists of
Decisions from OSM.
2.7.6
Warning to service personnel.
After operation of the protective device, the
equipment is still under voltage if it is connected to
an IT power system. A warning is required for
service personnel.
Norway does not require this warning.
Summary of compliance with National Differences:
All CENELEC members as listed in EN 60950-1: 2006, A11: 2009.
All CB members countries listed in CB Bulletin No. 112A, dated December 2006 as follows: Austria (AT),
Australia (AU), Canada (CA), Germany (DE), Denmark (DK), Finland (FI), France (FR), United Kingdom
(GB), Italy (IT), Japan (JP), Korea (KR), The Netherlands (NL), Norway (NO), Poland (PL), Sweden (SE),
Singapore (SG), Slovenia (SI) and United States of America (US).
All country differences listed in the CB Bulletin are covered by the Common Modifications, Special
National Conditions, National Deviations, and National Requirements noted above except for the following
countries which are documented in Country Differences. Attachments attached to this report: refer to List
of attachments for details.
TRF No. IECEN60950_1C
- Page 6 of 95 -
Report No. 139234
Copy of marking plate:
TRF No. IECEN60950_1C
- Page 7 of 95 -
Report No. 139234
Copy of marking plate: (Continued)
TRF No. IECEN60950_1C
- Page 8 of 95 -
Report No. 139234
Copy of marking plate: (Continued)
TRF No. IECEN60950_1C
- Page 9 of 95 -
Report No. 139234
Copy of marking plate: (Continued) UL approval in process when report issued.
TRF No. IECEN60950_1C
- Page 10 of 95 -
Report No. 139234
Copy of marking plate: (Continued) UL approval in process when report issued.
TRF No. IECEN60950_1C
- Page 11 of 95 -
Report No. 139234
Copy of marking plate: (Continued) UL approval in process when report issued.
TRF No. IECEN60950_1C
- Page 12 of 95 -
Report No. 139234
Copy of marking plate: (Continued) UL approval in process when report issued.
TRF No. IECEN60950_1C
- Page 13 of 95 -
Report No. 139234
List of attachments:
1. Photos (5 pages)
2. PCB layout (3 pages)
3. Transformer specification(s) (9 pages)
In addition the following national deviations according to IEC 60950-1 :2001 in CB bulletin 112A:
1. Australian differences (AS/NZS 60950.1-2003) (8 pages)
2. Singapore differences (3 pages)
In addition the following national deviations according to IEC 60950-1:2005 in CB bulletin 112A:
1. Korean differences (1 page)
2. Canadian differences (6 pages)
3. US differences (7 pages)
TRF No. IECEN60950_1C
- Page 14 of 95 -
Report No. 139234
Test item particulars .................................................. :
Equipment mobility .................................................... : [] movable [] hand-held
[] transportable
[] stationary [x] for building-in [] direct plug-in
Connection to the mains ........................................... : [x] pluggable equipment [x] type A [] type B
[] permanent connection
[x] detachable power supply cord
[] non-detachable power supply cord
[] not directly connected to the mains
Operating condition ................................................... : [x] continuous
[] rated operating / resting time:
Access location ........................................................ : [x] operator accessible
[] restricted access location
Over voltage category (OVC) ................................... : [] OVC I
[] other:
[x] OVC II
[] OVC III
[] OVC IV
Mains supply tolerance (%) or absolute mains supply
values ....................................................................... : ±10%
Tested for IT power systems .................................... : [x] Yes
[] No
IT testing, phase-phase voltage (V) ......................... : 230V
Class of equipment ................................................... : [x] Class I [] Class II
[] Not classified
[] Class III
Considered current rating (A) ................................... : 16A or 20A (for US and Canadian)
Pollution degree (PD) ............................................... : [] PD 1
[x] PD 2
[] PD 3
IP protection class .................................................... : IPX0
Altitude during operation (m) .................................... : Up to 2000m
Altitude of test laboratory (m) ................................... : Up to 2000m
Mass of equipment (kg) ............................................ : For model FSP.-80GHN(85): 1.88kg
Dimensions: 150 by 143 by 86.8 mm.
For model FSP.-80GCM(85): 1.80kg
Dimensions: 150 by 143 by 86.8 mm.
Possible test case verdicts:
- test case does not apply to the test object ................. : N(/A)
- test object does meet the requirement ....................... : P(Pass)
- test object does not meet the requirement ................. : F(Fail)
Testing .......................................................................... :
Date of receipt of test item ............................................ : December, 2009
Date(s) of performance of tests .................................... : December, 2009 – January, 2010
TRF No. IECEN60950_1C
- Page 15 of 95 -
Report No. 139234
General remarks:
The test results presented in this report relate only to the object tested.
This report shall not be reproduced, except in full, without the written approval of the Issuing testing laboratory.
"(See Enclosure #)" refers to additional information appended to the report.
"(See appended table)" refers to a table appended to the report.
Note: This TRF includes EN Group Differences together with National Differences and Special
National Conditions, if any. All Differences are located in the Appendix to the main body of this TRF.
Throughout this report a point is used as the decimal separator.
General product information:
The equipment under test is class I switching power supply for building-in provided with metal enclosure
and ventilated by one fan.
The EUT also fulfill IEC 60950-1 first edition requirement.
For model FSP.-80GHN(85): There are three pcbs provided in the PSU, CB(A) board contain primary
circuits only, main board contains primary and secondary circuits, NK(B) board contain secondary circuits
only.
For model FSP.-80GCM(85): There are four pcbs provided in the PSU, CB(A) board contain primary
circuits only, main board contains primary and secondary circuits, NK(B) board and CN(D) board contain
secondary circuits only.
Circuit characteristics: The equipment contains primary, secondary (SELV), limited current circuits.
Maximum recommended ambient (Tmra): 50°C
Models FSP.-80GHN(85) and FSP.-80GCM(85) are identical except model name, HS5, CN(D) board and
enclosure shape.
Models SPI.ACHBB and AX.85PLUS are identical to models FSP.-80GHN(85) except model name and
trade mark.
Model EPSILON85PLUS 500 is identical to model FSP500-80GHN(85) except model name and trade
mark.
Model EVEREST 85PLUS 500 is identical to model FSP500-80GCM(85) except model name and trade
mark.
Model AT85PLUS-550 is identical to model FSP550-80GCM(85) except model name and trade mark.
TRF No. IECEN60950_1C
- Page 16 of 95 -
Report No. 139234
General product information: (Continued)
Operation condition:
For model FSP550-80GHN(85), FSP550-80GCM(85):
Condition A: 25A +3.3V, 11.5A +5V, 18A +12V1, 14.2A +12V2, 0A +12V3, 0 A +12V4, 3A +5Vsb, 0.8A -12V
Condition B: 4.6A +3.3V, 25A +5V, 18A +12V1, 14.2A +12V2, 0A +12V3, 0 A +12V4, 3A +5Vsb, 0.8A -12V
Condition C: 0A +3.3V, 1A +5V, 0A +12V1, 7.4A +12V2, 18A +12V3, 18 A +12V4, 3A +5Vsb, 0.8A -12V
Condition D: 0A +3.3V, 0A +5V, 0A +12V1, 0A +12V2, 0A +12V3, 0A +12V4, 3A +5Vsb, 0A -12V
For model FSP500-80GHN(85), FSP500-80GCM(85):
Condition A: 25A +3.3V, 11.5A +5V, 18A +12V1, 10A +12V2, 0A +12V3, 0 A +12V4, 3A +5Vsb, 0.8A -12V
Condition B: 4.6A +3.3V, 25A +5V, 18A +12V1, 10A +12V2, 0A +12V3, 0 A +12V4, 3A +5Vsb, 0.8A -12V
Condition C: 0A +3.3V, 1A +5V, 0A +12V1, 3.2A +12V2, 18A +12V3, 18 A +12V4, 3A +5Vsb, 0.8A -12V
For model FSP460-80GHN(85), FSP460-80GCM(85):
Condition A: 25A +3.3V, 11.5A +5V, 18A +12V1, 6.7A +12V2, 0A +12V3, 0 A +12V4, 3A +5Vsb, 0.8A -12V
Condition B: 4.6A +3.3V, 25A +5V, 18A +12V1, 6.7A +12V2, 0A +12V3, 0 A +12V4, 3A +5Vsb, 0.8A -12V
Condition C: 0A +3.3V, 1A +5V, 0A +12V1, 0A +12V2, 18A +12V3, 18 A +12V4, 3A +5Vsb, 0.8A -12V
Unless otherwise specified, the tests were performed on FSP550-80GHN(85) and FSP550-80GCM(85) to
represent other similar models. All testing is performed in load condition A if nothing else is mentioned.
1.1.2 - Additional requirements:
Exposure to extreme temperatures, excessive dust, moisture or vibration; to flammable gases; to corrosive
or explosive atmospheres:
This equipment is intended to operate in a "normal" environment (Offices and homes).
Electromedical equipment connected to the patient:
This equipment is not an electromedical equipment intended to be physically connected to a patient.
Equipment used in vehicles, ships or aircrafts, in tropical countries, or at elevations > 2000m:
This equipment is intended to operate in a "normal" environment (Offices and homes).
TRF No. IECEN60950_1C
- Page 17 of 95 -
Report No. 139234
General product information: (Continued)
DC output rating:
Model
Input rating
DC output rating
FSP550-80GHN(85)
9-4A
100-240V
50-60Hz
25.0A +3.3V, 25.0A +5V, 18.0A +12V1, 18.0A +12V2,
18.0A +12V3, 18.0A +12V4, 3.0A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
Output max. combine power is 550W
FSP500-80GHN(85)
8-4A
100-240V
50-60Hz
25.0A +3.3V, 25.0A +5V, 18.0A +12V1, 18.0A +12V2,
18.0A +12V3, 18.0A +12V4, 3.0A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
Output max. combine power is 500W
FSP460-80GHN(85)
7.5-3.5A
100-240V
50-60Hz
25.0A +3.3V, 25.0A +5V, 18.0A +12V1, 18.0A +12V2,
18.0A +12V3, 18.0A +12V4, 3.0A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
Output max. combine power is 460W
FSP550-80GCM(85)
9-4A
100-240V
50-60Hz
25.0A +3.3V, 25.0A +5V, 18.0A +12V1, 18.0A +12V2,
18.0A +12V3, 18.0A +12V4, 3.0A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
Output max. combine power is 550W
FSP500-80GCM(85)
8-4A
100-240V
50-60Hz
25.0A +3.3V, 25.0A +5V, 18.0A +12V1, 18.0A +12V2,
18.0A +12V3, 18.0A +12V4, 3.0A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
Output max. combine power is 500W
FSP460-80GCM(85)
7.5-3.5A
100-240V
50-60Hz
25.0A +3.3V, 25.0A +5V, 18.0A +12V1, 18.0A +12V2,
18.0A +12V3, 18.0A +12V4, 3.0A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
Output max. combine power is 460W
SPI550ACHBB
9-4A
100-240V
50-60Hz
25A +3.3V, 25A +5V, 18A +12V1, 18A +12V2,
18A +12V3, 18A +12V4, 3A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
+3.3V & +5V & +12V1 & +12V2 & +12V3 & +12V4 =
525.4W
Output max. combine power is 550W
SPI500ACHBB
8-4A
100-240V
50-60Hz
25A +3.3V, 25A +5V, 18A +12V1, 18A +12V2,
18A +12V3, 18A +12V4, 3A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
+3.3V & +5V & +12V1 & +12V2 & +12V3 & +12V4 =
475.4W
Output max. combine power is 500W
TRF No. IECEN60950_1C
- Page 18 of 95 -
Report No. 139234
General product information: (Continued)
DC output rating:
Model
Input rating
DC output rating
SPI460ACHBB
7.5-3.5A
100-240V
50-60Hz
25A +3.3V, 25A +5V, 18A +12V1, 18A +12V2,
18A +12V3, 18A +12V4, 3A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
+3.3V & +5V & +12V1 & +12V2 & +12V3 & +12V4 =
435.4W
Output max. combine power is 460W
AX550-85PLUS
9-4A
100-240V
50-60Hz
25.0A +3.3V, 25.0A +5V, 18.0A +12V1, 18.0A +12V2,
18.0A +12V3, 18.0A +12V4, 3.0A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
+3.3V & +5V & +12V1 & +12V2 & +12V3 & +12V4 =
525.4W
Output max. combine power is 550W
AX450-85PLUS
7.5-3.5A
100-240V
50-60Hz
25A +3.3V, 25A +5V, 18A +12V1, 18A +12V2,
18A +12V3, 18A +12V4, 3A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
+3.3V & +5V & +12V1 & +12V2 & +12V3 & +12V4 =
425.4W
Output max. combine power is 450W
EPSILON 85PLUS 500
8-4A
100-240V
50-60Hz
25A +3.3V, 25A +5V, 18A +12V1, 18A +12V2,
18A +12V3, 18A +12V4, 3A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
+3.3V & +5V & +12V1 & +12V2 & +12V3 & +12V4 =
475.4W
Output max. combine power is 500W
EVEREST 85PLUS 500
8-4A
100-240V
50-60Hz
25A +3.3V, 25A +5V, 18A +12V1, 18A +12V2,
18A +12V3, 18A +12V4, 3A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
+3.3V & +5V & +12V1 & +12V2 & +12V3 & +12V4 =
475.4W
Output max. combine power is 500W
AT85PLUS-550
9-4A
100-240V
50-60Hz
25.0A +3.3V, 25.0A +5V, 18.0A +12V1, 18.0A +12V2,
18.0A +12V3, 18.0A +12V4, 3.0A +5Vsb, 0.8A -12V
+3.3V & +5V = 140W Max.,
Output max. combine power is 550W
TRF No. IECEN60950_1C
- Page 19 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
1
GENERAL
P
1.5
Components
P
1.5.1
General
—
Comply with IEC 60950-1 or relevant component
standard
(see appended table 1.5.1)
P
1.5.2
Evaluation and testing of components
Certified components are
used in accordance with their
ratings, certifications and they
comply with applicable parts
of this standard.
Components not certified are
used in accordance with their
ratings and they comply with
applicable parts of IEC
60950-1 and the relevant
component standard.
Components, for which no
relevant IEC-standard exists,
have been tested under the
conditions occurring in the
equipment, using applicable
parts of IEC 60950-1.
P
1.5.3
Thermal controls
No thermal controls.
N
1.5.4
Transformers
P
1.5.5
Interconnecting cables
1.5.6
Capacitors bridging insulation
Transformers used are
suitable for their intended
applications and comply with
relevant parts of this standard
and particularly Annex C, see
Annex C – Transformers.
The interconnecting cables
contain only SELV.
X1 or X2 and Y1 or Y2
capacitors according to IEC
60384-14:1993.
Double / reinforced insulation
is bridged by single capacitor
(CY8). Capacitor separately
certified, ref. List of Critical
Components. Circuit
complies with 2.4.
1.5.7
Resistors bridging insulation
Refer below:
TRF No. IECEN60950_1C
P
P
—
- Page 20 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
1.5.7.1
Resistors bridging functional, basic or
supplementary insulation
1.5.7.2
Resistors bridging double or reinforced insulation
between a.c. mains and other circuits
1) Certified discharge
resistors (RX4) bridging
functional insulation before
fuse, complied with
requirement.
2) No special requirement for
RX1 and RX2 (two in series)
bridging primary functional
insulation after fuse.
No resistors bridging double
or reinforced insulation.
1.5.7.3
Resistors bridging double or reinforced insulation
between a.c. mains and antenna or coaxial cable
No antenna or coaxial cable.
N
1.5.8
Components in equipment for IT power systems
Certified capacitors
connected between line and
earth, ref. List of Critical
Components.
P
1.5.9
Surge suppressors
Certified VDR connected
between line and neutral after
fuse, ref. List of Critical
Components and Annex Q.
P
1.5.9.1
General
Refer to sub-clause 1.5.9.
P
1.5.9.2
Protection of VDRs
Mains fuse F1 used as
protection of varistor which
located after mains fuse.
P
1.5.9.3
Bridging of functional insulation by a VDR
Refer to sub-clause 1.5.9.
P
1.5.9.4
Bridging of basic insulation by a VDR
No Varistor bridging basic
insulation.
N
1.5.9.5
Bridging of supplementary, double or reinforced
insulation by a VDR
No Varistor bridging
supplementary, double or
reinforced insulation.
P
1.6
Power interface
1.6.1
AC power distribution systems
TN, and IT for Norway.
—
1.6.2
Input current
(see appended table 1.6.2)
P
1.6.3
Voltage limit of hand-held equipment
The equipment is not handheld.
N
1.6.4
Neutral conductor
Neutral is insulated from earth
with basic insulation
throughout the equipment.
P
TRF No. IECEN60950_1C
Verdict
P
N
P
- Page 21 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
1.7
Marking and instructions
1.7.1
Power rating
The required marking is
located on the outside surface
of the equipment.
P
Rated voltage(s) or voltage range(s) (V) .............. :
100-240V
—
Symbol for nature of supply, for d.c. only .............. :
The equipment is for a.c.
supply.
N
Rated frequency or rated frequency range (Hz) ... :
50-60Hz
—
Rated current (mA or A) ....................................... :
See page 17 and 18 for
details
—
P
Manufacturer’s name or trade-mark or identification 1),4) FSP
mark ...................................................................... : 2) SPI
3) Amacrox
5) AOpen
Model identification or type reference .................. :
Verdict
1) FSP.-80.(85)
—
—
2) SPI.ACHBB
3) AX.-85PLUS
4) EPSILON 85PLUS 500;
EVEREST 85PLUS 500
5) AT85PLUS-550
Symbol for Class II equipment only ...................... :
The equipment is Class I.
N
Other markings and symbols ................................ :
The additional marking does
not give rise to
misunderstandings.
P
Certification marks ............................................. :
Refer to copy of marking
plate.
—
1.7.2
Safety instructions and marking
Must be checked in the end
product.
N
1.7.2.1
General
Refer to sub-clause 1.7.2.
N
1.7.2.2
Disconnect devices
The appliance coupler is
acting as disconnect device.
N
1.7.2.3
Overcurrent protective device
Not applicable for pluggable
equipment type A equipment.
N
TRF No. IECEN60950_1C
- Page 22 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
1.7.2.4
IT power distribution systems
The following or similar
information should be given in
the installation
instruction:”This product is
also designed for IT power
distribution system with
phase-to-phase voltage
230V”.
P
1.7.2.5
Operator access with a tool
All areas containing hazard(s)
are inaccessible to the
operator.
P
1.2.7.6
Ozone
The equipment not containing
Ozone.
N
1.7.3
Short duty cycles
The equipment is intended for
continuous operation.
N
1.7.4
Supply voltage adjustment .................................. :
No voltage selector.
N
Methods and means of adjustment; reference to
installation instructions ........................................ :
Verdict
—
1.7.5
Power outlets on the equipment .......................... :
No standard power outlet.
N
1.7.6
Fuse identification (marking, special fusing
characteristics, cross-reference) ......................... :
Fuse location and marking:
F1 and T10A 250V
P
1.7.7
Wiring terminals
Refer below:
—
1.7.7.1
Protective earthing and bonding terminals .......... :
Appliance inlet, marking of
the protective earthing
terminal is not applicable.
N
1.7.7.2
Terminals for a.c. mains supply conductors
The equipment is not
permanently connected or
provided with a nondetachable power supply
cord.
N
1.7.7.3
Terminals for d.c. mains supply conductors
The equipment is not
permanently connected or
provided with a nondetachable power supply
cord.
N
1.7.8
Controls and indicators
Refer below:
—
1.7.8.1
Identification, location and marking ..................... :
No controls.
N
1.7.8.2
Colours ............................................................... :
No controls.
N
TRF No. IECEN60950_1C
- Page 23 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
1.7.8.3
Symbols according to IEC 60417 ......................... :
The mains switch is marked
with the symbols: "O" and "I"
(IEC 60417-1 No. 5008 and
5007).
P
1.7.8.4
Markings using figures ........................................ :
No controls.
N
1.7.9
Isolation of multiple power sources ..................... :
Only one connection
supplying hazardous voltages
and energy levels to the
equipment.
N
1.7.10
Thermostats and other regulating devices .......... :
No thermostats or other
regulating devices.
N
1.7.11
Durability
The marking withstands
required tests.
P
1.7.12
Removable parts
No marking is placed on
removable parts.
P
1.7.13
Replaceable batteries .......................................... :
No battery in the equipment.
N
Language(s) ........................................................ :
Verdict
—
1.7.14
Equipment for restricted access locations ............ :
Equipment not intended for
installation in RAL.
2
PROTECTION FROM HAZARDS
P
2.1
Protection from electric shock and energy hazards
P
2.1.1
Protection in operator access areas
Refer below:
—
2.1.1.1
Access to energized parts
This is a component level
power supply. Protection must
be checked in the end
product.
—
N
Test by inspection ................................................. :
—
Test with test finger (Figure 2A) ........................... :
—
Test with test pin (Figure 2B) ................................ :
—
Test with test probe (Figure 2C) ........................... :
No TNV circuits in the
equipment.
N
2.1.1.2
Battery compartments
No battery compartments in
the equipment.
N
2.1.1.3
Access to ELV wiring
No internal wiring at ELV
accessible to the operator.
N
Working voltage (Vpeak or Vrms); minimum
distance through insulation (mm)
TRF No. IECEN60950_1C
—
- Page 24 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
2.1.1.4
Access to hazardous voltage circuit wiring
All accessible parts are
separated from internal wiring
at hazardous voltage by
double or reinforced
insulation.
P
2.1.1.5
Energy hazards .................................................... :
The +12V1, +12V2, +12V3
and +12V4 outputs from the
power supply represents an
energy hazard.
Must be considered for the
end product.
(See appended table 2.1.1.5)
—
2.1.1.6
Manual controls
No shafts of knobs etc. at
ELV or hazardous voltage or
TNV.
N
2.1.1.7
Discharge of capacitors in equipment
The capacitance of the input
circuit is > 0.1µF. The
measurements were
performed in the fuse in and
fuse out condition.
P
TRF No. IECEN60950_1C
Verdict
- Page 25 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
2.1.1.8
Requirement + Test
Result - Remark
Measured voltage (V); time-constant (s) ............... :
Condition A: No load,
Fuse in: CX1=0.68uF,
CX3=0.47uF, CX4=0.33uF,
RX1=RX2=470kΩ,
RX4=2.2MΩ
(measured 370 Vpeak,
37% Vpeak=137V)
Time constant is measured to
390ms.
Fuse out: CX4=0.33uF,
RX4=2.2MΩ
(measured 376 Vpeak,
37% Vpeak=139V)
Time constant is measured to
596ms.
Condition B: No load,
Fuse in: CX1=0.68uF,
CX3=0.47uF, CX4=0.22uF,
RX1=RX2=470kΩ,
RX4=3.3MΩ
(measured 370 Vpeak,
37% Vpeak=137V)
Time constant is measured to
350ms.
Fuse out: CX4=0.22uF,
RX4=3.3MΩ
(measured 376 Vpeak,
37% Vpeak=139V)
Time constant is measured to
534ms.
The equipment is not
connected to d.c. mains
supply
Energy hazards – d.c. mains supply
Verdict
P
N
a) Capacitor connected to the d.c. mains supply . :
—
b) Internal battery connected to the d.c. mains
supply ................................................................... :
—
2.1.1.9
Audio amplifiers .................................................... :
No such parts.
N
2.1.2
Protection in service access areas
Checked by inspection,
unintentional contact is
unlikely during service
operations.
P
TRF No. IECEN60950_1C
- Page 26 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
2.1.3
Protection in restricted access locations
Equipment not intended for
installation in RAL.
2.2
SELV circuits
2.2.1
General requirements
SELV limits are not exceeded
under normal condition and
after a single fault.
P
2.2.2
Voltages under normal conditions (V) .................. :
Within SELV limits.
P
2.2.3
Voltages under fault conditions (V) ...................... :
Within SELV limits.
(see appended table 2.2)
P
2.2.4
Connection of SELV circuits to other circuits ...... :
SELV circuits are only
connected to other SELV,
limited current circuits and
protective earth.
P
2.3
TNV circuits
2.3.1
Limits
Refer below:
N
Type of TNV circuits .............................................. :
No TNV circuits in the
equipment.
—
N
P
N
2.3.2
Separation from other circuits and from accessible
parts
N
2.3.2.1
General requirements
N
2.3.2.2
Protection by basic insulation
N
2.3.2.3
Protection by earthing
N
2.3.2.4
Protection by other constructions ......................... :
N
2.3.3
Separation from hazardous voltages
N
Insulation employed............................................... :
—
Connection of TNV circuits to other circuits
N
Insulation employed............................................... :
—
2.3.5
Test for operating voltages generated externally
N
2.4
Limited current circuits
P
2.4.1
General requirements
Limits are not exceeded.
P
2.4.2
Limit values
1) 0.7 mA
2) 47.32 mA
—
2.3.4
TRF No. IECEN60950_1C
- Page 27 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Frequency (Hz) ...................................................... :
1) 60.0 Hz
2) 67.6 kHz
—
Measured current (mA) .......................................... :
1) 0.59 mA
2) 8.7 mA
—
Measured voltage (V) ............................................ :
1) 1.18 Vp
2) 17.4 Vp
—
Measured circuit capacitance (nF or µF) ............... :
Total capacitance is < 0.1µF
P
2.4.3
Connection of limited current circuits to other
circuits
Under normal operating
condition and no fault
condition can cause higher
current.
P
2.5
Limited power sources
a) Inherently limited output
Verdict
N
No limited power source.
N
b) Impedance limited output
N
c) Regulating network limited output under normal
operating and single fault condition
N
d) Overcurrent protective device limited output
N
Max. output voltage (V), max. output current (A),
max. apparent power (VA)..................................... :
N
Current rating of overcurrent protective device (A) .:
N
2.6
Provisions for earthing and bonding
P
2.6.1
Protective earthing
Accessible conductive parts
are reliably connected to
protective earth.
P
2.6.2
Functional earthing
Functional earthing is
separated from hazardous
voltages by reinforced
insulation.
P
2.6.3
Protective earthing and protective bonding
conductors
Refer below:
—
2.6.3.1
General
Refer below:
—
2.6.3.2
Size of protective earthing conductors
Power supply cord not
provided with the equipment.
N
Rated current (A), cross-sectional area (mm2),
AWG ...................................................................... :
TRF No. IECEN60950_1C
—
- Page 28 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
2.6.3.3
Size of protective bonding conductors
Refer to 2.6.3.4
N
Rated current (A), cross-sectional area (mm ),
AWG ...................................................................... :
Refer to 2.6.3.4
—
Protective current rating (A), cross-sectional area
(mm2), AWG .......................................................... :
Refer to 2.6.3.4
—
Resistance of earthing conductors and their
terminations; resistance (Ω), voltage drop (V), test
current (A), duration (min) ..................................... :
For model GSP.-80GHN(85):
From the appliance inlet to
the end of chassis:
U=0.28V⇒8.75mΩ(32A/
2min.)
U=0.37V⇒9.25mΩ(40A/
2min.)
From the appliance inlet to
PCB output “-“:
U=0.29V⇒9.06mΩ(32A/
2min.)
U=0.39V⇒9.75mΩ(40A/
2min.)
P
2
2.6.3.4
For model GSP.-80GCM(85):
From the appliance inlet to
the end of chassis:
U=0.34V⇒10.63mΩ(32A/
2min.)
U=0.45V⇒11.25mΩ(40A/
2min.)
From the appliance inlet to
PCB output “-“:
U=0.29V⇒9.06mΩ(32A/
2min.)
U=0.39V⇒9.75mΩ(40A/
2min.)
2.6.3.5
Colour of insulation ................................................ :
All insulated protective earth
conductors are used coloured
green and yellow.
P
2.6.4
Terminals
Refer below:
—
2.6.4.1
General
Refer below:
—
2.6.4.2
Protective earthing and bonding terminals
Refer below:
—
Rated current (A), type, nominal thread diameter
(mm) ...................................................................... :
The equipment is provided
with an appliance inlet.
P
2.6.4.3
Separation of the protective earthing conductor
from protective bonding conductors
The equipment is provided
with an appliance inlet.
N
2.6.5
Integrity of protective earthing
Refer below:
—
TRF No. IECEN60950_1C
- Page 29 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
2.6.5.1
Interconnection of equipment
No interconnection of
equipment.
N
2.6.5.2
Components in protective earthing conductors and
protective bonding conductors
There are no switches or
overcurrent protective devices
in the protective earthing /
bonding conductors.
N
2.6.5.3
Disconnection of protective earth
It is not possible to disconnect
protective earth without
disconnecting mains; an
appliance coupler will be used
as disconnect device.
P
2.6.5.4
Parts that can be removed by an operator
No operator removable parts
with protective earth
connection except supply
cord.
P
2.6.5.5
Parts removed during servicing
Protective earthed parts
cannot be removed in a way
which impair safety.
P
2.6.5.6
Corrosion resistance
No risk of corrosion.
P
2.6.5.7
Screws for protective bonding
Adequate connection of
protective bonding.
P
2.6.5.8
Reliance on telecommunication network or cable
distribution system
No TNV circuits in the
equipment.
N
2.7
Overcurrent and earth fault protection in primary circuits
P
2.7.1
Basic requirements
Protective devices are
integrated in the equipment,
see also Sub-clause 5.3.
P
Instructions when protection relies on building
installation
Protective devices are
integrated in the equipment.
P
2.7.2
Faults not simulated in 5.3.7
Considered.
P
2.7.3
Short-circuit backup protection
Adequate protective device.
P
2.7.4
Number and location of protective devices .......... :
In Norway, IT power
distribution system is used.
Equipment with a single
protective device is accepted
in Norway.
P
2.7.5
Protection by several devices
Only one protective device.
See Sub-clause 2.7.4.
N
TRF No. IECEN60950_1C
Verdict
- Page 30 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
2.7.6
Warning to service personnel ................................ :
After operation of the
protective device, the
equipment is still under
voltage if it is connected to an
IT-power distribution system.
A warning is required for
service personnel. Norway
does not require this warning.
See also Sub-clause 2.7.4.
2.8
Safety interlocks
2.8.1
General principles
2.8.2
Protection requirements
N
2.8.3
Inadvertent reactivation
N
2.8.4
Fail-safe operation
N
2.8.5
Moving parts
N
2.8.6
Overriding
N
2.8.7
Switches and relays
N
2.8.7.1
Contact gaps (mm) ............................................... :
N
2.8.7.2
Overload test
N
2.8.7.3
Endurance test
N
2.8.7.4
Electric strength test
N
2.8.8
Mechanical actuators
N
2.9
Electrical insulation
P
2.9.1
Properties of insulating materials
Neither natural rubber,
materials containing asbestos
nor hygroscopic materials are
used as insulation. No driving
belts or couplings used.
N
2.9.2
Humidity conditioning
Humidity treatment performed
for 120h.
P
Relative humidity (%), temperature (°C) .............. :
95%, 40°C.
—
Grade of insulation
Insulation is considered to be
functional, basic,
supplementary, reinforced or
double insulation.
P
2.9.3
TRF No. IECEN60950_1C
Verdict
N
N
No safety interlock provided.
N
- Page 31 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
2.9.4
Separation from hazardous voltages
The accessible conductive
parts, including SELV circuits
and their related windings,
are separated from parts at
hazardous voltage by double
insulation or reinforced
insulation.
P
Method(s) used ..................................................... :
Method 1 is used.
—
2.10
Clearances, creepage distances and distances through insulation
P
2.10.1
General
Refer below
—
2.10.1.1
Frequency ............................................................. :
Considered.
P
2.10.1.2
Pollution degrees .................................................. :
The equipment is considered
located within pollution degree
ll.
P
2.10.1.3
Reduced values for functional insualtion
The functional are comply
with 5.3.4 a) and c)
P
2.10.1.4
Intervening unconnected conductive parts
Considered.
P
2.10.1.5
Insulation with varying dimensions
No such insulations.
N
2.10.1.6
Special separation requirements
Not used.
N
2.10.1.7
Insulation in circuits generating starting pulses
No such circuits.
N
2.10.2
Determination of working voltage
Refer below:
P
2.10.2.1
General
Considered.
P
2.10.2.2
RMS working voltage
(see appended table 2.10.2)
P
2.10.2.3
Peak working voltage
(see appended table 2.10.2)
P
2.10.3
Clearances
Refer below:
P
2.10.3.1
General
Considered.
P
2.10.3.2
Mains transient voltages
Refer below:
P
a) AC mains supply ............................................... :
Equipment is Overvoltage
Category II.
P
b) Earthed d.c. mains supplies .............................. :
Not intended for d.c.
N
c) Unearthed d.c. mains supplies ......................... :
Not intended for d.c.
N
d) Battery operation .............................................. :
No battery in the equipment.
N
Clearances in primary circuits
(see appended table 2.10.3
and 2.10.4)
P
2.10.3.3
TRF No. IECEN60950_1C
- Page 32 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
2.10.3.4
Clearances in secondary circuits
Only the functional insulation
in secondary circuits complied
with clause 5.3.4.
N
2.10.3.5
Clearances in circuits having starting pulses
No such circuits.
N
2.10.3.6
Transients from a.c. mains supply ........................ :
Considered.
P
2.10.3.7
Transients from d.c. mains supply ........................ :
Not connected to d.c. mains
supply.
N
2.10.3.8
Transients from telecommunication networks and
cable distribution systems ..................................... :
No TNV circuits in the
equipment.
N
2.10.3.9
Measurement of transient voltage levels
Measurement not relevant.
N
a) Transients from a mains suplply
N
For an a.c. mains supply ....................................... :
N
For a d.c. mains supply ......................................... :
N
b) Transients from a telecommunication network :
N
2.10.4
Creepage distances
(see appended table 2.10.3
and 2.10.4)
P
2.10.4.1
General
Refer below:
P
2.10.4.2
Material group and comparative tracking index
Material group IIIa and IIIb are
used.
P
CTI tests ................................................................. :
CTI rating for all material of
minimum 100.
—
2.10.4.3
Minimum creepage distances
(see appended table 2.10.3
and 2.10.4)
P
2.10.5
Solid insulation
Considered.
P
2.10.5.1
General
Refer below:
P
2.10.5.2
Distances through insulation
(see appended table 2.10.5)
P
2.10.5.3
Insulating compound as solid insulation
For optocouplers, see
appended table 1.5.1.
P
2.10.5.4
Semiconductor devices
No such components.
N
2.10.5.5.
Cemented joints
No cemented joints.
N
2.10.5.6
Thin sheet material – General
Refer below:
P
2.10.5.7
Separable thin sheet material
Refer to Annex C and
appended table 2.10.5
P
Number of layers (pcs) ........................................... :
2.10.5.8
Non-separable thin sheet material
TRF No. IECEN60950_1C
—
Not such parts.
N
- Page 33 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
2.10.5.9
Thin sheet material – standard test procedure
Refer to sub. clause
2.10.5.10.
Electric strength test
2.10.5.10
Verdict
N
—
Thin sheet material – alternative test procedure
(see appended table 2.10.5)
P
Electric strength test
(see appended table 2.10.5)
P
2.10.5.11
Insulation in wound components
Not used.
N
2.10.5.12
Wire in wound components
Insulation on secondary
wnding wires of T2 (type
8TA00327) complies with
Annex U.
P
2.10.5.13
2.10.5.14
Working voltage .................................................... :
N
a) Basic insulation not under stress ...................... :
N
b) Basic, supplemetary, reinforced insulation ....... :
N
c) Compliance with Annex U ................................. :
P
Two wires in contact inside wound component;
angle between 45° and 90° ................................... :
Protection against mechanical
stress is provided by tube.
P
Wire with solvent-based enamel in wound
components
No such parts.
N
Electric strength test
—
Routine test
—
Additional insulation in wound components
No additional insulation used.
N
Working voltage .................................................... :
—
- Basic insulation not under stress ........................ :
—
- Supplemetary, reinforced insulation ................... :
—
2.10.6
Construction of printed boards
Refer below:
P
2.10.6.1
Uncoated printed boards
Considered.
(see appended table 2.10.3
and 2.10.4)
P
2.10.6.2
Coated printed boards
N
2.10.6.3
Insulation between conductors on the same inner
surface of a printed board
No such parts.
No such parts.
2.10.6.4
Insulation between conductors on different layers of No such parts.
a printed board
N
Distance through insulation
—
Number of insulation layers (pcs) .......................... :
—
TRF No. IECEN60950_1C
N
- Page 34 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
2.10.7
Component external terminations
No such parts.
N
2.10.8
Tests on coated printed boards and coated
components
No such parts.
N
2.10.8.1
Sample preparation and preliminary inspection
N
2.10.8.2
Thermal conditioning
N
2.10.8.3
Electric strength test
N
2.10.8.4
Abrasion resistance test
N
2.10.9
Thermal cycling
For optocouplers, see
appended table 1.5.1
P
2.10.10
Test for Pollution Degree 1 environment and
insulating compound
For optocouplers, see
appended table 1.5.1
P
2.10.11
Tests for semiconductor devices and cemented
joints
No such device used.
N
2.10.12
Enclosed and sealed parts
For optocouplers, see
appended table 1.5.1
P
3
WIRING, CONNECTIONS AND SUPPLY
P
3.1
General
P
3.1.1
Current rating and overcurrent protection
Adequate cross sectional
areas on internal wiring.
P
3.1.2
Protection against mechanical damage
Wireways are smooth and
free from edges. Wires are
adequately fixed to prevent
excessive strain on wire and
terminals and avoiding
damage to the insulation of
the conductors.
P
3.1.3
Securing of internal wiring
Internal wiring is secured
against excessive strain,
loosening of terminals and
damage to the conductor
insulation.
P
3.1.4
Insulation of conductors
Insulation on internal
conductors is considered to
be of adequate quality and
suitable for the application
and the working voltage
involved.
P
3.1.5
Beads and ceramic insulators
No beads or similar ceramic
insulators on conductors.
N
TRF No. IECEN60950_1C
- Page 35 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
3.1.6
Screws for electrical contact pressure
Electrical screw connection is
only connecting protective
earth to chassis. Metal screw
engages more than 2 threads.
Screws made of insulating
material are not used where
electrical connections,
including protective earthing
are involved.
P
3.1.7
Insulating materials in electrical connections
No contact pressure through
insulating material.
N
3.1.8
Self-tapping and spaced thread screws
Thread-cutting or space
thread screws are not used
for electrical connections.
N
3.1.9
Termination of conductors
Terminations cannot become
displaced so that clearances
and creepage distances can
be reduced.
P
10 N pull test
Considered.
P
3.1.10
Sleeving on wiring
Sleeves can only be removed
by breaking or cutting.
P
3.2
Connection to a mains supply
3.2.1
Means of connection
Refer below:
P
3.2.1.1
Connection to an a.c. mains supply
The equipment is provided
with an appliance inlet.
P
3.2.1.2
Connection to a d.c. mains supply
The equipment is not for
connection to a d.c. mains
supply.
N
3.2.2
Multiple supply connections
Only one supply connection.
N
3.2.3
Permanently connected equipment
The equipment is not
intended for permanent
connection to the mains.
N
P
Number of conductors, diameter of cable and
conduits (mm) ....................................................... :
—
3.2.4
Appliance inlets
The appliance inlet complies
with IEC 60320-1 and is
properly placed to avoid
hazards after insertion of the
appliance coupler.
P
3.2.5
Power supply cords
Refer below:
—
TRF No. IECEN60950_1C
- Page 36 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
3.2.5.1
AC power supply cords
Power supply cord is not
provided with the equipment,
refer to Summary of Testing.
Type ...................................................................... :
Verdict
N
—
2
Rated current (A), cross-sectional area (mm ),
AWG ..................................................................... :
—
3.2.5.2
DC power supply cords
AC supplied, not connected to
DC supply.
N
3.2.6
Cord anchorages and strain relief
Equipment provided with an
appliance inlet.
N
Mass of equipment (kg), pull (N) ......................... :
—
Longitudinal displacement (mm) .......................... :
—
3.2.7
Protection against mechanical damage
Equipment provided with an
appliance inlet.
N
3.2.8
Cord guards
The equipment is neither
hand-held nor intended to be
moved during operation.
N
Diameter or minor dimension D (mm); test mass (g)
............................................................................... :
—
Radius of curvature of cord (mm) .......................... :
—
3.2.9
Supply wiring space
3.3
Wiring terminals for connection of external conductors
N
3.3.1
Wiring terminals
N
3.3.2
Connection of non-detachable power supply cords
N
3.3.3
Screw terminals
N
3.3.4
Conductor sizes to be connected
N
Rated current (A), cord/cable type, cross-sectional
area (mm2) ............................................................. :
—
Wiring terminal sizes
N
Rated current (A), type, nominal thread diameter
(mm) ..................................................................... :
—
3.3.6
Wiring terminal design
N
3.3.7
Grouping of wiring terminals
N
3.3.5
TRF No. IECEN60950_1C
Equipment provided with an
appliance inlet.
3.3.1 – 3.3.8; Appliance inlet
provided.
P
- Page 37 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
3.3.8
Stranded wire
N
3.4
Disconnection from the mains supply
P
3.4.1
General requirement
See Sub-clause 3.4.2.
—
3.4.2
Disconnect devices
The appliance coupler will be
acting as disconnect device.
P
3.4.3
Permanently connected equipment
Not permanently connected
equipment.
N
3.4.4
Parts which remain energized
No parts remain energized
after the disconnect device is
pulled out.
P
3.4.5
Switches in flexible cords
Power cord set is not
considered.
3.4.6
Number of poles - single-phase and d.c. equipment The disconnect device
disconnects both poles
simultaneously.
P
3.4.7
Number of poles - three-phase equipment
Single phase equipment.
N
3.4.8
Switches as disconnect devices
No such switches used.
N
3.4.9
Plugs as disconnect devices
The appliance coupler will be
regarded as disconnect
device, no warning is
required.
P
3.4.10
Interconnected equipment
No interconnections using
hazardous voltages.
N
3.4.11
Multiple power sources
One power source only.
N
3.5
Interconnection of equipment
3.5.1
General requirements
Considered.
P
3.5.2
Types of interconnection circuits .......................... :
SELV circuit and limited
current circuit.
—
3.5.3
ELV circuits as interconnection circuits
No ELV interconnections.
N
3.5.4
Data ports for additional equipment
No data ports.
N
4
PHYSICAL REQUIREMENTS
P
4.1
Stability
N
Angle of 10°
TRF No. IECEN60950_1C
Result - Remark
Verdict
N
P
Build-in component, to be
evaluated in the end product.
N
- Page 38 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
Test force (N) ........................................................ :
N
4.2
Mechanical strength
P
4.2.1
General
Considered.
P
4.2.2
Steady force test, 10 N
No hazard, ref. comment in
table 2.10.
P
4.2.3
Steady force test, 30 N
No hazard. The test are
performed on all sides of
metal enclosure except inlet
side.
P
4.2.4
Steady force test, 250 N
Applied at side of appliance
inlet (per client request), other
sides must be evaluated in
the final system.
—
4.2.5
Impact test
Refer below:
—
Fall test
No hazard as result from the
steel sphere fall test on
appliance inlet side.
(Per client requested)
P
Swing test
No hazard as result from the
steel sphere swing test on
appliance inlet side.
(Per client requested)
P
4.2.6
Drop test; height (mm) ........................................... :
Drop test not applicable.
N
4.2.7
Stress relief test
Must be taken care in the end
product.
—
4.2.8
Cathode ray tubes
CRT(s) not used in the
equipment.
N
Picture tube separately certified ............................ :
—
4.2.9
High pressure lamps
No high pressure lamps in the
equipment.
N
4.2.10
Wall or ceiling mounted equipment; force (N) ....... :
Not intended to be mounted
on a wall or ceiling.
N
4.3
Design and construction
4.3.1
Edges and corners
TRF No. IECEN60950_1C
P
All edges and corners are
rounded and/or smoothed.
P
- Page 39 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
4.3.2
Handles and manual controls; force (N) ............ :
Build-in component, to be
evaluated in the end product.
N
4.3.3
Adjustable controls
No hazardous adjustable
controls.
N
4.3.4
Securing of parts
No loosening of parts
impairing creepage distances
or clearances is likely to
occur.
P
4.3.5
Connection by plugs and sockets
SELV connectors do not
comply with IEC 60320-1 or
IEC 60083.
P
4.3.6
Direct plug-in equipment
Not intended to plug directly
into a wall socket-outlet.
N
Torque .................................................................. :
—
Compliance with the relevant mains plug standard
............................................................................... :
—
4.3.7
Heating elements in earthed equipment
No heating elements
provided.
N
4.3.8
Batteries
No batteries in the equipment.
N
- Overcharging of a rechargeable battery
—
- Unintentional charging of a non-rechargeable
battery
—
- Reverse charging of a rechargeable battery
—
- Excessive discharging rate for any battery
—
4.3.9
Oil and grease
Insulation is not exposed to
oil, grease etc.
N
4.3.10
Dust, powders, liquids and gases
The equipment does not
contain flammable liquids or
gases.
N
4.3.11
Containers for liquids or gases
No containers for liquids or
gases in the equipment.
N
4.3.12
Flammable liquids ................................................ :
The equipment does not
contain flammable liquid.
N
Quantity of liquid (l) .............................................. :
—
Flash point (°C) .................................................... :
—
4.3.13
Radiation
Refer below:
N
4.3.13.1
General
Refer below:
—
TRF No. IECEN60950_1C
- Page 40 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
4.3.13.2
Ionizing radiation
The equipment does not
generate ionizing radiation.
4.3.13.3
Verdict
N
Measured radiation (pA/kg) .................................. :
—
Measured high-voltage (kV) ................................. :
—
Measured focus voltage (kV) ............................... :
—
CRT markings ...................................................... :
—
Effect of ultraviolet (UV) radiation on materials
The equipment does not
produce significant UV
radiation.
Part, property, retention after test, flammability
classification ......................................................... :
N
—
4.3.13.4
Human exposure to ultraviolet (UV) radiation ...... :
The equipment does not
produce significant UV
radiation.
N
4.3.13.5
Laser (including LEDs)
No laser or LED.
N
Laser class ........................................................... :
—
4.3.13.6
Other types ........................................................... :
The equipment does not
generate other types of
radiation.
4.4
Protection against hazardous moving parts
4.4.1
General
Adequate protection against
risk of personal injury.
4.4.2
Protection in operator access areas .................... :
No moving parts except DC
fan which are properly
guarded.
P
4.4.3
Protection in restricted access locations .............. :
Not intended for installation in
RAL.
N
4.4.4
Protection in service access areas
Unintentional contact is not
likely in service access areas.
P
4.5
Thermal requirements
P
4.5.1
General
P
4.5.2
Temperature tests
P
(see appended table 4.5)
Normal load condition per Annex L ...................... :
4.5.3
Temperature limits for materials
TRF No. IECEN60950_1C
N
P
P
—
(see appended table 4.5)
P
- Page 41 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
4.5.4
Touch temperature limits
(see appended table 4.5)
P
4.5.5
Resistance to abnormal heat ............................... :
No thermoplastic parts
carrying hazardous voltages.
N
4.6
Openings in enclosures
4.6.1
Top and side openings
N
Must be taken care in the end
product.
Dimensions (mm) ................................................. :
4.6.2
Bottoms of fire enclosures
Verdict
N
—
Must be taken care in the end
product.
Construction of the bottomm, dimensions (mm) .. :
N
—
4.6.3
Doors or covers in fire enclosures
No doors or covers in the
enclosure.
N
4.6.4
Openings in transportable equipment
Must be taken care in the end
product.
N
4.6.4.1
Constructional design measures
N
Dimensions (mm) ................................................. :
—
4.6.4.2
Evaluation measures for larger openings
N
4.6.4.3
Use of metallized parts
N
4.6.5
Adhesives for constructional purposes
No barrier secured by
adhesive inside enclosure.
N
Conditioning temperature (°C), time (weeks) ........ :
—
4.7
Resistance to fire
P
4.7.1
Reducing the risk of ignition and spread of flame
Method 1 is used.
P
Method 1, selection and application of components (see appended table 4.7)
wiring and materials
P
Method 2, application of all of simulated fault
condition tests
N
4.7.2
Conditions for a fire enclosure
Refer below:
—
4.7.2.1
Parts requiring a fire enclosure
Must be taken care in the end
product.
N
4.7.2.2
Parts not requiring a fire enclosure
Must be taken care in the end
product.
N
4.7.3
Materials
Refer below:
P
TRF No. IECEN60950_1C
- Page 42 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
4.7.3.1
General
Components and materials
have adequate flammability
classification. See appended
table 1.5.1.
P
4.7.3.2
Materials for fire enclosures
Must be taken care in the end
product.
N
4.7.3.3
Materials for components and other parts outside
fire enclosures
Equipment for building-in.
Must be considered in the
end product.
N
4.7.3.4
Materials for components and other parts inside
fire enclosures
Other materials inside the
enclosure are minimum V-2
material.
P
4.7.3.5
Materials for air filter assemblies
No air filters in the equipment.
N
4.7.3.6
Materials used in high-voltage components
No parts exceeding 4kV.
N
5
ELECTRICAL REQUIREMENTS AND SIMULATED ABNORMAL CONDITIONS
P
5.1
Touch current and protective conductor current
P
5.1.1
General
Test conducted in
accordance with 5.1.2 to
5.1.7.
P
5.1.2
Configuration of equipment under test (EUT)
Refer below:
P
5.1.2.1
Single connection to an a.c. mains supply
No interconnected of
equipment.
N
5.1.2.2
Redundant multiple connections to an a.c. mains
supply
No multiple power sources.
N
5.1.2.3
Simultaneous multiple connections to an a.c. mains No multiple power sources.
supply
N
5.1.3
Test circuit
Tested for connection to IT
power distribution system
(also relevant for TN or TT
power distribution system).
—
5.1.4
Application of measuring instrument
Measuring instrument D1 is
used.
—
5.1.5
Test procedure
Considered.
—
5.1.6
Test measurements
Measuring instrument D1 is
used.
—
Supply voltage (V) ................................................ :
264V
—
Measured touch current (mA) .............................. :
(See appended table 5.1)
P
TRF No. IECEN60950_1C
Verdict
- Page 43 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Max. allowed touch current (mA) ......................... :
3.5 and 0.25
Verdict
—
Measured protective conductor current (mA) ....... :
N
Max. allowed protective conductor current (mA)... :
—
5.1.7
Equipment with touch current exceeding 3,5 mA
5.1.7.1
General ................................................................. :
—
5.1.7.2
Simultaneous multiple connections to the supply
—
5.1.8
Touch currents to telecommunication networks and Not connected to a
cable distribution systems and from
telecommunication network
telecommunication networks
nor cable distribution
systems.
N
5.1.8.1
Limitation of the touch current to a
telecommunication network or to a cable
distribution system
—
Supply voltage (V) ................................................ :
—
Measured touch current (mA) .............................. :
—
Max. allowed touch current (mA) ......................... :
—
5.1.8.2
Summation of touch currents from
telecommunication networks
The touch current does not
exceed 3.5mA.
Not connected to a
telecommunication network.
N
N
a) EUT with earthed telecommunication ports ..... :
—
b) EUT whose telecommunication ports have no
reference to protective earth
—
5.2
Electric strength
P
5.2.1
General
(see appended table 5.2)
P
5.2.2
Test procedure
(see appended table 5.2)
P
5.3
Abnormal operating and fault conditions
5.3.1
Protection against overload and abnormal
operation
(see appended table 5.3)
P
5.3.2
Motors
No excessive temperatures
occur when fan motor is
stalled.
P
5.3.3
Transformers
See appended Annex C.
P
5.3.4
Functional insulation.............................................. :
Complies with a) and c).
P
TRF No. IECEN60950_1C
P
- Page 44 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
5.3.5
Electromechanical components
No electromechanical
components in secondary
circuits.
N
5.3.6
Audio amplifiers in ITE ......................................... :
No audio amplifiers inside
equipment.
N
5.3.7
Simulation of faults
See the enclosed fault
condition tests.
P
5.3.8
Unattended equipment
No thermostats, temperature
limiters or thermal cut-outs
N
5.3.9
Compliance criteria for abnormal operating and
fault conditions
Refer below:
P
5.3.9.1
During the tests
No fire or molten metal
occurred and no deformation
of enclosure during the tests.
P
5.3.9.2
After the tests
No reduction of clearance and
creepage distances.
Electric strength test is made
on basic, supplementary and
reinforced insulation.
P
6
CONNECTION TO TELECOMMUNICATION NETWORKS
N
6.1
Protection of telecommunication network service
persons, and users of other equipment connected
to the network, from hazards in the equipment
N
6.1.1
Protection from hazardous voltages
N
6.1.2
Separation of the telecommunication network from
earth
N
6.1.2.1
Requirements
Supply voltage (V) ................................................ :
N
—
Current in the test circuit (mA) ........................... :
—
6.1-6.1.2.2: No TNV circuits.
6.1.2.2
Exclusions ............................................................ :
6.2
Protection of equipment users from overvoltages on telecommunication networks
N
6.2.1
Separation requirements
N
6.2.2
Electric strength test procedure
N
6.2.2.1
Impulse test
N
6.2.2.2
Steady-state test
N
TRF No. IECEN60950_1C
No TNV circuits.
Verdict
6.2.1-6.2.2.3: No TNV
circuits.
N
- Page 45 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
6.2.2.3
Compliance criteria
N
6.3
Protection of the telecommunication wiring system from overheating
N
Max. output current (A) ......................................... :
—
Current limiting method ........................................ :
—
7
CONNECTION TO CABLE DISTRIBUTION SYSTEMS
N
7.1
General
N
7.2
Protection of cable distribution system service
persons, and users of other equipment connected
to the system, from hazardous voltages in the
equipment
N
7.3
Protection of equipment users from overvoltages
on the cable distribution system
N
7.4
Insulation between primary circuits and cable
distribution systems
N
7.4.1
General
N
7.4.2
Voltage surge test
N
7.4.3
Impulse test
N
A
ANNEX A, TESTS FOR RESISTANCE TO HEAT AND FIRE
N
A.1
Flammability test for fire enclosures of movable
equipment having a total mass exceeding 18 kg,
and of stationary equipment (see 4.7.3.2)
Refer below:
N
A.1.1
Samples ................................................................ :
Product mass <18kg
N
7.1-7.4.3: Not connected to
cable distribution systems.
Verdict
Wall thickness (mm).............................................. :
—
A.1.2
Conditioning of samples; temperature (°C) ......... :
N
A.1.3
Mounting of samples ............................................ :
N
A.1.4
Test flame (see IEC 60695-11-3)
N
Flame A, B, C or D ............................................... :
—
A.1.5
Test procedure
A.1.6
Compliance criteria
N
N
Sample 1 burning time (s) ..................................... :
—
TRF No. IECEN60950_1C
- Page 46 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
Sample 2 burning time (s) ..................................... :
—
Sample 3 burning time (s) ..................................... :
—
A.2
Flammability test for fire enclosures of movable equipment having a total mass not
exceeding 18 kg, and for material and components located inside fire enclosures
(see 4.7.3.2 and 4.7.3.4)
N
A.2.1
Samples, material ................................................. :
N
All materials have suitable
flame class, no testing
required, must be taken care
in the end product.
Wall thickness (mm).............................................. :
—
A.2.2
Conditioning of samples; temperature (°C) ......... :
N
A.2.3
Mounting of samples ............................................ :
N
A.2.4
Test flame (see IEC 60695-11-4)
N
Flame A, B or C ................................................... :
—
A.2.5
Test procedure
N
A.2.6
Compliance criteria
N
Sample 1 burning time (s) ..................................... :
—
Sample 2 burning time (s) ..................................... :
—
Sample 3 burning time (s) ..................................... :
—
Alternative test acc. to IEC 60695-11-5, cl. 5 and 9
N
Sample 1 burning time (s) ..................................... :
Sample 2 burning time (s) ..................................... :
—
—
Sample 3 burning time (s) ..................................... :
—
A.3
Hot flaming oil test (see 4.6.2)
N
A.3.1
Mounting of samples
N
A.3.2
Test procedure
N
A.3.3
Compliance criterion
N
B
ANNEX B, MOTOR TESTS UNDER ABNORMAL CONDITIONS (see 4.7.2.2 and
5.3.2)
P
B.1
General requirements
Fan are separately certified,
see list of critical components.
P
Position ................................................................ :
Cooling fan, supplied by
SELV voltage.
—
A.2.7
TRF No. IECEN60950_1C
- Page 47 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
Manufacturer ........................................................ :
See list of critical
components.
—
Type ..................................................................... :
See list of critical
components.
—
Rated values ....................................................... :
12Vdc
—
B.2
Test conditions
N
B.3
Maximum temperatures
N
B.4
Running overload test
N
B.5
Locked-rotor overload test
N
Test duration (days) ............................................. :
—
Electric strength test: test voltage (V) .................. :
—
B.6
Running overload test for d.c. motors in secondary
circuits
N
B.6.1
General
N
B.6.2
Test procedure
N
B.6.3
Alternative test procedure
N
B.6.4
Electric strength test; test voltage (V) .................. :
N
B.7
Locked-rotor overload test for d.c. motors in
secondary circuits
N
B.7.1
General
N
B.7.2
Test procedure
N
B.7.3
Alternative test procedure
N
B.7.4
Electric strength test; test voltage (V) ................. :
B.8
Test for motors with capacitors
N
N
B.9
Test for three-phase motors
N
B.10
Test for series motors
N
Operating voltage (V) ........................................... :
—
ANNEX C, TRANSFORMERS (see 1.5.4 and 5.3.3)
P
C
Position ................................................................ :
Primary to SELV.
—
Manufacturer ........................................................ :
(see appended table 1.5.1)
—
Type ..................................................................... :
(see appended table 1.5.1)
—
Rated values ....................................................... :
(see appended table 1.5.1)
—
TRF No. IECEN60950_1C
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IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Method of protection ............................................. :
Inherent impedance.
—
C.1
Overload test
(see appended table 5.3)
P
C.2
Insulation
The reinforced insulation fulfil
the requirement in Sub-clause
2.10 and relevant tests of
Sub-clause 5.2.2
P
Protection from displacement of windings ............ :
Secured by tubing and
insulation tape. (see
appended table C.2)
P
D
ANNEX D, MEASURING INSTRUMENTS FOR TOUCH-CURRENT TESTS
(see 5.1.4)
P
D.1
Measuring instrument
P
D.2
Alternative measuring instrument
N
E
ANNEX E, TEMPERATURE RISE OF A WINDING (see 1.4.13)
N
F
ANNEX F, MEASUREMENT OF CLEARANCES AND CREEPAGE DISTANCES
(see 2.10 and Annex G)
P
G
ANNEX G, ALTERNATIVE METHOD FOR DETERMINING MINIMUM
CLEARANCES
N
G.1
Clearances
N
G.1.1
General
G.1.2
Summary of the procedure for determining
minimum clearances
N
N
G.2
Determination of mains transient voltage (V)
N
G.2.1
AC mains supply .................................................. :
N
G.2.2
Earthed d.c. mains supplies ................................. :
N
G.2.3
Unearthed d.c. mains supplies ............................ :
N
G.2.4
Battery operation .................................................. :
N
G.3
Determination of telecommunication network
transient voltage (V) ............................................. :
N
G.4
Determination of required withstand voltage (V)
N
G.4.1
Mains transients and internal repetitive peaks .... :
N
G.4.2
Transients from telecommunication networks ..... :
N
TRF No. IECEN60950_1C
Figure D.1 used.
Verdict
- Page 49 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
G.4.3
Combination of transients
N
G.4.4
Transients from cable distribution systems
N
G.5
Measurement of transient voltages (V)
N
a) Transients from a mains supply
—
For an a.c. mains supply
—
For a d.c. mains supply
—
b) Transients from a telecommunication network
—
G.6
Determination of minimum clearances ................ :
N
H
ANNEX H, IONIZING RADIATION (see 4.3.13)
N
J
ANNEX J, TABLE OF ELECTROCHEMICAL POTENTIALS (see 2.6.5.6)
P
Metal(s) used ....................................................... :
—
K
ANNEX K, THERMAL CONTROLS (see 1.5.3 and 5.3.8)
N
K.1
Making and breaking capacity
N
K.2
Thermostat reliability; operating voltage (V) ........ :
N
K.3
Thermostat endurance test; operating voltage (V)
.............................................................................. :
N
K.4
Temperature limiter endurance; operating voltage
(V) ........................................................................ :
N
K.5
Thermal cut-out reliability
N
K.6
Stability of operation
N
L
ANNEX L, NORMAL LOAD CONDITIONS FOR SOME TYPES OF ELECTRICAL
BUSINESS EQUIPMENT (see 1.2.2.1 and 4.5.2)
N
L.1
Typewriters
N
L.2
Adding machines and cash registers
N
L.3
Erasers
N
L.4
Pencil sharpeners
N
L.5
Duplicators and copy machines
N
L.6
Motor-operated files
N
TRF No. IECEN60950_1C
Result - Remark
Verdict
- Page 50 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
L.7
Other business equipment
N
M
ANNEX M, CRITERIA FOR TELEPHONE RINGING SIGNALS (see 2.3.1)
N
M.1
Introduction
N
M.2
Method A
N
M.3
Method B
N
M.3.1
Ringing signal
M.3.1.1
Frequency (Hz) .................................................... :
N
—
M.3.1.2
Voltage (V) ........................................................... :
—
M.3.1.3
Cadence; time (s), voltage (V) ............................. :
—
M.3.1.4
Single fault current (mA) ...................................... :
—
M.3.2
Tripping device and monitoring voltage ............... :
N
M.3.2.1
Conditions for use of a tripping device or a
monitoring voltage
N
M.3.2.2
Tripping device
N
M.3.2.3
Monitoring voltage (V) .......................................... :
N
N
ANNEX N, IMPULSE TEST GENERATORS (see 1.5.7.2, 1.5.7.3, 2.10.3.9, 6.2.2.1,
7.3.2, 7.4.3 and Clause G.5)
N
N.1
ITU-T impulse test generators
N
N.2
IEC 60065 impulse test generator
N
P
ANNEX P, NORMATIVE REFERENCES
P
Q
ANNEX Q, Voltage dependent resistors (VDRs) (see 1.5.9.1)
P
a) Preferred climatic categories ........................... :
P
b) Maximum continuous voltage .......................... :
P
c) Pulse current .................................................... :
P
R
ANNEX R, EXAMPLES OF REQUIREMENTS FOR QUALITY CONTROL
PROGRAMMES
N
R.1
Minimum separation distances for unpopulated
coated printed boards (see 2.10.6.2)
N
TRF No. IECEN60950_1C
Result - Remark
Verdict
- Page 51 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
R.2
Reduced clearances (see 2.10.3)
N
S
ANNEX S, PROCEDURE FOR IMPULSE TESTING (see 6.2.2.3)
N
S.1
Test equipment
N
S.2
Test procedure
N
S.3
Examples of waveforms during impulse testing
N
T
ANNEX T, GUIDANCE ON PROTECTION AGAINST INGRESS OF WATER
(see 1.1.2)
N
U
ANNEX U, INSULATED WINDING WIRES FOR USE WITHOUT INTERLEAVED
INSULATION (see 2.10.5.4)
P
V
ANNEX V, AC POWER DISTRIBUTION SYSTEMS (see 1.6.1)
P
V.1
Introduction
See below
P
V.2
TN power distribution systems
See sub-clause 1.6.1
P
W
ANNEX W, SUMMATION OF TOUCH CURRENTS
N
W.1
Touch current from electronic circuits
N
W.1.1
Floating circuits
N
W.1.2
Earthed circuits
N
W.2
Interconnection of several equipments
N
W.2.1
Isolation
N
W.2.2
Common return, isolated from earth
N
W.2.3
Common return, connected to protective earth
N
X
ANNEX X, MAXIMUM HEATING EFFECT IN TRANSFORMER TESTS (see clause
C.1)
P
X.1
Determination of maximum input current
See Annex C.1
P
X.2
Overload test procedure
Electronic protection mode is
used.
P
Y
ANNEX Y, ULTRAVIOLET LIGHT CONDITIONING TEST (see 4.3.13.3)
TRF No. IECEN60950_1C
Result - Remark
Verdict
N
- Page 52 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Y.1
Test apparatus ..................................................... :
N
Y.2
Mounting of test samples ..................................... :
N
Y.3
Carbon-arc light-exposure apparatus .................. :
N
Y.4
Xenon-arc light exposure apparatus .................... :
N
Z
ANNEX Z, OVERVOLTAGE CATEGORIES (see 2.10.3.2 and Clause G.2)
P
AA
ANNEX AA, MANDREL TEST (see 2.10.5.8)
N
BB
ANNEX BB, CHANGES IN THE SECOND EDITION
—
TRF No. IECEN60950_1C
Result - Remark
Verdict
- Page 53 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
EN 60950-1:2006, A11 – CENELEC COMMON MODIFICATIONS
Contents
Add the following annexes:
P
Annex ZA (normative)
Normative references to international publications
with their corresponding European publications
Annex ZB (normative)
Annex ZC (informative)
General
A-deviations
Delete all the “country” notes in the reference document according to the following
list:
1.4.8
1.5.8
2.2.3
2.3.2.1
2.7.1
3.2.1.1
4.3.6
4.7.3.1
6
6.2.2
7.1
G.2.1
1.3.Z1
Special national conditions
Note 2
Note 2
Note
Note 2
Note
Note
Note 1 & 2
Note 2
Note 2 & 5
Note 6.
Note 3
Note 2
1.5.1
1.5.9.4
2.2.4
2.3.4
2.10.3.2
3.2.4
4.7
5.1.7.1
6.1.2.1
2.2.1
7.2
Annex H
Note 2 & 3
Note
Note
Note 2
Note 2
Note 3.
Note 4
Note 3 & 4
Note 2
Note 2
Note
Note 2
1.5.7.1
1.7.2.1
2.3.2
2.6.3.3
2.10.5.13
2.5.1
4.7.2.2
5.3.7
6.1.2.2
6.2.2.2
7.3
P
Note
Note 4, 5 & 6
Note
Note 2 & 3
Note 3
Note 2
Note
Note 1
Note
Note
Note 1 & 2
Add the following subclause:
N
1.3.Z1 Exposure to excessive sound pressure
The apparatus shall be so designed and constructed as to present no danger when
used for its intended purpose, either in normal operating conditions or under fault
conditions, particularly providing protection against exposure to excessive sound
pressures from headphones or earphones.
NOTE Z1 A new method of measurement is described in EN 50332-1, Sound system
equipment:
Headphones and earphones associated with portable audio equipment - Maximum sound
pressure level measurement methodology and limit considerations - Part 1: General method
for “one package equipment”, and in EN 50332-2, Sound system equipment: Headphones
and earphones associated with portable audio equipment - Maximum sound pressure level
measurement methodology and limit considerations - Part 2: Guidelines to associate sets
with headphones coming from different manufacturers.
1.5.1
Add the following NOTE:
N
NOTE Z1 The use of certain substances in electrical and electronic equipment is restricted
within the EU: see Directive 2002/95/EC
1.7.2.1
Add the following NOTE:
NOTE Z1 In addition, the instructions shall include, as far as applicable, a warning that
excessive sound pressure from earphones and headphones can cause hearing loss
TRF No. IECEN60950_1C
N
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Clause
Requirement + Test
2.7.1
Replace the subclause as follows:
Result - Remark
Verdict
P
Basic requirements
To protect against excessive current, short-circuits and earth faults in PRIMARY
CIRCUITS, protective devices shall be included either as integral parts of the
equipment or as parts of the building installation, subject to the following, a), b) and
c):
a) except as detailed in b) and c), protective devices necessary to comply with the
requirements of 5.3 shall be included as parts of the equipment;
b) for components in series with the mains input to the equipment such as the
supply cord, appliance coupler, r.f.i. filter and switch, short-circuit and earth fault
protection may be provided by protective devices in the building installation;
c) it is permitted for PLUGGABLE EQUIPMENT TYPE B or PERMANENTLY
CONNECTED EQUIPMENT, to rely on dedicated overcurrent and short-circuit
protection in the building installation, provided that the means of protection, e.g.
fuses or circuit breakers, is fully specified in the installation instructions.
If reliance is placed on protection in the building installation, the installation
instructions shall so state, except that for PLUGGABLE EQUIPMENT TYPE A the
building installation shall be regarded as providing protection in accordance with
the rating of the wall socket outlet.
2.7.2
This subclause has been declared ‘void’.
N
3.2.3
Delete the NOTE in Table 3A, and delete also in this table the conduit sizes in
parentheses.
P
3.2.5.1
Replace
N
“60245 IEC 53” by “H05 RR-F”;
“60227 IEC 52” by “H03 VV-F or H03 VVH2-F”;
“60227 IEC 53” by “H05 VV-F or H05 VVH2-F2”.
In Table 3B, replace the first four lines by the following:
| Up to and including 6
|
| Over 6 up to and including 10 |
| Over 10 up to and including 16 |
(0,75)
(1,0) c)
0,75 a)
1,0
1,5
b)
|
|
|
In the conditions applicable to Table 3B delete the words “in some countries” in
condition a).
In NOTE 1, applicable to Table 3B, delete the second sentence.
3.3.4
In Table 3D, delete the fourth line: conductor sizes for 10 to 13 A, and replace with
the following:
| Over 10 up to and including 16 |
1,5 to 2,5
Delete the fifth line: conductor sizes for 13 to 16 A.
TRF No. IECEN60950_1C
|
1,5 to 4
|
N
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IEC/EN 60950-1
Clause
Requirement + Test
4.3.13.6
Add the following NOTE:
Result - Remark
Verdict
N
NOTE Z1 Attention is drawn to 1999/519/EC: Council Recommendation on the limitation of
exposure of the general public to electromagnetic fields 0 Hz to 300 GHz. Standards taking
into account this Recommendation which demonstrate compliance with the applicable EU
Directive are indicated in the OJEC.
Annex H
Replace the last paragraph of this annex by:
N
At any point 10 cm from the surface of the OPERATOR ACCESS AREA, the dose
rate shall not exceed 1 μSv/h (0,1 mR/h) (see NOTE). Account is taken of the
background level.
Replace the notes as follows:
NOTE These values appear in Directive 96/29/Euratom.
Delete NOTE 2.
Bibliography
Additional EN standards.
—
ZA
NORMATIVE REFERENCES TO INTERNATIONAL PUBLICATIONS WITH THEIR
CORRESPONDING EUROPEAN PUBLICATIONS
—
ZB
SPECIAL NATIONAL CONDITIONS
P
1.2.4.1
In Denmark, certain types of Class I appliances (see 3.2.1.1) may be provided with
a plug not establishing earthing conditions when inserted into Danish socketoutlets.
N
1.2.13.14
In Norway and Sweden, for requirements see 1.7.2.1 and 7.3 of this annex.
N
1.5.7.1
In Finland, Norway and Sweden, resistors bridging BASIC INSULATION in CLASS I
comply with the requirements in 1.5.7.1. In
addition when a single resistor is used, the resistor must withstand the resistor test
in 1.5.7.2.
N
1.5.8
In Norway, due to the IT power system used (see annex V, Figure V.7), capacitors
are required to be rated for the applicable line-to-line voltage (230 V).
P
1.5.9.4
In Finland, Norway and Sweden, the third dashed sentence is applicable only to
equipment as defined in 6.1.2.2 of this annex.
N
PLUGGABLE EQUIPMENT TYPE A must
TRF No. IECEN60950_1C
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Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
1.7.2.1
In Finland, Norway and Sweden, CLASS I PLUGGABLE EQUIPMENT TYPE A
intended for connection to other equipment or a network shall, if safety relies on
connection to protective earth or if surge suppressors are connected between the
network terminals and accessible parts, have a marking stating that the equipment
must be connected to an earthed mains socket-outlet.
The marking text in the applicable countries shall be as follows:
In Finland: "Laite on liitettävä suojamaadoituskoskettimilla varustettuun
pistorasiaan"
In Norway: “Apparatet må tilkoples jordet stikkontakt”
In Sweden: “Apparaten skall anslutas till jordat uttag”
In Norway and Sweden, the screen of the cable distribution system is normally not
earthed at the entrance of the building and there is normally no equipotential
bonding system within the building. Therefore the protective earthing of the building
installation need to be isolated from the screen of a cable distribution system.
It is however accepted to provide the insulation external to the equipment by an
adapter or an interconnection cable with galvanic isolator, which may be provided
by e.g. a retailer.
The user manual shall then have the following or similar information in Norwegian
and Swedish language respectively, depending on in what country the equipment
is intended to be used in:
“Equipment connected to the protective earthing of the building installation through
the mains connection or through other equipment with a connection to protective
earthing – and to a cable distribution system using coaxial cable, may in some
circumstances create a fire hazard. Connection to a cable distribution system has
therefore to be provided through a device providing electrical isolation below a
certain frequency range (galvanic isolator, see EN 60728-11).”
NOTE In Norway, due to regulation for installations of cable distribution systems, and in Sweden, a
galvanic isolator shall provide electrical insulation below 5 MHz. The insulation shall withstand a
dielectric strength of 1,5 kV r.m.s., 50 Hz or 60 Hz, for 1 min.
Translation to Norwegian (the Swedish text will also be accepted in Norway):
“Utstyr som er koplet til beskyttelsesjord via nettplugg og/eller via annet jordtilkoplet
utstyr – og er tilkoplet et kabel-TV nett, kan forårsake brannfare. For å unngå dette
skal det ved tilkopling av utstyret til kabel-TV nettet installeres en galvanisk isolator
mellom utstyret og kabel- TV nettet.”
Translation to Swedish:
”Utrustning som är kopplad till skyddsjord via jordat vägguttag och/eller via annan
utrustning och samtidigt är kopplad till kabel-TV nät kan i vissa fall medfőra risk főr
brand. Főr att undvika detta skall vid anslutning av utrustningen till kabel-TV nät
galvanisk isolator finnas mellan utrustningen och kabel-TV nätet.”
TRF No. IECEN60950_1C
Verdict
N
- Page 57 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
1.7.5
In Denmark, socket-outlets for providing power to other equipment shall be in
accordance with the Heavy Current Regulations, Section 107-2-D1, Standard
Sheet DK 1-3a, DK 1-5a or DK 1-7a, when used on Class I equipment. For
STATIONARY EQUIPMENT the socket-outlet shall be in accordance with Standard
Sheet DK 1-1b or DK 1-5a.
For CLASS II EQUIPMENT the socket outlet shall be in accordance with Standard
Sheet DKA 1-4a.
N
2.2.4
In Norway, for requirements see 1.7.2.1, 6.1.2.1 and 6.1.2.2 of this annex.
N
2.3.2
In Finland, Norway and Sweden there are additional requirements for the
insulation. See 6.1.2.1 and 6.1.2.2 of this annex.
N
2.3.4
In Norway, for requirements see 1.7.2.1, 6.1.2.1 and 6.1.2.2 of this annex.
N
2.6.3.3
In the United Kingdom, the current rating of the circuit shall be taken as 13 A, not
16 A.
P
2.7.1
In the United Kingdom, to protect against excessive currents and short-circuits in
the PRIMARY CIRCUIT of DIRECT PLUG-IN EQUIPMENT, tests according to 5.3
shall be conducted, using an external protective device rated 30 A or 32 A. If these
tests fail, suitable protective devices shall be included as integral parts of the
DIRECT PLUG-IN EQUIPMENT, so that the requirements of 5.3 are met.
N
2.10.5.13
In Finland, Norway and Sweden, there are additional requirements for the
insulation, see 6.1.2.1 and 6.1.2.2 of this annex.
N
3.2.1.1
In Switzerland, supply cords of equipment having a RATED CURRENT not
exceeding 10 A shall be provided with a plug complying with SEV 1011 or IEC
60884-1 and one of the following dimension sheets:
N
SEV 6532-2.1991
SEV 6533-2.1991
SEV 6534-2.1991
Result - Remark
Plug Type 15
Plug Type 11
Plug Type 12
3P+N+PE
L+N
L+N+PE
250/400 V, 10 A
250 V, 10 A
250 V, 10 A
In general, EN 60309 applies for plugs for currents exceeding 10 A. However, a 16
A plug and socket-outlet system is being introduced in Switzerland, the plugs of
which are according to the following dimension sheets, published in February
1998:
SEV 5932-2.1998
SEV 5933-2.1998
SEV 5934-2.1998
TRF No. IECEN60950_1C
Plug Type 25
Plug Type 21
Plug Type 23
3L+N+PE
L+N
L+N+PE
230/400 V, 16 A
250 V, 16 A
250 V, 16 A
Verdict
- Page 58 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
3.2.1.1
In Denmark, supply cords of single-phase equipment having a rated current not
exceeding13 A shall be provided with a plug according to the Heavy Current
Regulations, Section 107-2-D1.
Verdict
N
CLASS I EQUIPMENT provided with socket-outlets with earth contacts or which
are intended to be used in locations where protection against indirect contact is
required according to the wiring rules shall be provided with a plug in accordance
with standard sheet DK 2-1a or DK 2-5a.
If poly-phase equipment and single-phase equipment having a RATED CURRENT
exceeding 13 A is provided with a supply cord with a plug, this plug shall be in
accordance with the Heavy Current Regulations, Section 107-2-D1 or EN 60309-2.
3.2.1.1
In Spain, supply cords of single-phase equipment having a rated current not
exceeding 10 A shall be provided with a plug according to UNE 20315:1994.
N
Supply cords of single-phase equipment having a rated current not exceeding 2,5
A shall be provided with a plug according to UNE-EN 50075:1993.
CLASS I EQUIPMENT provided with socket-outlets with earth contacts or which
are intended to be used in locations where protection against indirect contact is
required according to the wiring rules, shall be provided with a plug in accordance
with standard UNE 20315:1994.
If poly-phase equipment is provided with a supply cord with a plug, this plug shall
be in accordance with UNE-EN 60309-2.
3.2.1.1
In the United Kingdom, apparatus which is fitted with a flexible cable or cord and
is designed to be connected to a mains socket conforming to BS 1363 by means of
that flexible cable or cord and plug, shall be fitted with a ‘standard plug’ in
accordance with Statutory Instrument 1768:1994 - The Plugs and Sockets etc.
(Safety) Regulations 1994, unless exempted by those regulations.
N
NOTE ‘Standard plug’ is defined in SI 1768:1994 and essentially means an approved plug
conforming to BS 1363 or an approved conversion plug.
3.2.1.1
In Ireland, apparatus which is fitted with a flexible cable or cord and is designed to
be connected to a mains socket conforming to I.S. 411 by means of that flexible
cable or cord and plug, shall be fitted with a 13 A plug in accordance with Statutory
Instrument 525:1997 - National Standards Authority of Ireland (section 28) (13 A
Plugs and Conversion Adaptors for Domestic Use) Regulations 1997.
N
3.2.4
In Switzerland, for requirements see 3.2.1.1 of this annex.
N
3.2.5.1
In the United Kingdom, a power supply cord with conductor of 1,25 mm2 is
allowed for equipment with a rated current over 10 A and up to and including 13 A.
N
3.3.4
In the United Kingdom, the range of conductor sizes of flexible cords to be
accepted by terminals for equipment with a RATED CURRENT of over 10 A up to
and including 13 A is:
N
• 1,25 mm2 to 1,5 mm2 nominal cross-sectional area.
TRF No. IECEN60950_1C
- Page 59 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
4.3.6
In the United Kingdom, the torque test is performed using a socket outlet
complying with BS 1363 part 1:1995, including Amendment 1:1997 and
Amendment 2:2003 and the plug part of DIRECT PLUG-IN EQUIPMENT shall be
assessed to BS 1363: Part 1, 12.1, 12.2, 12.3, 12.9, 12.11, 12.12, 12.13, 12.16 and
12.17, except that the test of 12.17 is performed at not less than 125 °C. Where the
metal earth pin is replaced by an Insulated Shutter Opening Device (ISOD), the
requirements of clauses 22.2 and 23 also apply.
N
4.3.6
In Ireland, DIRECT PLUG-IN EQUIPMENT is known as plug similar devices. Such
devices shall comply with Statutory Instrument 526:1997 - National Standards
Authority of Ireland (Section 28) (Electrical plugs, plug similar devices and sockets
for domestic use) Regulations, 1997.
N
5.1.7.1
In Finland, Norway and Sweden TOUCH CURRENT measurement results
exceeding 3,5 mA r.m.s. are permitted only for the following equipment:
N
• STATIONARY PLUGGABLE EQUIPMENT TYPE A that is intended to be used in
a RESTRICTED ACCESS LOCATION where equipotential bonding has been
applied, for example, in a telecommunication centre; and has provision for a
permanently connected PROTECTIVE EARTHING CONDUCTOR; and is provided
with instructions for the installation of that conductor by a SERVICE PERSON;
• STATIONARY PLUGGABLE EQUIPMENT TYPE B;
• STATIONARY PERMANENTLY CONNECTED EQUIPMENT.
TRF No. IECEN60950_1C
Verdict
- Page 60 of 95 -
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IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
6.1.2.1
In Finland, Norway and Sweden, add the following text between the first and
second paragraph of the compliance clause:
Verdict
N
If this insulation is solid, including insulation forming part of a component, it shall at
least consist of either
-
two layers of thin sheet material, each of which shall pass the electric
strength test below, or
one layer having a distance through insulation of at least 0,4 mm, which
shall
pass the electric strength test below.
If this insulation forms part of a semiconductor component (e.g. an optocoupler),
there is no distance through insulation requirement for the insulation consisting of
an insulating compound completely filling the casing, so that CLEARANCES and
CREEPAGE DISTANCES do not exist, if the component passes the electric
strength test in accordance with the compliance clause below and in addition
-
passes the tests and inspection criteria of 2.10.11 with an electric strength
test of 1,5 kV multiplied by 1,6 (the electric strength test of 2.10.10 shall be
performed using 1,5 kV), and
-
is subject to ROUTINE TESTING for electric strength during manufacturing,
using a test voltage of 1,5 kV.
It is permitted to bridge this insulation with a capacitor complying with
EN 132400:1994, subclass Y2.
A capacitor classified Y3 according to EN 132400:1994, may bridge this insulation
under the following conditions:
-
the insulation requirements are satisfied by having a capacitor classified Y3
as defined by EN 132400, which in addition to the Y3 testing, is tested with
an impulse test of 2,5 kV defined in EN 60950-1:2006, 6.2.2.1;
-
the additional testing shall be performed on all the test specimens as
described in EN 132400;
-
the impulse test of 2,5 kV is to be performed before the endurance test in
EN 132400, in the sequence of tests as described in EN 132400.
6.1.2.2
In Finland, Norway and Sweden, the exclusions are applicable for
PERMANENTLY CONNECTED EQUIPMENT, PLUGGABLE EQUIPMENT TYPE
B and equipment intended to be used in a RESTRICTED ACCESS LOCATION
where equipotential bonding has been applied, e.g. in a telecommunication centre,
and which has provision for a permanently connected PROTECTIVE EARTHING
CONDUCTOR and is provided with instructions for the installation of that conductor
by a SERVICE PERSON.
N
7.2
In Finland, Norway and Sweden, for requirements see 6.1.2.1 and 6.1.2.2 of this
annex.
N
The term TELECOMMUNICATION NETWORK in 6.1.2 being replaced by the term
CABLE DISTRIBUTION SYSTEM.
TRF No. IECEN60950_1C
- Page 61 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
Verdict
7.3
In Norway and Sweden, for requirements see 1.2.13.14 and 1.7.2.1 of this annex.
N
7.3
In Norway, for installation conditions see EN 60728-11:2005.
N
ZC
A-DEVIATIONS (informative)
P
1.5.1
Sweden (Ordinance 1990:944)
N
Add the following:
NOTE In Sweden, switches containing mercury are not permitted.
1.5.1
Switzerland (Ordinance on environmentally hazardous substances SR 814.081,
Annex 1.7, Mercury - Annex 1.7 of SR 814.81 applies for mercury.)
N
Add the following:
NOTE In Switzerland, switches containing mercury such as thermostats, relays and level
controllers are not allowed.
1.7.2.1
Denmark (Heavy Current Regulations)
N
Supply cords of CLASS I EQUIPMENT, which is delivered without a plug, must be
provided with a visible tag with the following text:
Vigtigt!
Lederen med grøn/gul isolation
må kun tilsluttes en klemme mærket
eller
If essential for the safety of the equipment, the tag must in addition be provided
with a diagram, which shows the connection of the other conductors, or be
provided with the following text:
“For tilslutning af de øvrige ledere, se medfølgende installationsvejledning.”
1.7.2.1
Germany (Gesetz über technische Arbeitsmittel und Verbraucherprodukte (Geräteund Produktsicherheitsgesetz – GPSG) [Law on technical labour equipment and
consumer products], of 6th January 2004, Section 2, Article 4, Clause (4), Item 2).
P
If for the assurance of safety and health certain rules during use, amending or
maintenance of a technical labour equipment or readymade consumer product are
to be followed, a manual in German language has to be delivered when placing the
product on the market.
Of this requirement, rules for use even only by SERVICE PERSONS are not
exempted.
1.7.5
Denmark (Heavy Current Regulations)
With the exception of CLASS II EQUIPMENT provided with a socket outlet in
accordance with the Heavy Current Regulations, Section 107-2-D1, Standard
Sheet DK 1-4a, CLASS II EQUIPMENT shall not be fitted with socket-outlets for
providing power to other equipment.
TRF No. IECEN60950_1C
N
- Page 62 of 95 -
Report No. 139234
IEC/EN 60950-1
Clause
Requirement + Test
Result - Remark
1.7.13
Switzerland (Ordinance on chemical hazardous risk reduction SR 814.81, Annex
2.15 Batteries)
Verdict
N
Annex 2.15 of SR 814.81 applies for batteries.
5.1.7.1
Denmark (Heavy Current Regulations, Chapter 707, clause 707.4)
TOUCH CURRENT measurement results exceeding 3,5 mA r.m.s. are permitted
only for PERMANENTLY CONNECTED EQUIPMENT and PLUGGABLE
EQUIPMENT TYPE B.
TRF No. IECEN60950_1C
N
- Page 63 of 95 -
Report No. 139234
1.5.1
TABLE: List of critical components
Object/part No.
Manufacturer/
trademark
Type/model
Enclosure
Various
Various
PCBs
Various
Various
Appliance inlet
Rong Feng
Supercom
Solteam
Yue Qing
Beierjia
Canal
TECX-UNION
Jackson
SS-7B, SS-120
SC-9
ST-01
ST-A01 series
Rong Feng
Legion
Pronic
Rong Feng
Canal
Canal
Zhang Jiagang
Hua-Feng
Solteam
Canal
Solteam
Solteam
KOA
RF-1003
Serie SS21
R 22
RF-1004
MR Series
MR6 Series
HF 606xx
Power switch
(Optional)
Discharge
Resistor
(RX4)
1), 2)
Serie MR-21
MR-2 series
OR-L Serie
OR-P Serie
RCR 50ENseries
RCR 60
Pilkor
MSR 37
Uniroyal
MGR0W4Jxxxx
A50
MGR0W2Jxxxx
A10
MGR01WJxxxx
A10
MGR02WJxxxx
AA0
Uniroyal
Uniroyal
Uniroyal
Fuse (F1)
KS-series
TU-301- series
JS-608-R
Littelfuse
Walter
TRF No. IECEN60950_1C
215-xxx
TSC
P
Technical data
Metal, 0.8 mm
min. thick
Min. V-1, min.
130°C
10A, 250V
min. 65°C
16A, 250V
Standard
(Edition / year)
UL 796
EN 60320-1,
UL 498
IEC 61058-1,
UL 1054
Tested in the
equip.
UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
10(4)A, 250V
12(4)A, 250V
16(4)A, 250V
16(4)A, 250V
10(4)A, 250V
16(8)A, 250V
10/6A,
125/250V
10A, 250V
10(4)A, 250V
6A, 250V
6A, 250V
2.2MΩ or
3.3MΩ, 1/2W
2.2MΩ or
3.3MΩ, 1W
2.2MΩ or
3.3MΩ, 1/2W
2.2MΩ or
3.3MΩ, 1/4W
2.2MΩ or
3.3MΩ, 1/2W
2.2MΩ or
3.3MΩ, 1W
2.2MΩ or
3.3MΩ, 2W
(Located before
fuse)
T10A, 250V
Mark(s) of
conformity1)
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE
DIN EN 60065
(VDE 0860) :
ed.7 clause 14.1 VDE
a)
VDE
VDE
VDE
VDE
VDE
IEC 60127
(VDE),
UL 248 (UL)
VDE, UL
UL
- Page 64 of 95 -
Report No. 139234
Object/part No.
X-cap.
(CX1, CX3,
CX4) (Optional)
1), 2)
Y-cap.
(CY1, CY2,
CY5, CY6)
(Optional) 1)
Manufacturer/
trademark
Type/model
Okaya
Okaya
UTX
Teapo
Thomson
Chiefcon
Rifa
Rifa
Hua Jung
Cheng Tung
Arcotronics
PCX2 335M
MPX
ECQUL
ECQ-UV
ECQUG
KNB1530
KNB1560
KNB1562
KNB1563
F1772-xxx-xxxx
F1778-xxxx2xxxx
RE-Series, PA
LE series
HQX
XG-VP, XG-VS
QX
CKX
PHE 830M
PHE 840 M
MKP
CTX
R46 series
Arcotronics
Series R49
Carli
Teapo
Shiny Space
ZhuHai Sung
Ho
Matsushita
Murata
Walsin
Sam Hwa
Welson
TDK
Samsung
Iskra
Success
Success
Success
Arcotronics
Chyun Fuh
Vishay
Holy Stone
Holy Stone
MPX
XG-V
SX1
CMPP
Pilkor
Taishing
Matsushita
Matsushita
Matsushita
Iskra
Iskra
Iskra
Iskra
Vishay
Vishay
TRF No. IECEN60950_1C
NS-A, TS
KX, KH
AC, AH
SC
WD
CS, CD
AA, AD
KNB2520
SE
SF
SB
Series R41
CE
VY1, VY2
SDCE series
SDCY series
Technical data
CX1=
max. 0.68μF,
CX3=
max. 0.47μF
CX4= max.
0.22μF or
0.33μF
min. 250V,
min. 85°C
Standard
(Edition / year)
IEC 60384-14
2ed. With 21
days damp heat
test ,
UL 1414
Mark(s) of
conformity1)
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
S, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
ENEC by IMQ,
UL
ENEC by IMQ,
UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
CY1=CY2=
max. 2200pF,
CY5=CY6=
max. 1000pF,
min. 250V,
min. 85°C
IEC 60384-14
2ed.,
UL 1414
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
ENCE by IMQ
VDE, UL
VDE, UL
TUV, UL
TUV, UL
- Page 65 of 95 -
Report No. 139234
Object/part No.
Manufacturer/
trademark
Type/model
Technical data
Standard
(Edition / year)
Mark(s) of
conformity1)
Line choke
(L4, L5)
(Optional)
(No bobbin)
Discharge
Resistor
(RX1, RX2)
SPI/FSP
SPI/FSP
8LM00771
8LM01468
105°C
Tested in the
unit
Various
Various
Tested in the
unit
Choke
(L1, L3)
(Optional)
(No bobbin)
Varistor
(RV1)
(Optional)
*)
SPI/FSP
SPI/FSP
SPI/FSP
8LM01414
8LM01461
8LM01802
470kΩ, 1/4W
(Located after
fuse, two in
series.)
120°C
Thinking
Thinking
Thinking
Thinking
Thinking
Thinking
Thinking
Centra Science
Uppermost
Various
TVR10471-V
TVR10471-D
TVR10471-K
TVR14D471
TVR14471
TVR14471-D
TVR14471D
CNR-14D471K
V14K300
Various
SPI/FSP
SPI/FSP
SPI/FSP
8LA00184
8LA00197
8LM02100
Various
Various
Various
Various
Various
Various
Inductor
(T3)
-Bobbin
SPI/FSP
8TA00076
Chang Chun
T375J
MOSFET
(Q60, Q61)
Current sense
resistor (R69)
Various
Various
Various
Various
Bridge diode
(BD1, BD2)
Line choke
(L10)
(Optional)
(No bobbin)
MOSFET
(Q10, Q11)
Thermistor
(RT11)
Storage
capacitor
(C10)
TRF No. IECEN60950_1C
300 Vac min
(located after
fuse and not
connected
between pri.
and PE)
Tested in the
unit
CECC 42200,
IEC 61051-1,
IEC 61051-2,
UL 1449 3rd.,
UL 1414,
CSA 22.2 No. 1
Min. 6A,
min. 600V.
105°C
Min. 18A
min. 500V
Min. 5A,
1.5Ω at 25°C
Tested in the
unit
Tested in the
unit
Tested in the
unit
270-330μF
min. 400Vdc,
min. 85°C
105°C
V-0, 130°C,
phenolic
Min. 18A
min. 500V
3W, Min. 0.15Ω
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
Tested in the
unit
Tested in the
unit
UL 94
Tested in the
unit
UL
Tested in the
unit
Tested with the
unit
- Page 66 of 95 -
Report No. 139234
Object/part No.
Optocoupler
(M2, M3, M5)
Manufacturer/
trademark
Type/model
Technical data
Sharp
Lite-On
Everlight
Bright Led
Bright Led
Bright Led
Matsushita
Walsin
TDK
Success
Success
Holy Stone
Vishay
SPI/FSP
PC123
LTV-817
EL817.
BPC-817
BPC-817S
BPC-817M
NS-A
AH
CD
SE
SB
SDCE series
VY1
8TG00192
Transformer
(T2)
3)
SPI/FSP
8TC00207
Class B
4)
Transformer
(T2)
3)
(Alternate)
SPI/FSP
8TA00327
Class B
4)
-Triple Insul.
wires
Thermistor
(RT90)
5)
DC Fan
(12cm)
Great Leoflon
TRW(B)
130°C
Various
Various
Protechnic
MGA12012HBO25
MGA12012HFO25
MGA12012HRO25
MGA12012XBO25
MGA12012XFO25
MGA12012XRO25
MGA12012YBO25
MGA12012ZBO25
10K ohm at
25°C
12Vdc, 0.45A,
73CFM
12Vdc, 0.45A,
76.98CFM
12Vdc, 0.45A,
77CFM
12Vdc, 0.52A,
84.51CFM
12Vdc, 0.52A,
84.51CFM
12Vdc, 0.52A,
83CFM
12Vdc, 0.682A,
90.23CFM
12Vdc, 0.9A,
101.03CFM
Y-cap.
(CY8)
(Y1 type)
(Optional)
Transformer
(T1)
3)
Protechnic
Protechnic
Protechnic
Protechnic
Protechnic
Protechnic
Protechnic
TRF No. IECEN60950_1C
Standard
(Edition / year)
See appended
opto electronic
devices, min.
100°C
IEC 60950-1,
UL 1577
max. 3300pF,
min. 250V,
min. 85°C
IEC 60384-14
2ed.,
UL 1414
Class B
4)
IEC 60950-1
and evaluated
acc. To
IEC 60085
IEC 60950-1
and evaluated
acc. To
IEC 60085
IEC 60950-1
and evaluated
acc. To
IEC 60085
IEC 60950-1
annex U
UL 1434
Mark(s) of
conformity1)
FI, UL
FI, UL
FI, UL
S, UL
S, UL
S, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
VDE, UL
TUV, UL
VDE, UL
Ref. Annex C
Ref. Annex C
Ref. Annex C
VDE, UL
UL
IEC/EN 60950-1 TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
- Page 67 of 95 -
Report No. 139234
Object/part No.
DC Fan
(12cm)
(Alternate)
Manufacturer/
trademark
Type/model
Powerlogic
AD1212LBA71GL
AD1212LBA70GL
AD1212LSA70GL
AD1212MBA71GL
AD1212MSA71GL
AD1212HBA71GL
AD1212HSA71GL
AD1212UBA71GL
AD1212USA71GL
AD1212UBA70GL
AD1212XBA71GL
PLA12025B12M
-2
PLA12025S12H
H-2
PLA12025S12M
-2
PLA12025B12H
-4
PLA12025S12H
H-4
PLA12025S12H
-4
PLA12025B12M
Powerlogic
PLA12025S12H
Powerlogic
PLA12025S12M
Powerlogic
PLA12025S12H
H-LV
PLA12025S12H
-2
PLA12025B12H
Adda
Adda
Adda
Adda
Adda
Adda
Adda
Adda
Adda
Adda
Adda
Powerlogic
Powerlogic
Powerlogic
Powerlogic
Powerlogic
Powerlogic
Powerlogic
Powerlogic
Powerlogic
TRF No. IECEN60950_1C
PLA12025B12H
H-4
Technical data
12Vdc, 0.24A,
72CFM
12Vdc, 0.24A,
72CFM
12Vdc, 0.24A,
72CFM
12Vdc, 0.33A,
80.5CFM
12Vdc, 0.34A,
80.5CFM
12Vdc, 0.37A,
85.2CFM
12Vdc, 0.44A,
85.2CFM
12Vdc, 0.5A,
98.6CFM
12Vdc, 0.5A,
98.6CFM
12Vdc, 0.5A,
98CFM
12Vdc, 0.65A,
110CFM
12Vdc, 0.2A,
66.127CFM
12Vdc, 0.37A,
66.127CFM
12Vdc, 0.2A,
66.127CFM
12Vdc, 0.36A,
82.60CFM
12Vdc, 0.42A,
82.60CFM
12Vdc, 0.36A,
82.60CFM
12Vdc, 0.2A,
80.507CFM
12Vdc, 0.28A,
80.507CFM
12Vdc, 0.28A,
80.507CFM
12Vdc, 0.3A,
93.098CFM
12Vdc, 0.3A,
93.098CFM
12Vdc, 0.28A,
96.822CFM
12Vdc, 0.42A,
115.44CFM
Standard
(Edition / year)
Mark(s) of
conformity1)
IEC/EN 60950-1 TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/Rh (Koln)
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
TUV/PS
- Page 68 of 95 -
Report No. 139234
Object/part No.
DC Fan
(12cm)
(Alternate)
Manufacturer/
trademark
Yate Loon
D12BH-12
Yate Loon
D12SH-12
Insulation sheet Various
6)
Internal Wiring Various
(Primary)
Insulating
Tubing/Sleeving
Type/model
Various
Various
Various
Various
Technical data
12Vdc, 0.30A,
73CFM
12Vdc, 0.30A,
73CFM
Min. V-2, min.
0.25mm thick.
Rated minimum
80°C, minimum
300V, minimum
No. 20 AWG.
PVC, TFE,
PTFE, FEP or
neoprene or
surface marked
VW-1.
FEP, PTFE,
PVC, TFE,
neoprene, or
marked VW-1;
minimum
105°C,
minimum 300 V.
Standard
(Edition / year)
Mark(s) of
conformity1)
IEC/EN 60950-1 TUV/Rh (Koln)
TUV/Rh (Koln)
UL 94
UL
UL 758
UL
UL 224
UL
1
) An asterisk indicates a mark which assures the agreed level of surveillance
Supplementary information:
*) an asterisk indicates a mark which assures the agreed level of surveillance.
1) CX4, CY5 and CY6 are secured on Appliance inlet. RX4 is secured on CX4.
2) When CX4=0.22μF than RX4=3.3MΩ; when CX4=0.33μF than RX4=2.2MΩ
3) For the bobbin and other material, refer to attached transformer specification for detail.
4) Complies with UL class B insulation system.
5) This component is used in the fan speed control circuit.
6) Located between HK board and L4/CX1/L1.
*) Varistor complies with UL 1449 3rd. which cover the required 15 combination pulses 6kV (1.2/50μs)/ 3kA
(8/20μs) test this is more strict than table I group 1 of IEC 61051-2.
TRF No. IECEN60950_1C
- Page 69 of 95 -
Report No. 139234
1.5.1
TABLE: Opto Electronic Devices
P
Manufacturer ............................................... : Sharp / Lite-On / Everlight / Bright Led / Bright Led / Bright
Led
Type............................................................. : PC123 / LTV-817 / EL817. / BPC-817 / BPC-817S /
BPC-817M
Separately tested ........................................ : Tested by FIMKO and Semko
Bridging insulation ....................................... : Reinforced insulation
External creepage distance......................... :
Internal creepage distance .......................... :
Distance through insulation ......................... :
Tested under the following conditions ......... :
8 / 7.8 / 7.7 / >7 / >7 / >7 mm
>5 / 5.2 / 6 / -*) / -*) / -*) mm
0.7 / 0.8 / 0.5 / >0.4 / >0.4 / >0.4 mm
R, S, B
Input............................................................. :
Output .......................................................... :
Supplementary information:
- *) There is not any internal creepage distance. Test according to IEC60950-1:2001, cl. 2.10.8 (same as
requirement in IEC60950-1:2005, cl. 2.10.9) has been carried out ten times for the components at
100°C/25°C/0°C/25°C. Humidity treatment of 48 h as well as electric strength tests at 3000 V/1 minute and
5000 V/1 minute were carried out to the component after thermal cycling test.
TRF No. IECEN60950_1C
- Page 70 of 95 -
Report No. 139234
1.6.2
U (V)
TABLE: Electrical data (in normal conditions)
I (A)
Irated (A)
P (W)
Fuse #
P
Ifuse (A)
Condition/status
For model FSP550-80GHN(85) with T2 type 8TC00207
90, 50Hz
8.08
724
F1
8.08
Normal load, condition A
100, 50Hz
7.15
9
712
F1
7.15
Normal load, condition A
240, 50Hz
2.88
4
679
F1
2.88
Normal load, condition A
254, 50Hz
2.72
678
F1
2.72
Normal load, condition A
264, 50Hz
2.62
678
F1
2.62
Normal load, condition A
90, 60Hz
8.08
724
F1
8.08
Normal load, condition A
100, 60Hz
7.15
9
711
F1
7.15
Normal load, condition A
240, 60Hz
2.88
4
679
F1
2.88
Normal load, condition A
254, 60Hz
2.72
679
F1
2.72
Normal load, condition A
264, 60Hz
2.62
678
F1
2.62
Normal load, condition A
90, 50Hz
8.03
720
F1
8.03
Normal load, condition B
100, 50Hz
7.11
9
709
F1
7.11
Normal load, condition B
240, 50Hz
2.86
4
675
F1
2.86
Normal load, condition B
254, 50Hz
2.70
674
F1
2.70
Normal load, condition B
264, 50Hz
2.60
673
F1
2.60
Normal load, condition B
90, 60Hz
8.03
721
F1
8.03
Normal load, condition B
100, 60Hz
7.11
9
710
F1
7.11
Normal load, condition B
240, 60Hz
2.86
4
676
F1
2.86
Normal load, condition B
254, 60Hz
2.70
674
F1
2.70
Normal load, condition B
264, 60Hz
2.60
673
F1
2.60
Normal load, condition B
90, 50Hz
7.76
687
F1
7.76
Normal load, condition C
100, 50Hz
6.83
9
680
F1
6.83
Normal load, condition C
240, 50Hz
2.75
4
647
F1
2.75
Normal load, condition C
254, 50Hz
2.59
646
F1
2.59
Normal load, condition C
264, 50Hz
2.50
646
F1
2.50
Normal load, condition C
90, 60Hz
7.76
688
F1
7.76
Normal load, condition C
100, 60Hz
6.83
9
680
F1
6.83
Normal load, condition C
240, 60Hz
2.75
4
648
F1
2.75
Normal load, condition C
254, 60Hz
2.59
647
F1
2.59
Normal load, condition C
264, 60Hz
2.50
646
F1
2.50
Normal load, condition C
TRF No. IECEN60950_1C
- Page 71 of 95 -
Report No. 139234
U (V)
I (A)
Irated (A)
P (W)
Fuse #
Ifuse (A)
Condition/status
For model FSP550-80GHN(85) with T2 type 8TA00327
90, 50Hz
8.08
724
F1
8.08
Normal load, condition A
100, 50Hz
7.15
9
712
F1
7.15
Normal load, condition A
240, 50Hz
2.88
4
679
F1
2.88
Normal load, condition A
254, 50Hz
2.72
678
F1
2.72
Normal load, condition A
264, 50Hz
2.62
678
F1
2.62
Normal load, condition A
90, 60Hz
8.06
722
F1
8.06
Normal load, condition A
100, 60Hz
7.15
9
711
F1
7.15
Normal load, condition A
240, 60Hz
2.88
4
679
F1
2.88
Normal load, condition A
254, 60Hz
2.72
679
F1
2.72
Normal load, condition A
264, 60Hz
2.62
678
F1
2.62
Normal load, condition A
90, 50Hz
8.03
720
F1
8.03
Normal load, condition B
100, 50Hz
7.11
9
709
F1
7.11
Normal load, condition B
240, 50Hz
2.86
4
675
F1
2.86
Normal load, condition B
254, 50Hz
2.70
674
F1
2.70
Normal load, condition B
264, 50Hz
2.60
673
F1
2.60
Normal load, condition B
90, 60Hz
8.03
721
F1
8.03
Normal load, condition B
100, 60Hz
7.11
9
710
F1
7.11
Normal load, condition B
240, 60Hz
2.86
4
676
F1
2.86
Normal load, condition B
254, 60Hz
2.70
674
F1
2.70
Normal load, condition B
264, 60Hz
2.60
673
F1
2.60
Normal load, condition B
90, 50Hz
7.76
687
F1
7.76
Normal load, condition C
100, 50Hz
6.83
9
680
F1
6.83
Normal load, condition C
240, 50Hz
2.75
4
647
F1
2.75
Normal load, condition C
254, 50Hz
2.59
646
F1
2.59
Normal load, condition C
264, 50Hz
2.50
646
F1
2.50
Normal load, condition C
90, 60Hz
7.67
688
F1
7.67
Normal load, condition C
100, 60Hz
6.83
9
680
F1
6.83
Normal load, condition C
240, 60Hz
2.75
4
648
F1
2.75
Normal load, condition C
254, 60Hz
2.59
647
F1
2.59
Normal load, condition C
264, 60Hz
2.50
646
F1
2.50
Normal load, condition C
TRF No. IECEN60950_1C
- Page 72 of 95 -
Report No. 139234
U (V)
I (A)
Irated (A)
P (W)
Fuse #
Ifuse (A)
Condition/status
For model FSP500-80GHN(85) with T2 type 8TC00207
90, 50Hz
7.31
655
F1
7.31
Normal load, condition A
100, 50Hz
6.48
8
645
F1
6.48
Normal load, condition A
240, 50Hz
2.63
4
618
F1
2.63
Normal load, condition A
254, 50Hz
2.49
618
F1
2.49
Normal load, condition A
264, 50Hz
2.40
617
F1
2.40
Normal load, condition A
90, 60Hz
7.31
655
F1
7.31
Normal load, condition A
100, 60Hz
6.48
8
646
F1
6.48
Normal load, condition A
240, 60Hz
2.62
4
618
F1
2.62
Normal load, condition A
254, 60Hz
2.48
617
F1
2.48
Normal load, condition A
264, 60Hz
2.40
617
F1
2.40
Normal load, condition A
90, 50Hz
7.22
647
F1
7.22
Normal load, condition B
100, 50Hz
6.42
8
639
F1
6.42
Normal load, condition B
240, 50Hz
2.60
4
610
F1
2.60
Normal load, condition B
254, 50Hz
2.46
610
F1
2.46
Normal load, condition B
264, 50Hz
2.37
609
F1
2.37
Normal load, condition B
90, 60Hz
7.22
648
F1
7.22
Normal load, condition B
100, 60Hz
6.42
8
638
F1
6.42
Normal load, condition B
240, 60Hz
2.59
4
610
F1
2.59
Normal load, condition B
254, 60Hz
2.45
610
F1
2.45
Normal load, condition B
264, 60Hz
2.37
609
F1
2.37
Normal load, condition B
90, 50Hz
6.90
618
F1
6.90
Normal load, condition C
100, 50Hz
6.13
8
611
F1
6.13
Normal load, condition C
240, 50Hz
2.49
4
585
F1
2.49
Normal load, condition C
254, 50Hz
2.36
585
F1
2.36
Normal load, condition C
264, 50Hz
2.26
585
F1
2.26
Normal load, condition C
90, 60Hz
6.92
620
F1
6.92
Normal load, condition C
100, 60Hz
6.13
8
611
F1
6.13
Normal load, condition C
240, 60Hz
2.49
4
585
F1
2.49
Normal load, condition C
254, 60Hz
2.35
584
F1
2.35
Normal load, condition C
264, 60Hz
2.26
584
F1
2.26
Normal load, condition C
TRF No. IECEN60950_1C
- Page 73 of 95 -
Report No. 139234
U (V)
I (A)
Irated (A)
P (W)
Fuse #
Ifuse (A)
Condition/status
For model FSP460-80GHN(85) with T2 type 8TC00207
90, 50Hz
6.71
601
F1
6.71
Normal load, condition A
100, 50Hz
5.97
7.5
595
F1
5.97
Normal load, condition A
240, 50Hz
2.43
3.5
570
F1
2.43
Normal load, condition A
254, 50Hz
2.30
569
F1
2.30
Normal load, condition A
264, 50Hz
2.21
569
F1
2.21
Normal load, condition A
90, 60Hz
6.71
602
F1
6.71
Normal load, condition A
100, 60Hz
5.97
7.5
595
F1
5.97
Normal load, condition A
240, 60Hz
2.42
3.5
570
F1
2.42
Normal load, condition A
254, 60Hz
2.29
569
F1
2.29
Normal load, condition A
264, 60Hz
2.21
569
F1
2.21
Normal load, condition A
90, 50Hz
6.60
590
F1
6.60
Normal load, condition B
100, 50Hz
5.87
7.5
586
F1
5.87
Normal load, condition B
240, 50Hz
2.39
3.5
561
F1
2.39
Normal load, condition B
254, 50Hz
2.27
561
F1
2.27
Normal load, condition B
264, 50Hz
2.19
561
F1
2.19
Normal load, condition B
90, 60Hz
6.60
591
F1
6.60
Normal load, condition B
100, 60Hz
5.87
7.5
584
F1
5.87
Normal load, condition B
240, 60Hz
2.39
3.5
561
F1
2.39
Normal load, condition B
254, 60Hz
2.26
561
F1
2.26
Normal load, condition B
264, 60Hz
2.19
561
F1
2.19
Normal load, condition B
90, 50Hz
6.31
566
F1
6.31
Normal load, condition C
100, 50Hz
5.62
7.5
560
F1
5.62
Normal load, condition C
240, 50Hz
2.29
3.5
537
F1
2.29
Normal load, condition C
254, 50Hz
2.17
537
F1
2.17
Normal load, condition C
264, 50Hz
2.10
536
F1
2.10
Normal load, condition C
90, 60Hz
6.31
566
F1
6.31
Normal load, condition C
100, 60Hz
5.61
7.5
559
F1
5.61
Normal load, condition C
240, 60Hz
2.28
3.5
536
F1
2.28
Normal load, condition C
254, 60Hz
2.16
536
F1
2.16
Normal load, condition C
264, 60Hz
2.10
536
F1
2.10
Normal load, condition C
Supplementary information:
TRF No. IECEN60950_1C
- Page 74 of 95 -
Report No. 139234
2.1.1.5 c1) TABLE: max. V, A, VA test
Voltage (rated)
(V)
Current (rated)
(A)
—
Voltage (max.)
(V)
Current (max.)
(A)
VA (max.)
(VA) *)
For model FSP550-80GHN(85) with T2 type 8TC00207
+3.3V
25
3.6
50.3
113.0
+5V
25
5.24
46.2
168.0
+12V1
1)
18
13.6
26.8
326.0
+12V2
1)
18
13.5
26.8
311.0
+12V3
1)
18
13.4
28.4
331.0
+12V4
1)
18
13.5
29.3
341.0
0.8
13.2
9.0
56.0
3
5.16
11.2
28.0
10.5
26.6
-12V
+5Vsb
For model FSP550-80GHN(85) with T2 type 8TC00327
+5Vsb
3
5.16
Supplementary information:
*) The above measurements are the maximum values (max. V and max. A not obtained at the same time)
1) Must be checked in the end product
2.1.1.5 c2) TABLE: stored energy
Capacitance C (µF)
Supplementary information:
E=0,5 CU² x 10-6
TRF No. IECEN60950_1C
N
Voltage U (V)
Energy E (J)
- Page 75 of 95 -
Report No. 139234
2.2
TABLE: evaluation of voltage limiting components in SELV circuits
Component (measured between)
max. voltage (V)
(normal operation)
V peak
P
Voltage Limiting Components
V d.c.
For model FSP550-80GHN(85)
Transformer T1, pin 8, 9 – pin FLY
10.6
Transformer T1, pin 11, 12, 13, 14 – pin FLY
20.1
Transformer T2 (Type 8TC00207), pin 9, 10 – pin 6,
7
23.2
Transformer T2 (Type 8TA00327), pin 5 – pin 2
22.0
Fault test performed on voltage limiting components
Voltage measured (V) in SELV circuits
(V peak or V d.c.)
Supplementary information:
S-c=Short circuit
T1 pin FLY, T2 (Type 8TC00207) pin 6, 7 and T2 (Type 8TA00327) pin 2 are RTN
2.5
TABLE: limited power sources
N
Circuit output tested: …….
Measured Uoc (V) with all load circuits
disconnected:
Isc (A)
Meas.
Normal condition
Single fault:
Supplementary information:
S-c=Short circuit, O-c=Open circuit
TRF No. IECEN60950_1C
VA
Limit
Meas.
Limit
- Page 76 of 95 -
Report No. 139234
2.10.2
Table: working voltage measurement
Location
RMS voltage (V)
P
Peak voltage (V) Comments
For model FSP550-80GHN(85)
T1 pin 4 – 8, 9
T1 pin 4 – FLY
T1 pin 4 – 11, 12, 13, 14
T1 pin 7 – 8, 9
T1 pin 7 – FLY
T1 pin 7 – 11, 12, 13, 14
T2 pin 1 – 6, 7
T2 pin 1 – 9, 10
T2 pin 2 – 6, 7
T2 pin 2 – 9, 10
T2 pin 3 – 6, 7
T2 pin 3 – 9, 10
T2 pin 4 – 6, 7
T2 pin 4 – 9, 10
T2 pin 7 – 2
T2 pin 7 – 5
T2 pin 8 – 2
T2 pin 8 – 5
T2 pin 9 – 2
T2 pin 9 – 5
T2 pin 10 – 2
T2 pin 10 – 5
M2 pin 1 – 3
M2 pin 2 – 3
M2 pin 1 – 4
M2 pin 2 – 4
M3 pin 1 – 3
M3 pin 2 – 3
M3 pin 1 – 4
M3 pin 2 – 4
M5 pin 1 – 3
M5 pin 2 – 3
M5 pin 1 – 4
M5 pin 2 – 4
CY8 pri. trace – CY8 sec. trace
192
205
199
227
214
215
345
345
310
310
172
173
172
171
347
341
310
310
172
171
171
170
178
178
175
168
173
174
173
173
161
161
161
161
352
384
368
400
368
384
520
528
432
424
400
400
352
352
520
504
416
472
408
384
352
352
360
352
360
352
360
352
352
352
336
336
328
328
171
352
T2, type 8TC00207
T2, type 8TC00207
T2, type 8TC00207
T2, type 8TC00207
T2, type 8TC00207
T2, type 8TC00207
T2, type 8TC00207
T2, type 8TC00207
T2, type 8TA00327
T2, type 8TA00327
T2, type 8TA00327
T2, type 8TA00327
T2, type 8TA00327
T2, type 8TA00327
T2, type 8TA00327
T2, type 8TA00327
Supplementary information:
Supply voltage: 240Vac
T1 pin FLY, T2 (Type 8TC00207) pin 6, 7 and T2 (Type 8TA00327) pin 2 are RTN
TRF No. IECEN60950_1C
- Page 77 of 95 -
Report No. 139234
2.10.3 and
2.10.4
TABLE: Clearance and creepage distance measurements
Clearance (cl) and creepage
distance (cr) at/of/between:
Functional: Line – Neutral
before fuse
Functional: Fuse pad 1 – pad
2 before fuse
Basic: CY1 trace (prim.) –
earthed screw trace (GND)
Basic: CY1 body (prim.) –
earthed screw (GND)
Basic: CY2 trace (prim.) –
earthed screw trace (GND)
Basic: CY2 body (prim.) –
earthed screw (GND)
Basic: HS2 (prim.) – earthed
screw (GND)
Reinforced: Under T2 trace
(prim.) – trace (sec.)
Reinforced: M3 pin 3, 4
(prim.) – M3 pin 1, 2 (sec.)
Reinforced: Under T1 trace
(prim.) – trace (sec.)
Reinforced: Under CY8 trace
(prim.) – trace (GND)
Reinforced: M2 pin 3, 4
(prim.) – M2 pin 1, 2 (sec.)
Reinforced: M5 pin 3, 4
(prim.) – M5 pin 1, 2 (sec.)
Reinforced: CY2 trace
(prim.) – M5 trace (sec.)
Supplementary information:
P
U peak
(V)
339
U r.m.s.
(V)
240
Required cl
cl
(mm)
(mm)
1.5
2.6
Required
cr (mm)
2.5
cr
(mm)
2.6
339
240
1.5
2.6
2.5
2.6
339
240
2.0
2.1
2.5
2.6
339
240
2.0
3.0
2.5
339
240
2.0
2.1
2.5
>3.0
2)
2.6
339
240
2.0
4.2
2.5
339
240
2.0
4.8
2.5
528
3)
360
347
3)
174
4.4
7.7
7.7
4.0
7.0
7.2
1)
5.0
400
227
4.0
7.1
5.0
7.1
352
171
4.0
4.8
5.0
360
178
4.0
6.3
5.0
336
161
4.0
6.3
5.0
339
240
4.0
5.2
5.0
7.1
2)
>6.3
2)
6.6
2)
5.2
>4.2
2)
4.8
7.0
*) Distance required acc. to IEC 60950-1 first edition for worst case.
1) Linear interpolation used. 2) There is a gap >1 mm under component. 3) Worst case considered.
- No components reduced the distance after a force of 10N is applied.
- The following components are glue in place: CX4/Inlet, F1/L/PCB, L4/L5, L1/mylar sheet/PCB, CY2/CX3,
L3/PCB, L3/C11/L10 and CY8/T1 core.
- The following components are covered by tubing: EMI core around on L/N wire, F1, lead of F1, lead of
CX4, primary wire use on Power switch, L4, L5, RT11 and DC Fan wire.
- Two layers insulation tape stick on top metal enclosure and between top metal enclosure and HS2.
- Transformer T2 body bottom outside surrounded by two layer of insulation tape.
- A piece of mylar sheet located between HK board and L4/CX1/L1
TRF No. IECEN60950_1C
- Page 78 of 95 -
Report No. 139234
2.10.5
TABLE: Distance through insulation measurements
Distance through insulation (DTI) at/of:
U peak
(V)
Basic: Insulation sheet between HK board and
L4/CX1/L1.
339
240
1500V ac
--
1 layer
Basic: Two layers insulation tape stick on top
metal enclosure and between top metal
enclosure and HS2.
339
240
1500V ac
--
1 layer
Basic: tube on core
528
EMI core around on L/N wire, F1, lead of F1, lead
of CX4, primary wire use on Power switch, L4, L5
and DC Fan wire.
347
1803V ac
--
1 layer
400
227
3000V ac
1500V ac
3 layers
--
3 layers
1 layer
528
345
3000V ac
1803V ac
3 layers
--
3 layers
1 layer
520
347
3000V ac
2 layers
2 layers
Insulation tape in transformer (T1)
Reinforced- 3 layers
(Tested 2 layers)
Basic: 1 layer
Insulation tape in transformer
(T2, type 8TC00207)
Reinforced- 3 layers
(Tested 2 layers)
Basic: 1 layer
Reinforced: two layers insulation tape attached
on the transformer T2 (type 8TA00327) body
bottom outside.
(Tested 1 layer)
Supplementary information:
TRF No. IECEN60950_1C
U rms
(V)
P
Test
voltage
(V)
Required
DTI
(mm)
DTI
(mm)
- Page 79 of 95 -
Report No. 139234
4.3.8
TABLE: Batteries
N
Battery category .......................................... :
Manufacturer ............................................... :
Type / model ................................................ :
Voltage ........................................................ : V
Capacity ...................................................... : mAh
Tested and Certified by (incl. Ref. No.) ....... :
Circuit protection diagram:
MARKINGS AND INSTRUCTIONS (1.7.12, 1.7.15)
Location of replaceable battery
Language(s):
Close to the battery
In the servicing instructions
In the operating instructions
TRF No. IECEN60950_1C
- Page 80 of 95 -
Report No. 139234
4.3.8
TABLE: Batteries
N
The tests of 4.3.8 are applicable only when appropriate battery
data is not available
Is it possible to install the battery in a reverse polarity position?
Non-rechargeable batteries
Discharging
Meas.
current
Manuf.
Specs.
Unintentional
charging
Rechargeable batteries
Charging
Meas.
current
Manuf.
Specs.
Discharging
Meas.
current
Manuf.
Specs.
Reversed
charging
Meas.
current
Manuf.
Specs.
Max.
current
during
normal
condition
Max.
current
during
fault
condition
Test results:
- Chemical leaks
- Explosion of the battery
- Emission of flame or expulsion of molten metal
- Electric strength tests of equipment after completion of tests
Supplementary information:
TRF No. IECEN60950_1C
Verdict
- Page 81 of 95 -
Report No. 139234
4.5
TABLE: Thermal requirements
Supply voltage (V):
P
90V
1)
90V
2)
Maximum measured temperature T of
part/at:
For model FSP550-80GHN(85) (with T2 type 8TC00207)
Inlet pin
54.9
54.5
CY5 body
52.6
52.2
CX4 body
55.7
55.2
Input wire
56.9
56.5
L4 coil
63.1
62.5
L5 coil
72.8
72.1
CX1 body
55.0
54.6
L1 coil
69.8
69.2
CY1 body
69.6
68.8
CY8 body
90.9
89.7
CX3 body
69.4
68.8
PCB under BD1
89.7
88.1
L3 coil
95.2
93.1
HS2 near Q10
66.9
65.8
C10 body
61.4
60.6
T3 coil
66.4
65.2
L10 coil
82.5
81.1
HS3 near Q61
87.5
85.4
T2 primary coil
69.9
68.5
T2 secondary coil
68.5
66.8
T2 core
65.3
63.4
M3 body
73.1
70.8
T1 primary coil
78.2
76.2
T1 secondary coil
106.3
104.1
T1 core
72.5
71.2
M5 body
91.1
89.9
L30 coil
87.5
79.9
HS4 near D50
61.3
60.5
L31 coil
65.8
58.5
L20 coil
63.3
65.0
Outside enclosure
53.4
53.1
Ambient
50.5
50.2
Supplementary information:
90V
3)
264V
1)
90V
1)
90V
1)
Allowed
Tmax
(°C)
T (°C)
54.3
52.2
55.0
56.2
61.6
70.6
54.3
67.9
67.8
87.8
67.7
86.5
90.0
64.8
59.9
64.6
79.4
84.2
67.5
65.5
62.8
69.8
73.9
101.2
70.1
87.9
80.0
58.9
56.5
64.9
52.9
50.0
53.1
51.8
54.9
53.3
53.5
56.0
53.3
55.8
64.4
90.9
67.2
82.4
60.5
55.9
58.2
61.3
59.5
75.6
69.0
68.4
65.1
73.1
72.2
104.1
72.0
88.5
87.8
61.4
65.8
63.4
53.2
50.6
40.2
38.7
41.2
39.5
45.7
55.2
40.4
54.6
54.2
74.3
58.5
65.8
86.2
54.7
53.2
62.0
79.5
78.6
67.5
76.0
58.7
85.3
90.5
94.6
60.9
63.9
92.2
57.2
54.1
53.7
42.7
37.5
28.2
27.0
29.6
27.9
33.6
42.2
28.3
41.9
42.3
63.2
47.1
54.6
71.3
41.1
40.9
49.1
65.0
65.9
55.5
64.6
47.1
73.0
74.4
81.4
48.9
52.6
80.6
45.0
42.1
40.8
30.9
26.0
65
85
85
80
95
95
85
110
85
85
85
130
110
-85
95
95
-110
110
110
100
110
110
110
100
----70
--
Having a specified maximum ambient temperature of 50°C. Air flow of fan is 66.127CFM. Temperature
limits include less 10K for thermocouple measurement method. Tested according to cl. 1.4.12.
If no limit is stated, temperature is for reference only.
1) Tested on condition A; 2) Tested on condition B; 3) Tested on condition C
L1, L3 type 8LM01414 and L10 type 8LA00184 are represent worst condition.
TRF No. IECEN60950_1C
- Page 82 of 95 -
Report No. 139234
4.5
TABLE: Thermal requirements (Continued)
Supply voltage (V):
90V
1)
90V
2)
Maximum measured temperature T of
part/at:
For model FSP550-80GCM(85) (with T2 type 8TC00207)
Inlet pin
54.0
53.4
CY5 body
54.4
53.9
CX4 body
54.2
54.4
Input wire
58.3
56.7
L4 coil
76.9
74.2
L5 coil
66.3
65.5
CX1 body
55.0
54.7
L1 coil
65.2
66.3
CY1 body
68.6
69.3
CY8 body
94.9
93.9
CX3 body
70.7
71.0
PCB under BD1
80.1
80.5
L3 coil
93.0
93.6
HS2 near Q10
64.9
64.4
C10 body
61.2
60.7
T3 coil
69.5
68.8
L10 coil
87.3
87.5
HS3 near Q61
81.6
80.7
T2 primary coil
65.5
65.9
T2 secondary coil
66.8
66.2
T2 core
61.8
61.3
M3 body
63.0
61.6
T1 primary coil
83.1
81.3
T1 secondary coil
79.4
67.2
T1 core
75.5
65.8
M5 body
83.1
82.9
L30 coil
75.3
73.6
HS4 near D50
69.8
68.6
L31 coil
64.3
63.9
L20 coil
63.2
62.5
Outside enclosure
55.1
54.6
Ambient
50.0
50.2
Supplementary information:
P
90V
3)
264V
1)
90V
1)
90V
1)
Allowed
Tmax
(°C)
T (°C)
53.3
53.9
54.2
56.5
72.9
64.6
54.7
65.4
68.6
91.9
70.5
80.0
91.2
63.9
60.4
68.3
85.8
79.9
65.6
65.6
60.7
60.9
79.8
66.6
64.7
82.2
73.6
65.7
63.6
64.4
53.8
50.3
51.9
52.6
53.4
53.6
55.4
54.2
53.0
56.5
62.9
94.2
69.7
74.6
59.3
55.2
57.4
64.5
60.4
71.5
65.9
66.7
62.1
62.7
81.8
67.4
65.2
82.0
79.7
71.0
70.8
61.1
54.8
50.4
40.6
40.8
41.0
43.3
59.9
51.4
41.5
52.6
55.8
80.5
58.2
68.0
78.3
49.7
47.8
54.9
72.8
66.7
52.9
53.8
49.3
49.2
67.6
55.6
52.6
70.8
65.8
57.2
56.6
47.4
41.8
37.6
29.2
28.9
29.4
31.3
46.7
39.1
29.7
40.4
43.9
67.1
46.3
56.3
64.0
36.6
35.8
42.1
59.3
53.6
40.8
41.7
37.4
37.0
54.7
42.8
39.9
59.4
53.3
44.9
44.1
35.4
30.0
26.5
65
85
85
80
95
95
85
110
85
85
85
130
110
-85
95
95
-110
110
110
100
110
110
110
100
----70
--
Having a specified maximum ambient temperature of 50°C. Air flow of fan is 66.127CFM. Temperature
limits include less 10K for thermocouple measurement method. Tested according to cl. 1.4.12.
If no limit is stated, temperature is for reference only.
1) Tested on condition A; 2) Tested on condition B; 3) Tested on condition C
L1, L3 type 8LM01414 and L10 type 8LA00184 are represent worst condition.
TRF No. IECEN60950_1C
- Page 83 of 95 -
Report No. 139234
4.5
TABLE: Thermal requirements (Continued)
Supply voltage (V):
90V
1)
264V
1)
Maximum measured temperature T of
part/at:
For model FSP550-80GHN(85) (with T2 type 8TA00327)
Inlet pin
56.7
53.3
CY5 body
54.0
52.1
CX4 body
58.5
56.1
Input wire
58.5
54.0
L4 coil
62.9
53.3
L5 coil
72.9
56.7
CX1 body
55.6
53.2
L1 coil
69.8
55.3
CY1 body
70.7
63.5
CY8 body
90.4
87.3
CX3 body
69.2
65.5
PCB under BD1
89.4
80.7
L3 coil
87.6
58.1
HS2 near Q10
67.0
55.5
C10 body
61.7
57.8
T3 coil
67.3
61.0
L10 coil
79.3
58.4
HS3 near Q61
89.5
76.0
T2 primary coil
71.1
69.4
T2 secondary coil
69.1
67.9
T2 core
68.8
67.5
M3 body
80.2
79.0
T1 primary coil
--T1 secondary coil
--T1 core
--M5 body
86.3
83.6
L30 coil
96.5
95.4
HS4 near D50
63.0
62.1
L31 coil
67.3
66.5
L20 coil
71.9
70.5
Outside enclosure
54.9
53.9
Ambient
50.3
51.6
Supplementary information:
P
90V
1)
264V
1)
T (°C)
----------------------104.9
97.2
66.2
------50.4
----------------------102.9
95.1
64.8
------50.1
Allowed
Tmax
(°C)
65
85
85
80
95
95
85
110
85
85
85
130
110
-85
95
95
-110
110
110
100
110
110
110
100
----70
--
Having a specified maximum ambient temperature of 50°C. Air flow of fan is 66.127CFM. Temperature
limits include less 10K for thermocouple measurement method. Tested according to cl. 1.4.12.
If no limit is stated, temperature is for reference only.
1) Tested on condition A.
L1, L3 type 8LM01414 and L10 type 8LA00184 are represent worst condition.
TRF No. IECEN60950_1C
- Page 84 of 95 -
Report No. 139234
4.5
TABLE: Thermal requirements (Continued)
Supply voltage (V):
90V
1)
P
90V
1)
Maximum measured temperature T of
part/at:
90V
4)
Allowed
Tmax
(°C)
T (°C)
For model FSP550-80GHN(85)
PCB under RT11
RV1 body
T1 coil
T2 coil
Ambient
Supplementary information:
90V
4)
With T2 type 8TC00207
74.5
82.4
--50.9
63.7
65.2
--50.4
--53.7
102.3
50.2
With T2 type
8TA00327
--55.0
97.9
50.6
130
-110
110
--
Having a specified maximum ambient temperature of 50°C. Air flow of fan is 66.127CFM. Temperature
limits include less 10K for thermocouple measurement method. Tested according to cl. 1.4.12.
If no limit is stated, temperature is for reference only.
1) Tested on condition A; 4) Tested on condition D
4.5.5
TABLE: Ball pressure test of thermoplastic parts
N
Allowed impression diameter (mm) ..................... : ≤ 2 mm
⎯
Part
Test temperature Impression diameter
(mm)
(°C)
Supplementary information:
Materials in T1, T2 and T3 bobbin are Phenolic.
4.7
TABLE: Resistance to fire
Part
Manufacturer of
material
Chassis
Supplementary information:
TRF No. IECEN60950_1C
P
Type of material
metal
Thickness Flammability
(mm)
class
0.8mm
Evidence
- Page 85 of 95 -
Report No. 139234
5.1
TABLE: touch current measurement
Measured between:
P
Measured
(mA)
Limit
(mA)
Comments/conditions
Line – protective earthing
0.64
3.5
Fuse in, switch on.
Neutral – protective earthing
0.64
3.5
Fuse in, switch on.
Line – each output connector +
0.24
0.25
Fuse in, switch on.
Neutral – each output connector +
0.24
0.25
Fuse in, switch on.
Supplementary information:
All Y-caps. are max. value in according to appended table 1.5.1.
5.2
TABLE: Electric strength tests, impulse tests and voltage surge tests
Test voltage applied between:
P
Voltage shape Test voltage
(AC, DC,
(V)
impulse, surge)
Breakdow
n
Yes / No
Reinforced: Primary – Secondary
DC
4242
No
Basic: Primary – Protective Earth
DC
2550
No
T1 Primary – Secondary
AC
3000
No
T1 Primary – Core
AC
1569
No
T1 Secondary – Core
AC
1569
No
T2 (type 8TC00207) Primary – Secondary
AC
3000
No
T2 (type 8TC00207) Primary – Core
AC
1803
No
T2 (type 8TC00207) Secondary – Core
AC
1803
No
T2 (type 8TA00327) Primary – Secondary
AC
3000
No
T2 (type 8TA00327) Secondary – Core
AC
3000
No
Supplementary information:
TRF No. IECEN60950_1C
- Page 86 of 95 -
Report No. 139234
5.3
TABLE: Fault condition tests
P
Ambient temperature (°C) ................................... :
⎯
25°C if not state.
⎯
Power source for EUT: Manufacturer, model/type,
output rating ......................................................... :
Component
No.
Fault
Supply
voltage
(V)
Test
time
Fuse #
Fuse
current
(A)
Observation
For model FSP550-50GHN(85) (with T2 type 8TC00207)
Fan
Locked
240
2 hrs
58 min
F1
2.88
Unit normal operation,
temperature was stable,
Max. temp. of
T1 coil= 113.9°C,
T2 coil=120.2°C,
ambient= 26.2°C,
no damage, no hazard.
Ventilation
openings
Blocked
240
4 hrs
7 min
F1
2.88
Unit normal operation,
temperature was stable,
Max. temp. of
T1 coil= 118.8°C,
T2 coil=114.3°C,
ambient= 24.4°C,
no damage, no hazard.
BD1 ~ to +
s-c
240
1 sec
F1
1)
Fuse (F1) open instantly, no
hazard.
C10
s-c
240
1 sec
F1
1)
Fuse (F1) open instantly, no
hazard.
Q10
(G to S)
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
Q10
(G to D)
s-c
240
1 sec
F1
1)
Fuse (F1) open instantly, Q10
damage, no hazard.
Q10
(D to S)
s-c
240
1 sec
F1
1)
Fuse (F1) open instantly, Q10
damage, no hazard.
Q61
(G to S)
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
Q61
(G to D)
s-c
240
1 sec
F1
1)
Fuse (F1) open instantly, Q10
damage, no hazard.
Q61
(D to S)
s-c
240
1 sec
F1
1)
Fuse (F1) open instantly, Q10
damage, no hazard.
M4
(pin 3 to 6,
7, 8)
s-c
240
1 sec
F1
0.02
All outputs shutdown, M4, Z42
damage, no hazard.
2)
TRF No. IECEN60950_1C
- Page 87 of 95 -
Report No. 139234
Component
No.
Fault
Supply
voltage
(V)
Test
time
Fuse #
Fuse
current
(A)
Observation
M2
(pin 1 to 2)
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
M2
(pin 3 to 4)
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
M2
(pin 1)
o-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
M3
(pin 1 to 2)
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
M3
(pin 3 to 4)
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
M3
(pin 1)
o-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
M5
(pin 1 to 2)
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
M5
(pin 3 to 4)
s-c
240
1 hrs
2 min
F1
2.80
Unit normal operation,
temperature was stable,
Max. temp. of
T1 coil= 66.0°C,
T2 coil=43.0°C,
ambient= 26.9°C,
no damage, no hazard.
M5
(pin 1)
o-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
D20
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
D50
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
D30
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
D43
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
T1,
(pin 8, 9 to
FLY)
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
T1,
(pin 11, 12,
13, 14 to
FLY)
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
TRF No. IECEN60950_1C
- Page 88 of 95 -
Report No. 139234
Component
No.
Fault
Supply
voltage
(V)
Test
time
Fuse #
Fuse
current
(A)
Observation
T1,
(pin 8, 9 to
11, 12, 13,
14)
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
T2,
(pin 6, 7 to
9, 10)
s-c
240
1 sec
F1
0.12
All outputs shutdown, D43
damage, no hazard.
2)
T2,
(pin 1 to 2)
s-c
240
30 min
F1
0.130.19
Unit cycle protection, no damage,
no hazard.
T2,
(pin 3 to 4)
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
+3.3V to
+5V
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+3.3V to
+12V1
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+3.3V to
+12V2
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+3.3V to
+12V3
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+3.3V to
+12V4
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+3.3V to
-12V
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+3.3V to
+5Vsb
s-c
240
1 hrs
15 min
F1
2.80
Unit normal operation except
+5Vsb output voltage down to
3.8Vdc. Max. temp. of
T1 coil= 66.8°C,
T2 coil=43.8°C,
ambient= 26.6°C,
no damage, no hazard.
+5V to
+12V1
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+5V to
+12V2
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+5V to
+12V3
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+5V to
+12V4
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
TRF No. IECEN60950_1C
- Page 89 of 95 -
Report No. 139234
Component
No.
Fault
Supply
voltage
(V)
Test
time
Fuse #
Fuse
current
(A)
Observation
+5V to
-12V
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+5V to
+5Vsb
s-c
240
2 hrs
13 min
F1
2.88
Unit normal operation.
Max. temp. of
T1 coil= 69.3°C,
T2 coil=46.0°C,
ambient= 28.5°C,
no damage, no hazard.
+12V1 to
+12V2
s-c
240
1 hrs
57 min
F1
2.88
Unit normal operation.
Max. temp. of
T1 coil= 86.1°C,
T2 coil=53.3°C,
ambient= 27.1°C,
no damage, no hazard.
+12V1 to
+12V3
s-c
240
1 hrs
26 min
F1
2.88
Unit normal operation.
Max. temp. of
T1 coil= 86.5°C,
T2 coil=53.3°C,
ambient= 27.2°C,
no damage, no hazard.
+12V1 to
+12V4
s-c
240
1 hrs
45 min
F1
2.88
Unit normal operation.
Max. temp. of
T1 coil= 87.2°C,
T2 coil=53.3°C,
ambient= 26.8°C,
no damage, no hazard.
+12V1 to
-12V
s-c
240
30 min
F1
0.31
All outputs shutdown except
+5Vsb, no damage, no hazard.
+12V1 to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
+12V2 to
+12V3
s-c
240
1 hrs
27 min
F1
2.88
Unit normal operation.
Max. temp. of
T1 coil= 84.8°C,
T2 coil=51.3°C,
ambient= 26.1°C,
no damage, no hazard.
+12V2 to
+12V4
s-c
240
1 hrs
2 min
F1
2.88
Unit normal operation.
Max. temp. of
T1 coil= 77.3°C,
T2 coil=47.3°C,
ambient= 27.7°C,
no damage, no hazard.
TRF No. IECEN60950_1C
- Page 90 of 95 -
Report No. 139234
Component
No.
Fault
Supply
voltage
(V)
Test
time
Fuse #
Fuse
current
(A)
Observation
+12V2 to
-12V
s-c
240
30 min
F1
0.31
All outputs shutdown except
+5Vsb, no damage, no hazard.
+12V2 to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
+12V3 to
+12V4
s-c
240
1 hrs
31 min
F1
2.88
Unit normal operation.
Max. temp. of
T1 coil= 68.1°C,
T2 coil=44.8°C,
ambient= 27.5°C,
no damage, no hazard.
+12V3 to
-12V
s-c
240
30 min
F1
0.31
All outputs shutdown except
+5Vsb, no damage, no hazard.
+12V3 to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
+12V4 to
-12V
s-c
240
30 min
F1
0.31
All outputs shutdown except
+5Vsb, no damage, no hazard.
+12V4 to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
-12V to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
+3.3V
output
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+5V output
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+12V1
output
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+12V2
output
s-c
240
30 min
F1
0.25
All outputs shutdown except
+5Vsb, no damage, no hazard.
+12V3
output
s-c
240
30 min
F1
0.31
All outputs shutdown except
+5Vsb, no damage, no hazard.
+12V4
output
s-c
240
30 min
F1
0.31
All outputs shutdown except
+5Vsb, no damage, no hazard.
-12V output s-c
240
30 min
F1
0.31
All outputs shutdown except
+5Vsb, no damage, no hazard.
+5Vsb
output
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
s-c
TRF No. IECEN60950_1C
- Page 91 of 95 -
Report No. 139234
Component
No.
Fault
Supply
voltage
(V)
Test
time
Fuse #
Fuse
current
(A)
Observation
T1 pin 11,
12, 13, 14
(after D30 /
D31)
(+3.3V)
o-l
240
3 hrs
4 min
F1
3.05
+3.3V output load 25A, after
transformer load CT at 11A,
increase to 13A and all outputs
shutdown except +5Vsb.
Max. temp. measured of
T1 coil=120°C,
T2 coil=104°C,
ambient=26.7°C,
no damage, no hazard.
(Output load Con. A)
T1 pin 11,
12, 13, 14
(after D50 /
D51)
(+5V)
o-l
240
4 hrs
51 min
F1
3.32
+5V output load 25A, after
transformer load CT at 8A,
increase to 10A and all outputs
shutdown except +5Vsb.
Max. temp. measured of
T1 coil=116°C,
T2 coil=92°C,
ambient=25.5°C,
no damage, no hazard.
(Output load Con. B)
T1 pin 8, 9
(after D20 /
D21)
(+12V1 &
+12V2 &
+12V3 &
+12V4)
o-l
240
6 hrs
2 min
F1
3.56
+12V1/+12V2/+12V3/+12V4
output load 0A/7.4A/18A/18A,
after transformer load CT at 13A,
increase to 15A and all outputs
shutdown except +5Vsb.
Max. temp. measured of
T1 coil=136°C,
T2 coil=93°C,
ambient=24.9°C,
no damage, no hazard.
(Output load Con. C)
T2 pin 9, 10 o-l
(after D43)
(+5Vsb)
240
10 hrs
45 min
F1
2.98
+5Vsb output load 3A, after
transformer load CT at 3A,
increase to 3.5A and unit
shutdown except +5Vsb.
Max. temp. measured of
T1 coil=80°C,
T2 coil=98°C,
ambient=24.3°C,
no damage, no hazard.
(Output load Con. A)
TRF No. IECEN60950_1C
- Page 92 of 95 -
Report No. 139234
Component
No.
Fault
Supply
voltage
(V)
Test
time
Fuse #
Fuse
current
(A)
Observation
+3.3V
output
o-l
240
5 hrs
6 min
F1
3.23
CT at 39A, increase to 40A and
all outputs shutdown except
+5Vsb. Max. temp. of
T1 coil=132°C,
T2 coil=100°C, ambient=26.3°C,
no damage, no hazard.
(Output load Con. A)
+5V output
o-l
240
4 hrs
8 min
F1
3.28
CT at 33A, increase to 34A and
all outputs shutdown except
+5Vsb. Max. temp. of
T1 coil=132°C,
T2 coil=98°C,
ambient=24.4°C,
no damage, no hazard.
(Output load Con. B)
+12V4
output
o-l
240
3 hrs
19 min
F1
3.08
CT at 23.5A, increase to 25A and
all outputs shutdown except
+5Vsb. Max. temp. of
T1 coil=107°C,
T2 coil=96°C,
ambient=26.3°C,
no damage, no hazard.
(Output load Con.C)
-12V output o-l
240
1 hrs
46 min
F1
2.93
CT at 2.5A, increase to 2.8A and
all outputs shutdown except
+5Vsb. Max. temp. of
T1 coil=95°C,
T2 coil=96°C,
ambient=27.2°C,
no damage, no hazard.
(Output load Con. A)
+5Vsb
output
240
4 hrs
7 min
F1
2.95
CT at 6A, maximum increase to
6.5A and other outputs
shutdown. Max. temp. of
T1 coil=72°C, T2 coil=108°C,
ambient=25.9°C,
no damage, no hazard.
(Output load Con. A)
o-l
For model FSP550-50GHN(85) (with T2 type 8TA00327)
TRF No. IECEN60950_1C
- Page 93 of 95 -
Report No. 139234
Component
No.
Fault
Supply
voltage
(V)
Test
time
Fuse #
Fuse
current
(A)
Observation
Fan
Locked
240
1 hrs
3 min
F1
0.25
All outputs shutdown except
+5Vsb, Max. temp. of
T1 coil= 124°C,
T2 coil=102°C,
ambient= 27.2°C,
no damage, no hazard.
Ventilation
openings
Blocked
240
2 hrs
45 min
F1
2.88
Unit normal operation,
temperature was stable,
Max. temp. of
T1 coil= 120.6°C,
T2 coil=114.2°C,
ambient= 26.5°C,
no damage, no hazard.
T2,
(pin 2 to 5)
s-c
240
1 sec
F1
0.12
All outputs shutdown, D43
damage, no hazard.
2)
T2,
(pin 7 to 8)
s-c
240
30 min
F1
0.160.19
Unit cycle protection, no damage,
no hazard.
T2,
s-c
(pin 9 to 10)
240
30 min
F1
0.160.19
Unit cycle protection, no damage,
no hazard.
T2 pin 5
(after D43)
(+5Vsb)
o-l
240
3 hrs
54 min
F1
2.96
+5Vsb output load 3A, after
transformer load CT at 2.7A,
increase to 3.7A and unit
shutdown except +5Vsb.
Max. temp. measured of
T1 coil=102°C,
T2 coil=96°C,
ambient=27.5°C,
no damage, no hazard.
(Output load Con. A)
+3.3V to
+5Vsb
s-c
240
30 min
F1
2.80
Unit normal operation except
+5Vsb output voltage become to
3.8V, no damage, no hazard.
+5V to
+5Vsb
s-c
240
30 min
F1
2.88
Unit normal operation,
no damage, no hazard.
+12V1 to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
+12V2 to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
+12V3 to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
TRF No. IECEN60950_1C
- Page 94 of 95 -
Report No. 139234
Component
No.
Fault
Supply
voltage
(V)
Test
time
Fuse #
Fuse
current
(A)
Observation
+12V4 to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
-12V to
+5Vsb
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
+5Vsb
output
s-c
240
30 min
F1
0.14
All outputs shutdown,
no damage, no hazard.
+5Vsb
output
o-l
240
4 hrs
30 min
F1
2.94
CT at 5.5A, maximum increase to
6.5A and other outputs
shutdown. Max. temp. of
T1 coil=81°C, T2 coil=92°C,
ambient=25.5°C,
no damage, no hazard.
(Output load Con. A)
Supplementary information:
s-c=Short circuit, o-c=Open circuit, o-l=Over load, CT= Constant temperatures were obtained.
- For fault condition test, that the auto range circuit did not constitute a hazard.
1) Fuse current is more than fuse rating times 2.1, for fuse open conditions, same result came out for each
source of fuse. (Tests repeated 10 times for UL approved only fuse)
2) Test repeated for 2 times, same result came out.
TRF No. IECEN60950_1C
- Page 95 of 95 -
Report No. 139234
C.2
TABLE: transformers
P
Loc.
Tested insulation
Working
voltage
peak / V
(2.10.2)
T1
Primary windings –
Secondary windings
400
T1
Primary pins – Core –
Secondary windings
400
For T2 type 8TC00207
T2
Primary windings –
Secondary windings
T2
Required
creepage
distance /
mm
(2.10.4)
Required
distance
thr. insul.
3000V ac 4.0
5.0
227
3000V ac 4.0
5.0
2 layers
min. or 0.4
mm
2 layers
min. or 0.4
mm
528
345
3000V ac 4.0
7.2
1)
528
345
3000V ac 4.0
7.2
1)
For T2 type 8TA00327
T2
Primary windings –
520
Secondary pins
2), 4)
347
3000V ac 4.4
7.2
1)
Test
voltage/
V
Measured
creepage
dist./ mm
Loc.
Primary pins –
Secondary windings
Tested insulation
Working
voltage
rms / V
Required
electric
strength
Required
clearance /
mm
(2.10.2)
(5.2)
(2.10.3)
227
Measured
clearance /
mm
(2.10.5)
2 layers
min. or 0.4
mm
2 layers
min. or 0.4
mm
2 layers
min. or 0.4
mm
Measured
distance
thr. insul. /
mm;
number of
layers
T1
Primary windings – Secondary windings
3000V ac 10.5
10.5
3 layers
T1
Primary pins – Core – Secondary windings
3000V ac 13.1
13.1
3 layers
For T2 type 8TC00207
T2
Primary windings – Secondary windings
3000V ac 8.0
8.0
3 layers
T2
Primary pins – Secondary windings
3000V ac 18.0
18.0
3 layers
For T2 type 8TA00327
T2
3000V ac 8.0
8.0
Primary windings – Secondary pins
2), 4)
3)
Supplementary information:
*) Distance required acc. to IEC 60950-1 first edition for worst case.
1) Linear interpolation is considered.
2) Secondary windings are triple insulated. Core is regarded as a primary part. The creepage distance
from prim. winding to core is 0 mm.
3) Triple insulated wire used.
4) Shortest distance is considered.
TRF No. IECEN60950_1C
- Page 1 of 3 -
PCB layout
www.nemko.com
Main board
Report No. 139234
- Page 2 of 3 -
PCB layout
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Main board
Report No. 139234
- Page 3 of 3 -
PCB layout
www.nemko.com
CB(A) board
Report No. 139234
- Page 1 of 5 -
Photos
www.nemko.com
For models FSP.-80GHN(85) used.
Report No. 139234
- Page 2 of 5 -
Photos
www.nemko.com
For model FSP.-80GCM(85) used.
Report No. 139234
- Page 3 of 5 -
Photos
www.nemko.com
For models FSP.-80GHN(85) used.
For model FSP.-80GCM(85) used.
Report No. 139234
- Page 4 of 5 -
Photos
www.nemko.com
Main board
Report No. 139234
- Page 5 of 5 -
Photos
www.nemko.com
CN(D) board for model FSP.-80GCM(85) used.
Report No. 139234
- Page 1 of 9 -
Transformer specification
www.nemko.com
Report No. 139234
Construction / Winding diagram / Component part no: T1 (type 8TG00192)
- Page 2 of 9 -
Transformer specification
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Report No. 139234
Construction / Winding diagram / Component part no: T1 (type 8TG00192)
- Page 3 of 9 -
Transformer specification
www.nemko.com
Report No. 139234
Construction / Winding diagram / Component part no: T1 (type 8TG00192)
- Page 4 of 9 -
Transformer specification
www.nemko.com
Report No. 139234
Construction / Winding diagram / Component part no: T2 (type 8TC00207)
- Page 5 of 9 -
Transformer specification
www.nemko.com
Report No. 139234
Construction / Winding diagram / Component part no: T2 (type 8TC00207)
- Page 6 of 9 -
Transformer specification
www.nemko.com
Report No. 139234
Construction / Winding diagram / Component part no: T2 (type 8TC00207)
- Page 7 of 9 -
Transformer specification
www.nemko.com
Report No. 139234
Construction / Winding diagram / Component part no: T2 (type 8TA00327)
- Page 8 of 9 -
Transformer specification
www.nemko.com
Report No. 139234
Construction / Winding diagram / Component part no: T2 (type 8TA00327)
- Page 9 of 9 -
Transformer specification
www.nemko.com
Report No. 139234
Construction / Winding diagram / Component part no: T2 (type 8TA00327)
- Page 1 of 1 -
IEC 60950-1 (ed.2)
www.nemko.com
Report No. 139234
ATTACHMENT: KOREAN DIFFERENCES
Test results according to CB BULLETIN No. 112A, December 2006
Clause
Requirements – Test
Result – Remark
1.5.101
Addition
Refer to Summary Of Testing in
main test report.
N
The power supply has not been
tested for EMC, the end product
must be tested with this power
supply installed. refer to
Summary of Testing in main test
report.
N
Plugs for the connection of the apparatus to the
supply mains shall comply with the Korean
requirement (KSC 8305 and 8305).
8
Addition
EMC
The apparatus shall comply with the relevant
CISPR standards.
Verdict
Annex _1_, Page 1 of 6
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
National Differences for Canada
Verdict
P
Canada and the United States of America have adopted a single, bi-national standard, CAN/CSA C22.2 No.
60950-1/UL60950-1, Second Edition, which is based on IEC 60950-1, Second Edition. This bi-national
standard should be consulted for further details on the national conditions and differences summarized below.
SPECIAL NATIONAL CONDITIONS
The following is a summary of the key national differences based on national regulatory requirements, such
as the Canadian Electrical Code (CEC) Part and the Canadian Building Code, which are referenced in
legislation and which form the basis for the rules and practices followed in electrical and building installations.
1.1.1
1.4.14
1.5.5
1.7.1
1.7.7
2.5
All equipment is to be designed to allow installation
in accordance with the National Electrical Code
(NEC), ANSI/NFPA 70, the Canadian Electrical
Code (CEC), Part I, CAN/CSA C22.1, and when
applicable, the National Electrical Safety Code,
IEEE C2. Also, unless marked or otherwise
identified, installation is allowed per the Standard
for the Protection of Electronic
Computer/Data-Processing Equipment,
ANSI/NFPA 75.
For Pluggable Equipment Type A, the protection in
the installation is assumed to be 20A .....................:
For lengths exceeding 3.05 m, external
interconnecting flexible cord and cable assemblies
are required to be a suitable cable type (e.g., DP,
CL2) specified in the CEC/NEC. .............................:
For lengths 3.05 m or less, external interconnecting
flexible cord and cable assemblies that are not
types specified in the CEC/NEC are required to
have special construction features and
identification markings.
Equipment for use on a.c. mains supply systems
with a neutral and more than one phase conductor
(e.g. 120/240 V, 3-wire) require a special marking
format for electrical ratings.
A voltage rating that exceeds an attachment plug
cap rating is only permitted if it does not exceed the
extreme operating conditions in Table 2 of
CAN/CSA C22.2 No. 235, and if it is part of a range
that extends into the Table 2 "Normal Operating
Conditions." Likewise, a voltage rating shall not be
lower than the specified "Normal Operating
Conditions," unless it is part of a range that extends
into the "Normal Operating Conditions."
Wiring terminals intended to supply Class 2 outputs
in accordance with CEC Part 1 or NEC shall be
marked with the voltage rating and “Class 2” or
equivalent. Marking shall be located adjacent to
the terminals and shall be visible during wiring.
Where a fuse is used to provide Class 2, Limited
Power Source, or TNV current limiting, it shall not
be operator-accessible unless it is not
interchangeable.
TRF No. CSA60950-1-07A/bl070423
Considered.
P
Equipment acceptable for
connection to 20 A
External interconnecting
flexible cable (sec. O/P cable)
is not longer than 3.05m.
P
N
Considered.
P
Only one phase conductor.
N
Refer to Summary Of Testing
in main test report.
N
No connectors and wiring
terminal for external Class 2
circuit.
N
No such fuse used.
N
Annex _1_, Page 2 of 6
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
2.7.1
Suitable NEC/CEC branch circuit protection rated
at the maximum circuit rating is required for all
standard supply outlets and receptacles (such as
supplied in power distribution units) if the supply
branch circuit protection is not suitable.
No standard supply outlets,
receptacles, lampholders or
such transformers.
N
The equipment is provided
with an appliance inlet.
N
Refer to Summary Of Testing
in main test report.
N
The equipment is not for
connection to a DC mains
supply.
N
The equipment is not
permanently connected to the
mains.
Refer to Summary Of Testing
in main test report.
N
The equipment is not
permanently connected to the
mains.
The equipment is provided
with an appliance inlet.
N
The equipment is provided
with an appliance inlet.
No permanent wiring. The
equipment is provided with an
appliance inlet.
N
No AC motors in the
equipment.
N
No such switch used.
N
3.2
3.2.1
3.2.1.2
3.2.3
3.2.5
3.2.9
3.3
3.3.3
3.3.4
3.4.2
3.4.8
Power distribution transformers distributing power
at 100 volts or more, and rated 10 kVA or more,
require special transformer overcurrent protection.
Wiring methods (terminals, leads, etc.) used for the
connection of the equipment to the mains shall be
in accordance with the NEC/CEC.
Power supply cords are required to have
attachment plugs rated not less than 125 percent of
the rated current of the equipment.
Equipment connected to a centralized d.c. power
system, and having one pole of the DC mains input
terminal connected to the main protective earthing
terminal in the equipment, is required to comply
with special earthing, wiring, marking and
installation instruction requirements.
Permanent connection of equipment to the mains
supply by a power supply cord is not permitted,
except for certain equipment, such as ATMs.
Power supply cords are required to be no longer
than 4.5 m in length.
.................................................................................
Flexible power supply cords are required to be
compatible with Tables 11 and 12 of the CEC and
Article 400 of the NEC.
Permanently connected equipment is required to
have a suitable wiring compartment and wire
bending space.
Wiring terminals and associated spacings for field
wiring connections shall comply with CSA C22.2
No. 0.
Wire binding screws are not permitted to attach
conductors larger than 10 AWG (5.3 mm2).
Terminals for permanent wiring, including
protective earthing terminals, are required to be
suitable for Canadian/US wire gauge sizes, rated
125 percent of the equipment rating, and be
specially marked when specified (1.7.7).
Motor control devices are required for
cord-connected equipment with a motor if the
equipment is rated more than 12 A, or if the motor
has a nominal voltage rating greater than 120 V, or
is rated more than 1/3 hp (locked rotor current over
43 A).
Vertically-mounted disconnect switches and circuit
breakers are required to have the "on" position
indicated by the handle in the up position.
TRF No. CSA60950-1-07A/bl070423
Verdict
N
N
N
Annex _1_, Page 3 of 6
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
3.4.11
For computer room applications, equipment with
battery systems capable of supplying 750 VA for
five minutes are required to have a battery
disconnect means that may be connected to the
computer room remote power-off circuit.
Battery system: .......................................................
When power-off is activated: .................................
The maximum quantity of flammable liquid stored in
equipment is required to comply with NFPA 30.
Flammable liquid material: .....................................
Flash point: .............................................................
Boiling point: ...........................................................
Container material: ................................................
Storage container size: ..........................................
Equipment with lasers is required to meet the
Canadian Radiation Emitting Devices Act, REDR
C1370 and/or Code of Federal Regulations 21 CFR
1040, as applicable.
For computer room applications, automated
information storage systems with combustible
media greater than 0.76 m3 (27 cu ft) are required
to have a provision for connection of either
automatic sprinklers or a gaseous agent
extinguishing system with an extended discharge.
For computer room applications, enclosures with
combustible material measuring greater than 0.9
m2 (10 sq ft) or a single dimension greater than 1.8
m (6 ft) are required to have a flame spread rating
of 50 or less. For other applications, enclosures
with the same dimensions require a flame spread
rating of 200 or less.
Equipment that produces ionizing radiation is
required to comply with the Canadian Radiation
Emitting Devices Act, REDR C1370 and/or Code of
Federal Regulations, 21 CFR 1020, as applicable.
No battery in the equipment.
4.3.12
4.3.13.5
4.7
4.7.3.1
Annex H
TRF No. CSA60950-1-07A/bl070423
Verdict
N
⎯
No flammable liquids within
the equipment.
N
⎯
No laser or LED.
N
The equipment has no
combustible area greater than
0.76 m³.
N
The equipment has no
combustible material greater
than 0.9m2 or single
dimension greater than 1.8m.
N
The equipment does not
produce ionizing radiation.
N
Annex _1_, Page 4 of 6
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
Verdict
OTHER DIFFERENCES
The following key national differences are based on requirements other than national regulatory
requirements.
Critical components are IEC
1.5.1
Some components and materials associated with
the risk of fire, electric shock, or personal injury are certified. See list of critical
components in main CB report
required to have component or material ratings in
accordance with the applicable national (Canadian (§1.5.1). There may be
additional requirements for
and/or U.S.) component or material standard
components in Canada.
requirements. These components include:
attachment plugs, battery packs (rechargeable
type, used with transportable equipment), cathode
ray tubes, circuit breakers, communication circuit
accessories, connectors (used for current
interruption of non-LPS circuits), cord sets and
power supply cords, direct plug-in equipment,
enclosures (outdoor), flexible cords and cables,
fuses (branch circuit), fuseholders, ground-fault
current interrupters, industrial control equipment,
insulating tape, interconnecting cables,
lampholders, limit controls, printed wiring,
protectors for communications circuits, receptacles,
solid state controls, supplementary protectors,
switches (including interlock switches), thermal
cutoffs, thermostats, (multi-layer) transformer
winding wire, transient voltage surge suppressors,
tubing, wire connectors, and wire and cables.
1.6.1.2
A circuit for connection to the DC Mains Supply is
No connect to DC power
classified as either a SELV Circuit, TNV-2 Circuit or distribution system.
Hazardous Voltage Circuit depending on the
maximum operating voltage of the supply. This
maximum operating voltage shall include
consideration of the battery charging “float voltage”
associated with the intended supply system,
regardless of the marked power rating of the
equipment.
2.3.1
For TNV-2 and TNV-3 circuits with other than
No TNV circuitry.
ringing signals and with voltages exceeding 42.4
Vpeak or 60 Vd.c., the maximum acceptable
current through a 2000 ohm resistor (or greater)
connected across the voltage source with other
loads disconnected is 7.1 mA peak or 30 mA d.c.
under normal operating conditions.
2.3.2.1
In the event of a single fault between TNV and
No TNV circuitry.
SELV circuits, SELV Circuits and accessible
conductive parts comply with the North American
limits of 2.2.3.
2.6.3.4
Protective bonding conductors of non-standard
Considered, see main test
protective bonding constructions (e.g., printed
report.
circuit traces) subjected to the additional limited
short circuit test conditions specified, if required.
TRF No. CSA60950-1-07A/bl070423
P
N
N
N
P
Annex _1_, Page 5 of 6
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
4.2.8.1
Enclosures around CRTs with a face diameter of
160 mm or more are provided with suitable
enclosure to reduce the risk of injury due to the
implosion of the CRT.
Projected area of opening ..................................... :
Minor dimension of projected area ........................ :
For equipment intended for mounting on racks and
provided with slide/rails allowing the equipment to
slide away from the rack for installation, service
and maintenance, additional construction,
performance and marking requirements are
applicable to determine the adequacy of the
slide/rails.
Equipment with handles is required to comply with
special loading tests.
Equipment intended to receive telecommunication
ringing signals is required to comply with a special
touch current measurement tests.
Ringing ports provided: .........................................
Simulation provided to: ..........................................
Measured total touch current : ..............................
No CRTs in the equipment.
Internal (e.g., card cage) SELV circuit connectors
and printed wiring board connectors that are
accessible to the operator and that deliver power
are to be overloaded.
Considered.
P
No TNV circuitry.
N
No TNV circuitry.
N
No TNV circuitry.
N
Not applicable.
N
4.2.11
4.3.2
5.1.8.3
5.3.7
6.4
M.2
Annex
NAD
Annex
NAF
During abnormal operating testing, if a circuit is
interrupted by the opening of a component, the test
shall be repeated twice (three tests total) using new
components as necessary.
Equipment intended for connection to
telecommunication network outside plant cable is
required to be protected against overvoltage from
power line crosses in accordance with 6.4 and
Annex NAC.
Continuous ringing signals up to 16 mA only are
permitted if the equipment is subjected to special
installation and performance restrictions.
Equipment connected to a telecommunication and
cable distribution networks and supplied with an
earphone intended to be held against, or in the ear
is required to comply with special acoustic pressure
requirements.
Document (paper) shredders likely to be used in a
home or home office (Pluggable Equipment Type A
plug configuration) are required to comply with
additional requirements, including
markings/instructions, protection against
inadvertent reactivation of a safety interlock,
disconnection from the mains supply (via provision
of an isolating switch), and protection against
operator access (accessibility determined via new
accessibility probe & probe/wedge).
TRF No. CSA60950-1-07A/bl070423
Verdict
N
⎯
No mounting on racks and
provided with slide/rails.
N
No handle.
N
No TNV circuitry.
N
⎯
Annex _1_, Page 6 of 6
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
Verdict
N
Annex NAF
Household/home office Document shredders
NAF1.7
Markings and Instructions
The equipment is not a
shredders.
N
NAF 1.7.15 Symbols alerting the user to the following
considerations are provided adjacent to the
document feed opening. These symbols are
explained in the instructions:
Product is not intended for use by children (product
is not a toy) .............................................................:
Avoid touching the document feed opening with
hands ......................................................................:
Avoid clothing touching the document feed opening
.................................................................................:
Keep aerosol products away (applicable for product
with brush motor only) ............................................:
N
(ISO 7000-0434) symbol to alert user to
The
important operating, maintenance and/or servicing
instructions and the explanation of above symbols
Marking is permanent, comprehensible and easily
discernible on the equipment.
Safety interlock can not be activated by articulated
accessibility probe (NAF.1)
Isolation switch complying with 3.4.2 is provided to
disconnect power to hazardous moving parts
On/off marking is provided for two position switch ..:
Off marking for multi-position switch ......................:
Protection against hazardous moving parts
Accessibility probe (Fig NAF.1) is inserted without
force into each opening and did not contact
hazardous moving parts
Operator accessible guards are removed and
Accessibility wedge is inserted into each opening
according without contacting mechanical hazards:
Strip-cut (45N): .......................................................:
Cross-cut (90N) .......................................................:
N
NAF 2.8.3
NAF 3.4
NAF 4.4
TRF No. CSA60950-1-07A/bl070423
N
N
N
N
N
N
N
N
N
N
N
N
⎯
⎯
Annex _2_, Page 1 of 7
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
USA - Differences to IEC 60950-1:2005, Second Edition
Verdict
P
1.1
Equipment able to be installed in accordance with
the National Electrical Code ANSI/NFPA 70
Considered.
P
1.1.1
Equipment able to be installed in accordance with
Considered.
ANSI/NFPA 75 and NEC Art. 645 unless intended
for use outside of computer room and provided with
such instructions.
P
1.1.2
Equipment in wire-line communication facilities
serving high-voltage electric power stations
operating at greater than 1kV are excluded.
Considered.
P
1.1.2
Equipment intended for outdoor use
Not outdoor use equipment.
N
1.4.14
For Pluggable Equipment Type A, the protection in
the installation is assumed to be 20 A.
Considered.
P
1.5.1
All IEC standards for components identified in
Considered, see appended
Annex P.1 replaced by the relevant requirements of table 1.5.1 in the main test
UL component standards in Annex P.1.
report.
P
1.5.1
All IEC standards for components identified in
Annex P.2 alternatively satisfied by the relevant
requirements of UL component standards
P
1.5.5
Interconnecting cables acceptable for the
Considered.
application regarding voltage, current, temperature,
flammability, mechanical serviceability and the like.
P
1.5.5
For other than limited power and TNV circuits, the
Considered.
type of output circuit identified for output connector.
P
1.5.5
External cable assemblies that exceed 3.05 m in
length to be types specified in the NEC
External interconnecting
flexible cable (sec. O/P cable)
is not longer than 3.05m.
N
1.5.5
Detachable external interconnecting cables 3.05 m Refer to Summary Of Testing
or less in length and provided with equipment
in main test report.
marked to identify the responsible organization and
the designation for the cable
N
1.5.5
Building wiring and cable for use in ducts, plenums
and other air handling space subject to special
requirements and excluded from scope.
No such wire used.
N
1.5.5
Telephone line and extension cords and the like
comply with UL 1863
No TNV circuitry.
N
1.6.1.2
Equipment intended for connection to a d.c. power
(mains) distribution system subjected to special
circuit classification requirements (e.g., TNV-2)
No connect to DC power
distribution system.
N
1.6.1.2
Earthing of d.c. powered equipment provided
No connect to DC power
distribution system.
N
1.7
Lamp replacement information indicated on
lampholder in operator access area
No lamp provided.
N
1.7.1
Special marking format for equipment intended for Single phase only.
use on a supply system with an earthed neutral and
more than one phase conductor
N
1.7.1
Equipment voltage rating not higher than rating of
N
Considered, see appended
table 1.5.1 in the main test
report.
No plug provided.
Annex _2_, Page 2 of 7
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
Verdict
the plug except under special conditions
1.7.6
Fuse replacement marking for operator accessible
fuses
No operator accessible fuses.
N
1.7.7
Identification of terminal connection of the
equipment earthing conductor
Appliance inlet provided,
marking of the protective
earthing terminal is not
applicable.
N
1.7.7
Connectors and field wiring terminals for external
Class 2 or Class 3 circuits provided with marking
indicating minimum Class of wiring to be used.
No connectors and field wiring
terminal for external Class 2 or
Class 3 circuits.
N
1.7.7
Marking located adjacent to terminals and visible
during wiring
No such terminal used.
N
2.1.1.1
Bare TNV conductive parts protected by a cover are No TNV circuitry.
exempt if instructions include directions for
disconnection of TNV prior to removal of the cover
N
2.3.1.b
Other telecommunication signaling systems than
described in 2.3.1(b) are subject to M.4.
No TNV circuitry.
N
2.3.1.b
For TNV-2 and TNV-3 circuits with other than
No TNV circuitry.
ringing signals and with voltages exceeding 42.4 Vp
or 60 V d.c., the max. current limit through a resistor
≥ 2000 Ohm with loads disconnected is 7.1 mA
peak or 30 mA d.c. under normal conditions
N
2.3.1.b
Limits for measurements across 5000 Ohm resistor No TNV circuitry.
in the event of a single fault are replaced after 200
ms with the limits of M.3.1.4.
N
2.3.2.1
For a single fault, the limits of 2.2.3 apply to SELV
circuits and accessible conductive parts.
No TNV circuitry.
N
2.3.2.4
Enamel coating on signal transformer winding wire No TNV circuitry.
allowed as an alternative to Basic insulation in
specific telecommunication applications if subject to
special construction requirements and testing
N
2.5
Overcurrent protection device required for Class 2
and Class 3 limiting according to the NEC, or for a
Limited Power Source, not interchangeable with
devices of higher ratings if operator replaceable
No such component provided.
N
2.6
Equipment having receptacles for output a.c. power No receptacles for output a.c.
connectors generated from an internal separately
power connectors.
derived source have the earthed (grounded) circuit
conductor suitably bonded to earth.
N
2.6.3.3
For Pluggable Equipment Type A, if a) b) or c) are
not applicable, the current rating of the circuit is
taken as 20 A
Considered, see main test
report.
P
2.6.3.4
Capacity of connection between earthing terminal
Considered, see main test
and parts required to be earthed subject to special report.
conditions based on the current rating of the circuit.
P
2.6.4.1
Field wiring terminals for earthing conductors
suitable for wire sizes (gauge) used in US
Provide appliance inlet.
N
2.7.1
Data for selection of special external branch circuit
overcurrent devices marked on the equipment
No such part.
N
Annex _2_, Page 3 of 7
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
Verdict
2.7.1
Standard supply outlets protected by overcurrent
device in accordance with the NEC
No such part.
N
2.7.1
Overcurrent protection for individual transformers
that distribute power to other units over branch
circuit wiring
No such part.
N
2.7.1
Additional requirements for overcurrent protection
apply to equipment provided with panelboards
No such part.
N
2.7.1
Non-motor-operated equipment requiring special
overcurrent protective device marked with device
rating.
No such part.
N
2.10.5.12
Multi-layer winding wire subject to UL component
wire requirements in addition to 2.10.5.12 and
Annex U.
Considered, see main test
report.
P
3.1.1
Permissible combinations of internal wiring/external Considered.
cable sizes for overcurrent & short circuit protection
P
3.1.1
All interconnecting cables protected against
overcurrent and short circuit.
Considered
P
3.2
Wiring methods permit connection of equipment to
primary power supply in accordance with the NEC
The equipment is provided
with an appliance inlet.
N
3.2.1
Permitted use for flexible cords and plugs.
Refer to Summary Of Testing
in main test report.
N
3.2.1
Flexible cords provided with attachment plug rated
125% of equipment current rating.
Refer to Summary Of Testing
in main test report.
N
3.2.1
Any Class II equipment provided with 15 or 20 A
standard supply outlets, Edison-base lampholders
or single pole disconnect device provided with a
polarized type attachment plug.
Class I equipment.
N
3.2.1.2
Equipment intended for connection to DC mains
supply power systems complies with special wiring
requirements
The equipment is not for
connection to a DC. mains
supply.
N
3.2.1.2
Equipment with one pole of the DC mains supply
connected to both the equipment mains input
terminal and the main protective earthing terminal
provided with special instructions and construction
provisions for earthing
The equipment is not for
connection to a DC. mains
supply.
N
3.2.1.2
Equipment with means for connecting supply to
earthing electrode conductor has no switches or
protective devices between supply connection and
earthing electrode connection.
The equipment is not for
connection to a DC. mains
supply.
N
3.2.1.2
Markings and instructions for equipment with
provisions to connect earthed conductor of a DC
supply circuit to the equipment earthing conductor
The equipment is not for
connection to a DC. mains
supply.
N
Annex _2_, Page 4 of 7
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
Verdict
3.2.1.2
Special markings and instructions for equipment
with earthed conductor of a DC supply circuit
connected to the equipment earthing conductor
The equipment is not for
connection to a DC. mains
supply.
N
3.2.1.2
Terminals and leads provided for permanent
connection of DC powered equipment to supply
marked to indicate polarity if reverse polarity may
result in a hazard.
The equipment is not for
connection to a DC. mains
supply.
N
3.2.3
Permanently connected equipment has provision for Not permanently connected
connecting and securing a field wiring system (i.e.
equipment.
conduit, or leads etc.) per the NEC
N
3.2.3
Permanently connected equipment may have
terminals or leads not smaller than No. 18 AWG
(0.82 mm²) and not less than 150 mm in length for
connection of field installed wiring.
Not permanently connected
equipment.
N
3.2.3
If supply wires exceed 60 °C, marking indicates use Not permanently connected
of 75 °C or 90 °C wiring for supply connection as
equipment.
appropriate.
N
3.2.3
Equipment compatible with suitable trade sizes of
conduits and cables.
Not permanently connected
equipment.
N
3.2.5
Length of power supply cord limited to between 1.5
and 4.5 m unless shorter length used when
intended for a special installation.
Refer to Summary Of Testing
in main test report.
N
3.2.5
Conductors in power supply cords sized per NEC
Refer to Summary Of Testing
in main test report.
N
3.2.5
Power supply cords and cord sets incorporate
flexible cords suitable for the particular application.
Refer to Summary Of Testing
in main test report.
N
3.2.6
Strain relief provided for non-detachable
interconnecting cables not supplied by a limited
power source.
Power supply for building-in
should be evaluated when
market in U.S.A.
N
3.2.9
Adequate wire bending space and volume of field
wiring compartment required to properly make the
field connections.
The equipment is provided
with an appliance inlet.
N
3.2.9
Equipment solely for installation in Restricted
Equipment not intended for
Access Locations using low voltage d.c. systems
installation in RAL.
may not need provision for connecting and securing
a field wiring system when wiring is protected from
abuse.
N
3.3
Field wiring terminals provided for interconnection of The equipment is provided
units for other then LPS or Class 2 circuits also
with an appliance inlet.
comply with 3.3.
N
3.3
Interconnection of units by LPS or Class 2
conductors may have field wiring connectors other
than specified in 3.3 if wiring is reliably separated
The equipment is provided
with an appliance inlet.
N
3.3.1
Terminals for the connection of neutral conductor
identified by a distinctive white marking or other
equally effective means
The equipment is provided
with an appliance inlet.
N
3.3.3
Wire binding screw terminal permitted for
connection of No. 10 AWG (5.3 mm²) or smaller
The equipment is provided
with an applicant inlet.
N
Annex _2_, Page 5 of 7
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
Verdict
conductor if provided with upturned lugs, cupped
washer or equivalent retention.
3.3.4
Terminals accept US wire sizes (gauge)
No terminals provided.
N
3.3.4
Terminals accept current-carrying conductors rated No terminals provided.
125% of the equipment current rating.
N
3.3.6
Field wiring terminals marked to indicate the
material(s) of the conductor for the terminals used
The equipment is provided
with an applicant inlet.
N
3.3.6
Aluminum conductors not permitted for connection
to terminal for equipment earthing conductor
The equipment is provided
with an applicant inlet.
N
3.3.6
Field wiring connections made through the use of
suitable pressure connectors (including set screw
type), solder lugs or splices to flexible leads.
The equipment is provided
with an applicant inlet.
N
3.4.2
Separate motor control device(s) required for cord- No AC motors in the
connected equipment rated more than 12 A, or with equipment.
motor rated more than 1/3 hp or more than 120 V.
N
3.4.8
Vertically mounted disconnect devices oriented so
up position of handle is "on".
No such switch used.
N
3.4.11
For computer-room applications, equipment with
battery systems capable of supplying 750 VA for 5
minutes provided with battery disconnect means
No battery in the equipment.
N
4.2.8.1
Special opening restrictions for enclosures around
CRTs with face dimension of 160 mm or more.
No CRTs in the equipment.
N
4.2.9
Compartment housing high-pressure lamp marked
to indicate risk of explosion.
No high-pressure lamp
provided.
N
4.2.11
For equipment mounted on racks and provided with No mounting on racks and
slide/rails allowing the equipment to slide away from provided with slide/rails.
the rack for installation and maintenance, additional
construction, performance and marking
requirements are applicable to determine the
adequacy of the slide/rails
N
4.3.2
Loading test for equipment with handle(s) used to
support more than 9 kg
No handle.
N
4.3.6
In addition to the IEC requirements, Direct Plug-in
Equipment complies with UL 1310
Not intended to plug directly
into a wall socket-outlet.
N
4.3.12
The max. quantity of flammable liquid stored in
equipment per ANSI/NFPA 30 (Table NAE.6)
No flammable liquids within
the equipment.
N
4.3.12
Equipment using replenishable liquids marked to
indicate type of liquid to be used.
No flammable liquids within
the equipment.
N
4.3.13.2
Equipment that produces x-radiation and does not
comply with 4.3.12 under all conditions of servicing
marked to indicate the presence of radiation
The equipment does not
generate ionizing radiation.
P
Annex _2_, Page 6 of 7
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
Verdict
4.3.13.5
Requirements contained in the applicable national
codes apply to lasers (21 CFR 1040).
No laser or LED.
N
4.7
Automated information storage equipment intended The equipment has no
to contain more than 0.76 m³ of combustible media combustible area greater than
requires provision for automatic sprinklers or a
0.76 m³.
gaseous agent extinguishing system.
N
4.7.3.1
Equipment for use in environmental air space other Equipment not used in
than ducts or plenums provided with metal
environmental air space.
enclosure or with non-metallic enclosure having
adequate fire-resistance and low smoke producing
characteristics (according to UL 2043). Equipment
for installation in space used for environmental air,
described in Sec. 300-22(c) of the NEC, provided
with instructions indicating suitability for installation
N
4.7.3.1
Flame spread rating for external surface of
combustible material with exposed area greater
than 0.9 m² or a single dimension greater than 1.8
m; 50 or less for computer room applications or 200
or less for other applications.
The equipment has neither
combustible area greater than
0.9 m2 nor a single dimension
greater than 1.8 m.
N
4.7.3.4
Wire marked "VW-1" or "FT-1" considered
equivalent.
Considered.
P
5.1.8.2
Special earthing provisions and instructions for
equipment with high touch current due to
telecommunication network connections.
Not connected to a
telecommunication network.
N
5.1.8.3
Touch current due to ringing voltage for equipment
containing telecommunication network leads.
Not connected to a
telecommunication network.
N
5.3.7
Overloading of SELV connectors and printed wiring Considered.
board receptacles accessible to the operator.
P
5.3.7
Tests interrupted by opening of a component
repeated two additional times.
Considered.
P
5.3.9.1
Test interrupted by opening of wire or trace subject
to certain conditions.
Not applicable
N
6
Specialized instructions for telephones that may be
connected to a telecommunications network
No TNV circuitry.
N
6
Marking identifying function of telecommunication
type connectors not used for connection to a
telecommunication network.
No TNV circuitry.
N
6.3
Equipment remotely powered over
telecommunication wiring systems provided with
specialized markings adjacent to the connection.
No TNV circuitry.
N
6.3
Overcurrent protection incorporated into equipment No TNV circuitry.
to provide power over telecommunication wiring
system not interchangeable with devices of higher
ratings if operator replaceable.
N
6.4
Additional requirements for equipment connected to No TNV circuitry.
a telecommunication network using cable subject to
overvoltage from power line failures
N
6.4
Where 26 AWG line cord required by Fig. 6C, either No TNV circuitry.
N
Annex _2_, Page 7 of 7
Report No. 139234
IEC 60950-1:2005
Clause
Requirement + Test
Result - Remark
Verdict
the cord is provided with the equipment or
described in the safety instructions.
7
Equipment associated with the cable distribution
system may need to be subjected to applicable
parts of Chapter 8 of the NEC.
Not cable distribution systems.
H
Ionizing radiation measurements made under single The equipment does not
fault conditions according to 21 CFR 1020
produce ionizing radiation.
N
M.2
Continuous ringing signals evaluated to Method A
subjected to special accessibility considerations.
No applicable.
N
M.4
Special requirements for message waiting and
similar telecommunications signals.
Not applicable.
N
NAC
Equipment for use with a generic secondary
protector marked with suitable instructions.
Not applicable.
N
NAC
Equipment marked with suitable instructions if for
use with a specific primary or secondary protector
Not applicable.
N
NAD
Acoustic pressure from an ear piece for short and
long duration disturbances
Not applicable.
N
NAD
Equipment connected to a telecommunication and Not applicable.
cable distribution networks and supplied with an
earphone intended to be held against, or in the ear
is required to comply with special acoustic pressure
requirements
N
NAF
Household/Home Office Document Shredders
N
NAF.1.7
Markings and instructions alert the user to key
The equipment is not a
safety considerations related to use of shredders,
shredders.
including not intended to be used by children, avoid
touching document feed opening, avoid clothes and
hair entanglement, and avoid aerosol products.
N
NAF.2.8.3
Safety interlock cannot be inadvertently activated by
the articulated accessibility probe
N
NAF.3.4
Provided with an isolating switch complying with
3.4.2, including 3 mm contact gap, with appropriate
markings associated with the switch.
N
NAF.4.4
Hazardous moving parts are not accessible, as
determined using the articulated accessibility probe
and the accessibility probe/wedge
N
N
- Page 1 of 8 -
IEC 60950-1 (ed.1)
Report No. 139234
www.nemko.com
ATTACHMENT: AUSTRALIAN / NEW ZEALAND DIFFERENCES
Test results according to CB BULLETIN No. 112A, December 2006
Clause
Requirements – Test
Result – Remark
Verdict
ZZ.1 Introduction
This Annex sets out variations between this Standard and IEC 60950-1:2001. These variations indicate
national variations for purposes of the IECEE CB Scheme and will be published in the IECEE CB Bulletin.
These variations are indicated within the body of the Standard.
ZZ.2 Variations
The variations are as follows:
1.2
Between the definitions for ‘Person, service’ and
‘Range, rated frequency’ insert the following:
POTENTIAL IGNITION SOURCE
Considered.
P
Considered.
P
Considered.
P
Considered.
P
1.2.12.201
1.2.12.15 After the definition 1.2.12.15, add the following:
1.2.12.201 POTENTIAL IGNITION SOURCE:
Possible fault which can start a fire if the opencircuit voltage measured across an interruption or
faulty contact exceeds a value of 50 V (peak) a.c.
or d.c. and the product of the peak value of this
voltage and the measured r.m.s. current under
normal operating conditions exceeds 15 VA.
Such a faulty contact or interruption in an
electrical connection includes those which may
occur in CONDUCTIVE PATTERNS on PRINTED
BOARDS.
NOTE 201: An electronic protection circuit may be used
to prevent such a fault from becoming a POTENTIAL
IGNITION SOURCE.
NOTE 202: This definition is from AS/NZS 60065:2003.
1.5.1
Add the following to the end of first paragraph:
‘or the relevant Australian/New Zealand
Standard’.
1.5.2
Add the following to the end of first and third
dash items:
‘or the relevant Australian/New Zealand
Standard’.
2.1
Delete the Note
Considered.
P
3.2.3
Delete Note 2
The equipment is not intended
for permanent connection to the
mains.
N
- Page 2 of 8 -
IEC 60950-1 (ed.1)
www.nemko.com
3.2.5.1
Modify Table 3B as follows:
Delete the first four rows and replace with
Report No. 139234
Refer to Summary Of Testing in
main test report.
N
Not intended to plug directly into
a wall socket-outlet.
N
No laser or LED.
N
Refer to below.
P
Delete Note 1.
4.3.6
Replace paragraph three with:
Equipment with a plug portion, suitable for
insertion into a 10 A 3-pin flat-pin socket-outlet
complying with AS/NZS 3112, shall comply with
the requirements in AS/NZS 3112 for equipment
with integral pins for insertion into socket-outlets.
4.3.13.5
Add the following to the end of first paragraph:
‘or AS/NZS 2211.1’.
4.7
Add the following paragraph:
For alternative tests refer to Clause 4.7.201.
IEC 60950-1 (ed.1)
www.nemko.com
4.7.201
Add the following after Clause 4.7.3.6:
4.7.201 Resistance to fire – Alternative tests
4.7.201.1 General
Parts of non-metallic material shall be resistant to
ignition and spread of fire.
This requirement does not apply to decorative
trims, knobs and other parts unlikely to be ignited
or to propagate flames originating from inside the
apparatus, or the following:
a) Components that are contained in an enclosure
having a flammability category of FV-0 according
to AS/NZS 4695.707 and having openings only for
the connecting wires filling the openings
completely, and for ventilation not exceeding 1
mm in width regardless of length.
b) The following parts which would contribute
negligible fuel to a fire:
- small mechanical parts, the mass of which does
not exceed 4 g, such as mounting parts, gears,
cams, belts and bearings;
- small electrical components, such as capacitors
with a volume not exceeding 1750mm3, integrated
circuits, transistors and optocoupler packages, if
these components are mounted on material of
flammability category FV-1, or better, according to
AS/NZS 4695.707.
NOTE: In considering how to minimize propagation of
fire and what ‘small parts’ are, account should be taken
of the cumulative effect of small parts adjacent to each
other for the possible effect of propagating fire from one
part to another.
Compliance shall be checked by the tests of
4.7.201.2, 4.7.201.3, 4.7.201.4 and 4.7.201.5.
For the base material of printed boards,
compliance shall be checked by the test of
4.7.201.5.
The tests shall be carried out on parts of nonmetallic material which have been removed from
the apparatus. When the glow-wire test is carried
out, the parts shall be placed in the same
orientation as they would be in normal use.
These tests are not carried out on internal wiring.
4.7.201.2 Testing of non-metallic materials
Parts of non-metallic material shall be subject to
the glow-wire test of AS/NZS 60695.2.11 which
shall be carried out at 550°C.
- Page 3 of 8 -
Report No. 139234
All materials have suitable flame
class, no testing required.
P
IEC 60950-1 (ed.1)
www.nemko.com
4.7.201
- Page 4 of 8 -
Report No. 139234
Parts for which the glow-wire test cannot be
All materials have suitable flame
carried out, such as those made of soft or foamy class, no testing required.
material, shall meet the requirements specified in
ISO 9772 for category FH-3 material. The glowwire test shall not be carried out on parts of
material classified at least FH-3 according to ISO
9772 provided that the sample tested was not
thicker than the relevant part.
4.7.201.3 Testing of insulating materials
Parts of insulating material supporting
POTENTIAL IGNITION SOURCES shall be
subject to the glow-wire test of AS/NZS
60695.2.11 which shall be carried out at 750°C.
The test shall also be carried out on other parts of
insulating material which are within a distance of 3
mm of the connection.
NOTE: Contacts in components such as switch
contacts are considered to be connections.
For parts which withstand the glow-wire test but
produce a flame, other parts above the
connection within the envelope of a vertical
cylinder having a diameter of 20 mm and a height
of 50 mm shall be subjected to the needle-flame
test. However, parts shielded by a barrier which
meets the needle-flame test shall not be tested.
The needle-flame test shall be made in
accordance with AS/NZS 4695.2.2 with the
following modifications:
P
IEC 60950-1 (ed.1)
www.nemko.com
4.7.201
The needle-flame test shall not be carried out on
parts of material classified as V-0 or V-1
according to IEC 60695-11-10, provided that the
sample tested was not thicker than the relevant
part.
4.7.201.4 Testing in the event of nonextinguishing material
If the parts, other than enclosures, do not
withstand the glow-wire tests of 4.7.201.3, by
failure to extinguish within 30 s after the removal
of the glow-wire tip, the needle-flame test detailed
in 4.7.201.3 shall be made on all parts of nonmetallic material which are within a distance of 50
mm or which are likely to be impinged upon by
flame during tests of 4.7.201.3. Parts shielded by
a separate barrier which meets the needle-flame
test need not be tested.
NOTE 1: If the enclosure does not withstand the glowwire test the equipment is considered to have failed to
meet the requirements of Clause 4.7.201 without the
need for consequential testing.
NOTE 2: If other parts do not withstand the glow-wire
test due to ignition of the tissue paper and if this
indicates that burning or glowing particles can fall onto
an external surface underneath the equipment, the
equipment is considered to have failed to meet the
requirements of Clause 4.7.201 without the need for
consequential testing.
NOTE 3: Parts likely to be impinged upon by the flame
are considered to be those within the envelope of a
vertical cylinder having a radius of 10 mm and a height
equal to the height of the flame, positioned above the
point of the material supporting, in contact with, or in
close proximity to, connections.
- Page 5 of 8 -
Report No. 139234
All materials have suitable flame
class, no testing required.
P
- Page 6 of 8 -
IEC 60950-1 (ed.1)
www.nemko.com
4.7.201
4.7.201.5 Testing of printed boards
The base material of printed boards shall be
subjected to the needle-flame test of Clause
4.7.201.3. The flame shall be applied to the edge
of the board where the heat sink effect is lowest
when the board is positioned as in normal use.
The flame shall not be applied to an edge,
consisting of broken perforations, unless the edge
is less than 3 mm from a POTENTIAL IGNITION
SOURCE.
Report No. 139234
All materials have suitable flame
class, no testing required.
P
No TNV circuits in the
equipment.
N
The test is not carried out if the
- Printed board does not carry any POTENTIAL
IGNITION SOURCE;
- Base material of printed boards, on which the
available apparent power at a connection exceeds
15 VA operating at a voltage exceeding 50 V and
equal or less than 400 V (peak) a.c. or d.c. under
normal operating conditions, is of flammability
category FV-1 or better according to AS/NZS
4695.707, or the printed boards are protected by
an enclosure meeting the flammability category
FV-0 according to AS/NZS 4695.707, or made of
metal, having openings only for connecting wires
which fill the openings completely; or
- Base material of printed boards, on which the
available apparent power at a connection exceeds
15 VA operating at a voltage exceeding 400 V
(peak) a.c. or d.c. under normal operating
conditions, and base material of printed boards
supporting spark gaps which provides protection
against overvoltages, is of flammability category
FV-0 according to AS/NZS 4695.707 or the
printed boards are contained in a metal enclosure,
having openings only for connecting wires which
fill the openings completely.
Compliance shall be determined using the
smallest thickness of the material.
NOTE: Available apparent power is the maximum
apparent power which can be drawn from the supplying
circuit through a resistive load whose value is chosen to
maximise the apparent power from more than 2 min
when the circuit supplied is disconnected.
6.2.2
Add the symbol [NZ] in the right hand margin
beside the first paragraph.
Add the following after the first paragraph:
In Australia (this variation does not apply in New
Zealand), compliance with 6.2.2 shall be checked
by the tests of both 6.2.2.1 and 6.2.2.2.
Delete the Note.
- Page 7 of 8 -
IEC 60950-1 (ed.1)
www.nemko.com
6.2.2.1
Add the symbol [NZ] in the right hand margin
beside the first paragraph including Note 1.
Report No. 139234
No TNV circuits in the
equipment.
N
No TNV circuits in the
equipment.
N
Considered.
P
Delete the Note 2.
Add the following after the first paragraph:
In Australia (this variation does not apply in New
Zealand), the electrical separation is subjected to
10 impulses of alternating polarity, using the
impulse test generator of annex N for 10/700µs
impulses. The interval between successive
impulses is 60 s and the initial voltage, Uc, is:
- for 6.2.1 a): 7.0 kV for hand-held telephones
and for headsets and 2.5 kV for other equipment;
and
- for 6.2.1 b) and 6.2.1 c): 1.5 kV.
NOTE 201: The 7 kV impulse simulates lightning
surges on typical rural and semi-rural network lines.
NOTE 202: The 2.5 kV for 6.2.1 a) was chosen to
ensure adequacy of the insulation concerned and does
not necessarily simulate likely overvoltages.
6.2.2.2
Add the symbol [NZ] in the right hand margin
beside the second paragraph.
Delete the Note.
Add the following after the second paragraph:
In Australia (this variation does not apply in New
Zealand), the a.c. test voltage is:
- for 6.2.1 a): 3 kV; and
- for 6.2.1 b) and 6.2.1 c): 1.5 kV.
NOTE 201: Where there are capacitors across the
insulation under test, it is recommended that d.c. test
voltages are used.
NOTE 202: The 3 kV and 1.5 kV values have been
determined considering the low frequency induced
voltages from the power supply distribution system.
Annex P
Add the following Normative References to
Annex P:
IEC 60065, Audio, Video and similar electronic
apparatus – Safety requirements.
AS/NZS 3191, Approval and test specification –
Electric flexible cords.
AS/NZS 3112, Approval and test specification –
Plugs and socket-outlets.
AS/NZS 4695.707, Fire hazard testing of
electrotechnical products – Methods of test for
the determination of the flammability of solid
electrical insulating materials when exposed to
an igniting source.
- Page 8 of 8 -
IEC 60950-1 (ed.1)
www.nemko.com
Index
Between the entries ‘polyimide insulating
material’ and ‘powder’ insert the following:
POTENTIAL IGNITION SOURCE 1.12.201,
4.7.201.3, 4.7.201.5
Report No. 139234
Considered.
P
- Page 1 of 3 -
IEC 60950-1 (ed.1)
Report No. 139234
www.nemko.com
ATTACHMENT: SINGAPORE DIFFERENCES
to IEC 60950-1 (ed.1)
No
Item
Requirement
Result - Remark
Verdict
The following is the national differences in accordance with safety authority website
www.safety.org.sg/ , ref. Singapore Consumer Protection (Safety Requirements) - Information
booklet - chapter 7 (page 23 - 26). Based on information by Singapore NCB – PSB Corp.
7 SAFETY AUTHORITY’S REQUIREMENTS
The Safety Authority monitors the safety of the controlled goods sold in Singapore by
investigating all complaints, incidents and accidents reported to the authority. Experiences
gained are translated into the Safety Authority’s Requirements. These requirements are to be
fulfilled in addition to the applicable safety standards.
Applicable to all electrical products
2
All appliances
All appliances must be tested to 230
VAC.
Tested within the
range 100-240V
P
3
Voltage selector
(voltage mismatch test)
Appliance fitted with voltage selector
shall be tested as follows:
No such component.
N
4
Tropical
condition test
All appliances (with tropical test
requirements in applicable Standards)
shall comply with the tropical condition
test as stated in the relevant IEC
Standards.
Test performed, see
main test report.
P
5
Class I
appliances
All Class I appliances must be fitted with
3-pin mains plugs complied with SS
145/SS 472 that are registered with the
Safety Authority.
Refer to Summary Of
Testing in main test
report.
N
a) All Class II appliances must be fitted
with 2-pin mains plug (Appendix W)
complied with IEC 83: 1975 (Standard
C5, Version II) or EN 50075: 1991.
Class I equipment.
N
Rating is <3kW
N
(3-pin mains
plug)
6
Class II
appliances
(mains plug)
Connect appliance to 230 VAC mains
with voltage selector switch to settings
not suitable for operation at 230 VAC.
b) Class II appliances that are fitted with
3-pin mains plugs must use plugs that
are complied with SS 145 and
registered with the Safety Authority.
7
Appliances rated
≥ 3 kW or
connected to
fixed wiring
Electric appliance ≥ 3 kW must be
connected to fixed wiring. All connection
to fixed wiring must be in accordance
with Code of Practice CP5.
- Page 2 of 3 -
IEC 60950-1 (ed.1)
Report No. 139234
www.nemko.com
No
Item
Requirement
Result - Remark
Verdict
8
Detachable power
cord set (consists
of mains plug,
mains cord and
appliance
connector)
Detachable power cord set must be
listed in the test report critical
component list.
Refer to Summary Of
Testing in main test
report.
N
9
Circuit diagrams
Circuit diagrams must be indicated
with
component’s
values
for
products tested to IEC 60065 and
IEC 60950.
Must be considered
when marketing in
Singapore.
—
10
Circuit diagrams of
electronic modules
in electrical
appliances
Circuit diagrams of the electronic
modules in the electrical appliances
must be provided.
Must be considered
when marketing in
Singapore.
—
11
Controlled goods
likely to be treated
as toy by children
Controlled
goods,
having
an
enclosure, which is shaped and
decorated so that it is likely to be
treated as a toy by children, shall
not be accepted for certification and
registration.
The shape and
function are not
considered as toy.
N
Applicable to AC adaptor
13
3-pin AC adaptor
Test report showing that the 3-pin
complied with sub-clauses 12.1 &
12.3 of SS 246 must be submitted.
This is Switching
Power Supply for
building-in.
N
14
2-pin AC adaptor
The 2-pin (Appendix W) shall
comply with IEC 83: 1975 (Standard
C5, Version II) or EN 50075.
This is Switching
Power Supply for
building-in.
N
15
Detachable power
supply cord set not
supplied by
Registered
Supplier
Registered Supplier who is not
supplying the detachable power
supply cord set together with the AC
Adaptor must provide written
instruction to its customer on the
type of approved detachable power
cord set to use.
This is Switching
Power Supply for
building-in.
N
Applicable to computer products
16
CD/DVD ROM
(used in personal
computer)
Test
certificate
showing
that
CD/DVD ROM has complied with
IEC 825 must be provided.
Not used.
N
17
Modem Card (used
in personal
computer)
Modem card incorporated in the
personal computer must be tested
at set level (sub-clauses 5.1 & 6 of
IEC 60950) or at component level.
Not used.
N
- Page 3 of 3 -
IEC 60950-1 (ed.1)
Report No. 139234
www.nemko.com
Applicable to plasma/LCD display monitor
35
Plasma/LCD
display monitor
with TV tuner
Plasma/LCD display monitor tested
to IEC 60950 would require
additional test to clauses 9 (related
to antenna only), 10.1, 10.2, 10.3
and 12.5 of IEC 60065.
No TV tuner provided.
N
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