APPLICATION FOR LOW VOLTAGE DIRECTIVE On Behalf of

APPLICATION FOR LOW VOLTAGE DIRECTIVE
On Behalf of
Shenzhen New Huayi Instrument Co., Ltd
Digital Clamp Meter
Model No.: MS2008A, MS2008B, MS2108, MS2108A
Prepared for :
Shenzhen New Huayi Instrument Co., Ltd
Address:
West Wing, 9/F., Block 3, Saige Science and Technology Industrial
Garden, Hua Qiang Bei Rd. Shenzhen
Prepared By :
Shenzhen Certification Technology Service Co., Ltd.
Address:
2F, Building B, East Area of Nanchang Second Industrial Zone,
Gushu 2nd Road, Bao'an District, Shenzhen 518126, P.R. China
Date of Test:
May 23-27, 2013
Date of Report:
May 28-29, 2013
Report Number:
STS130523255
Version Number:
REV0
TEST REPORT
IEC 61010-1 / EN 61010-1
Safety requirements for electrical equipment for measurement,
control, and laboratory use
Part 1: General requirements
Report Reference No..................... :
STS130523255
Tested by (name + signature) ..........:
Jonson Cai
......................................................
Supervised by (name + signature) ...:
Noman Lee
......................................................
Approved by (name + signature) ......:
Jack Xu
......................................................
Date of issue.....................................:
May 29, 2013
Testing Laboratory.................... :
Shenzhen Certification Technology Service Co., Ltd.
Address ............................................:
2F, Building B, East Area of Nanchang Second Industrial Zone,
Gushu 2nd Road, Bao'an District, Shenzhen 518126, P.R. China
Testing location/procedure ...............:
TL
Address ............................................:
Same as above
Applicant’s name ...................... :
Shenzhen New Huayi Instrument Co., Ltd
Address ............................................:
West Wing, 9/F., Block 3, Saige Science and Technology Industrial
Garden, Hua Qiang Bei Rd. Shenzhen
RMT
SMT
WMT
TMP
Test specification:
Standard ...........................................:
IEC 61010-1:2010
EN 61010-1: 2010
Test procedure .................................:
CE-LVD
Non-standard test method................:
N.A.
Test Report Form No......................:
IEC/EN 61010_1F
TRF Originator..................................:
VDE Testing and Certification Institute
Master TRF.......................................:
2011-03
Copyright © 2011 Worldwide System for Conformity Testing and Certification of Electrotechnical
Equipment and Components (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.
Test item description .....................:
Digital Clamp Meter
Trademark ........................................:
HYelec
Model/Type reference ........................:
MS2008A, MS2008B, MS2108, MS2108A
Model difference .................................:
See below general information
Manufacturer.......................................:
Shenzhen New Huayi Instrument Co., Ltd
Address...............................................:
West Wing, 9/F., Block 3, Saige Science and Technology Industrial
Garden, Hua Qiang Bei Rd. Shenzhen
Rating(s) ...........................................:
Power supply 1.5Vdc X 3 AAA battery
CAT III 600 V, max. 600A
TRF No. IEC61010_1F
TRF originator: VDE
Page 2 of 77
Report No. STS130523255
Test item particulars ..................................................:
Type of item tested .................................................... : Measurement equipment
Description of equipment function .............................: The clamp meter is a digital clamp AC current meter
integrated with voltage measurement, resistance
measurement, diode test and audible continuity. DC
current measurement, inrush current , capacitance
and temperature measurement are specific functions
for certain model.
Measurement (installation) category..........................: CAT III 600V
Pollution degree............................................................: Pollution degree 2
Protection class..........................................................: Class II
Environmental rating..................................................: Temperature: 0°C - 40°C
Equipment mobility ....................................................: Portable or hand-held
Connection to mains supply ......................................: No (battery powered)
Operating conditions..................................................:
Overall size of the equipment (W x D x H)................:
Mass of the equipment (kg)......................................:
Marked degree of protection to IEC 60529 ...............:
Continuous
250mm×99mm×43mm(mian part)
0.340
N/A
Accessories and detachable parts included in the
N/A
evaluation ..................................................................:
Options ......................................................................: No
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 ........................................... : May 23, 2013
Date (s) of performance of tests................................... : May 23-05, 2013
General remarks:
This report shall not be reproduced, except in full, without the written approval of the issuing testing laboratory.
The test results presented in this report relate only to the item(s) tested.
"(see remark #)" refers to a remark appended to the report.
"(see Annex #)" refers to an annex appended to the report.
"(see Form A.#)" refers to a table appended to the report.
Throughout this report a comma (point) is used as the decimal separator.
General product information:
Series models MS2008A, MS2008B, MS2108 and MS2108A are identical in most internal configuration, the
model difference is electrical measurement function and range as bellow:
MS2008A Measure function: DC/AC voltage, AC current, resistance, continuity, diode.
MS2008B Measure function: DC/AC voltage, AC current, resistance, continuity, diode, temperature.
MS2108 Measure function: DC/AC voltage, DC/AC current, resistance, capacitance, diode, continuity
MS2108 Measure function: DC/AC voltage, DC/AC current, resistance, capacitance, diode, continuity,
inrush current
TRF No. IEC61010_1F
TRF originator: VDE
Page 3 of 77
Report No. STS130523255
Copy of marking plate:
1) Marking label for model MS2008A
Digital Clamp Meter
Model No.: MS2008A
Power supply: 1.5Vdc X 3 AAA battery
CAT III 600 V, max. 600A
Shenzhen New Huayi Instrument Co., Ltd
Made In China
2) Below warning statement and symbol were molded on appliance
TRF No. IEC61010_1F
TRF originator: VDE
Page 4 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Verdict
P
TABLE : 1 - Documents attached to this report
Document No.
Document description
Page Numbers
Appendix 2
Photo documentation
68-77
P
TABLE: 2 - Test equipment list
Item
Manufacturer
Equipment
-
-
Model No.
Calibration date
1
Last
Comments
Due
*Note: Appendix 1 (Page 66-67)
1) or interval between calibrations.
P
TABLE: 3 – List of components and circuits relied on for safety
Unique component
reference or location
Manufacturer
Part number
(NOTE 1)
RATING
(NOTE 2)
(including drawing reference
if required)
Evidence
of acceptance
(NOTE 3)
Enclosure,
clamp enclosure,
battery cover,
terminal holder,
rotatable probe
socket,
function switch knob
Chi Mei Corporation
PA-765A(+)
V-0, 85 ℃, ABS, CTI >
400 V
UL E56070
and tested
with
appliance
PCB
MEIZHOU KEJIE
INTEGRATED
CIRCUIT CO LTD
Bayer Thai Co. Ltd.
In Taiwan
KJ-2
94V-0, 130 ℃
PC-110+
V-0, thickness min 1.5
CTI II
Toshiba Silicone Co.
Ltd. In Japan
TSE221-4U
HB
UL
ZPMV2,E255
694
UL ZPMV2
and Tested
in appliance
Tested in
appliance
Shenzhen Weilin
Electronics Co. Ltd.
Symbio Inc.
WMZ12A
0.250A, 1.5W
--
130 o C, single layer
dielectric: 3320 Vrms /
60 s
Lens (PC)
Function Selecting
Rubber
Keypad (silicone
rubber)
PTC
Insulating tape
On winding surface
of jaw
NOTE 1 - List all manufacturers concerned.
NOTE 2 - Electrical, mechanical, flammability, etc.
NOTE 3 - Licence number, file number or other documentary evidence of acceptance
TRF No. IEC61010_1F
Tested in
appliance
UL and
Tested in
appliance
Page 5 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
4.4
Testing in SINGLE FAULT CONDITIONS
4.4.1
Fault tests
4.4.2
Application of SINGLE FAULT CONDITIONS
4.4.2.1
SINGLE FAULT CONDITIONS not
Result - Remark
P
(see Form A.1 and A.2)
covered by 4.4.2.1 to
Verdict
P
P
(see Form A.1 and A.2)
—
4.4.2.14
4.4.2.2
PROTECTIVE IMPEDANCE
N
4.4.2.3
PROTECTIVE CONDUCTOR
N
4.4.2.4
Equipment or parts for short-term or intermittent
operation
N
4.4.2.5
Motors
N
4.4.2.6
Capacitors
N
4.4.2.7
MAINS transformers
N
4.4.2.7.2
Short circuit
N
4.4.2.7.3
Overload
N
4.4.2.8
Outputs
N
4.4.2.9
Equipment for more than one supply
N
4.4.2.10
Cooling
N
4.4.2.11
Heating devices
N
4.4.2.12
Insulation between circuits and parts
N
4.4.2.13
Interlocks
N
4.4.2.14
Voltage selectors
N
4.4.3
Duration of tests
(see Form A.1 and A.2)
P
4.4.4
Conformity after application of fault conditions
(see Form A.1; A.2; A.8, A.14)
P
5
MARKING AND DOCUMENTATION
P
5.1.1
General
P
Required equipment markings are:
—
visible:
P
From the exterior; or
P
After removing a cover; or
No such parts used
N
Opening a door
Ditto
N
After removal from a rack or panel
Ditto
N
Not put on parts which can be removed by an
operator
Letter symbols (IEC 60027) used
P
See the copy of marking plate
Graphic symbols (IEC 61010-1: Table 1) used
5.1.2
Identification
P
P
See the copy of marking plate
—
Equipment is identified by:
P
a) Manufacturer’s or supplier’s name or trademark HYelec
P
TRF No. IEC61010_1F
Page 6 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
5.1.3
Requirement + Test
Result - Remark
b) Model number, name or other means
MS2008A, MS2008B,
MS2108, MS2108A
P
Manufacturing location identified
Single manufacturing location,
see user’s manual.
N
MAINS supply
Not operated by AC mains
N
Equipment is marked as follows:
Ditto
N
a) Nature of supply:
Battery operated
N
b)
Verdict
1) a.c. RATED MAINS frequency or range of
frequencies.................................................. :
N
2) d.c. with symbol 1
N
RATED supply
voltage(s) or range..................... : Battery operated
N
c) Max. RATED power (W or VA) or input current ... :
N
The marked value not less than 90 % of the
maximum value
N
If more than one voltage range:
N
Separate values marked; or
N
Values differ by less than 20 %
d)
OPERATOR-set
(see Form A.3)
N
N
for different RATED supply
voltages:
Indicates the equipment set voltage
N
Portable equipment indication is visible from the
exterior
N
Changing the setting changes the indication
N
e) Accessory MAINS socket-outlets accepting
standard MAINS plugs are marked:
5.1.4
5.1.5
No socket outlet
N
With the voltage if it is different from the MAINS
supply voltage ................................................... :
N
For use only with specific equipment
N
If not marked for specific equipment it is marked
with:
N
The maximum rated current or power; or
N
Symbol 14 with full details in the documentation
N
Fuses
No fuse used
N
Operator replaceable fuse marking
(see also 5.4.5) ........................................................ :
N
TERMINALS, connections and operating devices
P
Where necessary for safety, indication of purpose
of TERMINALS, connectors, controls and indicators
marked
P
If insufficient space, symbol 14 used
P
Push-buttons and actuators of emergency stop
devices and indicators:
N
used only to indicate a warning of danger or
TRF No. IEC61010_1F
N
Page 7 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
the need for urgent action
N
coloured red
N
coded as specified in IEC 60073
N
Supplementary means of coding provided, if
meaning of colour relates (see IEC 60073):
5.1.5.1
N
to safety of persons; or
N
safety of the environment
N
TERMINALS
N
MAINS supply TERMINAL identified
N
Other TERMINAL marking:
N
N
(symbol 5 used)
a)
FUNCTIONAL EARTH TERMINALS
b)
PROTECTIVE CONDUCTOR TERMINALS:
N
Symbol 6 is placed close to or on the TERMINAL;
or
N
Part of appliance inlet
N
of control circuits (symbol 7 used)
N
d) HAZARDOUS LIVE TERMINALS supplied from the
interior
N
c)
5.1.5.2
Verdict
TERMINALS
Standard MAINS socket outlet; or
N
RATINGS marked; or
N
Symbol 14 used
N
Measuring circuit TERMINALS
P
Unless clear indication that below the limits of 50 V
a.c. or 120 V d.c. to earth:
Required markings are adjacent to TERMINALS;
OR
If insufficient space:
P
--
On the RATING plate or scale plate; or
N
TERMINAL is marked with symbol 14
P
a) For CAT I measurement circuits:
--
RATED voltage ....................................................:
N
Current marked if applicable ..............................:
N
Symbol 14 marked
N
b) For CAT II, CAT III or CAT IV measurement
circuits:
RATED voltage ....................................................:
-CAT III 600 V
P
Current marked if applicable ..............................:
600A
P
Appropriate measurement category marked
(CAT II, CAT III or CAT IV); or ...........................:
No marking required for:
CAT III
P
TERMINALS other than those permanently connected
and not ACCESSIBLE with appropriate information
in installation manual (see 5.4.3)
TRF No. IEC61010_1F
N
N
Page 8 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
5.1.6
For specific connection to other equipment
TERMINALS only, and means for identifying provided
Switches and circuit breakers
5.1.7
Result - Remark
Verdict
N
No switches and circuit
breakers used
N
If disconnecting device, off position clearly marked
N
If push-button used as power supply switch:
N
Symbol 9 and 15 used for on-position
N
Symbol 10 and 16 used for off-position
N
Pair of symbols 9, 15 and 10, 16 close together
N
Equipment protected by DOUBLE INSULATION or
P
REINFORCED INSULATION
Protected throughout (symbol 11 used)
See the copy of marking plate
Only partially protected (symbol 11 not used)
5.1.8
5.2
5.3
Field-wiring TERMINAL boxes
P
N
No terminal boxes used
N
If TERMINAL or ENCLOSURE exceeds 60 °C:
N
Cable temperature RATING marked ....................... :
N
Marking visible before and during connection or
beside TERMINAL
N
Warning markings
P
Visible when ready for NORMAL USE
P
Are near or on applicable parts
P
Symbols and text correct dimensions and colour:
—
a) symbols min 2,75 mm and text 1,5 mm high
and contrasting in colour with background
P
b) symbols and text moulded, stamped or
engraved in material min. 2,0 mm high and
N
0.5 mm depth or raised if not contrasting in
colour
N
If necessary marked with symbol 14
N
Statement to isolate or disconnect if access by
using a tool to HAZARDOUS LIVE parts is permitted
N
Durability of markings
P
The required markings remain clear and legible in
(see Form A.4)
P
NORMAL USE
5.4
Documentation
5.4.1
General
P
Equipment is accompanied by documentation for
Provided in user’s manual.
safety purposes for OPERATOR or RESPONSIBLE BODY
P
Safety documentation for service personnel
authorized by the manufacturer
N
Documentation necessary for safe operation is
provided in printed media or
P
in electronic media if available at any time
N
TRF No. IEC61010_1F
Page 9 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
—
a) intended use
P
b) technical specification
P
c) name and address of manufacturer or supplier
P
See 5.4.2 to 5.4.5
P
e) information to mitigate residual RISK
(see also subclause 17)
P
f)
accessories for safe operation of the equipment
specified
N
g) guidance provided to check correct function of
the equipment, if incorrect reading may cause a
HAZARD from harmful or corrosive substances of
HAZARDOUS live parts
P
h) instructions for lifting and carrying
N
Warning statements and a clear explanation of
warning symbols:
—
Provided in the documentation; or
P
Information is marked on the equipment
N
Equipment ratings
P
Documentation includes:
P
a) Supply voltage or voltage range .......................: Powered by:
3 pieces of 1.5 V AAA battery.
Frequency or frequency range....................... :
DC
P
N
Power or current rating................................... :
N
b) Description of all input and output connections
in accordance to 6.6.1 a)
N
RATING of insulation of external circuits in
accordance to 6.6.1 b)
P
d) Statement of the range of environmental
conditions (see 1.4)
P
e) Degree of protection (IEC 60529)
N
f)
if impact rating less than 5 J:
N
IK code in accordance to IEC 62262 marked or
N
symbol 14 of table 1 marked, with
N
c)
RATED
5.4.3
Verdict
Documentation includes:
d) Information specified in 5.4.2 to 5.4.6
5.4.2
Result - Remark
energy level and test method stated
Equipment installation
N
Hand-held equipment
N
Documentation includes instructions for:
N
a) assembly, location and mounting requirements
N
b) protective earthing
N
c) connections to supply
N
d) permanently connected equipment:
N
1) Supply wiring requirements
TRF No. IEC61010_1F
N
Page 10 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
2) If external switch or circuit-breaker,
requirements and location recommendation
N
e) ventilation requirements
N
f)
N
special services (e. g. air, cooling liquid)
N
g) Instructions relating to sound level
5.4.4
Equipment operation
See below.
P
Instructions for use include:
P
a) identification and description of operating
controls
P
b) positioning for disconnection
N
c) instructions for interconnection
N
d) specification of intermittent operation limits
N
e) explanation of symbols used
P
f)
P
replacement of consumable materials
g) cleaning and decontamination
Use soft dry cloth without any
solvents or water.
P
N
h) Listing of any poisonous or injurious gases and
quantities
5.4.5
Verdict
reduction procedures relating to flammable
liquids (see 9.5)
N
reduction procedures relating burn from
surfaces permitted to exceed limits of 10.1
N
i)
RISK
j)
RISK
Additional precautions for IEC 60950 conforming
equipment in regard to moistures and liquids
N
A statement about protection impairment if used in
a manner not specified by the manufacturer
N
Equipment maintenance
P
Instructions for RESPONSIBLE BODY include:
—
Instructions sufficient in detail permitting safe
maintenance and inspection and continued safety:
P
Instruction against the use of detachable MAINS
supply cord with inadequate rating
N
Specific battery type of user replaceable batteries
Battery type 6F22 mentioned
in the user manual.
P
Any manufacturer specified parts
Test leads
P
Rating and characteristics of fuses
N
Instructions include following subjects permitting safe
servicing and continued safety:
N
a) product specific RISKS may affect service
personnel
N
b) protective measures for these RISKS
N
c) verification of the safe state after repair
N
TRF No. IEC61010_1F
Page 11 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
5.4.6
Integration into systems or effects resulting from
special conditions
N
Aspects described in documentation
N
(see Form A.5)
Verdict
6
PROTECTION AGAINST ELECTRIC SHOCK
P
6.1
General
P
6.1.1
Requirements
—
Protection against electric shock maintained in
and SINGLE FAULT CONDITION
P
NORMAL CONDITION
ACCESSIBLE
parts not HAZARDOUS LIVE
All accessible parts are not
hazards live
Voltage, current, charge or energy below the limits in
and in SINGLE FAULT CONDITION
between:
P
—
NORMAL CONDITION
ACCESSIBLE
6.1.2
parts and earth
P
two ACCESSIBLE parts on same piece of the
equipment within a distance of 1,8 m
N
Conformity is checked by the determination of 6.2
and 6.3 followed by the tests of 6.4 to 6.11
N
Exceptions
N
Following HAZARDOUS LIVE parts may be accessible to
an OPERATOR:
N
a) parts of lamps and lamp sockets after lamp
removal
N
b) parts to be replaced by operator only by the use
of tool and warning marking
N
Those parts not HAZARDOUS LIVE 10 s after
interruption of supply
(see Forms A.6 )
N
Capacitance test if charge is received from internal
capacitor
(see Forms A.6 and A.7)
N
6.2
Determination of accessible parts
(see Form A.6)
P
6.2.1
General
P
Unless obviously determination of accessible parts
as specified in 6.2.2 to 6.2.4
P
Examination
P
- with jointed test finger (as specified B.2)
N
- with rigid test finger (as specified B.1) and a force of
10 N
P
Openings above parts that are HAZARDOUS LIVE
N
- test pin with length of 100 mm and 4 mm in
diameter applied
N
Openings for pre-set controls
N
- test pin with length of 100 mm and 4 mm in
diameter applied
N
6.2.2
6.2.3
6.2.4
TRF No. IEC61010_1F
Page 12 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
6.3
Limit values for ACCESSIBLE parts
6.3.1
Levels in NORMAL CONDITION
6.3.2
Result - Remark
Verdict
P
(see Form A.7)
P
a) Voltage limits less than 33 V r.m.s. and 46,7 V
peak or 70 V d.c.
P
for wet locations voltage limits less than 16 V
r.m.s. and 22,6 V peak or 35 V d.c.
N
Voltages are not HAZARDOUS LIVE the levels of:
—
b) Current less than 0,5 mA r.m.s. for sinusoidal,
0,7 mA peak non sinusoidal or mixed
frequencies or 2 mA d.c. when measured with
measuring circuit A.1 or A.2 if less than 100 Hz
N
for wet locations measuring circuit A.4 used
N
or
N
c) Levels of capacitive charge or energy less:
N
1) 45 µC for voltages up to 15 kV peak or d.c. or
line A of Figure 3
N
2) 350 mJ stored energy for voltages above 15
kV peak or d.c.
N
Levels in SINGLE FAULT CONDITION
(see Form A.7)
P
a) Voltage limits less than 33 V r.m.s. and 46,7 V
peak or 70 V d.c.
P
for wet locations voltage limits less than 16 V
r.m.s. and 22,6 V peak or 35 V d.c.
N
Voltages are not HAZARDOUS LIVE the levels of:
—
b) Current less than 0,5 mA r.m.s. for sinusoidal,
0,7 mA peak non sinusoidal or mixed
frequencies or 2 mA d.c. when measured with
measuring circuit A.1 or A.2 if less than 100 Hz
N
for wet locations measuring circuit A.4 used
N
or
N
c) Levels of capacitive charge or energy less:
N
1) 45 µC for voltages up to 15 kV peak or d.c. or
line A of Figure 3
N
2) 350 mJ stored energy for voltages above 15
kV peak or d.c.
N
6.4
Primary means of protection
P
6.4.1
ACCESSIBLE parts prevented from being HAZARDOUS
LIVE by one or more of following means:
P
a)
ENCLOSURES or PROTECTIVE BARRIERS
b)
BASIC INSULATION
P
(see 6.4.2)
N
(see 6.4.3)
N
c) Impedance (see 6.4.4)
6.4.2
ENCLOSURES or PROTECTIVE BARRIERS
- meet rigidity requirements of 8.1
TRF No. IEC61010_1F
(see Form A.13)
P
P
Page 13 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Verdict
- meet requirements for BASIC INSULATION, if
protection is provided by insulation
N
- meet requirements of 6.7 for CREEPAGE and
CLEARANCES between ACCESSIBLE parts and
HAZARDOUS live parts, if protection is provided
N
by
limited access
6.4.3
BASIC INSULATION
(see Form A.13)
- meet CLEARANCE, CREEPAGE DISTANCE and solid
insulation requirements of 6.7
6.4.4
Impedance
N
(see Form A.12)
Impedance used as primary means of protection
meets all of following requirements:
a) limits current or voltage to level of 6.3.2
b)
RATED for maximum WORKING VOLTAGE and the
amount of power it will dissipate
c)
CLEARANCE, CREEPAGE DISTANCE between
terminations of the impedance meet
requirements of BASIC INSULATION of 6.7
N
N
—
(see Form A.7)
N
N
(see Form A.13)
N
6.5
Additional means of protection in case of SINGLE FAULT CONDITION
P
6.5.1
ACCESSIBLE parts are prevented from becoming
HAZARDOUS live by the primary means of protection
P
and supplemented by one of:
N
(see 6.5.2)
a)
PROTECTIVE BONDING
b)
SUPPLEMENTARY INSULATION
P
(see 6.5.3)
c) automatic disconnection of the supply (see 6.5.5)
N
d) current- or voltage-limiting device (see 6.5.6)
N
Alternatively one of the single means of protection is
used:
N
e)
REINFORCED INSULATION
(see 6.5.3)
P
f)
PROTECTIVE IMPEDANCE
(see 6.5.4)
N
6.5.2
PROTECTIVE BONDING
(see Form A.9, A.10 and A.11)
N
6.5.2.1
ACCESSIBLE conductive parts, may become
HARZARDOUS LIVE in SINGLE FAULT CONDITION:
N
Bonded to the PROTECTIVE CONDUCTOR TERMINAL; or
N
Separated by conductive screen or barrier bonded to
N
PROTECTIVE CONDUCTOR TERMINAL
6.5.2.2
Integrity of PROTECTIVE BONDING
a)
PROTECTIVE BONDING consists of directly
connected structural parts or discrete conductors
or both; and withstands thermal and dynamic
stresses
N
N
b) Soldered connections:
N
Independently secured against loosening
N
Not used for other purposes
N
TRF No. IEC61010_1F
Page 14 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
N
c) Screw connections are secured
d)
PROTECTIVE BONDING not
Verdict
N
interrupted; or
N
exempted as removable part carries MAINS SUPPLY
INPUT connection
e) Any moveable PROTECTIVE BONDING connection
specifically designed, and meets 6.5.2.4
N
f)
N
No external metal braid of cables used
(not regarded as PROTECTIVE BONDING)
g) IF MAINS SUPPLY PASSES THROUGH:
N
Means provided for passing protective conductor;
N
Impedance meets 6.5.2.4
N
h) Protective conductors bare or insulated,
if insulated, green/yellow
N
Exceptions:
N
1) earthing braids;
N
2) internal protective conductors etc.;
N
Green/yellow not used for other purposes
N
TERMINAL suitable for connection
CONDUCTOR, and meets 6.5.2.3
6.5.2.3
N
of a PROTECTIVE
PROTECTIVE CONDUCTOR TERMINAL
N
a) Contact surfaces are metal
N
b) Appliance inlet used
N
c) For rewirable cords and PERMANENTLY
CONNECTED EQUIPMENT, PROTECTIVE CONDUCTOR
TERMINAL is close to MAINS supply TERMINALS
N
d) If no MAINS supply is required, any PROTECTIVE
CONDUCTOR TERMINAL:
N
Is near terminals of circuit for which protective
earthing is necessary
N
External if other terminals external
N
e) Equivalent current-carrying capacity to MAINS
supply TERMINALS
(see Form A.9)
N
If plug-in, makes first and breaks last
N
g) If also used for other bonding purposes,
protective conductor:
N
f)
Applied first;
N
Secured independently;
N
Unlikely to be removed by servicing
N
h) PROTECTIVE CONDUCTOR of measuring circuit:
1) Current RATING equivalent to measuring
circuit TERMINAL;
2)
PROTECTIVE BONDING:
TRF No. IEC61010_1F
N
N
N
Page 15 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Not interrupted; or
i)
FUNCTIONAL EARTH TERMINALS allow
Verdict
N
N
independent
connection
j)
N
If a binding screw used for PROTECTIVE
CONDUCTOR TERMINAL:
Suitable size for bond wire
N
Not smaller than M 4 (No. 6)
N
At least 3 turns of screw engaged
N
Passes tightening torque test
(see Form A.9)
N
k) Contact pressure not capable being reduced by
deformation of materials
6.5.2.4
Impedance of PROTECTIVE BONDING of plugconnected equipment
(see Form A.10)
Impedance between PROTECTIVE CONDUCTOR
TERMINAL and each ACCESSIBLE part where
PROTECTIVE BONDING is specified, is:
6.5.2.5
N
N
—
less than 0,1 Ohm; or
N
less than 0,2 Ohm if equipment is provided with
non detachable cord
N
Bonding impedance of PERMANENTLY CONNECTED
(see Form A.10)
N
(see Form A.11)
N
EQUIPMENT
6.5.2.6
Transformer PROTECTIVE BONDING screen
Transformer provided with screen for protective
bonding:
6.5.3
6.5.4
N
screen bonding consists of directly connected
structural parts or discrete conductors or both;
and withstands thermal and dynamic stresses
(see 6.5.2.2 a )
N
screen bonding with soldered connection (see
6.5.2.2 b ) is:
N
- Independently secured against loosening
N
- Not used for other purposes
N
SUPPLEMENTARY and REINFORCED INSULATION
N
- meet CLEARANCE, CREEPAGE DISTANCE and solid
insulation requirements of 6.7
P
PROTECTIVE IMPEDANCE
(see Form A.12)
N
Limits current or voltage to level of 6.3.1 in NORMAL
and to level of 6.3.2 in SINGLE FAULT CONDITION
CLEARANCE, CREEPAGE DISTANCE
between
terminations of the impedance meet requirements of
DOUBLE or REINFORCED INSULATION of 6.7
N
(see Form A.13)
N
The protective impedance consists of one or more of (see Table 3 and Form A.12)
the following:
—
a) appropriate single component suitable for safety
and reliability for protection, it is:
N
TRF No. IEC61010_1F
Page 16 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Verdict
1) RATED twice the maximum WORKING VOLTAGE
N
2) resistor RATED for twice the power dissipation
for maximum WORKING VOLTAGE
N
b) combination of components
N
Single electronic device not used as PROTECTIVE
N
IMPEDANCE
6.5.5
6.5.6
Automatic disconnection of the supply
N
a)
RATED to disconnect the load within time
specified in Figure 2
N
b)
RATED for the maximum load conditions of the
equipment
N
Current- or voltage limiting devices
(see Form A.12)
Device complies with all of:
a)
RATED to limit the current or voltage to the level
of 6.3.2
b)
RATED
N
(see Form A.8)
CLEARANCE, CREEPAGE DISTANCE between
terminations of the impedance meet
requirements of SUPPLEMENTARY INSULATION of
6.7
N
N
for the maximum working voltage; and
RATED for the maximum operational current if
applicable
c)
N
N
(see Form A.13)
N
6.6
Connections to external circuits
P
6.6.1
Connections do not cause ACCESSIBLE parts of the
following to become HAZARDOUS LIVE in NORMAL
CONDITION or SINGLE FAULT CONDITION:
P
P
- the equipment
P
Protection achieved by separation of circuits; or
N
short circuit of separation does not cause a HAZARD
P
Instructions or markings for each terminal include:
N
a)
6.6.2
- the external circuits
RATED conditions
b) Required RATING of external circuit INSULATION
N
TERMINALS for external circuits
P
TERMINALS which receive a charge from an internal
capacitor are not HAZARDOUS LIVE after 10 s of
interrupting supply connection
6.6.3
P
for TERMINAL
(see Form A.7)
N
Circuits with terminals which are HAZARDOUS LIVE
N
These circuits are:
N
Not connected to ACCESSIBLE conductive parts; or
N
Connected to ACCESSIBLE conductive parts, but are
not MAINS circuits and have one TERMINAL contact at
earth potential
N
TRF No. IEC61010_1F
Page 17 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
6.6.4
Requirement + Test
Result - Remark
Verdict
No ACCESSIBLE conductive parts are HAZARDOUS LIVE
N
ACCESSIBLE terminals for stranded conductors
N
No RISK of accidental contact because:
N
Located or shielded
N
Self-evident or marked whether or not connected
to ACCESSIBLE conductive parts
N
ACCESSIBLE TERMINALS will not work loose
N
6.7
Insulation requirements
6.7.1
The nature of insulation
P
6.7.1.1
Insulation between ACCESSIBLE parts or between
separate circuits consist of CLEARANCES, CREEPAGE
DISTANCES and solid insulation if provided as
protection against a HAZARD
P
6.7.1.2
CLEARANCES
P
Required CLEARANCES reflecting factors of 6.7.1.1
6.7.1.3
6.7.1.5
(see Form A.5)
P
P
Equipment rated for operating altitude greater than
2000 m correction factor of Table 3 of 61010-1
applied
P
CREEPAGE DISTANCES
P
Required CLEARANCES reflecting factors of 6.7.1.1
6.7.1.4
see Form A.5
(see Form A.5)
P
CTI material group reflected by requirements
P
CTI test performed
P
Solid insulation
N
Required CLEARANCES reflecting factors of 6.7.1.1
(see Form A.5)
N
Requirements for insulation according to type of
circuit
(see Form A.5)
N
a) 6.7.2 MAINS circuits of OVERVOLTAGE CATEGORY II
up to nominal supply voltage of 300 V
N
b) 6.7.3 Secondary circuits separated from circuits
defined in a) by transformer
N
c) K.1 MAINS circuits of OVERVOLTAGE CATEGORY III
and IV or OVERVOLTAGE CATEGORY II over 300 V
N
d) K.2 Secondary circuits separated from circuits
defined in a) by transformer
N
e) K.3 Circuits having one or more of:
N
1) maximum TRANSIENT OVERVOLTAGE is limited to
known level below the level of MAINS CIRCUIT
N
2) maximum TRANSIENT OVERVOLTAGE above the
level of MAINS CIRCUIT
N
3) WORKING VOLTAGE is the sum of more than
one circuit or a mixed voltage
N
4) WORKING VOLTAGE includes recurring peak
voltage, may include non-sinusoidal or nonperiodic waveform
N
TRF No. IEC61010_1F
Page 18 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
5) WORKING VOLTAGE with a frequency above
30 kHz
6.7.2
Verdict
N
Insulation for MAINS CIRCUITS of OVERVOLTAGE
II with a nominal supply voltage up to
300 V
N
CATEGORY
6.7.2.1
CLEARANCES and CREEPAGE DISTANCES
(see Form A.13)
N
Values for MAINS CIRCUITS of table 4 are met
N
Coatings to achieve reduction to POLLUTION DEGREE I
comply with requirements of Annex H
N
6.7.2.2
Solid insulation
N
6.7.2.2.1
Withstands electrical and mechanical stresses in
normal use and all RATED environmental conditions
of 1.4
N
Equipment passed voltage tests of 6.8.3 with values
of Table 5
Complies as applicable:
a)
6.7.2.2.2
6.7.2.2.3
ENCLOSURE or PROTECTIVE BARRIER Clause 8
(see Form A.14)
N
N
N
b) moulded and potted parts requirements of
6.7.2.2.2
N
c) inner layers of printed wiring boards
requirements of 6.7.2.2.3
N
d) thin-film insulation requirements of 6.7.2.2.4
N
Moulded and potted parts
N
Conductors between same two layers are separated
by at least 0,4 mm after moulding is completed
N
Inner insulation layers of printed wiring boards
N
Separated by at least 0,4 mm between same two
layers
N
REINFORCED INSULATION have adequate electric
strength; one of following methods used:
N
a) thickness at least 0,4 mm
N
b) insulation is assembled of minimum two
separate layers, each RATED for test voltage of
Table 5 for BASIC INSULATION
N
c) insulation is assembled of minimum two
separate layers, where the combination is rated
for test voltage of Table 5 for REINFORCED
N
INSULATION
6.7.2.2.4
Thin-film insulation
N
Conductors between same two layers are separated
by applicable CLEARANCES and CREEPAGE DISTANCES
N
REINFORCED INSULATION have adequate electric
strength; one of following methods used:
N
a) thickness at least 0,4 mm
N
TRF No. IEC61010_1F
Page 19 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Verdict
N
b) insulation is assembled of min two separate
layers, each RATED for test voltage of Table 5 for
BASIC INSULATION
(see Form A.14)
c) insulation is assembled of min three separate
layers, where the combination of two layers
passed voltage tests of 6.8.3 with values of Table
5 for REINFORCED INSULATION
N
6.7.3
Insulation for secondary circuits derived from MAINS
of OVERVOLTAGE CATEGORY II up to 300 V
N
6.7.3.1
Secondary circuits where separation from MAINS
CIRCUITS is achieved by a transformer providing:
—
- REINFORCED INSULATION
N
- DOUBLE INSULATION
N
- screen connected to the PROTECTIVE CONDUCTOR
N
TERMINAL
6.7.3.2
CLEARANCES
N
a) meet the values of Table 6 for BASIC INSULATION
and SUPPLEMENTARY INSULATION; or
N
N
twice the values of Table 6 for REINFORCED
INSULATION
or
—
b) pass the voltage tests of 6.8 with values of
Table 6; with following adjustments:
(see Form A.14)
N
1) values for REINFORCED INSULATION are 1,6
times the values for BASIC INSULATION
N
2) if operating altitude is greater than 2000 m
values of CLEARANCES multiplied with factor of
Table 3
N
3) minimum CLEARANCE is 0,2 mm for POLLUTION
2 and 0,8 mm for POLLUTION DEGREE 3
N
DEGREE
6.7.3.3
CREEPAGE DISTANCES
N
Based on WORKING VOLTAGE meets the values of
Table 7 for BASIC and SUPPLEMENTARY INSULATION
N
Values for REINFORCED INSULATION are twice the
values of BASIC INSULATION
N
Coatings to achieve reduction to POLLUTION DEGREE I
comply with requirements of Annex H
N
6.7.3.4
Solid insulation
N
6.7.3.4.1
Withstands electrical and mechanical stresses in
normal use and all RATED environmental conditions
of 1.4
N
a) Equipment passed voltage test of 6.8.3.1 for 5 s
with VALUES of Table 6 for BASIC and
(see Form A.14)
N
SUPPLEMENTARY INSULATION
values for REINFORCED INSULATION are 1,6 times
the values of BASIC INSULATION
TRF No. IEC61010_1F
N
Page 20 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Verdict
b) if WORKING VOLTAGE exceeds 300 V, equipment
passed voltage test of 6.8.3.1 for 1 min with a
test voltage of 1,5 times working voltage for
BASIC or SUPPLEMENTARY INSULATION
(see Form A.14)
N
value for REINFORCED INSULATION
WORKING VOLTAGE
6.7.3.4.2
6.7.3.4.3
6.7.3.4.4
N
are twice the
Complies as applicable:
N
1) ENCLOSURE or protective barrier Clause 8
N
2) moulded and potted parts requirements of
6.7.3.4.2
N
3) inner layers of printed wiring boards
requirements of 6.7.3.4.3
N
4) thin-film insulation requirements of 6.7.3.4.4
N
Moulded and potted parts
N
Conductors between same two layers are separated
by applicable distances of Table 8
N
Inner insulation layers of printed wiring boards
N
Separated by at least by applicable distances of
Table 8 between same two layers
N
REINFORCED INSULATION have adequate electric
strength; one of following methods used:
N
a) thickness at least applicable distance of Table 8
N
b) insulation is assembled of minimum two
separate layers, each RATED for test voltage of
Table 6 for BASIC INSULATION
N
c) insulation is assembled of min two separate
layers, where the combination is rated for 1,6
times the test voltage of Table 6
N
Thin-film insulation
N
Conductors between same two layers are separated
by applicable CLEARANCES and CREEPAGE DISTANCES
N
REINFORCED INSULATION have adequate electric
strength; one of following methods used:
N
a) thickness at least applicable distance of Table 8
N
b) insulation is assembled of min two separate
layers, each RATED for test voltage of Table 6 for
N
BASIC INSULATION
c) insulation is assembled of min three separate
layers, where the combination of two layers
passed voltage tests with 1,6 time values of
Table 6:
6.8
(see Form A.14)
N
a.c. test of 6.8.3.1; or
N
d.c. test of 6.8.3.2 for circuits stressed only by
d.c. voltages
N
Procedure for dielectric strength tests
TRF No. IEC61010_1F
(see Form A.5 and A.14)
P
Page 21 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
6.9
Constructional requirements for protection against
electric shock
P
6.9.1
If a failure could cause a HAZARD:
N
a) Security of wiring connections
N
b) Screws securing removable covers
N
c) Accidental loosening
P
d) CREEPAGE and CLEARANCES not reduced below
the values of basic insulation by loosening
N
Material not to be used for safety relevant insulation:
P
Easily damaged materials not used
P
Non-impregnated hydroscopic materials not used
P
Colour coding
N
Green-and-yellow insulation shall not be used
except:
N
a) protective earth conductors;
N
b) protective bonding conductors;
N
c) potential equilization conductors;
N
d) functional earth conductors
N
6.9.2
6.9.3
Result - Remark
6.10
Connection to MAINS supply source and connections
between parts of equipment
6.10.1
MAINS supply cords
N
RATED for
N
maximum equipment current (see 5.1.3c)
Battery operated, not connect
to the mains
Verdict
N
Cable complies with IEC 60227 or IEC 60245
N
Heat-resistant if likely to contact hot parts
N
Temperature RATING (cord and inlet) ...................... :
N
Green/yellow used only for connection to PROTECTIVE
N
CONDUCTOR TERMINALS
Detachable cords with IEC 60320 MAINS connectors:
—
Conform to IEC 60799; or
N
Have the current RATING of the MAINS connector
N
6.10.2
Fitting of non-detachable MAINS supply cords
N
6.10.2.1
Cord entry
N
Inlet or bushing smoothly rounded; or
N
Insulated cord guard protruding >5D
N
Cord anchorage
N
Protective earth conductor is the last to take the
strain
N
a) Cord is not clamped by direct pressure from a
screw
N
b) Knots are not used
N
6.10.2.2
TRF No. IEC61010_1F
Page 22 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
N
d) No failure of cord insulation in anchorage with
metal parts
N
e) Not to be loosened without a tool
N
N
Cord replacement does not cause a HAZARD and
method of strain relief is clear
Push-pull and or torque test
(see Form A.15)
N
Plugs and connectors
N
MAINS supply plugs, connectors etc., conform with
relevant specifications
N
If equipment supplied at voltages below 6.3.2.a) or
from a sole source:
—
Plugs of supply cords do not fit MAINS sockets above
rated SUPPLY voltage
N
MAINS type plugs used only for connection to MAINS
supply
N
Plug pins which receive a charge from an internal
capacitor
(see Form A.7)
N
Accessory MAINS socket outlets:
—
a) Marking if accepts a standard MAINS plug
(see 5.1.3e)
N
b) Input has a protective earth conductor if outlet
has EARTH TERMINAL CONTACT
N
6.11
Disconnection from supply source
6.11.1
Disconnects all current carrying conductors
6.11.2
Exceptions
6.11.3
Requirements according to type of equipment
6.11.3.1
PERMANENTLY CONNECTED EQUIPMENT and multiphase equipment:
6.11.3.2
Verdict
c) Cannot push the cord into the equipment to
cause a HAZARD
f)
6.10.3
Result - Remark
Battery operated, not connect
to the mains
N
N
Supplied by low energy source
(battery).
P
N
Hand-held equipment
N
Employs switch or circuit-breaker
N
If switch or circuit-breaker is not part of the
equipment, documentation requires:
—
a) Switch or circuit-breaker to be included in
building installation
N
b) Suitable location easily reached
N
c) Marking as disconnecting for the equipment
N
Single-phase cord-connected equipment
N
Equipment is provided with one of the following:
N
a) Switch or circuit-breaker
N
b) Appliance coupler (disconnectable without tool)
N
TRF No. IEC61010_1F
Page 23 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Verdict
c) Separable plug (without locking device)
N
Disconnecting devices
N
Electrically close to the SUPPLY
N
Switches and circuit-breakers
N
When used as disconnection device:
—
Meets IEC 60947-1 and IEC 60947-3
N
Marked to indicate function ..................................... :
N
Not incorporated in MAINS cord
N
Does not interrupt PROTECTIVE EARTH CONDUCTOR
N
Appliance couplers and plugs
N
Where an appliance coupler or separable plug is
used as the disconnecting device (see 6.11.3.2):
N
Readily identifiable and easily reached by the
operator
N
Single-phase portable equipment cord length not
more than 3 m
N
PROTECTIVE EARTH CONDUCTOR connected first and
disconnected last
N
7
PROTECTION AGAINST MECHANICAL
HAZARDS
P
7.1
Equipment does not cause a mechanical HAZARD in
NORMAL nor in SINGLE FAULT CONDITION
P
Conformity is checked by 7.2 to 7.7
P
6.11.4
6.11.4.1
6.11.4.2
7.2
Sharp edges
Smooth and rounded, no
hazards
P
Easily touched parts are smooth and rounded
P
Do not cause injury during NORMAL USE and
P
Do not cause injury during SINGLE FAULT CONDITION
P
7.3
Moving parts
7.3.1
HAZARDS from moving parts limited to a tolerable
level with the conditions specified in 7.3.2 and 7.3.5
N
RISK assessment in accordance with 7.3.3 carried
out
N
Exceptions
N
Access to HAZARDOUS moving parts permitted under
following circumstances:
N
a) obviously intended to operate on parts or
materials outside of the equipment
N
7.3.2
inadvertent touching of moving parts minimized
by equipment design (e .g. guards or handles)
b) If operator access is unavoidable outside normal
use following precautions have been taken:
TRF No. IEC61010_1F
No hazardous moving part
P
N
N
Page 24 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
7.3.3
7.3.4
Requirement + Test
Result - Remark
Verdict
1) Access requires TOOL
N
2 ) Statement about training in the instructions
N
3 ) Warning markings on covers prohibiting
access by untrained operators
N
or symbol 14 with full details in documentation
N
RISK assessment for mechanical HAZARDS to body
parts
N
RISK is reduced to a tolerable level by protective
measures as specified in Table 12
N
Minimum protective measures:
N
A. Low level measures
N
B. Moderate measures
N
C. Stringent measures
N
Limitation of force and pressure
(see Form A.16)
N
Following levels are met in normal and single fault
condition:
N
Continuous contact pressure below 50 N / cm² with
force below 150 N
N
Temporary force below 250 N for an area at least of
3 cm² for a maximum duration of 0,75 s
N
7.3.5
Gap limitations between moving parts
7.3.5.1
Access normally allowed
N
If levels of 7.3.4 exceeded and body part may be
inserted minimum gap as specified in Table 13
assured in NORMAL and in SINGLE FAULT CONDITION
N
Access normally prevented
N
Maximum gap as specified in Table 14 assured in
and in SINGLE FAULT CONDITION
N
7.3.5.2
(see Form A.16)
N
NORMAL
7.4
Stability
Hand-held appliance
N
Equipment not secured to building structure is
physical stable
N
Stability maintained after opening of drawers etc. by
automatic means, or
N
warning marking requires the application of means
N
Compliance checked by following tests as applicable:
—
a) 10° tilt test for other than handheld equipment
N
b) multi-directional force test for equipment
exceeds height of 1 m and mass of 25 kg
N
c) downward force test for floor-standing equipment
N
d) overload test with 4 times maximum load for
castor or support that supports greatest load
N
e) castor or support that supports greatest load
removed from equipment
N
TRF No. IEC61010_1F
Page 25 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
7.5
Provisions for lifting and carrying
N
7.5.1
Equipment more than 18 kg :
—
Has means for lifting or carrying; or
N
Directions in documentation
N
Handles or grips
N
Handles or grips withstand four times weight
N
Lifting devices and supporting parts
N
Rated for maximum load; or
N
tested with four times maximum static load
N
Wall mounting
N
Mounting brackets withstand four times weight
N
Expelled parts
N
Equipment contains or limits the energy
N
Protection not removable without the aid of a tool
N
8
RESISTANCE TO MECHANICAL STRESSES
P
8.1
Equipment does not cause a HAZARD when subjected
to mechanical stresses in NORMAL USE
P
Normal protection level is 5 J
P
Levels below 5 J but not less than 1 J are acceptable
if all of following criteria are met:
N
a) lower level justified by RISK assessment of
manufacturer
N
b) equipment installed in its intended application is
not easily touched
N
c) only occasional access during NORMAL USE
N
d) IK code in accordance to IEC 62262 marked or
symbol 14 used with full information in the
documentation
N
For non-metallic ENCLOSURES rated below 2 °C
ambient temperature value chosen for minimum
rated temperature
N
Impact energies between IK values, the IK code
marked for nearest lower value
N
Conformity is checked by performing following tests:
—
1) static test of 8.2.1
P
2) impact test of 8.2.2 with 5 J except for HAND-
N
7.5.2
7.5.3
7.6
7.7
Result - Remark
Verdict
HELD EQUIPMENT
if impact energy not selected to 5 J alternate
method of IEC 62262 used
N
3) drop test of 8.3.1 or 8.3.2 except for FIXED and
EQUIPMENT with mass over 100 kg
P
TRF No. IEC61010_1F
Page 26 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Verdict
Equipment rated with an impact rating of IK 08 that
obviously meets the criteria
N
After the tests inspection with following results:
—
- HAZARDOUS LIVE
ACCESSIBLE
P
parts above the limits of 6.3.2 not
- insulation pass the voltage tests of 6.8
(see Form A.24)
P
i)
no leaks of corrosive and harmful substances
P
ii)
ENCLOSURE shows
HAZARD
no cracks resulting in a
P
iii)
CLEARANCES
not less than their permitted values
P
iv) insulation of internal wiring remains undamaged
P
not damaged or loosened
N
v)
PROTECTIVE BARRIERS
vi) No moving parts exposed, except permitted by
7.3
N
vii) no damage which could cause spread of fire
P
8.2
ENCLOSURE rigidity test
P
8.2.1
Static test
P
- 30 N with 12 mm rod to each part of ENCLOSURE
P
- in case of doubt test conducted at maximum RATED
ambient temperature
N
Impact test
P
Impact applied to any part of ENCLOSURE causing a
if damaged
P
Impact energy level and corresponding IK code .... :
P
Non-metallic ENCLOSURES cooled to minimum RATED
ambient temperature if below 2 °C
N
8.3
Drop test
P
8.3.1
Other than HAND-HELD and DIRECT-PLUG-IN EQUIPMENT
N
Tests conducted with a drop height or angle of...... :
N
HAND-HELD and DIRECT-PLUG-IN EQUIPMENT
P
Non-metallic ENCLOSURES cooled to minimum RATED
ambient temperature if below 2 °C
P
Drop test conducted with an height of 1 m
P
PROTECTION AGAINST THE SPREAD OF FIRE
P
No spread of fire in NORMAL and SINGLE FAULT
P
8.2.2
HAZARD
8.3.2
9
9.1
CONDITION
MAINS supplied equipment meets requirements of 9.6
additionally
P
Conformity is checked by minimum one or a
combination of the following (see Figure 11):
(see Form A.17)
P
a) Fault test of 4.4; or
(see Form A.1 and Form A.2)
P
TRF No. IEC61010_1F
Page 27 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
9.2
Requirement + Test
Result - Remark
b) Application of 9.2 (eliminating or reducing the
sources of ignition); or
P
c) Application of 9.2 (containment of fire within the
equipment)
P
Eliminating or reducing the sources of ignition within
the equipment
P
a) 1) Limited-energy circuit (see 9.4); or
2) BASIC INSULATION provided for parts of
different potential; or
Bridging the insulation does not cause ignition
Battery is considered limitedenergy circuit
P
(see Form A.5 and A.14)
N
(see Form A.2)
N
N
b) Surface temperature of liquids and parts (see
9.5)
c) No ignition in circuits designed to produce heat
9.3
9.3.1
(see Form A.2)
N
Containment of the fire within the equipment, should
it occur
N
a) Energizing of the equipment is controlled by an
operator held switch
N
b) ENCLOSURE is conform with constructional
requirements of 9.3.1; and
N
Requirements of 9.5 are met
N
Constructional requirements
N
a) Connectors and insulating material have
flammability classification V-2 or better
(see Table: 3 or Form A.18)
N
b) Insulated wires and cables are flame retardant
(VW-1 or equivalent)
(see Table: 3 or Form A.18)
N
c) ENCLOSURE meets following requirements:
(see Form A.17)
N
1) Bottom and sides in arc of 5 ° (see Figure 13) to
non-limited circuits (9.4) meets:
N
i)
no openings; or
N
ii)
perforated as specified in Table 16; or
N
iii)
metal screen with a mesh; or
N
N
iv) baffles as specified in Figure 12
2) Material of ENCLOSURE and any baffle or flame
barrier is made of:
N
Metal (except magnesium); or
Non-metallic materials have flammability
classification V-1 or better
N
(see Table: 3 or Form A.18)
3) ENCLOSURE and any baffle or flame barrier have
adequate rigidity
9.4
Verdict
Limited-energy circuit
N
N
(see Form A.19)
P
a) Potential not more than 30 r.m.s. and 42.4 V
peak, or 60 V dc
P
b) Current limited by one of following means:
P
TRF No. IEC61010_1F
Page 28 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
1) Inherently or by impedance (see Table 17);
or
9.5
Result - Remark
the output of battery is conside
red inherently limited-energy
circuit
Verdict
P
2) Over current protective device (see Table
18); or
N
3) A regulating network limits also in SINGLE
FAULT CONDITION (see Table 17)
N
c) Is separated by at least BASIC INSULATION
N
Fuse or a nonadjustable electromechanical device is
used
N
Requirements for equipment containing or using
flammable liquids
No flammable liquid inside.
N
Flammable liquids contained in or specified for use
with equipment do not cause spread of fire
(see Form A.20)
N
RISK is reduced to a tolerable level :
N
a) The temperature of surface or parts in contact
with flammable liquids is 25 °C below fire point
N
b) The quantity of liquid is limited
N
c) Flames are contained within the equipment
N
N
Detailed instructions for RISK-reduction provided
9.6
Overcurrent protection
9.6.1
MAINS supplied equipment protected
BASIC INSULATION between MAINS parts of opposite
polarity provided
Apparatus not energized by
mains.
N
N
(see Form A.14)
N
Devices not in the protective conductor
N
Fuses or single-pole circuit-breakers not fitted in
neutral (multi-phase)
N
PERMANENTLY CONNECTED EQUIPMENT
N
Overcurrent device:
N
Fitted within the equipment; or
N
Specified in manufacturer's instructions
N
Other equipment
N
Protection within the equipment
N
10
EQUIPMENT TEMPERATURE LIMITS AND
RESISTANCE TO HEAT
P
10.1
Surface temperature limits for protection against
burns
P
9.6.2
9.6.3
Easily touched surfaces within the limits in NORMAL
and in SINGLE FAULT CONDITION:
- at an specified ambient temperature of 40 °C
TRF No. IEC61010_1F
(see Form A.21A)
P
P
Page 29 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
10.2
Requirement + Test
Verdict
- for equipment rated above 40 °C ambient
temperature limits not exceeded raised by the
difference to 40 °C
N
Heated surfaces necessary for functional reasons
exceeding specified values:
N
Are recognizable as such by appearance or
function; or
N
Are marked with symbol 13
N
Guards are not removable without tool
N
Temperatures of windings
Limits not exceeded in:
10.3
Result - Remark
N
(see Form A.21B)
N
NORMAL CONDITION
N
SINGLE FAULT CONDITION
N
Other temperature measurements
P
Following measurements conducted if applicable:
(see Form A.21A)
P
a) Value of 60 °C of field-wiring terminal box not
exceeded
N
b) Surface of flammable liquids and parts in
contact with this liquids
N
c) Surface of non-metallic ENCLOSURES
P
d) Parts made of insulating material supporting
parts connected to MAINS supply
N
e) Terminals carrying a current more than 0,5 A
N
10.4
Conduct of temperature test
P
10.4.1
Tests conducted under reference test conditions and (see Form A.21A)
manufacturer’s instructions
P
10.4.2
Temperature measurement of heating equipment
P
Tests conducted in test corner
10.4.3
(see Form A.21A)
Equipment intended for installation in a cabinet or
wall
Equipment built in as specified in installation
instructions
P
P
(see Form A.21A)
P
10.5
Resistance to heat
10.5.1
Integrity of CLEARANCE and CREEPAGE DISTANCES
(see Form A.13)
P
10.5.2
Non-metallic ENCLOSURES
(see Form A.22)
P
10.5.3
P
Within 10 min after treatment:
—
Equipment subjected to suitable stresses of 8.2 and
8.3 complying with criteria of 8.1
P
Insulating material
Plastic for enclosure.
P
a) Parts supporting parts connected to MAINS
supply
Battery operated, not connect
to the mains
N
b) TERMINALS carrying a current more than 0.5 A
TRF No. IEC61010_1F
N
Page 30 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Verdict
Examination of material data; or
N
in case of doubt:
N
1) Ball pressure test; or
N
2) Vicat softening test of ISO 306
N
11
PROTECTION AGAINST HAZARDS FROM
FLUIDS
P
11.1
Protection to OPERATORS and surrounding area
provided by EQUIPMENT
N
All fluids specified by manufacturer considered
N
11.2
Cleaning
(see Form A.24)
N
11.3
Spillage
(see Form A.24)
N
11.4
Overflow
(see Form A.24)
N
11.5
Battery electrolyte
Alkaline or carbon-zinc battery
used, considered as self-safe.
P
Battery electrolyte leakage presents no HAZARD
Ditto
P
11.6
Specially protected equipment
(see Form A.24)
N
11.7
Fluid pressure and leakage
No fluids inside the appliance
N
11.7.1
Maximum pressure ............................................... :
(see Form A.25)
N
N
Maximum pressure of any part does not exceed
PRATED
11.7.2
Leakage and rupture at high pressure
No fluids inside the appliance.
N
Fluid containing parts subjected to hydraulic test if:
(see Form A.25)
N
a) product of pressure and volume > 200 kPal;
and
N
b) pressure > 50 kPa
N
Parts of refrigerating systems meets pressure-related
requirements of IEC 60335-24 or IEC 60335-24
N
11.7.3
Leakage from low-pressure parts
11.7.4
Overpressure safety device
N
Does not operate in NORMAL USE
N
a) Connected as close as possible to parts
intended to be protected
N
b) Easy access for inspection, maintenance and
repair
N
c) Adjustment only with TOOL
N
d) No discharge towards person
N
e) No HAZARD from deposit of discharged material
N
f)
N
Adequate discharge capacity
No shut-off valve between overpressure safety
device and protected parts
TRF No. IEC61010_1F
(see Form A.25)
N
N
Page 31 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
12
PROTECTION AGAINST RADIATION, INCLUDING No any radiation will emit from
LASER SOURCES, AND AGAINST SONIC AND
appliance.
ULTRASONIC PRESSURE
N
12.1
Equipment provides protection
N
12.2
Equipment producing ionizing radiation
N
12.2.1
Ionizing radiation
12.2.1.1
Equipment meets the following requirements:
N
a) if intended to emit radiation meets requirements
of 12.2.1.2; or
N
(see Form A.26)
12.2.1.3
12.2.2
12.3
12.4
N
N
tested, classified and marked in accordance to
IEC 60405
12.2.1.2
Verdict
b) if only emits stray radiation meets requirements
of 12.2.1.3
N
Equipment intended to emit radiation
N
Effective dose rate of radiation measured .............. :
N
If dose rate exceeds 5 µSv/h marked with the
following:
N
a) Symbol 17 (ISO 361)
N
b) Abbreviations of the radionuclides .................. :
N
c) With maximum dose at 1 m; or ....................... :
N
with dose rate value between 1 µSv/h and 5
µSv/h in m .......................................................... :
N
Equipment not intended to emit radiation
N
Limit for unintended stray radiation of 1 µSv/h at any
easily reached point kept ........................................ :
N
Accelerated electrons
N
Compartments opened only by the use of a TOOL
N
Ultraviolet (UV) radiation
N
No unintentional HAZARDOUS escape of UV radiation:
—
- checked by inspection; and
N
- evaluation of RISK assessment documentation
N
Micro-wave radiation
N
2
Power density does not exceed 10 W/m ............. :
N
12.5
Sonic and ultrasonic pressure
N
12.5.1
Sound level
12.5.2
(see Form A.27)
N
No HAZARDOUS sound emission
N
Maximum sound pressure level measured and
calculated for maximum sound power level as
specified in ISO 3746 or ISO 9614-1
N
Instruction describes measures for protection
N
Ultrasonic pressure
TRF No. IEC61010_1F
(see Form A.27)
N
Page 32 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement + Test
Result - Remark
Verdict
Equipment not intended to emit ultrasound does not
exceed limit of 110 dB between 20 kHz and 100 kHz
N
Equipment intended to emit ultrasound:
N
Outside useful beam does not exceed limit of 110 dB
between 20 kHz and 100 kHz
N
If inside useful beam above values exceeded:
N
Marked with Symbol 14 of Table 1
N
and following information in the documentation:
N
a) dimensions of useful beam
N
b) area where ultrasonic pressure exceed 110 dB
N
c) maximum sound pressure inside beam area
N
Laser sources
N
Equipment meets requirements of IEC 60825-1
N
13
PROTECTION AGAINST LIBERATED GASES,
EXPLOSION AND IMPLOSION
P
13.1
Poisonous and injurious gases
N
No poisonous or injurious gases or substances
liberated in NORMAL CONDITION
N
Attached data/test reports demonstrate conformity
N
13.2
Explosion and implosion
N
13.2.1
Components
N
Components liable to explode:
—
Pressure release device provided; or
N
Apparatus incorporates operator
protection (see also 7.7)
N
Pressure release device:
—
Discharge without danger
N
Cannot be obstructed
N
12.6
13.2.2
Batteries and battery charging
Used non-rechargeable
battery.(see Form A.28)
N
If explosion or fire HAZARD could occur:
No such hazard.
—
Protection incorporated in the equipment; or
P
Instructions specify batteries with built-in protection
N
In case of wrong type of battery used:
P
No HAZARD; or
P
Warning by marking and within instructions
N
Equipment with means to charge rechargeable
batteries:
—
Warning against the charging of non-rechargeable
batteries; and
N
TRF No. IEC61010_1F
Page 33 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
13.2.3
Requirement + Test
Result - Remark
Verdict
Type of rechargeable battery indicated; or
N
Symbol 14 used
N
Battery compartment design
N
Single component failure
N
Polarity reversal test
N
Implosion of cathode ray tubes
No such item in appliance
N
If maximum face dimensions > 160 mm................. :
—
Intrinsically protected and correctly mounted; or
N
ENCLOSURE
provides protection:
N
If non-intrinsically protected:
—
Screen not removable without TOOL
N
If glass screen, not in contact with surface of tube
N
14
COMPONENTS AND SUBASSEMBLIES
P
14.1
Where safety is involved, components and
subassemblies meet relevant requirements
14.2
Motors
N
14.2.1
Motor temperatures
N
Does not present a HAZARD when stopped or
prevented form starting; or
14.2.2
14.3
14.4
(see Table 3)
(see Form A.21)
N
Protected by over-temperature or thermal protection
device conform with 14.3
N
Series excitation motors
N
Connected direct to device, if over-speeding causes
a HAZARD
N
Overtemperature protection devices
No such device in appliance
N
Devices operating in a SINGLE FAULT CONDITION
(see Form A.29)
N
a) Reliable function is ensured
N
b) RATED to interrupt maximum current and
voltage
N
c) Does not operate in NORMAL USE
N
If self-resetting device used to prevent a HAZARD,
protected part requires intervention before restarting
N
Fuse holders
No such parts used
No access to HAZARDOUS LIVE parts
14.5
N
MAINS voltage selecting devices
N
N
No such parts used
Accidental change not possible
N
N
14.6
MAINS transformers tested outside equipment
(see Forms A.30 and A.31)
N
14.7
Printed circuit boards
Approved
P
TRF No. IEC61010_1F
Page 34 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
14.8
Requirement + Test
Result - Remark
Verdict
Data shows conformity with V-1 of IEC 60695-11-10
or better; or
P
Test shows conformity with V-1 of IEC 60695-11-10 (see Form A.18)
or better
N
Not applicable for printed wiring boards with limitedenergy circuits (9.4)
N
Circuits or components used as transient
overvoltage limiting devices
N
Test conducted between each pair of MAINS SUPPLY
(see Form A.32)
N
TERMINALS
No HAZARD resulting from rupture or overheating of
the component:
N
- no bridging of safety relevant insulation
N
- no heat to other parts above the self-ignition points
N
15
PROTECTION BY INTERLOCKS
15.1
Interlocks are designed to remove a HAZARD
before OPERATOR exposed
N
15.2
Prevention of reactivation
N
15.3
Reliability
N
Single fault unlikely to occur; or
N
Cannot cause a HAZARD
N
16
HAZARDS RESULTING FROM APPLICATION
N
16.1
Reasonably foreseeable misuse
N
No hazards arising from settings not intended and
not described in the instructions
N
Other cases of reasonably foreseeable misuse
addressed by risk assessment
N
Ergonomic aspects
N
Factors giving rise to a hazard the risk assessment
is reflecting those aspects:
N
a) limitation of body dimensions
N
b) displays and indicators
N
c) accessibility and conventions of controls
N
d) arrangement of terminals
N
Risk assessment
N
Risk assessment conducted, if hazard might arise
and not covered by Clauses 6 to 16
N
Tolerable risk achieved by iterative documented
process covering the following:
N
16.2
17
TRF No. IEC61010_1F
No interlock
N
Page 35 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
ANNEX F
Requirement + Test
Result - Remark
Verdict
a) Risk analysis
N
Identifies hazards and estimates risk
N
b) Risk evaluation
N
Plan to judge acceptability of resulting risk level
based on the estimated severity and likelihood of a
risk
N
c) Risk reduction
N
Initial risk reduced by counter measures;
N
Repeated risk evaluation without new risks
introduced
N
Risks remaining after risk assessment addressed in
instructions to responsible body:
N
Information contained how to mitigate these risks
N
Following principles in methods of risk reduction
applied by manufacturer in given order:
N
1) Risks eliminated or reduced as far as possible
N
2) Protective measures taken for risks that cannot
be eliminated
N
3) User information about residual risk due to any
defect of the protective measures
N
Indication of particular training is required
N
Specification of the need for personal protective
equipment
N
Conformity checked by evaluation of the risk
assessment documentation
N
ROUTINE TESTS
Manufacturer ´s declaration
TRF No. IEC61010_1F
Carried out by manufacturer.
N
N
Page 36 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
4.4.2
TABLE: Summary of SINGLE FAULT CONDITIONS
Subclause
Title
Result — Remark
Does not
apply
4.4.2.1
SINGLE FAULT CONDITIONS not covered by
4.4.2.2 to 4.4.2.14
4.4.2.2
PROTECTIVE IMPEDANCE
X
4.4.2.3
PROTECTIVE CONDUCTOR
X
4.4.2.4
Equipment or parts for short-term or
intermittent operation
4.4.2.5
Motors
X
– stopped while fully energized
X
– prevented from starting
X
– one phase interrupted (multi-phase)
X
4.4.2.6
Capacitors
X
4.4.2.7
MAINS transformers
Attach drawing of MAINS transformers
showing all protective devices
(see Forms A.30 and A.31)
X
4.4.2.8
Outputs
X
4.4.2.9
Equipment for more than one supply
X
4.4.2.10
Cooling
X
– air holes closed
X
– fans stopped
X
– coolant stopped
X
– loss of cooling liquid
X
Heating devices
X
– timer overridden
X
– temperature controller overridden
X
4.4.2.11
Form A.1
Carried
out
X
X
4.4.2.12
Insulation between circuits and parts
4.4.2.13
Interlocks
X
4.4.2.14
Voltage selectors
X
X
List below all SINGLE FAULT CONDITIONS not covered by 4.4.2.2 to 4.4.2.14:
13.2.2
Battery short
X
13.2.2
Battery reverse
X
Supplementary information:
X means YES
(see Form A.2 for details of tests)
TRF No. IEC61010_1F
Verdict
Comments
P
Page 37 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
4.4
TABLE: Testing in SINGLE FAULT CONDITION – Results
Test
subclause
13.2.2
Fault
No.
Result — Remark
Fault description
Verdict
Form A.2
Td 4.4.3 (NOTE)
P
1
Battery reverse and short
5minutes
How was test terminated
Comments
The apparatus has no display and can't work. No hazard
16.2
2
Measuring Function select capacitance, then
Measure 600 V (30kVA)
2minutes
Display 00, No hazard.
Yes
16.2
3
Measuring Function select Ohm, then Measure
600 V (30kVA)
2minutes
Display XXXX, No hazard.
Yes
16.2
4
Measuring Function select DC current, then
Measure 600 V (30kVA)
2minutes
Display number 796-798, No hazard.
Yes
16.2
5
Measuring Function select AC current, then
Measure 600 V (30kVA)
2minutes
Measuring Function select AC current, then
Measure 600 V (30kVA)
Yes
NOTE Td = Test duration in hh:mm:ss
Record dielectric strength test on Form A.14 and temperature tests on Form A.21.
Record in the comments column for each test whether carried out during or after SINGLE FAULT CONDITION.
Supplementary information:
TRF No. IEC61010_1F
Meets
4.4.4
Yes
Page 38 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
Result — Remark
5.1.3c)
TABLE: MAINS supply
Verdict
Form A.3
V
N
Marked rating.........................:
--
Phase ....................................:
--
Frequency .............................:
--
Hz
—
Current ..................................:
--
A
—
Power ...................................:
--
W
—
Power ...................................:
--
VA
—
—
Test
Voltage
Frequency
Current
Power in
Power in
No.
V
Hz
A
W
VA
1
2
3
Note – Measurements are only required for marked ratings.
Supplementary information:
TRF No. IEC61010_1F
—
Comments
Page 39 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
5.3
TABLE: Durability of markings
Result — Remark
Verdict
Form A.4
Marking method (see NOTE)
Agent
1) Adhesive label
A Water
2) Ink printed
B Isopropyl alcohol 70%
3) Laser marked
C (specify agent)
4) Filmcoated (plastic foil control panel)
D (specify agent)
5) Imprinted on plastic (moulded in)
E (specify agent)
NOTE – Where applicable include print method, label material, ink or paint type,
fixing method, adhesive and surface to which marking is fixed.
Marking location
Marking method (see above)
Identification (5.1.2)
1
MAINS supply (5.1.3)
--
Fuses (5.1.4)
--
terminals and operating devices (5.1.5.2)
--
Switches and circuit breakers (5.1.6)
--
Double/reinforced equipment (5.1.7)
--
Field wiring Terminal boxes (5.1.8)
--
Warning marking (5.2)
--
Battery charging (13.2.2)
--
Method
1
Test agent
Remains legible
Label loose
Curled edges
Verdict
Verdict
Verdict
Yes / No
Yes / No
Yes / No
A/B
Supplementary information:
TRF No. IEC61010_1F
Comments
P / F / NA
P
Page 40 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
Result — Remark
6
TABLE: Protection against electric shock - Block diagram of system Form A.5
Pollution degree ....... : 2
Verdict
Overvoltage category ...................: II
Location or
Insulation
type
Maximum
working
description
(NOTE 1)
voltage
(NOTE 2)
CREEPAGE Distance
(NOTE 3)
PWB
mm
CTI
Other
mm
CTI
CLEARANCE
(NOTE 3)
Test
voltage
mm
(NOTE 2)
V
LCD circuit RI
(through
lens)
to
accessible
part
600V
AC/DC
10.9
400 ≥ 10.9
CTI <
600
5312Vrms
AC
Internal
circuit
to knob
RI
600V
AC/DC
11.0
400 ≥ 11.0
CTI <
600
5312Vrms
AC
Jaw to
accessible
part
RI
600V
AC/DC
16.0
400 ≥ 12.5
CTI <
600
5312Vrms
AC
NOTE 1 – Type of insulation:
BI = BASIC INSULATION
DI = DOUBLE INSULATION
PI = PROTECTIVE IMPEDANCE
RI = Reinforced INSULATION
SI = Supplementary INSULATION
Supplementary Information:
TRF No. IEC61010_1F
P
NOTE 2 - Types of voltage
Peak impulse test voltage (pulse)
r.m.s.
d.c.
peak
Comments
NOTE 3 - INSTALLATION CATEGORIES
(OVERVOLTAGE CATEGORIES)
or POLLUTION DEGREES which differ from
these should be shown under "Comments".
Page 41 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
Result — Remark
Verdict
6
TABLE: Protection against electric shock - Block diagram of system Form
A
Battery + polarity to
accessible
part
(through
enclosure
gap)
RI
NOTE 1 – Type of insulation:
BI = BASIC INSULATION DI
= DOUBLE INSULATION PI
= PROTECTIVE
IMPEDANCE RI =
Reinforced INSULATIONSI =
Supplementary INSULATION
600V
AC/DC
NOTE 2 - Types of voltage
Peak impulse test voltage
(pulse) r.m.s. d.c. peak
11.35
400
≥ CTI
<
600
11.00
P
5312Vrms AC
NOTE 3 - INSTALLATION CATEGORIES (OVERVOLTAGE
CATEGORIES) or POLLUTION DEGREES which differ from these
should be shown under "Comments".
Supplementary Information: Limit: CAT III 600V material group II Cr (RI) 10.5 mm CL(RI) 10.5 mm
6.2
TABLE: List of ACCESSIBLE parts
Form A.6
P
6.1.2
Exceptions
See clause 6.1.2
—
6.2
Determination of accessible parts
See below
—
Item
Description
Determination method
(NOTE 5)
1
Exterior enclosure
Test finger, test pin
Exception under 6.1.2
(NOTE 4)
---
NOTE 1 – Test fingers and pins are to be applied without force unless a force is specified (see 6.2.1)
NOTE 2 – Special consideration should be given to inadequate insulation and high voltage parts (see 6.2)
NOTE 3 – Parts are considered to be ACCESSIBLE if they could be touched in the absence of any covering which is not
considered toprovide suitable insulation (see note to paragraph 1 of 6.4).
NOTE 4 – Capacitor test may be required (see Form A.7).
NOTE 5 – The determination methods are: visual; rigid test finger; jointed test finger; pin 3 mm diameter; pin 4 mm
diameter.
Supplementary information
TRF No. IEC61010_1F
Page 42 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
6
TABLE: Values in NORMAL CONDITION
6.1.2
Exceptions
11.2
Cleaning and decontamination
—
6.3.1
Values in NORMAL CONDITION (see NOTE 1)
11.3
Spillage
—
6.6.2
Terminals for external circuit
11.4
Overflow
—
6.10.3
Plugs and connections
Item
Result — Remark
Internal
67
circuit to
accessible
part
V
peak
86
Form A.7
Current
V
d.c.
--
Test
mA
circuit
r.m.s.
A1/A2/A3
A1
0.015
(7.6
/500)
Capacitance
mA
peak
0.124
(67
/500)
10 s / 5 s test (NOTE)
mA
d.c.
μC
mJ
V
μC
mJ
--
--
--
--
--
--
Comments
While measuring AC 600Vrms
NOTE – A 10 s test is specified in 6.1.2 a) b). A 5 s test is specified in 6.10.3. The capacitance level versus voltage below the limits given from figure 3 of IEC 61010-1.
Supplementary information: battery supplied and is considered limited –energy circuit
TRF No. IEC61010_1F
P
—
Voltage
V
r.m.s.
Verdict
Page 43 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
6.3.2
TABLE: Values in SINGLE FAULT CONDITION
Item
Subclause
and
(see
Form A.6)
fault No.
(see Form A.2)
Internal
circuit to
accessible
part
--
Result — Remark
Form A.8
Voltage
V
r.m.s.
67
Verdict
Transient
(see NOTE)
Current
V
peak
V
d.c.
V
s
Test
circuit
A1/A2/A3
86
--
--
--
A1
mA
r.m.s.
mA
peak
0.158 0.134
(7.9/5 (66.9/
00)
500)
Capacitance
mA
d.c.
μF
(see NOTE)
--
--
NOTE – Transient voltages must be below the limits given from Figure 2 and the capacitance below the limits from figure 3 of IEC 61010-1.
Supplementary information: battery supplied and is considered limited –energy circuit
TRF No. IEC61010_1F
P
Comments
While measuring AC 600Vrms
Page 44 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
6.7
TABLE: CLEARANCES and CREEPAGE DISTANCES
6.9.101
Insulation for JAWS and JAW OPENING
8
Location
(see Form
A.5)
Mechanical resistance to shock and impact
Measured (initial – 6.7) Verdict
LCD
circuit
(through
lens) to
accessible
part
Form A5
Internal
circuit to
knob
Jaw to
accessible
part
Battery + polarity to
accessible
part
(through
enclosure
gap)
Result — Remark
CREEPAGE
DISTANCE
(mm)
Clearance
(mm)
10.9
10.9
P
11.0
11.0
16.0
11.35
Verdict
P
P
Test at
max.
Mechanical tests (note)
RATED
Measured after test
(if required)
Drop
(8.2)
Normal
Handheld/
Plug-in
30
P
N/A
N/A
P
40℃
10.9
10.9
P
P
30
P
N/A
N/A
P
40℃
11.0
11.0
P
12.5
P
30
P
N/A
N/A
P
40℃
16.0
12.5
P
11.0
P
30
P
N/A
N/A
P
40℃
11.35
11.0
(6.7N)
ambient
(10.5.1)
CAT III 600V material group IIIa Cr (RI) 12 mm CL(RI) 10.5 mm
CAT III 600V material group II Cr (RI) 10.5 mm CL(RI) 10.5 mm
CREEPAGE
DISTANCE
(mm)
CLEARANCE
(mm)
Rigidity
(8.1)
Static Dynamic
Applied
force
NOTE – Refer to Form A.14 for dielectric strength tests following the above tests. RI means reinforce insulation.
TRF No. IEC61010_1F
P
Form A.13
Verdict
Comment
s
Page 45 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
Result — Remark
Form A.14
Verdict
6.8
TABLE: Dielectric strength tests
P
4.4.4.1 b)
Conformity after application of fault conditions1
P
6.4
Protection in NORMAL CONDITION
P
6.5.2
DOUBLE INSULATION and REINFORCED INSULATION
P
6.6.1
Connections to external circuits
P
6.7.3.1 c)
CLEARANCE values – General: reduced CLEARANCES for homogeneous construction
N/A
6.10.2.5
Fitting of non-detachable MAINS SUPPLY cords1
N/A
8
Mechanical resistance to shock and impact
9.1 a) 2)
Eliminating or reducing the sources of ignition within the equipment
N/A
9.3 c)
Limited-energy circuit
N/A
11.2
Cleaning1
N/A
11.3
Spillage1
N/A
11.4
Overflow1
N/A
P
11.6
Specially protected equipment1
1 Record the fault, test or treatment applied before the dielectric strength test
N/A
Test site altitude ................................................:
13 m
—
Test voltage correction factor (see Table 10)....:
NO
—
Location or
references
from Forms
A.2 and A.5
Probe to
enclosure
Clause or
sub-clause
6.4 6.52
4.4.4.1b) 8
Supplementary information:
TRF No. IEC61010_1F
Humidity
Yes/No
YES
Working
voltage
V
Test voltage
r.m.s./peak/d.c
V
MAX
600Vrms
AC/DC
5312Vrms
Comments
Verdict
RI
P
Page 46 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
9
Item
TABLE: Protection against the spread of fire
Source of HAZARD or area of the equipment
considered (circuit, component, liquid etc.)
1
Plastic enclosure
2
PCB
Supplementary information:
TRF No. IEC61010_1F
Result — Remark
Verdict
Form A.16
Protection
Method (9a, 9b
or 9c)
Protection details
P
Verdict
Flammability of V-0
P
Flammability of V-0
P
Page 47 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
Result — Remark
10.
TABLE : Temperature Measurements
10.1
Surface temperature limits - NORMAL CONDITION and
10.2
Temperature of windings- NORMAL CONDITION and
10.3
Other temperature measurements
Verdict
Form A.21A
Operating conditions: Measure AC 600V Continuously.
Frequency ............... :
DC Hz Test room ambient temperature (ta)
.................................:
Voltage.................... :
4.5 V
Part / Location
Test duration ...........:
25 °C
1 h
tc
°C
41
tmax
°C
80
Verdict
Enclosure(front)
tm
°C
26
Enclosure(rear)
26
41
80
P
LCD Display
25
40
80
P
45 min
Comments
P
NOTE 1 - tm = measured temperature
tc = tm corrected (tm–ta+ 40 °C or max. RATED ambient)
tmax = maximum permitted temperature
NOTE 2 - see also 14.1 with reference to component operating conditions
NOTE 3 - Record values for NORMAL CONDITION and / or SINGLE FAULT CONDITION in this Form use additional form if
necessary
NOTE 4 - see Form A.21B for details of winding temperature measurements
Supplementary information:
TRF No. IEC61010_1F
P
Page 48 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
Result — Remark
10.2
TABLE: Temperature of windings
Resistance method Temperature Measurements
4.4.2.7
MAINS transformers
14.2.1
Motor temperatures
Verdict
Form A.21B
N
Operating conditions .... :
Frequency ................... :
Hz Test room ambient temperature (ta1/ta2)
................................ :
Voltage........................ :
V
Part / Designation
Rcold
Ω
/
°C (initial / final)
Test duration ........... :
Rwarm Current
A
Ω
tr
K
h
tc
°C
tmax
°C
Verdict
min
Comments
NOTE 1- Rcold = initial resistance
Rwarm = final resistance
tr = temperature rise
tc = tr corrected (tc= tr - { ta2 - ta1} + [40 °C or max RATED ambient])
tmax = maximum permitted temperature
NOTE 2 - Indicate insulation class (IEC 60085) under comments (optional)
NOTE 3 - Record values for NORMAL CONDITION and / or SINGLE FAULT CONDITION in this Form use additional form if necessary
Supplementary information:
10.5.2
TABLE: Resistance to heat of non-metallic ENCLOSURES
Form A.22
Test method used....................................................:
N
—
Non operative treatment..........................................: [ ]
Empty ENCLOSURE ...................................................: [ ]
Operative treatment.................................................: [ ]
Temperature during tests ........................................:
—
ENCLOSURE samples tested were............................:
—
Description
Material
Dielectric strength test (6.8)…………………………:
Comments
Verdict
V r.m.s./peak/d.c.
NOTE – Within 10 minutes of the end of treatment suitable tests in acc. to 8.2 and 8.3 must be conducted and pass criteria of 8.1.
Supplementary information:
TRF No. IEC61010_1F
Page 49 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
10.5.2
Requirement — Test
Result — Remark
TABLE: Resistance to heat of non-metallic enclosures
Test method used:
Non operative
treatment.........................................:
Empty
ENCLOSURE...................................................:
Operative
treatment................................................:
Temperature during
tests .......................................:
ENCLOSURE samples tested
were ...........................:
Verdict
Form A.21
P
A
—
[O]
P
[
]
P
[
]
N/A
—
70°C
—
Description
Material
Comments
Verdict
Enclosure
PA765A+ V-0
No damage
P
Dielectric strength test
(6.8)....................................:
Supplementary information:
TRF No. IEC61010_1F
5312 AC
V
r.m.s.
Page 50 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
13.2.2
TABLE: Batteries
Result — Remark
Verdict
Form A.28
P
Battery load and charging circuit diagram:
Battery type ............................................................:
1.5 V AAA battery
—
Battery manufacturer/model/catalogue No.............:
No specified
—
Battery ratings ........................................................:
1.5 V
—
Reverse polarity instalment test
No hazard
P
Single component failures
Component
Battery
Supplementary information:
TRF No. IEC61010_1F
Verdict
Open circuit
Short circuit
P
P
Page 51 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
Result — Remark
14.3
TABLE: Overtemperature protection devices
Verdict
Form A.29
Reliability test
Component
NOTE:
NSR = non-self-resetting
(10 times)
NR = non-resetting (1 time)
SR = self-resetting (200 times)
Supplementary information:
TRF No. IEC61010_1F
Type
(NOTE)
Verdict
Comments
N
Page 52 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
Result — Remark
Verdict
4.4.2.7
TABLE: MAINS transformer
4.4.2.7.2
Short circuit
N
14.6
MAINS transformers tested outside equipment
N
Form A.30
N
Type ..............................:
—
Manufacturer .................:
—
Test in equipment
Test on bench
Test repeated inside equipment (see 14.6)
Optional – Insulation class (IEC 60085) of the lowest rated winding
:
Winding identification
Type of Protector for winding (Note 1)
Elapsed time
Current, A
primary
secondary
Winding temperature, °C primary
(see Note 2)
secondary
Tissue paper / cheesecloth OK ?
(Pass / Fail)
Voltage tests (see Note 3)
Primary to secondary
______ V ____
Primary to core
______ V ____
Secondary to secondary ______ V ____
Secondary to core
______ V ____
Verdict
Note 1:
Note 2:
Note 3:
Primary fuse
Secondary fuse
Overtemperature protection
Impedance protection
Indicate method of measurement
- PF /
(
) A
- SF /
(
) A
- OP /
(
) °C
-Z
TC = with thermocouple
R = resistance method
If resistance method is used, record resistance in cold and warm condition in FormA.20B!
Record the voltage applied and the type of voltage (r.m.s. / d.c. / peak) and for
results use
NB = no breakdown
or
B = breakdown
Supplementary information:
TRF No. IEC61010_1F
—
Page 53 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
Result — Remark
Verdict
4.4.2.7
TABLE: MAINS transformer
4.4.2.7.3
Overload tests (for MAINS transformers)
N
14.6
MAINS transformers tested outside equipment
N
Form A.31
N
Type ................................ :
—
Manufacturer................... :
—
Test in equipment
Test on bench
Test repeated inside equipment (see 14.6)
Optional – Insulation class (IEC 60085) of the lowest rated winding
:
Winding identification
Type of Protector for winding (Note 1)
Elapsed time
Current, A
primary
secondary
Winding temperature, °C primary
(see Note 2)
secondary
Tissue paper / cheesecloth OK ?
(Pass / Fail)
Voltage tests (see Note 3)
Primary to secondary
______ V ____
Primary to core
______ V ____
Secondary to secondary
______ V ____
Secondary to core
______ V ____
Verdict
Note 1:
Note 2:
Note 3:
Primary fuse
Secondary fuse
Overtemperature protection
Impedance protection
Indicate method of measurement
- PF /
(
) A
- SF /
(
) A
- OP /
(
) °C
-Z
TC = with thermocouple
R = resistance method
If resistance method is used, record resistance in cold and warm condition in FormA.20B!
Record the voltage applied and the type of voltage (r.m.s. / d.c. / peak) and for
results use
NB = no breakdown
or
B = breakdown
Supplementary information:
TRF No. IEC61010_1F
—
Page 54 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
14.8
TABLE: Transient overvoltage limiting devices
Component / Designation
Result — Remark
Overvoltage MAINS voltage Test voltage
Category
V rms
V
Test room ambient temperature ….:
Verdict
Form A.32
tm
°C
tc
°C
tmax
°C
Rupture Circuit breaker Verdict
Yes / No
tripped
Comments
°C
NOTE - tm = measured temperature
tc = tm corrected (tm–ta+ 40 °C or max. RATED ambient)
tmax = maximum permitted temperature
Conformity is checked by applying 5 positive and 5 negative impulses with the applicable impulse withstand voltage, spaced up to 1 min apart, from a hybrid impulse generator (see IEC 61180-1).
Supplementary information:
TRF No. IEC61010_1E
N
Page 55 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement – Test
Result — Remark
Annex H
TABLE: Qualification of conformal coating
for
Verdict
Addition to Form A.xx
N
N
protection against pollution
Technical properties
Manufacturer ................................................. :
—
Type............................................................... :
—
Meet requirements of ANSI / UL 746E .......... : [yes / no]
Manufacturer declaration of coating material : [yes / no]
Operating temperature of coating.................. : [ ] °C
Comparative tracking index (CTI).................. : [ ]
Insulation resistance...................................... : [ ] Ω
Dielectric strength.......................................... : [ ] V
UV resistance (if required)............................. : [yes / no]
Flammability rating ........................................ :
Preparation of the test specimens
Item Test conditioning
Parameter
[yes / no]
Td
h
1
Scratch resistance
Visual inspection
2
Cold
24
3
Dry heat
48
4
Rapid temp.
change
5
Damp heat
6
Adhesion of
coading
24
5N
Visual inspection
7
Humidity
8
Insulation
resistance
Visual inspection
NOTE Td = Test duration time
Supplementary information:
TRF No. IEC61010_1E
48
>= 100 Ω
Samples
1
2
3
4
Verdic
t
5
6
Comments
Page 56 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement – Test
Result — Remark
6.7.2.2.2
TABLE: Reliability of potted components
Verdict
Addition to Form A.14
N
Temperature Cycling Test
Manufacturer................................................ :
Type ............................................................. :
Construction................................................. :
Potting compound........................................ :
CREEPAGE distances measured ................... :
CLEARANCES measured................................ :
Thickness through insulation ....................... :
Adhesive test Pass/Fail ............................... :
Test temperature T °C ................................. :
Cycles at U= AC 500 V
Leakage current (500 V)
mA
Number of cycles
Date
1. Cycle from
to
2. Cycle from
to
3. Cycle from
to
4. Cycle from
to
5. Cycle from
to
6. Cycle from
to
7. Cycle from
to
8. Cycle from
to
9. Cycle from
to
10. Cycle from
to
68 h /
125 °C
1h/
25 °C
2h/
0 °C
1h/
25 °C
After Cycling Test :
Humidity conditioning
48 h
Requirements for dielectric strength (s. insulation diagram)
Basic insulation
______ V r.m.s.
Additional insulation
Reinforced insulation
______ V r.m.s.
______ V r.m.s.
Supplementary information:
TRF No. IEC61010_1E
Test voltage V r.m.s
Verdict
Page 57 of 77
Report No. STS130523255
IEC/EN 61010-1
Clause
Requirement — Test
6.
TABLE: Working voltage of Switch Mode Power Supply
Location / Measuring track
Input supply voltage…….:
Supplementary information:
TRF No. IEC61010_1F
Result — Remark
Insulation
(Form A.5)
V
RMS voltage
V
Hz
Peak voltage
V
Verdict
Addition to Form A.5
Required Measured Required Measured Verdict
cl
cl
cp
cp
mm
mm
mm
mm
Comments
N
Page 58 of 77
Report No. STS130523255
TEST REPORT
IEC 61010-2-032 / EN 61010-2-032
Safety requirements for electrical equipment for measurement,
control, and laboratory use
Particular requirements for hand-held and hand-manipulated current sensors for
electrical test and measurement
Testing Laboratory .............. : Shenzhen Certification Technology Service Co., Ltd.
Address ............................................:
2F, Building B, East Area of Nanchang Second Industrial Zone,
Gushu 2nd Road, Bao'an District, Shenzhen 518126, P.R. China
Testing location/procedure ...............:
TL
Address ............................................:
Same as above
RMT
SMT
WMT
TMP
Applicant’s name ................. : Shenzhen New Huayi Instrument Co., Ltd
Address ............................................:
West Wing, 9/F., Block 3, Saige Science and Technology Industrial
Garden, Hua Qiang Bei Rd. Shenzhen
Test specification:
Standard ...........................................:
IEC 61010-2-032: 2012
EN 61010-2-032: 2012
Test procedure .................................:
CE-LVD
Non-standard test method................:
N.A.
Test Report Form No......................:
IEC/EN 61010_2_032B
TRF Originator..................................:
Intertek Semko AB
Master TRF.......................................:
2012-12
Copyright © 2011 Worldwide System for Conformity Testing and Certification of Electrotechnical
Equipment and Components (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.
Test item description .....................:
Digital Clamp Meter
Trademark ........................................:
HYelec
Model/Type reference ........................:
MS2008A, MS2008B, MS2108, MS2108A
Model difference .................................:
See below general information
Manufacturer.......................................:
Shenzhen New Huayi Instrument Co., Ltd
Address...............................................:
West Wing, 9/F., Block 3, Saige Science and Technology Industrial
Garden, Hua Qiang Bei Rd. Shenzhen
Rating(s) ...........................................:
Power supply 1.5Vdc X 3 AAA battery
CAT III 600 V
Page 59 of 77
Report No. STS130523255
IEC/EN 61010-2-032
Clause
Requirement + Test
5
Marking and documentation
P
5.1.2
Identification
P
5.1.2 aa)
1) If designed for specific equipment it is clearly
indicated or
If information only in documentation, marked with
symbol 14
For general use
N
Noted as above
N
2) Type A CURRENT SENSOR marked with symbol
102
3) Type B and C CURRENT SENSORS marked with
symbol 101
The marking above is adjacent to any CAT
marking
Type A
P
5.1.5.101
Result - Remark
N
On the unit
Voltage and current RATINGS of jaws
RATED circuit to earth voltage for uninsulated
conductor
Verdict
P
P
600V CAT III
Nature is marked unless valid for both AC and DC
P
P
Marking of CAT adjacent voltage
600V CAT III
P
Value and nature of maximum rated current
Max 600 A ~
P
5.4.4
Equipment operation
P
5.4.4 a)
Identification of operating controls and their use
P
5.4.4 b)
P
5.4.4 c)
Instructions for connecting to accessories and
other equipment
indication of suitable accessories and detachable
parts
Limits of intermittent operation
N
5.4.4 d)
Explanation of safety related symbols used
P
5.4.4 e)
Instructions for replacement of replaceable parts
P
5.4.4 f)
Instructions for cleaning and decontamination
P
Instructions for the application and removal of the
P
5.4.4 g)
5.4.4 h)
5.4.4 i)
5.4.4 j)
5.4.4 k)
5.4.4 l)
6
P
CURRENT SENSOR
Instructions to de-energize or adopt safe
procedures when working on hazardous live
installations with type B and C CURRENT SENSORS
Warning to use individual protective equipment if
working in installations with ACCESSIBLE
HAZARDOUS LIVE parts
Instructions about the tactile indication
A warning not to use FLEXIBLE CURRENT SENSOR if
the contrasting inner colour is visible
A warning not to use the sensor if the wear
indicator in the jaw is visible
A statement that if used in a manner not specified
by the manufacturer, safety may be impaired
Protection against electric shock
N
P
P
NOT FLEXIBLE CURRENT
SENSOR
N
N
P
P
Page 60 of 77
Report No. STS130523255
IEC/EN 61010-2-032
Clause
Requirement + Test
6.1.2
Exceptions
6.1.2 aa)
Conductive parts within a jaw opening, provided
that they meet 6.9.101
6.7
CLEARANCES and CREEPAGE DISTANCES
P
6.7.3
Circuits other than MAINS CIRCUITS
N
6.7.3.1
General
N
6.7.3.1 c)
Reduction of CLEARANCES by homogenous
construction not permitted
N
6.9
P
6.9.101
Constructional requirements for protection against
electric shock and prevention of short-circuits
Insulation requirements for jaws and jaw openings
6.9.101.1
General
P
Tests performed after pre-treatment
P
Pre-treatment of the JAW OPENING
P
Procedure used
P
Protection against touching the HAZARDOUS LIVE
conductor
P
6.9.101.2
6.9.101.3
Type A CURRENT SENSORS have barrier or tactile
indicator
Cover at least 50% of the perimeter
Result - Remark
P
See form A5
6.9.101.4
6.9.101.5
P
P
Have barrier
P
Full perimeter covered
P
Extend along two opposite sides
CLEARANCE and CREEPAGE meet the requirements
for DOUBLE or REINFORCED INSULATION
Verdict
P
See Form A.5 and A.13
P
HAND-HELD or hand-manipulated parts
P
Separated by DOUBLE or REINFORCED INSULATION
from:
- ACCESSIBLE magnetic circuit
P
N
- HAZARDOUS LIVE conductor
P
- output and input circuit and their leads
N
Insulation of a flexible CURRENT SENSOR
N
Provided with wear indicator
Not a flexible current sensor
N
DOUBLE or REINFORCED INSULATION when new
N
At least BASIC INSULATION when reached the wear
indicator
If not provided with wear indicator, DOUBLE or
REINFORCED INSULATION provided after typical
lifetime wear
N
N
Page 61 of 77
Report No. STS130523255
IEC/EN 61010-2-032
Clause
6.9.101.6
6.9.101.7
Requirement + Test
Result - Remark
Verdict
Treatment used....................................................:
N
Pull test for endcaps of flexible CURRENT SENSORS
N
Pull test for endcaps of flexible CURRENT SENSORS
N
Displacement measured......................................:
N
Repeated test, if applicable .................................:
N
No damage
N
CleARANCE and CREEPAGE not have been reduced
below the limits of 6.7.4
Dielectric strength test acc. to 6.8
N
Protection against short-circuits caused by JAWS
and JAW OPENINGS
Enclosure provides at least BASIC INSULATION in
closed position
Dielectric strength test acc. to 6.8
P
Type A and B CURRENT SENSORS have additional
protection providing BASIC INSULATION during
insertion and removal
Dielectric strength test acc. to 6.8
N
s. Form A.5 and Form A. 13
P
s. Form A.14
P
s. Form A.13
P
s. Form A.14
P
8
Mechanical resistance to shock and impact
P
8.1.2
Dynamic test
P
Test on 3 samples
P
If RATED below 2°C, cooled before test
P
Dielectric strength test acc. to 6.8 without humidity
preconditioning
s. Form A.14
P
14
Components
14.101
Signal and measuring leads meet 61010-031
16
Test and measurement equipment
P
16.101
CURRENT SENSORS with internal current
transformers
P
Protection against hazard caused by high voltage
generated during interruption
N
The test probes were not
evaluated by Intertek
No interruption
--
N
Page 62 of 77
Report No. STS130523255
IEC/EN 61010-2-032
Clause
6
Requirement + Test
Result - Remark
TABLE: Protection against electric shock - Block diagram of system Form
A.5
Location
or
Insulation
type
Maximum
working
CREEPAGE DISTANCE
(NOTE 3)
description
(NOTE 1)
voltage
(NOTE 2)
PWB
mm
Internal
metal
parts of
the JAWS
in closed
position
and the
outer
surfaces.
P
Measurement category (overvoltage category) .. : CAT III 600 V
Pollution degree ...... : 2
Live parts
in clamp to
accessible
surface
Verdict
CTI
Other
mm
CTI
CLEARANCE
(NOTE 3)
mm
RI
600 Vac
--
--
16.0
>400
12.5
BI
600 Vac
--
--
6.0
>400
6.0
NOTE 1 – Type of insulation: BI = BASIC
INSULATION DI = DOUBLE
INSULATION PI = PROTECTIVE
IMPEDANCE RI = Reinforced
INSULATIONSI = Supplementary
INSULATION
NOTE 2 - Types of voltage Peak
impulse test voltage (pulse) r.m.s. d.c.
peak
Supplementary Information:
CAT III 600V material group II Cr (RI) 10.5 mm, Cl (RI) 10.5 mm
CAT III 600V material group II Cr (BI) 5.5 mm, Cl (BI) 5.5 mm
Test
voltage
Comments
(NOTE
2) V
5312
Vr.m.s
3320
Vr.m.s
Clause:
6.9.101.3
Clause
6.9.101.7
NOTE 3 - INSTALLATION CATEGORIES
(OVERVOLTAGE CATEGORIES) or
POLLUTION DEGREES which differ from
these should be shown under "Comments".
Page 63 of 77
Report No. STS130523255
IEC/EN 61010-2-032
Clause
Requirement + Test
Result - Remark
Verdict
Form A.13
P
6.7
TABLE: CLEARANCES and CREEPAGE DISTANCES
6.9.101
Insulation for JAWS and JAW OPENING
P
8
Mechanical resistance to shock and impact
P
Location
(see Form
A.5)
Measured (initial – 6.7)
Verdict
Live part
inside jaw
and jaw
surface
Measured after test
(if required)
RATED
CREEPAGE
DISTANCE
(mm)
Clearance
(mm)
Applied
force
(6.7N)
Current
jaw of
hazardous
live
conductor
and hand
held part
Test at
max.
Mechanical tests (note)
Rigidity
Drop
(8.1)
Static
(8.2)
Dynamic
Normal
ambient
(10.5.1)
CREEPAGE
CLEARANCE
DISTANCE
(mm)
Verdict
Comments
(mm)
Handheld/
Plug-in
16.0
12.5
10
√
N/A
√
√
16.0
12.5
P
P
6.0
6.0
10
√
N/A
√
√
6.0
6.0
P
P
NOTE – Refer to Form A.14 for dielectric strength tests following the above tests.
Page 64 of 77
Report No. STS130523255
IEC/EN 61010-2-032
Clause
Requirement + Test
Result - Remark
Verdict
6.8
TABLE: Dielectric strength tests
4.4.4.1 b)
Conformity after application of fault conditions1
P
6.9.101.3
Protection against touching the HAZARDOUS LIVE conductor
P
6.9.101.4
HAND-HELD or hand-manipulated parts
P
6.9.101.5
Insulation of a flexible CURRENT SENSOR
N/A
6.9.101.6
Pull test for endcaps of flexible CURRENT SENSORS
N/A
6.9.101.7
Protection against short-circuits caused by the JAWS and JAW OPENING
P
8.1.2
Dynamic test
P
Form A.14
P
1 Record the fault, test or treatment applied before the dielectric strength test
Test site altitude.................................................:
13 m
Test voltage correction factor (see Table 10) ....:
None
Location or
references
from Form
A.5
Current jaw
of hazardous
live
conductor
and hand
held part
Current jaw
of hazardous
live
conductor
and hand
held part
Current jaw
of hazardous
live
conductor
and hand
held part
Live part in
jaw and jaw
surface
Clause or
sub-clause
Humidity
Yes/No
4.4.4.1 b),
8.1.2
No
Working
voltage V
Test voltage
r.m.s./peak/d.c
V
Comments
—
—
Verdict
P
600VAC/DC
5312V r.m.s
6.9.101.3,
6.9.101.4
6.9.101.7
P
RI
600VAC/DC
Yes
P
6.9.101.7
Supplementary information:
3320 Vr.m.s
BI
P
Page 65 of 77
Report No. STS130523255
IEC/EN 61010-2-032
Clause
Requirement + Test
16.1
TABLE: Current measuring circuits
16.101
Current sensors with internal current
transformers
Result - Remark
Verdict
Form A.31
N
N
These tests are performed with all types and models of current transformers without internal protection,
and which are specified by the manufacturer for use with the equipment
a) Current transformers
Type/Model
RATED
current A
Supplementary information:
Test current
A
Interrupt
Yes / No
Verdict
Comments
No Equipment
Manufacturer
Page 66 of 77
Appendix 1
Equipment List
Model No.
Report No. STS130523255
Serial No.
Calibration
date
Calibration
due date
34970A
MY44012054
2012.10.25
2013.10.24
34970A
MY44011615
2012.10.25
2013.10.24
TT-K-30-1000
/
2012.10.25
2013.10.24
GDS-250
080943
2012.10.25
2013.10.24
101A-3
3711A
3711A
3711A
3711A
TDS3012B
8716C
8716C
YD2511
115C
45
45
45
YD2654B
7611
31446
A06BI03017
A06BI02095
A06BI03015
A06BH02122
YT204842
870806042
870806037
11-2250
96721596
7662018
8095018
6792039
54B-053
1330848
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
YD9820A
20A-1750
2012.10.25
2013.10.24
YD2650A
BCSS-F-6
NK-300
YT211
088
081050
67420
840156
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2013.10.24
2013.10.24
2013.10.24
2013.10.24
CTH-608
20953
2012.10.25
2013.10.24
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
52
Data Acquisition /
Agilent
Switch Unit
Data Acquisition /
Agilent
Switch Unit
Thermocouple wire
OMEGA
Temp. & Humid.
Gongwen
Chamber
Oven Chamber
Rongfeng
DC Electronic Load
ARRAY
DC Electronic Load
ARRAY
DC Electronic Load
ARRAY
DC Electronic Load
ARRAY
Oscilloscope
Tektronix
Digital Power Meter
Qingzhi
Digital Power Meter
Qingzhi
Ohm Meter
Yang Zi
Multi Meter
Fluke
Desktop Multi Meter
Fluke
Desktop Multi Meter
Fluke
Desktop Multi Meter
Fluke
Grounding Bond Meter Yang Zhi
Leakage Current Meter EXTECH
Insulation Resistance
Yang Zhi
Tester
Hi-Pot Tester
Yang Zhi
Electronic Scale
Balance
Push-Pull Scale
Japan Instrumentation
Digital Caliper
YATO
Electronic ThermoShanghai Qixiang
Hygrometer
Goniometer
Wenzhou
Tumbling Barrel
Zhilitong
Audio Generator
LWDQGS
Noise Generator
Ningbo Zhongce
Plug Torque Tester
Zhilitong
Test Probe 13
Zhilitong
Test Probe 41
Zhilitong
Finger Nail Probe
Zhilitong
Test Finger Probe B
Zhilitong
Rigid Finger Probe
Zhilitong
Test Probe
Zhilitong
Test Probe
Zhilitong
Test Probe D
Zhilitong
Test Probe
Zhilitong
Test hook
Zhilitong
Accessibility Probe
Zhilitong
UL Finger Probe
Zhilitong
Steel Ball
Zhilitong
Ball Pressure Tester
SINNA
Ball Pressure Tester
SINNA
Hammer
SINNA
Torque Driver
Kanon
Timer
San He
Glow Wire Test Set
SINNA
Needle Flame Test Set SINNA
DC Power Supply
Manson
JZC-B2
GT-1
TAG-101
DF1681
LJ-1
TP13
TP41
FN-1
TF-B
RFP
D4L100
TP-C
TP-D
FG2C
TH-1
ZA-1
ULP-01
GQ-1
SN3407
SN3407
SN3406
12LTDK
SH396
ZRS-2
ZY-2
SIM-9106
15032
G010308
308909
071001107
LJ010908
D3L15
D30L80
D12N30
D12J3
D12N50
60065-913
60065-915
60065-914
D12L80
W8L180T1
A1310
D5L97
G121008
08051808
08082302
08083102
08G338
T024
08091118
08091125
G360800228
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
2013.10.24
53
hardened steel pin
Zhilitong
SC30
R25N30
2012.10.25
2013.10.24
54
platform scale
Shanghai
TGT-100
526
2012.10.25
2013.10.24
58
Tape line
Jiabibei
JB-5R1022
262629
2012.10.25
2013.10.24
59
Test rod
Zhilitong
TZ-14
D40N5
2012.10.25
2013.10.24
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
Page 67 of 77
Report No. STS130523255
Equipment List
No Equipment
Manufacturer
Model No.
Serial No.
Calibration
date
Calibration
due date
60
61
62
63
Vibration tester
Surge tester
Digital Power Meter
dust chamber
Draught-proof
enclosure
Hammer
Hammer
Hammer
Data Acquisition /
Switch Unit
Leakage Current Tester
Temp. & Humid.
Chamber
shengshiwei
Ceprei
Qingzhi
Gongwen
SW-TF
1065A
8713B1
SC-500
20100228
0503Y01
870909080
100311
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2013.10.24
2013.10.24
2013.10.24
2013.10.24
Tengbo
TB180
Q100226
2012.10.25
2013.10.24
Zhilitong
Zhilitong
Zhilitong
CJ-3
CJ-3
CJ-3
C031026
C031027
C031028
2012.10.25
2012.10.25
2012.10.25
2013.10.24
2013.10.24
2013.10.24
Agilent
34970A
US37013205
2012.10.25
2013.10.24
Simpson
228
WHTH-100040-880
7173286
2012.10.25
2013.10.24
100631
2012.10.25
2013.10.24
72
Oscillating tube
damsion
DMS-E01
2012.10.25
2013.10.24
73
74
spray nozzle
immersion tester
Lihui
kunshang
LH56
IPX7-1
2012.10.25
2012.10.25
2013.10.24
2013.10.24
75
Test Probe 18
Aodesaichuang
AUTO-18
2012.10.25
2013.10.24
76
Test Probe 19
Aodesaichuang
AUTO-19
2012.10.25
2013.10.24
Agilent
34970A
MY44052414
2012.10.25
2013.10.24
64
65
66
67
68
69
70
Weihuang
2011DNSE010401
63125
SK2018M5
auto110721-1801
auto110721-1902
Agilent
34970A
MY44052411
2012.10.25
2013.10.24
79
80
81
82
Data Acquisition /
Switch Unit
Data Acquisition /
Switch Unit
Digital Power Meter
Desktop Multi Meter
Desktop Multi Meter
Oscillograph Probe
Yokogawa
Agilent
Agilent
Agilent
WT210
34401A
34401A
P4100
2012.10.25
2012.10.25
2012.10.25
2012.10.25
2013.10.24
2013.10.24
2013.10.24
2013.10.24
83
Hi-Pot Tester
ME I RUIKE
RK2672D
2012.10.25
2013.10.24
Qingzhi
8713B1
91K223105
MY44008459
MY44008472
2012010701
RK72D111130010
871109016
2012.10.25
2013.10.24
ZHAOXIN
KXN-6030D
KXN.PS.JPS
2012.10.25
2013.10.24
Aigu
German
10DPSK
10x
356019
12234
2012.10.25
2012.10.25
2013.10.24
2013.10.24
APC
AF-11010G
F310120052
2012.10.25
2013.10.24
Tianya
N509
/
2012.10.25
2013.10.24
Long An
LA-ORT28
LA-201206001
2012.10.25
2013.10.24
KINGPO
7006-27B-1
/
2012.10.25
2013.10.24
KINGPO
7006-28A-1
/
2012.10.25
2013.10.24
KINGPO
7006-27C-1
/
2012.10.25
2013.10.24
KINGPO
7006-50-1
/
2012.10.25
2013.10.24
KINGPO
7006-51A-2
/
2012.10.25
2013.10.24
Tektronix
FEILING
TDS3012B
FL8618
C010353
/
2012.10.25
2012.10.25
2013.10.24
2013.10.24
Agilent
34970A
MY44006829
2012.10.25
2013.10.24
OMEGA
Ceprei
Dongguan lixiong
Inventfine Instrument
Co., Ltd.
TT-J-30-1000
410B
LX-1211
/
1207AG10
/
2012.10.25
2013.02.28
2013.02.28
2013.10.24
2014.02.27
2014.02.27
CH338
1301004
2013.02.28
2014.02.27
77
78
84
Digital Power Meter
Switching Mode Power
85
Supply
86 Torque Driver
87 Magnifying glass
Regulated Power
88
Supply
89 Air Pressure Gauge
Step Temperature
90
Room
"GO“ Gauge for E27
91
Caps
"NOT GO“ Gauge for
92
E27 Caps
"GO“ Gauge for
93 dimension "S1" of E27
Caps
Gauge for E27 Caps for
94
testing contact making
Gauge for E27 Caps for
testing protection
95
against accidental
contact during insertion
96 Oscilloscope
97 Single wing drop tester
Data Acquisition /
98
Switch Unit
99 Thermocouple wire
100 Touch current tester
101 Cord oscillating tester
Lampholder digital
102
torsion meter
Page 68 of 77
Appendix 2
Photo documentation
Photo 1
View: overview
Model: MS2008A
[
] front
[
] rear
[
] right side
[√ ] left side
[
] top
[
] bottom
[
] internal
Photo 2
View:
Model: MS2008A
[
] front
[
] rear
[√ ] right side
[
] left side
[
] top
[
] bottom
[
] internal
Report No. STS130523255
Page 69 of 77
Photo documentation
Photo 3
View:
Model: MS2008A
[√ ] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ ] internal
Photo 4
View:
Model: MS2008A
[
] front
[√ ] rear
[
] right side
[
] left side
[
] top
[
] bottom
[
] internal
Report No. STS130523255
Page 70 of 77
Photo documentation
Photo 5
View:
Model: MS2008A
[
] front
[√ ] rear
[
] right side
[
] left side
[
] top
[
] bottom
[
] internal
Photo 6
View:
Model: MS2008A
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Report No. STS130523255
Page 71 of 77
Photo documentation
Photo 7
View:
Model: MS2008A
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Photo 8
View:
Model: MS2008A
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Report No. STS130523255
Page 72 of 77
Photo documentation
Photo 9
View:
Model: MS2008A
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Photo 10
View:
Model: MS2008A
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Report No. STS130523255
Page 73 of 77
Photo documentation
Photo 11
View: overview
Model: MS2008B
[
] front
[
] rear
[
] right side
[√ ] left side
[
] top
[
] bottom
[
] internal
Photo 12
View:
Model: MS2008B
[
] front
[
] rear
[√ ] right side
[
] left side
[
] top
[
] bottom
[
] internal
Report No. STS130523255
Page 74 of 77
Photo documentation
Photo 13
View:
Model: MS2008B
[√ ] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ ] internal
Photo 14
View:
Model: MS2008B
[
] front
[√ ] rear
[
] right side
[
] left side
[
] top
[
] bottom
[
] internal
Report No. STS130523255
Page 75 of 77
Photo documentation
Photo 15
View:
Model: MS2008B
[
] front
[√ ] rear
[
] right side
[
] left side
[
] top
[
] bottom
[
] internal
Photo 16
View:
Model: MS2008B
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Report No. STS130523255
Page 76 of 77
Photo documentation
Photo 17
View:
Model: MS2008B
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Photo 18
View:
Model: MS2008B
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Report No. STS130523255
Page 77 of 77
Photo documentation
Photo 19
View:
Model: MS2008B
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Photo 20
View:
Model: MS2008B
[
] front
[
] rear
[
] right side
[
] left side
[
] top
[
] bottom
[ √ ] internal
Report No. STS130523255