DEKRA Certification B.V.

Transcription

NOTIFICATION OF TEST RESULTS
Issued to:
Wago-Kontakttechnik GmbH & Co. KG
Hansastrasse 27, 32423 Minden/westfalen, Germany
For the product:
terminal blocks for copper conductors
Trade name:
WAGO
Type/Model:
2060
Manufactured by:
Wago-Kontakttechnik GmbH & Co. KG
Hansastrasse 27, 32423 Minden/westfalen, Germany
Ratings:
see page 38 of the test report
Additional information: This NTR replaces our NTR NL-7385 dated 2015-03-19
Pre-licence factory inspection carried out by
A sample of the product has been tested and found to be in conformity with the
current HD/EN and equivalent national standard
EN 60947-7-1:2009
As shown in the Test Report
2184109.50
This Notification of Test Results is the result of testing a sample of the product submitted, in accordance
with the provisions of the relevant specific standard.
This Notification of Test Results has been established by a body, which participates in the CENELEC
Certification Agreement (CCA) of 11th September 1973 as amended on 29th March 1983. Any other body
participating in the CCA will take this Notification as a basis for granting a national mark of conformity or a
national approval as specified in the CCA, as long as the standard referred to above is still in force in the
country of that body.
Arnhem, 24 June 2015
Number: NTR NL-7419
x
F.S. Strikwerda
Certification Manager
© Integral publication of this attestation and adjoining reports is allowed
CCA
CENELEC CERTIFICATION AGREEMENT
ACCORD DE CERTIFICATION DU CENELEC
DEKRA Certification B.V. Meander 1051, 6825 MJ Arnhem P.O. Box 5185, 6802 ED Arnhem, The Netherlands
T +31 88 96 83000 F +31 88 96 83100 www.dekra-certification.com Company registration 09085396
Responsible CB:
OD ECS 040-1
ed. May 2013
TEST REPORT SUMMARY
Report Reference No. ................... :
2184109.50
Date of issue................................... :
2015-06-24
Tested by (name + signature).......... :
W.C. van Ginkel
Witnessed by (name + signature).... :
Approved by (name + signature) ..... :
H.L. Schendstok
Supervised by (name + signature)... :
4
r
Testing Laboratory........................ :
Address .......................................... :
Meander 1051, 6825 MJ Arnhem, The Netherlands
Testing procedure ........................... :
ENEC/CCA-TL
IECEE-CBTL
TMP
WMT
Testing location ............................ :
Address .......................................... :
Applicant ....................................... :
WAGO Kontakttechnik GmbH
Address .......................................... :
Hansastraße 27, 32423 Minden, Germany
Manufacturer ................................. :
Address .......................................... :
Hansastraße 27, 32423 Minden, Germany
Product.......................................... :
Terminal blocks for copper conductors
Model/Type reference ..................... :
2060
SMT
Trademark ...................................... :
Ratings ........................................... :
Certification Scheme....................... :
Standard(s).................................... :
See page 38 of the test report
ENEC
CCA
Other: ________
EN 60947-7-1:2009
The text of the a.m. European Standard was approved by CENELEC under the Unique Acceptance
Procedure and is identical with the corresponding IEC Publication.
The text of the a.m. European Standard was approved by CENELEC with agreed common
modifications and is not identical with the corresponding IEC Publication.
This EN test report consists of the following parts:
IEC TRF No.: IEC60947_7_1A
Report Reference No....................... : 2184109.50
CENELEC-Addendum Form No. Report Reference No. or Annex No.. :
__________________ .................... :
Copyright © 2013 EEPCA, Paris, France. All rights reserved.
This ECS document together with the test report is only valid if signed by an approved ENEC or CCA Testing
Laboratory and accompanied by the associated ENEC Licence or CCA Notification of Test Results, issued by
a Certification Body member of ECS.
doc20150715111256164.doc
page 1 of 1
Test Report issued under the responsibility of:
TEST REPORT
IEC 60947-7-1
Low-voltage switchgear and controlgear
Part 7: Ancillary equipment
Section One: Terminal blocks for copper conductors
Report Reference No. ................... :
2184109.50
Date of issue................................... :
2015-06-24
Total number of pages .....................
38 pages
CB/CCA Testing Laboratory......... :
Address .......................................... :
Meander 1051, 6825 MJ, Arnhem, The Netherlands
Applicant’s name .......................... :
Address .......................................... :
Hansastraße 27, Minden, Germany
Test specification:
Standard......................................... :
IEC 60947-7-1:2009 (Third Edition)
Test procedure ............................... :
CB Scheme
Non-standard test method…………..:
N/A
Test Report Form No. ................... :
IEC60947_7_1A
Test Report Form(s) Originator ....... :
KEMA Quality B.V.
Master TRF .................................... :
Dated 2009-07
Copyright © 2009 IEC System for Conformity Testing and Certification of Electrical Equipment
(IECEE), Geneva, Switzerland. All rights reserved.
This publication may be reproduced in whole or in part for non-commercial purposes as long as the IECEE is acknowledged as
copyright owner and source of the material. IECEE takes no responsibility for and will not assume liability for damages resulting from
the reader's interpretation of the reproduced material due to its placement and context.
If this Test Report Form is used by non-IECEE members, the IECEE/IEC logo and the reference to the CB
Scheme procedure shall be removed.
This report is not valid as a CB Test Report unless signed by an approved CB Testing Laboratory
and appended to a CB Test Certificate issued by an NCB in accordance with IECEE 02.
Test item description....................... :
terminal blocks for copper conductors
Trade Mark ..................................... :
Manufacturer .................................. :
Model/Type reference ..................... :
2060-…
Ratings ........................................... :
See page 38
Factory location ................................:
WAGO Kontakttechnik GmbH, Hansastraße 27, Minden,
Germany, See complete overview of factory locations: General
product Information
Page 2 of 38
Report No. 2184109.50
Testing procedure and testing location:
CCA Testing Laboratory:
Testing location/ address ..................... :
Associated CCA Laboratory:
4
r
Tested by (name + signature) .....:
W.C van Ginkel
Approved by (+ signature) ..........:
H.L. Schendstok
Testing procedure: TMP
Approved by (+ signature) ...........:
Testing procedure: WMT
Witnessed by (+ signature) ..........:
Approved by (+ signature) ..........:
Testing procedure: SMT
Approved by (+ signature)
....................................................
:
Supervised by (+ signature) ........:
Testing location/ address ............... :
Testing procedure: RMT
Approved by (+ signature)
....................................................
:
Supervised by (+ signature) ........:
TRF No. IEC 60947_7_1A
Page 3 of 38
Report No. 2184109.50
Summary of testing:
Tests performed (name of test and test clause):
Type test
Testing location:
Meander 1051 6826 MJ Arnhem,
The Netherlands
Summary of compliance with National Differences:
Page 4 of 38
Copy of marking plate:
2060
Test item particulars.............................................. :
Classification of installation and use ......................... :
Supply Connection .................................................. :
............................................................................... :
............................................................................... :
Possible test case verdicts:
- test case does not apply to the test object ............... : N/A
- test object does meet the requirement..................... : P (Pass)
- test object does not meet the requirement ............... : F (Fail)
Testing.................................................................... :
Date of receipt of test item ........................................ : 06-2012 and 07-2013
Date (s) of performance of tests ................................ : 07-2012 and 08-2013
Report No. 2184109.50
Page 5 of 38
Report No. 2184109.50
General remarks:
The test results presented in this report relate only to the object tested.
This report shall not be reproduced, except in full, without the written approval of the Issuing testing
laboratory.
"(see Enclosure #)" refers to additional information appended to the report.
"(see appended table)" refers to a table appended to the report.
Throughout this report a comma (point) is used as the decimal separator.
All tests are carried out on type 2060-402 unless otherwise stated
This TRF replaces TRF 2171408.51 dated 2014-06-23.
General product information:
See page 37 and 38
Factory locations:
Wago Elwag sp.z.o.o.
ul. Piekna 58 a, 50-506, Wroclaw
Poland
Wago & Controls (India) Ltd.
C-27, Sector-58, Phase III, 201 301 Noida Gautam Budh Nagar (U.P)
India
Wago Electronic (Tianjin) Co. Ltd.
No. 5 Quanhui Road, 301700, Tianjin
China
WAGO Kontakttechnik GmbH & Co. KG
Hansastraße 27, 32423 Minden/Westfalen
Germany
WAGO Kontakttechnik GmbH & Co. KG, Werk Sondershausen
Waldstraße 1, 99706, Sondershausen
Germany
WAGO Contact S.A.
Route de l’Industrie 19, 1564, Domdidier
Switzerland
Page 6 of 38
Report No. 2184109.50
Particulars: test item vs. test requirements
- method of fixing...................................................... : SMD technology
- number of poles ..................................................... : 1 - 3 poles
- type of clamping units............................................. : screwless-type terminals
- ability to receive conductors.................................... : unprepared conductors, (flexible or rigid)
- number of terminals on terminal assembly............... : 1
- rated cross-section (mm²) ....................................... : 0,75 mm²
- rated connecting capacity (mm²) ............................. : 0,25 mm² - 0,75 mm² rigid and flexible
- rated insulation voltage (Ui) .................................... : See page 37 and 38
- rated impulse withstand voltage (Uimp) ................... : See page 37 and 38
- Conventional free air thermal current (Ith)................ : 9 A
Page 7 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Requirement  Test
5.1
MARKING
Result - Remark
Verdict
Terminal block shall be marked with:
P
- manufacturer's name or trademark
- type designation
5.2
2060
P
The following information shall be stated by the manufacturer if applicable, e.g. in
the manufacturer's data sheet, or his catalogue or on the packing unit:
IEC 60947-7-1
P
- rated cross-section
0,75 mm2
P
- rated connecting capacity
0,25 mm² - 0,75 mm² rigid
and flexible
P
- rated insulation voltage (Ui)
See page 37 and 38
P
- rated impulse withstand voltage (Uimp)
See page 37 and 38
P
- conventional free air thermal current (Ith)
9A
P
- manufacturer's claim for compliance with
EN 60 947-7-1
- service conditions if different from those of Cl. 6.
7.
CONSTRUCTION
7.1
Constructional requirements
7.1.1
Clamping units
All parts of clamping units which maintain contact
7.1.7.1
N
P
and carry current shall be of metal having
adequate mechanical strength
Clamping units connections shall be such that
P
necessary contact pressure is maintained
Clamping units shall be so constructed that the
P
conductor is clamped between suitable surfaces
without damage to the conductor and terminal
Clamping units shall not allow the conductor to be
displaced or to be displaced themselves in a
manner detrimental to the operation of equipment
and the insulation voltage shall not be reduced
below the rated value
P
Page 8 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
Clamping units shall allow the conductor to be
Verdict
P
connected by means ensuring that a reliable
mechanical linkage and electrical contact is
properly maintained
P
Clamping units shall be able to withstand the
forces that can be applied through the connected
conductors
P
Contact pressure is not transmitted through
insulation materials
7.1.2
Mounting
P
Terminal blocks shall be provided with means
that allow them to be securely attached to a rail or
a mounting surface (see 8.3.2)
7.1.3
Clearances and creepage distances
For clearances and creepage distances see 8.4.2
7.1.4
Terminal identification and marking:
N
- terminals intended exclusively for the neutral
conductor
- other terminals
P
- terminal blocks shall have provision, or at least
space, for identification marks or numbers for
each terminal or terminal assembly to be related
to the circuit of which it is to form a part
P
- For the identification of the terminal block the
colour combination green-yellow is not allowed
7.1.5
Resistance to abnormal heat and fire
P
Needle flame test for insulation materials of
terminal blocks (see 8.5)
7.1.6
Rated cross-section and rated connecting capacity
Terminal blocks are so designed that conductors
0,25 mm² - 0,75 mm² rigid
of the rated cross-section and/or the rated
and flexible
connecting capacity can be accepted
P
Page 9 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
8
TESTS
8.3
Verification of mechanical characteristics
8.3.2
Attachment of the terminal block on its support
Result - Remark
Verdict
mounting rail ......................................................: SMD technology
Tighting torque (Nm) ........................................... : -

steel pin diameter (mm) ......................................: 1 mm

force (N) .............................................................: 1 N

During the test, no terminal block shall work free
P

from its rail or support, nor suffer any other
damage
8.3.3
Mechanical properties of clamping units
8.3.3.1
Test of mechanical strenght of clamping units
8.2.4.1
Mechanical strength of clamping units (EN 60947-1)
2
rated cross-section of a rigid conductor (mm²) ....: 0,75 mm

diameter of thread (mm) .....................................: torque (Nm) ........................................................: -

5 times on 2 clamping units at the centre terminal 5 times inserted and
removed
block out of 5 terminal blocks
P

Voltage drop before and after mechanical strength test
2
rated cross-section of a rigid conductor (mm²) ....: 0,75 mm
test current (A) d.c. .............................................: 0,9 A
0,79 mV - 0,82 mV
voltage drop (mV) before mechanical strength


P
test not exceeding 3,2 mV ..................................:
If the measured value exceeds 3,2 mV, the voltage
N
drop is determined on each individual clamping
unit seperately, which shall not exceed 1,6 mV
voltage drop (mV) after mechanical strength test
0,74 mV - 0,84 mV
P
0,25 mm2

not exceeding 150% of the value measured
before mechanical strength test
:
minimum cross-section of a flexible conductor
(mm²) .................................................................:
test current (A) d.c. .............................................: 0,4 A

Page 10 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
voltage drop (mV) before mechanical strength
0,66 mV - 0,76 mV
Verdict
P
test not exceeding 3,2 mV ..................................:
N
unit separately, which shall not exceed 1,6 mV
voltage drop (mV) after mechanical strength test
0,68 mV - 0,79 mV
P
not exceeding 150% of the value measured
before mechanical strength test ..........................:
8.3.3.2
Testing for damage to and accidental loosening of conductors of a terminal block
(flexion test)
2
conductor of the smallest cross-section (mm²) ....: 0,25 mm flexible and rigid
1
number of conductors of the smallest


cross-section ......................................................:
torque (Nm) ........................................................: diameter of bushing hole (mm) ...........................: 6,5 mm

260 mm

height between the equipment and the platen

(mm) ..................................................................:
mass at the conductor(s) (kg) .............................: 0,2 kg
P
135 continuous revolutions: the conductor shall
P
neither slip out of the terminal nor break near the
clamping unit
Pull-out test
force (N) .............................................................: 10 N

1 min, the conductor shall neither slip out of the
P
terminal nor break near the clamping unit
2
conductor of the rated cross-section (mm²) .........: 0,75 mm flexible and rigid
number of conductors of the rated cross-section .: 1



260 mm


(mm) ..................................................................:

Page 11 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
Verdict
P
clamping unit
Pull-out test
force (N) .............................................................: 30 N

P
2
conductor of the largest cross-section (mm²) ......: 0,75 mm flexible and rigid
number of conductors of the largest cross-section 1


...........................................................................:

260 mm


(mm) ..................................................................:

P
clamping unit
Pull-out test
force (N) .............................................................: 30 N

P
conductor of the largest or smallest cross-section

(mm²) .................................................................:
number of conductors of the largest or smallest

cross-section ......................................................:
torque (Nm) ........................................................:

diameter of bushing hole (mm) ...........................:


(mm) ..................................................................:
mass at the conductor(s) (kg) .............................:

Page 12 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
Verdict
N
clamping unit
Pull-out test
force (N) .............................................................:

N
8.3.3.4
Verification of rated cross section and rated connecting capacity
P
One conductor of the two next smaller crosssections can be unhindered and connected in
0,25 mm²
each clamping unit of one terminal block
(up to 35 mm²)
8.4.2
Verification of clearances and creepage distances

Conductor type and conductor cross-section
8.4.2.2
Conductor end length (mm)
6 - 7 mm

Type of support
SMD technology

Clearances (pollution degree 3)
Case A (mm) ....................................................... : 0,8 mm
P
Case B (mm) ....................................................... : 1,5 mm
Measured (mm) ................................................... : 1,7 mm
Rated impulse withstand voltage Uimp (kV)
8.4.2.2
2,5 kV
P
Clearances (pollution degree 2)
Case A (mm) ....................................................... : 0,6 mm
P
Case B (mm) ....................................................... : 1,5 mm
Measured (mm) ................................................... : 1,7 mm
8.4.2.3
2,5 kV
P
Creepage distances:
- pollution degree ...............................................: 2
- comparative tracking index (V) .........................: 600 V

- material group ..................................................: I
- rated insulation voltage Ui (V) ..........................: 320 V



Page 13 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
- minimum creepage distances (mm) ..................: 1,6 mm
- measured creepage distances (mm) ................: 1,7 mm
8.4.2.3
8.4.2.3
Verdict


Creepage distances:

- material group ..................................................: I





Creepage distances:

- material group ..................................................: I



8.4
Verification of electrical characteristics
8.4.3
Dielectric tests


Dielectric test, Uimp indicated:
- five terminal blocks connected with
0,75 mm² /rigid/ 6 – 7mm

unfavourable cross-section (mm²) / type /
conductor end length (mm) .................................:
- rated impulse withstand voltage (kV) ................: 2,5 kV
- test Uimp main circuits (kV) ..............................: 2,95 kV

P
Dielectric test, Uimp not indicated:
0,75 mm² /rigid/ 6 – 7mm

conductor end length (mm) :
- rated insulation voltage (V) ...............................: 320 V (tested with highest)
- test voltage for 5 sec (V) ..................................: 1890 V

P
Page 14 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
8.4.2
Verification of clearances and creepage distances
Result - Remark
Verdict
type 2060-802/998-404 and 2060-802

Conductor type and conductor cross-section
8.4.2.2
Conductor end length (mm)
6 - 7 mm

Type of support
SMD technology

Clearances
Case A (mm) ....................................................... : 5,5 mm
P
Case B (mm) ....................................................... : 2 mm
Measured (mm) ................................................... : 6,8 mm
8.4.2.3
8.4.2.3
8.4.2.3
6 kV
P
Creepage distances:

- material group ..................................................: I


- minimum creepage distances (mm) ..................: 5 mm



Creepage distances:

- material group ..................................................: I





Creepage distances:

- material group ..................................................: I

- minimum creepage distances (mm) ..................: 5 mm



Page 15 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
8.4
Verification of electrical characteristics
8.4.3
Dielectric tests
Verdict

0,75 mm² /rigid/ 6 – 7 mm

conductor end length (mm) .................................:
- rated impulse withstand voltage (kV) ................: 6 kV
- test Uimp main circuits (kV) ..............................: 9,8 kV

P
Dielectric test, Uimp not indicated:
0,75 mm² /rigid/ 6 – 7mm

conductor end length (mm) :
- rated insulation voltage (V) ...............................: 1000 V (tested with highest)
- test voltage for 5 sec (V) ..................................: 2200 V

P
Page 16 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
8.4.5
Temperature-rise test
Result - Remark
Verdict
Temperature-rise conditions:
- test current (A) .................................................:
9A

- cross-section of the conductor (mm²) ................: 0,75 mm rigid

- torque (Nm) ......................................................: 29,0 K – 32,6 K
- temperature-rise does not exceed 45 K

Voltage drop before and after temperature-rise test:
- test current (A) d.c. ...........................................: 0,9 A
- voltage drop (mV) before temperature-ise test
0,53 mV - 0,79 mV
P

P
not exceeding 3,2 mV .........................................:
N
- voltage drop (mV) after temperature-rise test not 0,57 mV - 0,81 mV
P
exceeding 150% of the value measured before
temperature-rise test ..........................................:
8.4.6
Short-time withstand current test
2
- rated cross-section of the conductor (mm²) .......: 0,75 mm
- torque (Nm) ......................................................: -


- test current (A) .................................................: 90 A
- duration of the test current (s) ...........................: 1 s

At the end of the test no damage that may impair
P

further use shall have occurred to any part of the
terminal block
Voltage drop before and after short-time withstand current test
- test current (A) d.c. ...........................................: 0,9 A
0,91 mV
- voltage drop (mV) before short-time withstand

P
current test not exceeding 3,2 mV ......................:
N
Page 17 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
- voltage drop (mV) after short-time withstand
0,78 mV
Verdict
P
current test not exceeding 150% of the value
measured before short-time withstand current test
...........................................................................:
8.4.7
Ageing test (for screwless-type terminal blocks only)
Maximum ambient temperature (C) ...................: 40 C /
Rated cross-section rigid or stranded < 10 mm²

2
0,75 mm

solid, > 10 mm² stranded (mm²) ..........................:
Test current (A) according 8.4.5 .........................: 9 A
Heating cabinet is increased, in each cycle to (C) 40 °C


...........................................................................:
Test current (A) d.c. for measurement of the
0,9 A

voltage drop .......................................................:
Voltage drop after 0 cycles:
- requirement:  3,2 mV (mV) .............................: 1,78 mV - 1,98 mV
P
N
Voltage drop after the 24th cycle:
- requirement: 4,8 mV (mV) ................................: 1,83 mV - 1,99 mV
P
Voltage drop after the 48th cycle
- requirement:  4,8 mV or 1,5 times the value
1,83 mV - 1,99 mV
P
1,83 mV - 1,99 mV
P
1,83 mV - 1,99 mV
P
measured after the 24th cycle (mV) ....................:
Page 18 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
1,83 mV - 1,99 mV
P
1,84 mV - 1,99 mV
P
1,83 mV - 1,99 mV
P
1,83 mV - 1,99 mV
P
Verdict
Pull-out test
force (N) .............................................................: 30 N

P
8.5
P
Verification of thermal characteristics are checked
by the needle flame test.
P
Before the test, the terminal blocks are stored for
24 h in an atmosphere having a temperature
between 15°C and 35°C and a relative humidity
between 45% and 75%
The flame is applied for 10 s.
5s
P
for insulation walls <1 mm and / or an area
< 100 mm², the flame is applied for 5 s.
The terminal blocks are considered to have
passed the test if the duration of burning is < 30s
in case of ignition.
Moreover, the tissue paper on the pinewood board
shall not ignite if burning or glowing particles fall
from the terminal block.
P
Page 19 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
8.6
Verification of EMC characteristics
Result - Remark
Subclause 8.4 of EN 60947-1 applies with the
Verdict
N
following addition:
8.6.1
Immunity
Terminal blocks within the scope of this standard
N
are not sensitive of electromagnetic disturbances
and therefore no immunity tests are necessary.
8.6.2
Emission
N
do not generate electromagnetic disturbances and
therefore no emission tests are necessary.
Annex A
vacant
Annex B
informative
Items subject to agreement between manufacturer and user
Annex C
vacant
Annex D
ADDITIONAL REQUIREMENTS FOR TEST DISCONNECT
N
TERMINALBLOCKS
D5
Product information
- service life in number of cycles
D6.
Normal service, mounting and transport conditions
Clause 6 applies.
D7
Construction and performance conditions
Clause 7 applies with the following additions
D7.1
N
Constructional requirements
N
Page 20 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
D7.1.3
Clearances and creepages are not required to be
Result - Remark
Verdict
N
measured over the open disconnect contacts
(Gap). However, the rated impulse withstand
voltage (Uimp) stated by the manufacturer
according to table 13 of EN 60947-1, without using
the altitude correction factor, shall be verified
across the open disconnect contacts (gap)
(see D.7.2.2)
D7.1.7
Disconnect unit
For longitudinal and perpendicular disconnection,
N
test disconnect terminal blocks may be equipped
with disconnect units, for instance of the following
type:
- plug
- knife
- slide (with or without busbar)
the position of the disconnect unit shall be
N
recognizable in normal use and shall not be
changed unintentionally
D.7.2.2
Dielectric properties

conductor end length tested over open
disconnect contacts (gap) (mm) ..........................:
D.8.4.5
- rated impulse withstand voltage (kV) ................:

- test Uimp without altitude correction factor (kV) :
N
Temperature-rise test
Temperature-rise conditions:
- test current (A) .................................................:

- cross-section of the conductor (mm²) ................:

Page 21 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
Verdict
- torque (Nm) ......................................................:

- torque disconnect unit (Nm) .............................:

- temperature-rise does not exceed 45 K
N
Voltage drop before and after temperature-rise test:
- test current (A) d.c. ...........................................:

- voltage drop (mV) before temperature-rise test
N
not exceeding 1,6 mV times the total of
conductor clamping unit and disconnect unit
contact points .....................................................:
If the measured value exceeds this calculated
N
value, the voltage drop is measured on each
individual conductor clamping unit and disconnect
unit contact point. it shall not exceed 1,6 mV on
any conductor clamping unit and disconnect unit
contact point
- voltage drop (mV) after temperature-rise test not
N
D.8.4.6
Short-time withstand current test
- rated cross-section of the conductor (mm²) .......:

- torque (Nm) ......................................................:


- test current (A) .................................................:

- duration of the test current (s) ...........................:

At the end of the test, continuity shall exist on the
N
test sample assembly and the terminal blocks
shall not show any cracking, breakage or other
critical damage
Voltage drop before and after short-time withstand current test
- test current (A) d.c. ...........................................:

Page 22 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
Verdict
N
- voltage drop (mV) before temperature-rise test
not exceeding 1,6 mV times the total of
conductor clamping unit and disconnect unit
contact points .....................................................:
N
contact point
N
- voltage drop (mV) after temperature-rise test not
D.8.4.7
Ageing test for test disconnect terminal blocks with screwless-type clamping units
Maximum ambient temperature (C) ...................: 40 C /

Rated cross-section rigid or stranded < 10 mm²

solid, > 10 mm² stranded (mm²) ..........................:
Test current (A) according D.8.4.5 ......................:

Torque disconnect unit (Nm) ..............................:

Heating cabinet is increased, in each cycle to (C)

...........................................................................:

Test current (A) d.c. for measurement of the
voltage drop .......................................................:
- requirement:  1,6 mV (mV) .............................: 1 the voltage drop is determined on each individual
2-
clamping unit separately
345-
N
Page 23 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
- requirement: 2,4 mV (mV) ................................: 1 -
Verdict
N
2345Voltage drop after the 48th cycle
1-
measured after the 24th cycle, whichever is the
2-
N
lower (mV) .........................................................: 3 45Voltage drop after the 72th cycle:
1-
2-
N
1-
2-
N
1-
2-
N
Page 24 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
Result - Remark
1-
2-
Verdict
N
1-
2-
N
1-
2-
N
lower (mV) .........................................................: 3 45Pull-out test
force (N) .............................................................:

N
D.8.5.1
Service life
- rated cross-section of the conductor (mm²) .......:

- torque (Nm) ......................................................:


- number of operating cycles ..............................:

Entire test apparatus is stored for 168 h in dry
N
heat at a temperature of 85 °C
Voltage drop before and after service life
- test current (A) d.c. ...........................................:

Page 25 of 38
Report No. 2184109.50
IEC 60947-7-1
Clause
- voltage drop (mV) before service life test not
Result - Remark
Verdict
N
exceeding 1,6 mV times the total of conductor
clamping unit and disconnect unit contact points :
N
contact point
- voltage drop (mV) after service life test not
N
service life test ...................................................:
D.8.4.5
Emission
N
are not sensitive of electromagnetic disturbances
and therefore no immunity tests are necessary.
8.6.2
Emission
do not generate electromagnetic disturbances and
therefore no emission tests are necessary.
N
Page 26 of 38
Clause
Report No. 2184109.50
Result - Remark
Verdict
ANNEX A EN 60998-2-2 screwless-type clamping units
8
MARKING
8.1
On main part:
a) rated connecting capacity (mm²).......................: 0,75 mm²
P
b) rated insulation voltage (V)...............................:
N
c) T marking (°C) (if > 40 C or < -5 C) ................:
N
d) type reference .................................................: 2060
P
e) manufacturer's or responsible vendor's name,
Wago
trademark or identification mark............................:
P
f) IP if > IP20 .......................................................:
N
Type of acceptable conductor "r" or "f"
P
Small devices: only d) and e) indicated on device
P
All marks visible on smallest package unit
catalogue
P
8.2
Multiway terminal devices: at least two adjacent
P
8.4
Marking: durable and easily legible; 15 s water;
15 s hexane
P
9
PROTECTION AGAINST ELECTRIC SHOCK
Live parts not accessible
P
10
CONNECTION OF CONDUCTORS
10.1
Connecting devices allow correct connection of
conductors
P
10.101
Connection or disconnection: use a general tool or
simple insertion
P
Page 27 of 38
Clause
Report No. 2184109.50
Result - Remark
Disconnection operation other than a pull
10.102
Verdict
P
Terminals accept two or more conductors of same or different nominal crosssectional areas; see table 101 (as specified by manufacturer):
P
Rated connecting capacity (mm²) .........................: 0,75 mm²
0,25 mm² - 0,75 mm²
Suitable for connecting cross-sectional areas
(mm²) ..................................................................: (flexible or rigid)
10.103
Terminals accept rigid and flexible conductors
(table 101), unless otherwise specified (see 8.1)
P
Smallest diameter (mm); largest diameter (mm)....: 0,25 mm²/ 0,51 mm/ rigid
0,25 mm²/ 0,61 mm/ flexible
0,75 mm² /1,00 mm/ rigid
0,75 mm² /1,30 mm/ flexible
During the test: terminals show no damage
10.104
Terminals clamp the conductor without undue damage:
10.104.1
Connection/disconnection 5 times: smallest
0,25 mm²/ 0,51 mm/ rigid
diameter (mm).....................................................: 0,25 mm²/ 0,61 mm/ flexible
P
Connection/disconnection 5 times: largest
0,75 mm² /1,00 mm/ rigid
diameter (mm).....................................................: 0,75 mm² /1,30 mm/ flexible
After the test, terminal not damaged
10.104.2
Rated cross-sectional areas (mm²) .......................: 0,75 mm²
.
Type....................................................................: rigid and flexible
After the test, no wire of conductor escaped
outside the terminal
10.105
P
P
Smallest cross-sectional area (mm²); height H
0,25 mm² rigid / 260 mm /
(mm); mass (kg) ..................................................: 0,2 kg
Largest cross-sectional area (mm²); height H
0,75 mm² rigid / 260 mm /
(mm); mass (kg) ..................................................: 0,4 kg
during the test: the conductor does not slip out, no
break near clamping unit and no damage
10.106
Pull test:
- min. cross-sectional area (mm²); pull (N).............: 0,25 mm² rigid / flexible 10 N
P
Page 28 of 38
Clause
Report No. 2184109.50
Result - Remark
Verdict
- max. cross-sectional area (mm²); pull (N)............: 0,75 mm² rigid / flexible 30 N
- during the test the conductor does not come out
P
11
CONSTRUCTION
11.101
Contact pressure not transmitted via insulating
material, unless there is sufficient resiliency
11.102
Insertion and disconnection, in accordance with
manufacturer's instructions
P
Openings clearly distinguishable
P
11.103
P
Terminals so constructed that:
- each conductor is clamped individually
P
- conductors can be connected or disconnected at
same time or separately
P
Possible to clamp maximum number of
conductors
P
11.104
Inadequate insertion of conductor avoided
P
11.2
Clamping units clamp conductors reliably and
between metal surfaces
P
11.3
Connecting devices: insulation of conductors not
in contact with live parts of different polarity
P
11.4
Insulating lining: adequate mechanical strength
and secured in a reliable manner
P
11.5
Current-carrying parts: adequate mechanical
strength, electrical conductivity and resistance to
corrosion; type of metal........................................:
P
Current-carrying parts not made with electroplated
coating if subjected to mechanical wear
P
11.6
Terminals: possible to connect number of conductors as specified by the
manufacturer:
- number of conductors ........................................: 1
- rigid, cross-sectional area (mm²) ........................: 0,25 mm² -0,75 mm²
- flexible, cross-sectional area (mm²) ....................: 0,25 mm² -0,75 mm²
11.7
Fixing means of bases do not serve any other
purpose
12
RESISTANCE TO AGEING, TO HUMIDITY CONDITIONS, TO INGRESS OF
SOLID OBJECTS AND TO HARMFUL INGRESS OF WATER
P
Page 29 of 38
Report No. 2184109.50
Clause
12.1
Connecting devices resistant to ageing; after the
test (168 h): no cracks visible, not sticky or greasy,
no damage; test temperature (C) ........................:
12.2
After humidity test (91-95%): no damage; test
48 h
duration (168 h for connecting devices > IPx2,
48 h for all other)..................................................:
P
12.3
IP test (IEC 60529) ..............................................: IPx
N
After the test, electric strength test as 13.4, and by IPx
inspection
N
no appreciable entry of water
N
Result - Remark
70 C
13
INSULATION RESISTANCE AND ELECTRIC STRENGTH
13.3
Clamping unit connected with: smallest
cross-sectional area (mm²); largest cross-sectional
area (mm²) ..........................................................:
T + 30 °C =
Verdict
P
Insulation resistance (500 V d.c. for 1 min):
1) between all clamping units connected together
and the body > 5 M ...........................................:
N
2) between each clamping unit and all others
connected to the body > 5 M..............................:
N
3) between metal foil and the body > 5 M ...........:
N
3a) if necessary, between live parts and metal
covers and enclosures > 5 M .............................:
N
3b) if necessary, between live parts and surface on
which the base is mounted > 5 M.......................:
13.4
Electric strength (a.c. for 1 min): no flashover or breakdown:
1) test voltage (V)...............................................:
N
2) test voltage (V)...............................................:
N
3) test voltage (V)...............................................:
N
3a) test voltage (V) ..............................................:
N
3b) test voltage (V) ..............................................:
N
14
MECHANICAL STRENGTH
14.101
the test conductor, properly inserted into a clamping unit of the connection devices
shall be allowed to be bent (deflected) in all 12 directions each of them differing
from the adjacent directions by 30° ± 5°
Deflection test (principle of test apparatus shown in figure 103a):
a 10 th of the test current (A) .................................: 0,4 A

Page 30 of 38
Clause
Report No. 2184109.50
Result - Remark
Verdict
smallest cross-sectional area (mm2) 10.103 .........: 0,25 mm²

Force (N) (table 104) ...........................................: 0,09 N

Distance (mm) (table 104) ………………………….: 100 mm

1
2
3

st
0,51
0,59
0,65
P
nd
0,56
0,58
0,66
P
rd
0,57
0,56
0,64
P
th
0,61
0,59
0,63
P
th
0,65
0,57
0,65
P
th
0,66
0,56
0,64
P
th
0,64
0,57
0,68
P
th
- voltage drop measured (mV) (8 deflection) .......:
0,67
0,60
0,71
P
- voltage drop measured (mV) (9th deflection) .......:
- screwless terminal number.................................:
- voltage drop measured (mV) (2 deflection) ......:
0,68
0,58
0,70
P
th
0,65
0,57
0,67
P
th
- voltage drop measured (mV) (11 deflection) .....:
0,62
0,56
0,68
P
- voltage drop measured (mV) (12th deflection) .....:
0,68
0,61
0,71
P
- requirement:  2,5 mV
P
th
a 10 of the test current (A) .................................: 0,9 A
P
2
Largest cross-sectional area (mm ) 10.103 ..........: 0,75 mm²
P
force (N) (table 104) ............................................: 0,16 N

Distance (mm) (table 104) ………………………….: 100 mm

1
2
3

st
0,71
0,84
0,89
P
nd
0,76
0,84
0,88
P
rd
0,78
0,86
0,84
P
- voltage drop measured (mV) (4th deflection) .......:
- screwless terminal number.................................:
- voltage drop measured (mV) (2 deflection) ......:
0,79
0,85
0,86
P
th
0,77
0,84
0,84
P
th
0,74
0,85
0,82
P
th
0,76
0,86
0,81
P
th
0,78
0,84
0,81
P
th
0,79
0,81
0,84
P
th
0,79
0,83
0,83
P
th
0,78
0,81
0,82
P
th
0,77
0,79
0,80
P
Page 31 of 38
Clause
Report No. 2184109.50
Result - Remark
- requirement:  2,5 mV
Verdict
P
14.2
Tumbling barrel (for < 50 g): 50 falls; after the test
no damage
14.3
Impact test (for > 50 g): 10 blows:
N
- height of fall: 7,5 cm
N
- height of fall: 10 cm
N
N
N
After the test, no damage and live parts shall not
become accessible
N
15
0,47 gr
P
TEMPERATURE RISE
Terminal..............................................................:
T marking (C) .....................................................:
single
Yes
multiway
(C):
P
N
Largest cross-sectional area (mm²) ......................: 0,75 mm²
Conductors..........................................................: rigid
Rated connecting capacity (mm²) .........................: 0,75 mm² rigid and flexible
Test current (A)....................................................: 9 A
Temperature rise does not exceed 45 K (1) ..........: 34,0 K
15.101
P
P
P
Universal, rigid conductors - 6 samples
P
Universal, flexible conductors - 6 samples
N
Non-universal, rigid solid conductors - 6 samples
N
Page 32 of 38
Clause
Report No. 2184109.50
Result - Remark
Verdict
Non-universal, rigid stranded conductors 6 samples
N
Non-universal, flexible conductors - 6 samples
N
Temperature (°C).................................................:
40 °C
80°C
Smallest cross-sectional area (mm ) ...................: 0,25 mm²
Current (A) ..........................................................: 4 A
- requirement: 22,5 mV or 1,5 times 24th cycle
value...................................................................:
- solid conductors.................................................: 1 – 8,84 mV
2 – 8,95 mV
3 – 8,54 mV
P
- stranded conductors ..........................................: 1 23-
N
mV
mV
mV
- flexible conductors.............................................: 1 – 10,33 mV
2 – 8,87 mV
3 – 9,17 mV
P
Largest cross-sectional area (mm²) ......................: 0,75 mm²
Current (A) ..........................................................: 9 A
- requirement: 22,5 mV or 1,5 times 24th cycle
value...................................................................:
- solid conductors.................................................: 1 – 18,78 mV
2 – 19,26 mV
3 – 17,85 mV
- stranded conductors ..........................................: 1 23-
mV
mV
mV
- flexible conductors.............................................: 1 – 18,67 mV
2 – 18,30 mV
3 – 20,38 mV
P
N
P
Page 33 of 38
Clause
16
RESISTANCE TO HEAT
16.2
Heating cabinet: no damage, after the test,
markings still legible; test temperature (C)
16.3
Ball-pressure test (125 C) for parts necessary to
retain current-carrying parts in position
Ball-pressure test for parts not necessary to retain
current-carrying parts in position; test temperature
(C) .....................................................................:
Report No. 2184109.50
Result - Remark
85 C
T + 45 C =
P
P
70 C
40 +T
Diameter of impression not exceeding 2 mm.........: 0,98 mm
17
Verdict
N
P
CREEPAGE DISTANCES, CLEARANCES AND DISTANCES THROUGH
SEALING COMPOUND
Creepage distances (mm) and clearances (mm)
between live parts of different polarity ...................:
idem, requirement (mm).......................................:
N
between live parts and metal covers and
enclosures...........................................................:
idem, requirement (mm).......................................:
between live parts and surface on which the base
is mounted ..........................................................:
N
Page 34 of 38
Clause
Report No. 2184109.50
Result - Remark
Verdict
ANNEX B IEC 60598-1: 2008 screwless terminals (part of the luminaire)
15
SCREWLESS TERMINALS
15.2
Type of terminal ...................................................: Screwless

Rated current (A) .................................................: 9 A

15.3.1
Material
15.3.2
Terminals and connections shall clamp the
conductor with sufficient pressure and without
undue damage
Terminals so designed that, when the conductor
has been adequately inserted
into the terminal, further insertion of its end is
prevented by a stop.
15.3.3
P
P
N/A
15.3.4
Unprepared conductors
15.3.5
Electrical conductivity is not transmitted through
insulating material
P
15.3.6
Clear connection method
P
15.3.7
Clamping independently
P
15.3.8
Terminals shall be suitably fixed to the equipment
P
15.3.10
Conductor size
Type of conductor
15.5.1
15.5.1.1
Terminals and connections shall have adequate
mechanical strength. Compliance is checked by
the tests of 15.5.1.1 and 15.5.1.2.
Pull test spring-type terminals (4 N, 4 terminals)
Smallest cross-sectional area (mm²)……………….. 0,25 mm², 5 times inserted
and removed, two
terminals
P
0,75 mm², 5 times inserted
and removed, two
terminals
P
Largest cross-sectional area
(mm²)………………….
15.5.1.1.2
P
N/A
Pull test pin or tab terminals (4 N, 4 samples)
Insertion force not exceeding 50 N
N/A
15.5.2
Permanent connections: pull-off test (20 N)
15.6
Electrical tests
15.6.1.3
9 A for 0,75 mm² solid
Voltage drop (mV) after 1 h with test current (A)
(5 terminals).........................................................: 4 A for 0,2 mm² solid
Voltage drop shall not exceed 15 mV
15.6.2
Heating test ( 50 cycles )
See table 1
P
P
Page 35 of 38
Clause
15.6.2
(15.7)
(15.8.1)
(15.9)
Report No. 2184109.50
Result - Remark
Verdict
Number of cycles .................................................: 50

Voltage drop (mV) after 10th and 25th cycles with 4 A, 0,2 mm² solid
test current (A) (4 samples) ..................................:
Voltage drop shall not exceed more than 50 % of
See table 2
the voltage drop measurements on the same
terminal tested under 15.6.1, or if the increase in
voltage drop is less than 2 mV, the terminals
comply with the requirement.
In no case the voltage drop shall exceeds 22,5 mV
P
P
P
Heating test ( 100 cycles )
Number of cycles .................................................: 100
P
Voltage drop (mV) after 50th and 100th cycles with 9 A, 0,75 mm² solid
test current (A) (4 samples) ..................................:
Voltage drop shall not exceed more than 50 % of
See table 2
the voltage drop measurements on the same
terminal tested under 15.6.1, or if the increase in
voltage drop is less than 2 mV, the terminals
comply with the requirement.
P
In no case the voltage drop shall exceeds 22,5 mV
P
P
Terminals external wiring
N/A
Terminal size and rating
N/A
Pull test spring-type terminals or weded
connections (4 samples); pull (N) ........................:
N/A
Pull test pin or tab terminals (4 samples);
pull (N) ................................................................:
N/A
Contact resistance test
N/A
Voltage drop (mV) after 1 h
N/A
Page 36 of 38
Report No. 2184109.50
Table 1 Voltage drop after 1 hour
Smallest cross-sectional area (mm²)
0,25 mm²
Test current (A)
4A
terminal
voltage drop (mV)
1
2
3
4
5
7,48
4,77
6,56
10,78
4,63
Largest cross-sectional area (mm²)
0,75 mm²
Test current (A)
9A
terminal
voltage drop (mV)
1
2
3
4
5
7,13
9,03
7,80
7,06
7,77
Table 2 Heating test
Smallest cross-sectional area (mm²)
0,25 mm²
Test current (A)
4A
terminal
1
2
3
4
5
th
7,16
4,71
6,38
9,96
4,54
th
7,31
4,68
6,41
10,26
4,7
1
2
3
4
5
6,84
9,88
9,11
5,58
8,98
6,89
9,9
9,12
5,57
8,93
voltage drop (mV) after 10 cycle
Largest cross-sectional area (mm²)
0,75 mm²
Test current (A)
9A
terminal
th
th
Page 37 of 38
Report No. 2184109.50
ANNEX C: photos and product information
The in this test report mentioned types may also been used in combination with the connecting links
2060-901 through 2060-906
Page 38 of 38
Report No. 2184109.50
Product data - type 2060-401, 2060-401/998-404, 2060-421, 2060-421/998-404, 2060-451,
2060-451/998-404, 2060-471 and 2060-471/998-404
rated voltage
: 400 V pollution degree 3
630 V pollution degree 2
rated impulse withstand voltage
: 2,5 kV
rated current
: 9A
rated connecting capacity
: 0,75 mm² rigid and flexible
connectable conductors
: 0,25 mm² - 0,75 mm² rigid and flexible
description
: connection device with 1 screwless terminal per pole, for SM
D mounting technology, 1-pole
2060-452/998-404, 2060-472 and 2060-472/998-404
rated voltage
: 2,5 kV
rated current
: 9A
description
D mounting technology, 2-poles
2060-453/998-404, 2060-473 and 2060-473/998-404
rated voltage
: 320 v pollution degree 2
2,5 kV
rated current
: 9A
description
D mounting technology, 3-poles
2060-852/998-404, 2060-872 and 2060-872/998-404
rated voltage
: 6 kV
rated current
: 9A
description
: connection device with 1 screwless terminal per pole,for SMD
mounting technology, 2-poles
These units are certified as components, when used in equipment the clearance and creepage distances
must comply with the applicable standard for the combination.

DEKRA Certification B.V.

Transcription

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