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Test Report issued under the responsibility of:
TEST REPORT
IEC 60252-1
A.C. motor capacitors –
Part 1: General – Performance, testing and rating –
Safety requirements – Guide for installation and operation
Report Reference No. ..................... : CVC2013-1136
Date of issue..................................... : Jan. 24, 2014
Total number of pages ..................... : 22
CB Testing Laboratory ................... : Vkan Certification & Testing Co., Ltd. (CVC)
Address ............................................ : No. 3 Tiantai Yi Road, Kaitai Avenue, Science City, Guangzhou, Guangdong 510663, P.R. China
Applicant’s name ............................ : Zhejiang Yuwang Electric Appliance Co., Ltd.
Address ............................................ : Zhejiang province Zhuji City Tao Zhu streets of Changping Road 38
Test specification:
Standard ........................................... : IEC 60252-1:2010 (Second Edition)
Test procedure ................................. : CB Scheme
Non-standard test method…………..: N/A
Test Report Form No. ..................... : IEC60252_1B
Test Report Form(s) Originator ........ : CQC
Master TRF ...................................... : Dated 2012-02
Copyright © 2012 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.
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 ..................... : AC Motor capacitor
Trade Mark ....................................... : /
Manufacturer .................................... : Zhejiang Yuwang Electric Appliance Co., Ltd.
Model/Type reference ....................... : CBB61
Ratings ............................................. : 0,5μF±5% 300VAC Class C 50/60Hz 40/70/21 P0 SH
20μF±5% 300VAC Class C 50/60Hz 40/70/21 P0 SH
Page 2 of 22 Report No.: CVC2013-1136
TRF No.: IEC60252_1B
Testing procedure and testing location:
CB Testing Laboratory: Vkan Certification & Testing Co., Ltd. (CVC)
Testing location/ address ...................... : No. 3 Tiantai Yi Road, Kaitai Avenue, Science City, Guangzhou, Guangdong 510663, P.R. China
Associated CB Test Laboratory:
Testing location/ address ...................... :
Tested by (name + signature) ..... : Wang Gang
Approved by (+ signature) ........... : Luo Junbo
Testing procedure: TMP
Tested by (name + signature) ..... :
Approved by (+ signature) ........... :
Testing location/ address ...................... :
Testing procedure: WMT
Tested by (name + signature) ..... :
Witnessed by (+ signature) ......... :
Approved by (+ signature) ........... :
Testing location/ address ...................... :
Testing procedure: SMT
Tested by (name + signature) ..... :
Approved by (+ signature) ........... :
Supervised by (+ signature) ........ :
Testing location/ address ...................... :
Testing procedure: RMT
Tested by (name + signature) ..... :
Approved by (+ signature) ........... :
Supervised by (+ signature) ........ :
Testing location/ address ...................... :
Page 3 of 22 Report No.: CVC2013-1136
TRF No.: IEC60252_1B
List of Attachments (including a total number of pages in each attachment): N/A
Summary of testing:
The capacitors with the highest capacitance (20µF) and the lowest capacitance (0,5μF) in this range are selected for full-item type test and the results are presented in this report.
Tests performed (name of test and test clause):
Group 1: 5.6 Visual examination 8 Check of markings 5.10 Check of dimensions 5.11 Mechanical tests (excluding soldering) 5.12 Sealing test
Group 2: 5.13 Endurance test
Group 3: 5.11.2 Soldering (if applicable) 5.14 Damp heat test 5.7 Voltage test between the terminals 5.8 Voltage test between terminals and case
Group 4: 5.15 Self-healing test
Group 5: 5.16 Destruction test (if marked on the capacitor)
Group 6: 5.17 Resistance to heat, fire and tracking (not applicable to capacitors with lead terminations)
Testing location:
Vkan Certification & Testing Co., Ltd. (CVC)
No. 3 Tiantai Yi Road, Kaitai Avenue, Science City, Guangzhou, Guangdong 510663, P.R. China
Summary of compliance with National Differences
List of countries addressed: N/A
The product fulfils the requirements of IEC60252-1:2010(ed. 2.0)
Page 4 of 22 Report No.: CVC2013-1136
TRF No.: IEC60252_1B
Copy of marking plate:
The artwork below may be only a draft. The use of certification marks on a product must be
authorized by the respective NCBs that own these marks.
Page 5 of 22 Report No.: CVC2013-1136
TRF No.: IEC60252_1B
Test item particulars .................................................. :
type of capacitor ........................................................... : CBB61
self-healing capacitor .................................................... : SH
discharge device of capacitor ....................................... : None
type of operation ........................................................... : None
rated duty cycle ............................................................. : None
class of operation ......................................................... : C
rated voltage of capacitor (UN) ..................................... : 300VAC
rated frequency of capacitor (fN)................................... : 50/60Hz
rated capacitance of capacitor (CN) ............................. : 0,5μF; 20μF
rated current of capacitor (IN) ....................................... : None
rated output of capacitor (QN) ....................................... : None
class of safety protection .............................................. : P0
service conditions ......................................................... : 40/70/21
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 ............................................ : Dec. 12, 2013
Date (s) of performance of tests ................................... : Dec. 12, 2013 –Jan. 24, 2013
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.
Manufacturer’s Declaration per sub-clause 6.2.5 of IECEE 02:
The application for obtaining a CB Test Certificate includes more than one factory location and a declaration from the Manufacturer stating that the sample(s) submitted for evaluation is (are) representative of the products from each factory has been provided ................................................................ :
Yes
Not applicable
When differences exist; they shall be identified in the General product information section.
Page 6 of 22 Report No.: CVC2013-1136
TRF No.: IEC60252_1B
Name and address of factory (ies)........................... : Zhejiang Yuwang Electric Appliance Co., Ltd.
Zhejiang province Zhuji City Tao Zhu streets of Changping Road 38
General product information:
This report is applicable to capacitors type CBB61 series: 0,5; 0,8μF; 0,82μF; 1μF; 1,2μF; 1,3μF;
1,5μF; 1,8μF; 2μF; 2,2μF; 2,4μF; 2,5μF; 2,8μF; 3μF; 3,5μF; 4μF; 4,5μF; 4,7μF; 4,75μF; 5μF ; 6μF ; 7μF;
8μF; 8,5μF; 9μF; 10μF; 11μF; 12μF ; 13μF ; 14μF; 15μF; 16μF; 18μF; 20μF 300VAC Class C 50/60Hz
40/70/21 P0 SH.
Page 7 of 22 Report No.: CVC2013-1136
TRF No.: IEC60252_1B
The samples have been tested according to the following table
IEC 60252-1
Group Tests Clause Sample No.
1 Visual examination 5.6
1-4
Check markings 8
Check of dimensions 5.10
Mechanical tests 5.11
Sealing tests(if applicable) 5.12
2 Endurance test 5.13 5-25
3 Soldering(if applicable) 5.11.2
26-31
Damp heat test 5.14
Voltage test between terminals 5.7
Voltage test between terminals and case 5.8
4 Self-healing test(if applicable) 5.15 32-41
5 Destruction test(if applicable) 5.16 -
6 Resistance to heat, fire and tracking 5.17 -
NOTE 1: -
Page 8 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
5.6 Visual examination (Group 1) P
Satisfactory condition, workmanship, marking and finish
P
Legible marking during the life of the capacitor P
8 Marking (Group 1) P
Mark of the following information on the capacitor: P
a) manufacturer’s name, abbreviated name or
trade mark Zhejiang Yuwang Electric Appliance Co.,Ltd.
P
b) manufacturer’s type designation CBB61 P
c) rated capacitance (CN) in microfarads and
tolerance as a percentage 0,5μF ±5%;20μF ±5% P
d) rated voltage (UN) in volts 300VAC P
e) spare N/A
f) rated frequency fN, in hertz, if other than 50Hz 50/60Hz P
g) climatic category 40/70/21 P
h) date of manufacture (a code may be used) 12/2013 P
i) or SH for self-healing capacitors SH P
j) discharge device, written out in full or indicated
by the symbol N/A
k) class of safety protection P0 P
l) approval marks N/A
m) filling material, Reference to liquid used (not needed for dry capacitors)
N/A
n) class of operation or life duration. To be positioned adjacent to the voltage
C P
o) specification (standard) number N/A
If the capacitor is small and has not enough space for marking, items a), b), c), d), g), h), i), k), l), n) shall be marked and other items can be omitted
N/A
If the capacitor is small and has not enough space for marking, item c) can be marked by the standard code according to IEC 60062
N/A
If there is enough space available the rated capacitance and the capacitance tolerance shall be marked in clear text
N/A
Information omitted on the capacitor shall be indicated on the packaging or on the accompanying notice
P
5.10 Check of dimensions (Group 1) P
Dimensions of the case, terminals and fixing arrangements comply with those indicated in the drawing
P
Page 9 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
Check of minimum creepage distances and clearances
P
5.11 Mechanical tests (Group 1) P
5.11.1 Robustness of terminations P
Capacitor subject to test Ua, Ub, Uc and Ud of IEC 60068-2-21, as applicable
P
5.11.1.1 Test Ua – Tensile for all types of terminations: 20N P
For external wire terminations the cross sectional area at least 0,5mm
2
0,5mm2 P
5.11.1.2 Test Ub – Bending only for wire terminations N/A
Two consecutive bends applied (half of the terminations)
N/A
5.11.1.3 Test Uc – Torsion only for wire terminations N/A
Two successive rotations of 180 applied (other half of the terminations)
N/A
5.11.1.4 Test Ud – Torque for threaded terminations N/A
Thread diameter (mm) ........................................... : —
Test torque (N·m) ................................................... : —
Screw material have adequate resistance against stress cracking
N/A
5.11.1.5 Visual examination P
After each of these tests, the capacitors have no visible damage
P
5.11.3 Vibration P
Vibration frequency is 10Hz to 55Hz —
Amplitude is ±0,35mm —
Test duration per axis is 10 frequency cycles (3 axes offset from each other by 90°) 1 octave per minute
—
No perceivable capacitance change is permitted (See appended table) P
After the test, the capacitor subjected to the a.c. voltage test between terminals and the case for 60s
P
Test voltage (V) ...................................................... : 2000V —
No dielectric breakdown or flashover occur P
No visible damage when all the test procedures have been carried out
P
5.11.4 Fixing bolt or stud (if fitted) N/A
Fixing threaded bolts and attachments to the capacitor body have adequate resistance to ageing deterioration in service
N/A
Thread diameter (mm) ........................................... : —
Prior to commencement of the endurance test, a torque applied (N·m) .............................................. :
—
Page 10 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
On completion of the endurance test, a torque applied (N·m) ......................................................... :
—
No failures are permitted N/A
5.12 Sealing test (Group 1) N/A
Test temperature (C) ............................................ : —
Storage time (h) ..................................................... : —
No leakage occur N/A
After the test, no impair for the sealing N/A
No liquid leakage and distorted case N/A
5.13 Endurance test (Group 2) P
Capacitors are mounted in the test chamber P
Test temperature (C) ............................................ : 70C±2C —
Test voltage (V) ...................................................... : 1,25×300=375V —
Energized time (h); beginning; end ........................ : 600h Dec. 20, 2013–Jan. 14, 2014
—
5.13.3 During the test, no permanent breakdown, interruption or flashover occur
P
No apparent leak which forms droplets within 10 min when kept at upper temperature limit in the most unfavourable position
P
After the test, capacitance change not more than 3%
(See appended table) P
5.11.2 Soldering (Group 3) N/A
This test is carried out only when terminals are designed for connection by soldering, Test method according to Test T of IEC60068-2-20
N/A
Solder bath method N/A
The solder globule method N/A
Use of soldering iron test, with soldering iron size A
N/A
No perceivable capacitance change is permitted (See appended table) N/A
No visible damage N/A
5.14 Damp-heat test (Group 3) P
This test is carried out in accordance with IEC60068-2-78
—
Test temperature (C) ............................................ : (40 ± 2) °C —
Relative humidity ................................................... : (93 ± 3) % —
Test period(d) ; beginning; end .............................. : Dec. 31, 2013–Jan. 21, 2014 —
Page 11 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
After the damp-heat test, capacitance change not more than 0,5%
(See appended table) P
5.7 Voltage test between terminals (Group 3) P
Test voltage (V) ..................................................... : 600V —
Test frequency (Hz) ............................................... : 50 Hz —
Test time (s) ........................................................... : 60s —
No flashover or permanent breakdown occur P
For metallized capacitors self-healing may occur P
5.8 Voltage test between terminals and case (Group 3) P
Test voltage (V) ..................................................... : 2000V —
Test frequency (Hz) ............................................... : 50 Hz —
Test time (s) ........................................................... : 60s —
During the test, no dielectric breakdown or flashover occur
P
5.15 Self-healing test (Group 4) P
Self-healing capacitors have adequate self-healing properties
P
Test voltage (V) ..................................................... : 600V —
Test time (s) ........................................................... : 60s —
If fewer than five self-healing breakdowns (clearings) occur during this time, The voltage increase until five clearings have occurred since the beginning of the test or until the voltage has reached 3,5UN
(see appended table) P
The voltage then decrease 0,8 times the voltage at which the fifth clearing occurred or 0,8 times the maximum voltage and maintained for 10s, One additional clearing in each capacitor shall be permitted during this period
(see appended table) P
The capacitors shall be deemed to have passed the test if they meet both of the following requirements:
P
1) change of capacitance is <0,5% (see appended table) P
2) RC value is ≥100s (see appended table) P
5.16 Destruction test (Group 5) N/A
5.16.3.1 Preparation and pre-conditioning N/A
The capacitors wrapped closely with cheese-cloth and mounted within an test chamber
N/A
Test temperature (C) ............................................ : —
Test voltage (V) ..................................................... : —
Energized time (h).................................................. : —
Page 12 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
No open-circuit or short-circuit N/A
5.16.3.2 DC conditioning N/A
Five capacitors that have passed the endurance test (group 2) are pre-heated
N/A
Pre-heated temperature (C) ................................. : —
The remaining five capacitors which having passed the routine test are tested at room temperature
N/A
The voltage of d.c. is raised from zero to a maximum of 10UN until a short-circuit occurs or 10UN has been reached
N/A
Capacitors shall be removed from d.c. conditioning when the voltage is zero or 10UN has been reached and maintained for a period of 5 min
N/A
A capacitor that becomes open-circuit after the d.c. conditioning shall be replaced by another sample and not counted
N/A
5.16.3.3 AC destruction test N/A
The capacitors maintained at the d.c. conditioning temperature, applied an a.c. voltage of 1,3UN
N/A
If the capacitor becomes operative or becomes open-circuit, the voltage maintain for 5 min
N/A
If the capacitor becomes short-circuit, then the test maintain for 8h
N/A
If the capacitor is still operative after 5 min, then the d.c. conditioning is repeated
N/A
5.16.4 Evaluation of the failure N/A
After completion of the test, the cheese-cloth shall not have burnt on any test specimen
N/A
Discolouring by escaping substances is allowed N/A
Each capacitor meet the following: N/A
a) escaping liquid material may wet the outer surface of
the capacitor, but not fall away in drops N/A
b) internal live parts is not accessible to the
standard test finger N/A
c) burning or scorching of the cheese-cloth is not evident since this would indicate that flames or fiery particles have been emitted from the openings
N/A
d) the capacitor withstand the test of clause 2.8
with the voltage being reduce to 0,8 times the value indicated
N/A
5.17 Resistance to heat, fire and tracking (Group 6) N/A
5.17.1 Ball-pressure test N/A
External parts of insulating material retaining terminals in position sufficiently resistance to heat
N/A
Test temperature (C) ............................................ : —
Page 13 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
Ball-pressure test with a force of 20 N, diameter of impression not exceeding 2 mm
N/A
5.17.2 Glow-wire test N/A
External parts of insulating material retaining terminal in position carrying a current not exceeding 0,5 A in normal operation, subjected to
the glow-wire test at 550C
N/A
External parts of insulating material retaining terminal in position carrying a current exceeding 0,5 A in normal operation, subjected to
the glow-wire test at 850C
N/A
5.17.3 Tracking test N/A
Outer insulating parts of capacitors retaining live parts in position or in contact with such terminals have adequate resistance to tracking
N/A
Tracking test at 250 V according to solution A of IEC 60112
N/A
7 Safety requirements P
7.1 Creepage distances (mm) P
1) Between live parts of different polarity Required value is >5mm Measured value is >5mm
P
2) Between live parts and accessible metal parts
which are permanently fixed to the capacitor N/A
Clearances (mm) P
3) Between live parts of different polarity Required value is >5mm Measured value is >5mm
P
4) Between live parts and accessible metal parts
which are permanently fixed to the capacitor N/A
5) Between live parts and a flat supporting surface
or a loose metal cover if any N/A
7.2 Terminals and connecting cables P
Cross-sectional area of the conductor not less than 0,5mm
2
0,5μF :0,5mm2
20μF :0,81mm2
P
Insulated cables conform to the voltage and Temperature ratings of the capacitor
0,5μF : 300/500V
20μF : 600V 105C P
7.3 Earth connections N/A
If the metal case of the capacitor is intended to be connected to earth or a neutral conductor, means that enabling an effective connection to be made
N/A
Marking by the symbol N/A
7.4 Discharge devices N/A
Discharge device reduce the voltage at the terminals from the peak of the rated voltage to 50V or less in 1min
N/A
Page 14 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
5.11.3 TABLE: Vibration test(0,5μF) P
Tests 1 2 3 4
Before test capacitance measurement C in µF at UN
0.51645 0.51863 0.51427 0.51032
After test capacitance measurement C in µF at UN
0.51635 0.51858 0.51417 0.51022
ΔC∕C in % -0.02 -0.01 -0.02 -0.02
5,11,3 TABLE: Vibration test(20μF) P
Tests 1 2 3 4
Before test capacitance measurement C in µF at UN
20.267 20.363 20.656 20.296
After test capacitance measurement C in µF at UN
20.261 20.359 20.652 20.294
ΔC∕C in % -0.03 -0.02 -0.02 -0.01
Page 15 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
5,13 TABLE: Endurance test (0,5μF) P
Test period(h) ................................................. : 600h —
Test voltage (V) .............................................. : 1,25×300=375V —
Temperature of test chamber(C) .................. : 70 2C —
Tests 5 6 7 8 9 10 11 12 13 14 15
Before test Capacitance Measurement C in µF at UN
0.51746 0.51881 0.51909 0.51475 0.51374 0.51374 0.51169 0.51655 0.51037 0.51664 0.51159
Endurance test
P P P P P P P P P P P
After test capacitance measurement C in µF at UN
0.50825 0.50916 0.51302 0.50420 0.50228 0.50465 0.50171 0.50570 0.50399 0.50781 0.50566
ΔC∕C in % (≤3%)
-1.78 -1.86 -1.17 -2.05 -2.23 -1.77 -1.95 -2.10 -1.25 -1.71 -1.16
Tests 16 17 18 19 20 21 22 23 24 25
Before test Capacitance measurement C in µF at UN
0.51572 0.51119 0.51073 0.50869 0.51574 0.51286 0.51661 0.50867 0.51418 0.51468
Endurance test
P P P P P P P P P P
After test capacitance measurement C in µF at UN
0.50907 0.50265 0.50353 0.50091 0.50537 0.50178 0.50509 0.49651 0.50277 0.50382
ΔC∕C in % (≤3%)
-1.29 -1.67 -1.41 -1.53 -2.01 -2.16 -2.23 -2.39 -2.22 -2.11
Page 16 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
5,13 TABLE: Endurance test (20μF) P
Test period(h) ................................................. : 600h —
Test voltage (V) .............................................. : 1,25×300=375V —
Temperature of test chamber(C) .................. : 70 2C —
Tests 5 6 7 8 9 10 11 12 13 14 15
Before test Capacitance Measurement C in µF at UN
20.399 20.272 20.471 20.364 20.443 20.274 20.472 20.539 20.247 20.447 20.408
Endurance test
P P P P P P P P P P P
After test capacitance measurement C in µF at UN
20.089 20.051 20.197 20.004 20.106 19.984 20.222 20.282 19.891 20.200 20.090
ΔC∕C in % (≤3%)
-1.52 -1.09 -1.34 -1.77 -1.65 -1.43 -1.22 -1.25 -1.76 -1.21 -1.56
Tests 16 17 18 19 20 21 22 23 24 25
Before test Capacitance measurement C in µF at UN
20.324 20.142 20.477 20.592 20.455 20.561 20.296 20.389 20.110 20.099
Endurance test
P P P P P P P P P P
After test capacitance measurement C in µF at UN
19.989 19.832 20.217 20.314 20.255 20.337 20.000 20.161 19.935 19.872
ΔC∕C in % (≤3%)
-1.65 -1.54 -1.27 -1.35 -0.98 -1.09 -1.46 -1.12 -0.87 -1.13
Page 17 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
5,11,2 & 5,14 TABLE: Soldering test & Damp heat test (0,5μF) P
Tests 26 27 28 29 30 31
Before test capacitance measurement C in µF at UN
0.51013 0.51493 0.51715 0.50575 0.51518 0.50970
Soldering test T of IEC60068-2-20
N/A N/A N/A N/A N/A N/A
After Soldering capacitance measurement C in µF at UN
- - - - - -
ΔC∕C in % - - - - - -
Damp heat test according to IEC60068-2-78
P P P P P P
After damp heat test capacitance measurement C in µF at UN
0.50977 0.51467 0.51674 0.50545 0.51487 0.50950
ΔC∕C in % (≤0,5%)
-0.07 -0.05 -0.08 -0.06 -0.06 -0.04
Voltage test between terminals 2UN / 60s
P P P P P P
Voltage test between terminal and case 2000 V/ 60s
P P P P P P
Page 18 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
5,11,2 & 5,14 TABLE: Soldering test & Damp heat test (20μF) P
Tests 26 27 28 29 30 31
Before test capacitance measurement C in µF at UN
20.512 20.610 20.103 20.230 20.403 20.129
Soldering test T of IEC60068-2-20
N/A N/A N/A N/A N/A N/A
After Soldering capacitance measurement C in µF at UN
- - - - - -
ΔC∕C in % - - - - - -
Damp heat test according to IEC60068-2-78
P P P P P P
After damp heat test capacitance measurement C in µF at UN
20.504 20.600 20.093 20.218 20.393 20.115
ΔC∕C in % (≤0,5%)
-0.04 -0.05 -0.05 -0.06 -0.05 -0.07
Voltage test between terminals 2UN / 60s
P P P P P P
Voltage test between terminal and case 2000 V/ 60s
P P P P P P
Page 19 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
5,15 TABLE: Self-healing test (0,5μF) P
Tests 32 33 34 35 36 37 38 39 40 41
Before test capacitance measurement C in µF at UN
0.51416 0.51554 0.51150 0.51332 0.51562 0.51379 0.51311 0.51876 0.51621 0.51616
U1 = 2UN 600 600 600 600 600 600 600 600 600 600
Clearings 0 0 0 0 0 0 0 0 0 0
U = 0,8U1 - - - - - - - - - -
Clearings within 10s
- - - - - - - - - -
Voltage increase U2 = 3,5UN
750 750 800 750 750 700 750 700 750 750
Clearings 5 5 5 5 5 5 5 5 5 5
U = 0,8U2 600 600 640 600 600 560 600 560 600 600
Clearings within 10s
0 0 0 0 1 0 0 0 0 0
After test capacitance measurement C in µF at UN
0.51380 0.51523 0.51109 0.51296 0.51516 0.51353 0.51290 0.51845 0.51580 0.51570
ΔC∕C in % (<0,5%)
-0.07 -0.06 -0.08 -0.07 -0.09 -0.05 -0.04 -0.06 -0.08 -0.09
RC in s×103
(≥100s) 15 20 20 20 20 15 20 20 15 20
Page 20 of 22 Report No.: CVC2013-1136
IEC 60252-1
Clause Requirement + Test Result - Remark Verdict
TRF No.: IEC60252_1B
5,15 TABLE: Self-healing test (20μF) P
Tests 32 33 34 35 36 37 38 39 40 41
Before test capacitance measurement C in µF at UN
20.269 20.333 20.387 20.130 20.408 20.341 20.528 20.269 20.151 20.536
U1 = 2UN 600 600 600 600 600 600 600 600 600 600
Clearings 1 0 0 1 0 0 0 1 0 0
U = 0,8U1 - - - - - - - - - -
Clearings within 10s
- - - - - - - - - -
Voltage increase U2 = 3,5UN
800 800 750 800 700 750 800 800 750 800
Clearings 5 5 5 5 5 5 5 5 5 5
U = 0,8U2 640 640 600 640 560 600 640 640 600 640
Clearings within 10s
0 0 0 1 0 0 0 0 1 0
After test capacitance measurement C in µF at UN
20.257 20.315 20.371 20.108 20.394 20.331 20.514 20.257 20.133 20.515
ΔC∕C in % (<0,5%)
-0.06 -0.09 -0.08 -0.11 -0.07 -0.05 -0.07 -0.06 -0.09 -0.10
RC in s×105
(≥100s) 20 20 20 20 20 20 20 20 20 20
Page 21 of 22 Report No.: CVC2013-1136
TRF No.: IEC60252_1B
List of material
No, Component Material Manufacturer
1 Element
Metallized
Polypropylene Film 7/8µm*30mm*2mm 7/8µm*40/50mm*2.5mm
NingboGreatSoutheastWan-Xiang Science& TechnologyCo.,Ltd. NingboZhenhaiJunheElectronicCo.,Ltd. Taizhou Yongji Electron Co., LTD Nantong Bison Electronic New Material Co., Ltd. Hebei Haiwei Group Electron Material Co., Ltd.
2 Spray material BMPTZS Shaoxing city Denon tin material Co. Ltd.
3 Filler
Epoxy Potting
Compound
Type: 910A/B
(Type:9100A/B)
Jiaxing Jiagang Compositive Material Co., Ltd.
Chongqing Jiangchuan chemical Co., LTD
4 Case ABS (Z-A) NINGBO FUTIAN ENGINEERING PLATICS CO
LTD
5 Lead
style 3135; 105C; 600V; 18AWG or 16AWG; UL
approved)/ IEC 06(RV)
JIANGYIN TIANQI SILICONE RUBBER
PRODUCTS CO LTD
style 1015; 105C;
600V;18AWG or
16AWG; UL approved;/
IEC 06(RV)
Shanghai Dongju Wire Co., Ltd.
1015/IEC 06(RV)
Yuyao Yongfeng Electric Wire Factory
Page 22 of 22 Report No.: CVC2013-1136
TRF No.: IEC60252_1B
Photograph