Harman Kardon HS 2X0 EMC - CB Certificate ▷ View online
Page 47 of 62 Report No. SH10011244-001
IEC 60065
Clause
Requirement + Test
Result - Remark
Verdict
TRF No. IEC60065J
No. Component
No.
Fault
Test
voltage
(V)
Test
time
Fuse No.
Fuse
current
(A)
Result
Dielectric
strength test
after the test
after the test
10. EC516
SC 264
10
min.
F501 0.156
P=13.8W max. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
11.
U502:
primary
SC 264
10
min.
F501 0.059
P=1.0W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
12.
EC501
SC 264
10
min.
F501 0.061
P=1.6W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
13.
D503
SC 264
10
min.
F501 0.061
P=1.6W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
14.
U504:
secondary
SC 264
10
min.
F501 0.162
P=17.2W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
15.
U504:
primary
SC 264
50
min.
F501 0.36
P=45W, as normal. No
high temperature, no
hazard.
high temperature, no
hazard.
Pass
16.
U515:
secondary
SC 264
50
min.
F501 0.36
P=45W, as normal. No
high temperature, no
hazard.
high temperature, no
hazard.
Pass
17.
R543
SC 264
10
min.
F501 0.153
P=16.4W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
18.
U505:
secondary
SC 264
10
min.
F501 0.154
P=16.5W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
19.
U515:
primary
SC 264
10
min.
F501 0.153
P=16.4W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
20.
U505:
primary
SC 264
10
min.
F501 0.154
P=16.4W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
21.
EC505
SC 264
10
min.
F501 0.171
P=18.9W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
22.
D506
SC 264
10
min.
F501 0.169
P=18.7W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
23.
EC503
SC 264
10
min.
F501 0.174
P=19.6W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
24. D505
SC 264
10
min.
F501 0.152
P=16.3W. R522
damaged, no high
temperature, no
hazard.
damaged, no high
temperature, no
hazard.
Pass
Page 48 of 62 Report No. SH10011244-001
IEC 60065
Clause
Requirement + Test
Result - Remark
Verdict
TRF No. IEC60065J
No. Component
No.
Fault
Test
voltage
(V)
Test
time
Fuse No.
Fuse
current
(A)
Result
Dielectric
strength test
after the test
after the test
25.
D508
SC 264
20
min.
F501
0.851→
0.195
P=116.2W max. 20s,
P=21.5. Q509, R570,
U506, R571, Q510,
R576 damaged. No
extreme high
temperature, no
hazard.
P=21.5. Q509, R570,
U506, R571, Q510,
R576 damaged. No
extreme high
temperature, no
hazard.
Pass
26.
D516
SC 264
10
min.
F501 0.178
P=19.8W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
27.
EC519
SC 264
10
min.
F501 0.178
P=20.1W. No high
temperature, no
hazard.
temperature, no
hazard.
Pass
28. D504
SC 264
1
H
F501
0.355
P=46.4W. No extreme
high temperature, no
hazard.
high temperature, no
hazard.
Pass
29.
R575
SC 264
1
H
F501
0.36
P=45.6W, as normal.
No high temperature,
no hazard.
No high temperature,
no hazard.
Pass
30. C502
SC 264
1s
F501
11→0
P=0W, F501 opened
immediately, no high
temperature, no
hazard.
immediately, no high
temperature, no
hazard.
Pass
31. BD501
SC 264
1s
F501
11→0
P=0W, F501 opened
immediately, no high
temperature, no
hazard.
immediately, no high
temperature, no
hazard.
Pass
32. EC502
SC 264
1s
F501
11→0
P=0W, F501 opened
immediately, no high
temperature, no
hazard.
immediately, no high
temperature, no
hazard.
Pass
33. Q509:
D-S
SC 264
1s
F501
11→0
P=0W, R588, R589
damaged, F501
opened immediately,
no high temperature,
no hazard.
damaged, F501
opened immediately,
no high temperature,
no hazard.
Pass
34. Maximum volume on all
loudspeakers
264 1
H F501
1.05→
0.624→
0.447→
0.447→
0.341
P=160W, 5s, P=86.7W,
3min, P=59.0W, 3min,
P=43.3W. No extreme
high temperature, no
hazard.
3min, P=59.0W, 3min,
P=43.3W. No extreme
high temperature, no
hazard.
Pass
35.
Adjust volume on all
loudspeakers, and circuit
no protected
loudspeakers, and circuit
no protected
264 4
H F501 0.470
P=63.2W. No extreme
high temperature, no
hazard.
high temperature, no
hazard.
Pass
36. Ventilating holes blocked
264 4
H F501 0.36
P=45.6W, as normal.
No high temperature,
no hazard.
No high temperature,
no hazard.
Pass
Page 49 of 62 Report No. SH10011244-001
IEC 60065
Clause
Requirement + Test
Result - Remark
Verdict
TRF No. IEC60065J
No. Component
No.
Fault
Test
voltage
(V)
Test
time
Fuse No.
Fuse
current
(A)
Result
Dielectric
strength test
after the test
after the test
Note: SC=short circuit, OC=open circuit
13
TABLES: clearances and creepage distances
Pass
Rated supply voltage:
100-240V
Pollution degree:
2
Material Group:
III or better
2 N force on internal parts applied:
Internal wire and primary
components
components
30 N force on outside of conductive enclosure applied:
Rear enclosure
Location
Operating Voltage
Clearance (mm)
Creepage (mm)
V rms
V peak
Min
Actual
Min
Actual
Circuits conductively connected to the mains (use Tables 8, 9 and 11): see note below.
L to N (BI)
L to N (BI)
338 240 2.0 4.0 2.5 4.0
Primary circuit to accessible parts /
enclosure (RI)
enclosure (RI)
338 240 4.0 5.0 5.0 5.6
Primary circuit to accessible parts /
enclosure (RI)
enclosure (RI)
536 254 4.3 5.0 5.2 7.4
Primary circuit to accessible parts /
enclosure (RI)
enclosure (RI)
560 275 4.4 6.8 5.8 6.8
Transformer T502:
primary to secondary (RI)
primary to secondary (RI)
536 254 4.3 9.5 5.2 9.5
Transformer T502:
primary to core (BI)
primary to core (BI)
536 254 2.2 5.5 2.6 5.5
Transformer T502:
core to secondary (SI)
core to secondary (SI)
536 254 2.2 4.5 2.6 4.5
Transformer T503:
primary to secondary (RI)
primary to secondary (RI)
560 275 4.4 8.0 5.8 8.0
Transformer T503:
primary to core (BI)
primary to core (BI)
560 275 2.2 4.0 2.9 4.0
Transformer T503:
core to secondary (SI)
core to secondary (SI)
560 275 2.2 4.0 2.9 4.0
Notes:
1. Secondary circuits of Class II apparatus which have connector terminals that could be earthed (e.g.
antenna signal input), are subjected to the requirements for circuits conductively connected to the mains in
Tables 8 and 9.
2. Floating secondary circuits of Class I apparatus which have connector terminals that could be earthed
(e.g. antenna signal input), are subjected to the requirements for circuits conductively connected to the
mains in Tables 8 and 9 unless the floating secondary circuit is separated from the primary circuits by an
1. Secondary circuits of Class II apparatus which have connector terminals that could be earthed (e.g.
antenna signal input), are subjected to the requirements for circuits conductively connected to the mains in
Tables 8 and 9.
2. Floating secondary circuits of Class I apparatus which have connector terminals that could be earthed
(e.g. antenna signal input), are subjected to the requirements for circuits conductively connected to the
mains in Tables 8 and 9 unless the floating secondary circuit is separated from the primary circuits by an
Page 50 of 62 Report No. SH10011244-001
IEC 60065
Clause
Requirement + Test
Result - Remark
Verdict
TRF No. IEC60065J
earthed metal screen (e.g. in the power transformer), or the floating secondary circuit is connected to earth
via a component such as a capacitor.
3. For insufficient clearances and creepage distances from secondary to secondary circuits and from
secondary circuits to earth, see Cl. 4.3.1, 4.3.2 and 11.2.
4. If the minimum creepage distance in Table 11 is less than the minimum required clearance in Tables 8, 9
or 10 as required, then the value for clearance is used as the minimum creepage distance .
"Min" = minimum required.
via a component such as a capacitor.
3. For insufficient clearances and creepage distances from secondary to secondary circuits and from
secondary circuits to earth, see Cl. 4.3.1, 4.3.2 and 11.2.
4. If the minimum creepage distance in Table 11 is less than the minimum required clearance in Tables 8, 9
or 10 as required, then the value for clearance is used as the minimum creepage distance .
"Min" = minimum required.
"Actual = Actual dimensions measured.
14
TABLE: list of critical components and materials
Pass
Component
Manufacturer/
trademark
Type/model
Value / rating
Standard
Approval/
Reference
Cord set:
According to the manufacturer’s declaration, the unit will be supplied with a power attachment cord and plug
According to the manufacturer’s declaration, the unit will be supplied with a power attachment cord and plug
which meet the national requirements which have been approved to relevant national and international
standards.
Power Inlet
Pronic
Electronics
(Shenzhen) Co.,
Ltd
Electronics
(Shenzhen) Co.,
Ltd
PST-101
10A, 250V~
IEC 60320
VDE: 40014579
(alternative)
Rich Bay Co.,
Ltd.
Ltd.
R-301
10A, 250V~
IEC 60320
VDE: 40006953
Fuse
F501
F501
Walter Electronic
Co. Ltd.
Co. Ltd.
ICP
T5AL 250V~
IEC 60127
VDE: 40012824
(alternative) HOLLYLAND
CO LTD
32S
T5AL 250V~
IEC 60127
VDE: 40011830
(alternative) ZHONGSHAN
LANBAO
ELECTRICAL
APPLIANCES
CO., LTD.
ELECTRICAL
APPLIANCES
CO., LTD.
RTI-20
T5AL 250V~
IEC 60127
VDE: 40012120
X2 capacitor
CX501
CX501
EUROPTRONIC
(TAIWAN)
INDUSTRIAL
CORP
(TAIWAN)
INDUSTRIAL
CORP
MPX 0.33µF,
275V~
40/100/21/B
IEC 60384-14
2nd Ed.
2nd Ed.
VDE: 40018238
(alternative) JIMSON
ELECTRONICS
CO LTD
CO LTD
MKP 0.33µF,
275V~
40/100/21/C
IEC 60384-14
2nd Ed.
2nd Ed.
VDE: 40000463
X2 capacitor
CX502, CX503
CX502, CX503
EUROPTRONIC
(TAIWAN)
INDUSTRIAL
CORP
(TAIWAN)
INDUSTRIAL
CORP
MPX 0.22µF,
275V~
40/100/21/B
IEC 60384-14
2nd Ed.
2nd Ed.
VDE: 40018238
(alternative) JIMSON
ELECTRONICS
CO LTD
CO LTD
MKP 0.22µF,
275V~
40/100/21/C
IEC 60384-14
2nd Ed.
2nd Ed.
VDE: 40000463
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