Harman Kardon HD 980 (serv.man3) EMC - CB Certificate ▷ View online
Page 27 of 57 Report No. SH08050531-001
Appendix no. 1 Photos of the product:
TRF No: IEC/EN 60065H
TRF originator Intertek ETL SEMKO SH
Operating conditions
Winding of TR1
24.2
17.3
65*
Bobbin of TR1
24.0
16.9
65
PCB near TR1
23.7
17.3
75
CY1 (Y1 capacitor)
13.3
12.5
50 (85-35)
CY3 (Y1 capacitor)
17.4
14.4
50 (85-35)
PCB near IC3
11.9
11.2
75
PCB near D15
25.9
23.6
75
EC19 (electrolytic capacitor)
7.3
7.8
70 (105-35)
Power cord
7.1
7.2
50
Enclosure (metallic)
5.9
5.8
30
Enclosure (non-metallic)
6.3
6.5
50
winding temperature rise measurements:
Temperature rise dT of winding:
R1 (Ω) R2 (Ω)
dT (K)
required
dT (K)
dT (K)
Insulation
class
class
10.3
TABLE: insulation resistance measurements
Pass
Insulation resistance R between:
R (MΩ)
Required R (MΩ)
Between mains poles (primary fuse disconnected)
100
2
Between parts separated by basic or supplementary insulation
100
2
Between parts separated by double or reinforced insulation
100
4
Between parts of TR1 separated by basic or supplementary
insulation
insulation
100 2
10.3
TABLE: electric strength measurements
P
Test voltage applied between:
Test voltage (V)
Breakdown
Mains poles (primary fuse disconnected)
2120Vp
No
Between parts separated by basic or supplementary insulation
2120Vp
No
Between parts separated by double or reinforced insulation
4240Vp
No
Between parts of TR1 separated by basic or supplementary
insulation
insulation
3220Vp No
Page 28 of 57 Report No. SH08050531-001
Appendix no. 1 Photos of the product:
TRF No: IEC/EN 60065H
TRF originator Intertek ETL SEMKO SH
11.2
TABLE: summary of fault condition tests
Pass
Model/type of power supply .................................: --
—
Voltage (V) 0,9 or 1,1 times rated voltage ............. : 100-240
Ambient temperature (
o
C) ...................................... : 24
—
No.
Component
No.
Fault
Test
voltage
(V)
Test
time
Fuse
No.
Fuse
current
(A)
Result
Dielectric
strength
test after
the test
1.
D8
SC
264
20 min.
FU1
0.159→
0.190→
0.190→
0.029
P=19.8W, 30s, P=24.0W,
4 minutes, P=3.0W. No
extremely high temperature,
no hazard.
4 minutes, P=3.0W. No
extremely high temperature,
no hazard.
Pass
2.
EC5 SC
264
20 min.
FU1
0.156→
0.31→
0.068
P=19.4W, 30s, P=34.0W, D8
damaged, P=7.6W. No
extremely high temperature,
no hazard.
damaged, P=7.6W. No
extremely high temperature,
no hazard.
Pass
3.
D10
SC
264 5
min.
FU1
0.015
P=0.9W, no high
temperature, no hazard.
temperature, no hazard.
Pass
4.
EC10
SC
264
20 min.
FU1
0.17→
0.38→
0.38→
0.13
P=21.3W, 10s, P=42W, 10s,
P=10.6W max. No extreme
high temperature, no hazard.
P=10.6W max. No extreme
high temperature, no hazard.
Pass
5.
D11
SC
264 5
min.
FU1
0.015
P=0.9W, no high
temperature, no hazard.
temperature, no hazard.
Pass
6.
D12
SC
264 10
min.
FU1
0.196→
0.028
P=26.5W, 3 minutes,
P=2.3W. No extremely high
temperature, no hazard.
P=2.3W. No extremely high
temperature, no hazard.
Pass
7.
EC15
SC
264 10
min.
FU1
0.039
P=3.9W, no high
temperature, no hazard.
temperature, no hazard.
Pass
8.
D13
SC
264 20
min.
FU1
0.10
P=11.7W, no extreme high
temperature, no hazard.
temperature, no hazard.
Pass
9.
EC18
SC
264
5 min.
FU1
0.20→
0
P=27W, 25s, P=0W. IC1
damaged. No extreme high
temperature, no hazard.
Repeat three times.
damaged. No extreme high
temperature, no hazard.
Repeat three times.
Pass
10.
D15
SC
264
10 min.
FU1
0.212→
0.032
P=26.7W, 2 minutes,
P=2.5W. No extremely high
temperature, no hazard.
P=2.5W. No extremely high
temperature, no hazard.
Pass
11.
EC20
SC
264
20 min.
FU1
0.153→
0.203→
0.203→
0.015
P=18.4W, 3 minutes,
P=30.6W, 5s, P=0.9W. No
extreme high temperature, no
hazard.
P=30.6W, 5s, P=0.9W. No
extreme high temperature, no
hazard.
Pass
12.
PH1:
secondary
SC 264 5
min.
FU1
0.015
P=0.9W, IC1 damaged. No
high temperature, no hazard.
high temperature, no hazard.
Pass
13.
D6
SC
264
5 min.
FU1
0.01
P=0.1W, circuit protected, no
high temperature, no hazard.
high temperature, no hazard.
Pass
14.
EC2
SC
264
5 min.
FU1
0.01
P=0.1W, circuit protected, no
high temperature, no hazard.
high temperature, no hazard.
Pass
15.
D7
SC
264
5 min.
FU1
0.01
P=0.1W, circuit protected, no
high temperature, no hazard.
high temperature, no hazard.
Pass
Page 29 of 57 Report No. SH08050531-001
Appendix no. 1 Photos of the product:
TRF No: IEC/EN 60065H
TRF originator Intertek ETL SEMKO SH
16.
EC3
SC
264
5 min.
FU1
0.01
P=0.1W, circuit protected, no
high temperature, no hazard.
high temperature, no hazard.
Pass
17.
D5
SC
264
5 min.
FU1
0.01
P=0.1W, circuit protected, no
high temperature, no hazard.
high temperature, no hazard.
Pass
18.
EC12
SC
264
5 min.
FU1
0.17→
0.11→0
P=21W, 10s, P=14W, 33s,
D11 damaged, P=0W. No
extremely high temperature,
no hazard. Repeat three
times.
D11 damaged, P=0W. No
extremely high temperature,
no hazard. Repeat three
times.
Pass
19.
PH1:
primary
SC 264 5
min.
FU1
0.01
P=0.1W, circuit protected, no
high temperature, no hazard.
high temperature, no hazard.
Pass
20.
D1
SC
264
2 min.
FU1
>3
FU1 opened immediately,
P=0W, no high temperature,
no hazard.
P=0W, no high temperature,
no hazard.
Pass
21.
EC1
SC
264
2 min.
FU1
>3
FU1 opened immediately,
P=0W, no high temperature,
no hazard.
P=0W, no high temperature,
no hazard.
Pass
22.
IC1:
pin1-pin2
SC 264 2
min.
FU1
>3
IC1, FU1 damaged
immediately, P=0W, no high
temperature, no hazard.
immediately, P=0W, no high
temperature, no hazard.
Pass
(SC=short circuit, OC=open circuit, MUL=most unfavourable load)
13.3 & 13.4 TABLE: clearance and creepage distance measurements
Pass
clearance cl and creepage
distance dcr at/of:
Up
(V)
(V)
U r.m.s.
(V)
required cl
(mm)
cl
(mm)
required dcr
(mm)
dcr
(mm)
L to N (BI)
338
240
2.0
3.1
2.5
3.1
Primary circuit to accessible
parts / enclosure (RI)
parts / enclosure (RI)
338 240 4.0 6.0 5.0 6.0
Primary circuit to accessible
parts / enclosure (RI)
parts / enclosure (RI)
900 280 5.4 6.0 6.0 6.2
Transformer:
primary to secondary (RI)
primary to secondary (RI)
900 280 5.4 6.2 6.0 6.2
Transformer:
primary to core (BI)
primary to core (BI)
900 280 2.7 5.0 3.0 5.0
Transformer:
core to secondary (SI)
core to secondary (SI)
900 280 2.7 5.0 3.0 5.0
14
TABLE: list of critical components and materials
Pass
Object/part No.
Manufacturer/
trademark
Type/model
Technical data
Standard
Mark(s) of
conformity
Mains plug for
Europe
LEONI 243 ~250V,
2.5A
IEC 60884
KEMA:
2087238.01
2087238.01
Page 30 of 57 Report No. SH08050531-001
Appendix no. 1 Photos of the product:
TRF No: IEC/EN 60065H
TRF originator Intertek ETL SEMKO SH
Object/part No.
Manufacturer/
trademark
Type/model
Technical data
Standard
Mark(s) of
conformity
(alternative) LEONI
CW4014 ~250V,
2.5A
IEC 60884
KEMA:
2087238.04
2087238.04
(alternative) Quanzhou
lian
xin electronics
technology co,.
ltd.
LX-202 ~250V,
2.5A
IEC 60884
VDE:
40007544
40007544
Mains cord for
Europe
LEONI KABEL
HOLDING
GMBH&CO. KG
H03VVH2-F
2 x 0.75mm
2
DIN VDE 0281
IEC 60281
IEC 60281
VDE: 109835
(alternative) Shenzhen
dong
ju wire&cable
Co., Ltd.
H03VVH2-F
2×0.75mm
2
DIN VDE 0281
IEC 60281
IEC 60281
VDE: 129988
Mains plug for
Korea
LEONI (XIAMEN)
ELECTRONICS
CO.,LTD.
345K 3A,
250V~
KS C8305
KTL:
SU04019-
2005A
SU04019-
2005A
Mains cord for
Korea
LEONI (XIAMEN)
ELECTRONICS
CO.,LTD.
60227 IEC 52
(H03VVH2-F)
2 x 0.75mm
2
2 x 0.75mm
2
K60227-5 KTL:
SU01011-
4003A
4003A
Mains plug for
China
SHENZHEN
ZHENGERYA
CABLE CO.,
LTD.
ZEY-201 6A,
250V~
GB 2099.1-1996
GB 1002-1996
GB 1002-1996
CCC:
20020102010
02607
20020102010
02607
(alternative) LEONI
(XIAMEN)
ELECTRONICS
CO.,LTD.
LAP-11 6A,
250V~
GB 2099.1-1996
GB 1002-1996
GB 1002-1996
CCC:
20020102010
05577
20020102010
05577
Mains cord for
China
SHENZHEN
ZHENGERYA
CABLE CO.,
LTD.
227 IEC 52
(
RVV)
2x0.75mm
2
GB 5023.5-97
CCC:
20040101051
18388
20040101051
18388
(alternative) LEONI
(XIAMEN)
ELECTRONICS
CO.,LTD.
227 IEC 52
(
RVV)
2x0.75 mm
2
GB 5023.5-97
CCC:
20020101050
07954
20020101050
07954
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