JBL SUB 200 EMC - CB Certificate ▷ View online
Page 26 of 54
Report No.: 1009939
IEC 60065
Clause
Requirement + Test
Result - Remark
Verdict
TRF No. IEC60065J
10
D2
d
-
Un=253V, Pn = 0.3W
Protection mode immediately.
Protection mode immediately.
No Hazard
11
D2
sc
-
Un=253V, Pn = 75W
Normal function.
Normal function.
No
Hazard
12
D6
d
-
Un=253V, Pn = 76W
Normal function.
Normal function.
No
Hazard
13
IC1
(5-8)
sc
-
Un=198V, Pn = 0W,
Mains Fuse on Standby PCB opened
immediately; Optocoupler OP1 intact.
No Remarks
Mains Fuse on Standby PCB opened
immediately; Optocoupler OP1 intact.
No Remarks
Winding temperature rise measurements
Ambient temperature t1 (
o
C) ................................... :
-
—
Ambient temperature t2 (
o
C) ................................... :
-
—
Page 27 of 54
Report No.: 1009939
IEC 60065
Clause
Requirement + Test
Result - Remark
Verdict
TRF No. IEC60065J
13
TABLES: clearances and creepage distances
P
Rated supply
voltage:
voltage:
220-230V
Pollution degree
2
Material Group
IIIb
2 N force on internal parts applied:
P
30 N force on outside of conductive enclosure applied:
N/A
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.
Primary (ac) to Earth (B)
--
--
--
--
--
--
Primary (+dc) to Earth max (B)
--
--
--
--
--
--
Primary (-dc) to Earth max (B)
--
--
--
--
--
--
Across mains fuse F1 (B)
230
325
2
8
2.3
8
Across primary directly connected
to the mains (B)
to the mains (B)
230
325
2
>10
2.3
>10
Hazardous live secondary to Earth
(B)
(B)
--
--
--
--
--
--
Optocoupler op1 input to output
(R)
(R)
230
380
4.0
7.2
4.6
7.2
Primary to Secondary in mains
transformer (R)
transformer (R)
296
419
4.0
8.0
6.4
8.0
Primary to Iron core (accessible) in
mains transformer (R)
mains transformer (R)
263
372
4.0
10 .0
5.6
10.0
Primary to Secondary in
transformer TR1. (R)
transformer TR1. (R)
230
570
4.5
>10
4.6
>10
Primary to Secondary on Stand-by
SMPS PCB. (R)
SMPS PCB. (R)
230
326
4.0
6.0
4.6
6.2
Primary switch terminals to
accessible conductive parts (R)
accessible conductive parts (R)
263
372
4.0
11
5.6
11
Hazardous live secondary to non-
hazardous live secondary (R)
hazardous live secondary (R)
--
--
--
--
--
--
Hazardous live secondary to
unearthed conductive enclosure
(R)
unearthed conductive enclosure
(R)
*)
*)
--
*)
--
*)
*) Distances too short but short circuit does not cause any shock hazard.
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 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 requ ired, then
the value for clearance is used as the minimum creepage distance .
"Min" = minimum required.
"Actual = Actual dimensions measured.
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 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 requ ired, then
the value for clearance is used as the minimum creepage distance .
"Min" = minimum required.
"Actual = Actual dimensions measured.
Page 28 of 54
Report No.: 1009939
IEC 60065
Clause
Requirement + Test
Result - Remark
Verdict
TRF No. IEC60065J
14
TABLE: list of critical components and materials
P
Object/Part No.
Manufacturer
/Trademark
Type/Model
Technical Data
2
)
Standard
Mark(s) of
Conformity
1
)
Mains
transformer
transformer
Transtec
TT0860901570-E
AC 230-240V
IEC 60065
—
Thermal link
Joint Force
L33
2A, 250V, 130
C
IEC 60691
TÜV
Mains Fuse
Walter
TSD
T1.25A 250V
IEC 60127
Mains
fuseholder
fuseholder
Chin Shin
(Walter)
R3-11
10A 250V
IEC 60065
—
Min. V-1
IEC 60707
—
Bobbin of
Transformer
Transformer
EI Dupont de
Nemours
Nylon 66
101,101F
0.71mm/94V-2
Complies with
HB75
IEC 60707
—
Cordset:
plug
I Sheng
SP-021A
2.5A 250V
CEE 7
cord
H03VVH2-F
2 x 0.75mm²
IEC 60227
UK Cord set:
Plug with fuse
Luen Tai
Electric
9518
13A 250V
BS 1363
BSI
cord
Rhythm Wire
Ind. Co., Ltd.
H03VVH2-F
2 x 0.75mm²
IEC 60227
KEMA
Mains plug for
Korea
Korea
Volex
MP2217
3A 250V
KS C8305
Mains cord for
Korea
Korea
Volex
VCTFK
2 x 0.75mm²
KS C3304
Mains switch
CHILY
3024
16(4)A, 8/128A
250V Class II
IEC 61058-1
IEC60065:2001 Sub-
clause 14.6.1a)
AC Connector
JWT
A3963WV2
Series
Min. V-1
IEC 60707
—
Transformer
TR1
TR1
Xinwang
Electronics
Industry Co.,
Ltd.
KB1157-11486
Class B
IEC 60065
Tested in
appliance
TIW in TR1
E&B
Technology
Co. Ltd.
ETFE
Reinforced insulation
UL2353
Accepted in
appliance
Bobbin in TR1
Chang Chun
Plastics Co.
Ltd.
T375J
94V-0
Complies with
IEC 60707
HB75
Accepted in
appliance
Page 29 of 54
Report No.: 1009939
IEC 60065
Clause
Requirement + Test
Result - Remark
Verdict
TRF No. IEC60065J
Object/Part
No.
No.
Manufacturer
/Trademark
Type/Model
Technical Data2)
Standard
Mark(s) of
Conformity1)
Mains Fuse
(Fuse)
Walter
ICP
T 250mA 250V
IEC60127
Line Filter L2
Xinwang
Electronics
Industry Co., Ltd.
T25X15X10-C
-
IEC 60065
Tested in
appliance
appliance
Capacitor
C19 (Across
the line)
C19 (Across
the line)
Europtronic
(Taiwan) Ind. Corp.
MPX Series
0.22
μF, 250V, X2
IEC 60384-
14:1993
VDE
Alt.
Farad Electronic
Co. Ltd.
PXK Series
0.22
μF 250V X2
IEC 60384-
14:1993
VDE
Capacitor
C06 (Across
the line)
the line)
Farad Electronic
Co. Ltd.
PXK Series
0.22
μF 250V X2
IEC 60384-
14:1993
VDE
Capacitor
C03 (Prim. –
Sec.)
Sec.)
Welson Industrial
WD Series
330pF 250V Y1
IEC 60384-
14:1993
VDE
Capacitor
C15
(Relay
Shunt)
C15
(Relay
Shunt)
Europtronic
(Taiwan) Ind. Corp.
MPX Series
0.01
μF 250V X2
IEC 60384-
14:1993
VDE
Mains Relay
K1
K1
Tyco Electronics
SDT Series
5A 250VAC
5A 30VDC
8/120A
IEC 61058-1
Relay RY101
Goodsky
RWH-SH-124D
15A 120VAC
IEC 60065
—
Varistor RV1
Thinking
Electronic
Industrial Co., Ltd.
TVR10471
470V
IEC 61051
VDE
Optocoup.
OP1
OP1
Cosmo Electronics
Corporation
K1010
Reinforced
insulation
IEC 60065
FI
Alt.
Sharp Corporation
PC817
Reinforced
insulation
IEC 60065
VDE
Shrink tubing
Dongguan Quantai
Electronics Co.,
Ltd.
T-2
VW -1
UL224
Complies with
IEC 60707:HB75
Accepted in
appliance
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