JBL ES 150P EMC - CB Certificate ▷ View online
Page 22 of 44
Report No. 707082
IEC
60065
Clause
Requirement – Test
Result - Remark
Verdict
TRF No.: IEC60065F
TRF Originator: ASTA BEAB
7.1
TABLE: temperature rise measurements: Conditions
P
Power consumption in the OFF/Stand-by mode of
the functional switch (W)………..….:…………....:
the functional switch (W)………..….:…………....:
0W / No stand-by mode
P
Cond.
Un (V)
Hz
In (mA)
Pn (W)
V out
Pout (W)
Operating Condition
1 253 50 430 63 12.3 42
2 198 50 280 33 9.8 27
1/8 of max non-clipping output
power (pink noise)
power (pink noise)
Loudspeaker impedance (Ω) .................................:
Measured DC resistance: 3.57Ω
—
Several
loudspeaker
systems
—
Marking of loudspeaker terminals
—
—
Temperature Rise dT of Part
dT (K)
Limit max dT (K)
Test Condition No.
No 1
No ___
No ___
Primary wiring insulation
24
-
-
60 (50)
Transformer steel washer
24
-
-
-
PCB 21
-
-
85
(75)
Heat sink (supported by PCB)
35
-
-
85 (75)
25
-
-
60 (50)
Rear panel, metal (likely to be touched)
outside of heat sink
outside of heat sink
22 - -
40
(30)
Knobs (non metallic)
7
-
-
50 (40)
Top enclosure, wood
6
-
-
60 (50)
Winding temperature rise measurements
Ambient temperature t1 (
o
C) ............................
Ambient temperature t2 (
o
C) ............................
23
27
— — —
—
Temperature rise dT of winding:
dT = (R
dT = (R
2
– R
1
) x (234.5 + t1) – (t2 – t1)
R
1
R
1
(Ω)
R
2
(Ω)
dT (K)
Limit
maxK)
Insulation class
Primary winding
6.471
7.550
40
85 (75)
E
Secondary winding (red-red)
0.3245
0.3740
36
85 (75)
E
Secondary winding (blue-blue)
0.8350
0.9590
35
85 (75)
E
The limit values in parenthesis are the limit values for tropical climate.
Page 23 of 44
Report No. 707082
IEC
60065
Clause
Requirement – Test
Result - Remark
Verdict
TRF No.: IEC60065F
TRF Originator: ASTA BEAB
9.1
Shock Hazard
P
Under normal operating conditions: > 35Vpk ac / 60V dc
Notes: Reference Annex D
Notes: Reference Annex D
-
CLASS I: (single phase)
AC
DC
U1: Vpk
mA rms
U1: V
mA
U2: Vpk
mA rms
CLASS II: (single phase)
U1: 0.097Vpk
mA rms
U1: V
mA
U2: 0.084Vpk
mA rms
10.3
TABLE: Insulation Resistance Measurements
P
Insulation resistance R between:
R (MΩ)
Min
required R
(MΩ)
Between mains poles (primary fuse disconnected)
> 10
2
Between parts separated by basic or supplementary insulation
> 10
2
Between parts separated by double or reinforced insulation
> 10
4
10.3
TABLE: Electric Strength Measurements
P
Test voltage applied between:
Test voltage (V)
Breakdown
Mains poles (primary fuse disconnected)
2120 peak
No
Between parts separated by basic or supplementary insulation
2120 peak
No
Between parts separated by double or reinforced insulation
4240 peak
No
Page 24 of 44
Report No. 707082
IEC
60065
Clause
Requirement – Test
Result - Remark
Verdict
TRF No.: IEC60065F
TRF Originator: ASTA BEAB
11.2
TABLE: summary of fault condition tests
(sc = short circuit; d = disconnection)
P
Voltage (V) 0.9 or 1.1 times rated voltage .............:
220-230
—
Frequency
(Hz)……………………………………..:
50/60
—
Ambient
temperature
(
o
C) ......................................: 26
—
No
Component
Fault
Temp Rise/
Component
Component
Other results
(include description and test duration)
(include description and test duration)
1 --
Pout
=
100%
Primary wiring
insulation: 51K
Primary winding: 72K
Secondary
winding:66K
PCB: 71K
enclosure: 49K
Rear metal enclosure:
29K
Plastic knobs: 13K
Un = 253V, In = 1.18A, Pn = 218W. After
1h 21min the unit began switching
ON/OFF. Test time 2h 37 min.
No remarks.
1h 21min the unit began switching
ON/OFF. Test time 2h 37 min.
No remarks.
2
C19
sc
--
Un = 198V. F1 opened immediately.
No high temperature, no remarks.
No high temperature, no remarks.
3
Q11 d-g
sc
--
Un = 198V. F1 opened immediately.
Q10, Q10B, Q11 damaged. No high
temperature, no remarks.
Q10, Q10B, Q11 damaged. No high
temperature, no remarks.
4
R6
d
--
Un = 253V, Pn=111-172W. The unit
turned to standby mode after 1 min 50
sec. No high temperature, no remarks.
turned to standby mode after 1 min 50
sec. No high temperature, no remarks.
5
Q5B c-b
sc
--
Un = 253V, Pn= 60W. Uout decreased to
6.5V. The negative part of the output
signal disappeared. Test was interrupted
after 5min. No high temperature, no
remarks.
6.5V. The negative part of the output
signal disappeared. Test was interrupted
after 5min. No high temperature, no
remarks.
6a C134
sc
--
Un = 253V. R241 opened after 2s.
No high temperatures, no hazard.
No high temperatures, no hazard.
6b C134
sc
--
Un = 198V, Pn=9W. R241 heated. R241
lifted vertical from PCB. PCB=150K
(<210K), (PCB rated V0)
R241 opened after 16min. No high
temperatures, no hazard.
lifted vertical from PCB. PCB=150K
(<210K), (PCB rated V0)
R241 opened after 16min. No high
temperatures, no hazard.
7 C166
sc
--
Un = 253V, In = 127mA, Pn = 15W
Test time: 15min No high temperatures,
no hazard.
Test time: 15min No high temperatures,
no hazard.
8 C168
sc --
Un
=
198V
F1 opened immediately. No remarks.
9 C170
sc
--
Un = 198V. R255 and R256 opened
immediately. No remarks.
immediately. No remarks.
10 Capacitor,
(600pF) in RC
snubber
sc
--
Un = 198/253V. Resistor, (18Ω) in RC
snubber opened immediately. No remarks.
snubber opened immediately. No remarks.
11 D124
~to+
sc
--
Un = 198V. Normal operation. Test time
15 min. No high temperatures, no hazard.
15 min. No high temperatures, no hazard.
Page 25 of 44
Report No. 707082
IEC
60065
Clause
Requirement – Test
Result - Remark
Verdict
TRF No.: IEC60065F
TRF Originator: ASTA BEAB
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:
P
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)
231
345
2.0
8.0
2.4
8.0
Across primary directly connected
to the mains (B)
to the mains (B)
232
345
2.0
7.3
2.4
7.3
Hazardous live secondary to Earth
(B)
(B)
-
-
-
-
-
-
Optocoupler input to output (R)
-
-
-
-
-
-
Primary to Secondary in PT1 (R)
332
470
4.2
9.8
7.0
9.8
Primary to accessible conductive
parts (R)
parts (R)
232
328
4.0
5.1
4.7
5.1
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)
-
-
-
-
-
-
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
required, 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
required, then the value for clearance is used as the minimum creepage distance .
"Min" = minimum required.
"Actual = Actual dimensions measured.
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