JBL ON TIME 200ID (serv.man2) EMC - CB Certificate ▷ View online
<12014165 001>
Page 8 of 73
IEC 60065
Clause
Requirement – Test
Result - Remark
Verdict
IEC60065E
ASTABEAB
8.2
No shock hazard when changing voltage setting
device, fuse-links or handling drawers etc.
device, fuse-links or handling drawers etc.
Tools are used.
P
8.3
Insulation of hazardous live parts not provided by
hygroscopic material
hygroscopic material
No hygroscopic material used.
P
8.4
No risk of electric shock following the removal of a
cover which can be removed by hand
cover which can be removed by hand
No such cover which can be removed by
hand.
hand.
N/A
8.5
Class I equipment
Class II appliance.
N/A
Basic insulation between hazardous live parts and
earthed accessible parts
earthed accessible parts
N/A
Capacitors bridging basic insulation complying with
14.2.1 a)
14.2.1 a)
No such capacitors provided.
N/A
8.6
Class II equipment and Class II constructions
within Class I equipment
within Class I equipment
See below.
P
Reinforced or double insulation between hazardous
live parts and accessible parts
live parts and accessible parts
Secondary circuit to primary circuit is
separated by reinforced or double
insulation. (The insulation system of
switching transformer is double insulation
system)
separated by reinforced or double
insulation. (The insulation system of
switching transformer is double insulation
system)
P
Components bridging reinforced or double
insulation complying with 14.1 a) or 14.3
insulation complying with 14.1 a) or 14.3
The switching transformer has been
tested during this approval.
tested during this approval.
P
Basic and supplementary insulation each being
bridged by a capacitor complying with 14.2.1 a)
bridged by a capacitor complying with 14.2.1 a)
X2 capacitor (CX1) between L/N of
primary and secondary circuits according
to IEC 60384-14+A1 was used.
primary and secondary circuits according
to IEC 60384-14+A1 was used.
P
Reinforced or double insulation being bridged with
2 capacitors in series complying with 14.2.1 a)
2 capacitors in series complying with 14.2.1 a)
No such components.
N/A
Reinforced or double insulation being bridged with
a single capacitor complying with 14.2.1 b)
a single capacitor complying with 14.2.1 b)
Y1 capacitor (CY1) between primary and
secondary circuits according to IEC
60384-14+A1 was used.
secondary circuits according to IEC
60384-14+A1 was used.
P
Basic insulation bridged by components complying
with 14.3.4.3
with 14.3.4.3
No such components.
N/A
8.7
Basic insulation between parts at 35 V to 71 V
(peak) a.c. or 60 V to 120 V d.c. and accessible
parts
(peak) a.c. or 60 V to 120 V d.c. and accessible
parts
No such circuit.
N/A
Reinforced or double insulation between circuits
operating at voltages between 35 V and 71 V
(peak) a.c. or between 60 V and 120 V d.c. and
hazardous live parts at higher voltage
operating at voltages between 35 V and 71 V
(peak) a.c. or between 60 V and 120 V d.c. and
hazardous live parts at higher voltage
N/A
Separation by Class II isolating transformer
N/A
Separation by Class I transformer
N/A
<12014165 001>
Page 9 of 73
IEC 60065
Clause
Requirement – Test
Result - Remark
Verdict
IEC60065E
ASTABEAB
Separation by earthed conductive part
N/A
8.8
Double Insulation: the Basic or Supplementary
insulation > 0,4 mm (mm) ....................................... :
insulation > 0,4 mm (mm) ....................................... :
See below.
P
Reinforced insulation > 0,4 mm (mm) .................... : Photo-coupler and enclosure provided
distance through insulation of 0,4mm
minimum. Detail see appended table.
minimum. Detail see appended table.
P
Thin sheet insulation used inside the enclosure.
See below.
P
Basic or supplementary insulation, at least two
layers, each meeting 10.3 dielectric
layers, each meeting 10.3 dielectric
N/A
Basic or supplementary insulation, three layers any
two of which meet 10.3 dielectric
two of which meet 10.3 dielectric
N/A
Reinforced insulation, two layers each of which
meet 10.3 dielectric
meet 10.3 dielectric
Two layers of insulation tapes are used
for T1, primary heat sink and secondary
heat sink.
for T1, primary heat sink and secondary
heat sink.
Each one layer meets electric strength of
10.3.
10.3.
P
Reinforced insulation, three layers any two which
meet 10.3 dielectric
meet 10.3 dielectric
N/A
8.9
Primary Wiring: Adequate insulation between
internal hazardous live conductors and accessible
parts
internal hazardous live conductors and accessible
parts
Adequate insulation between primary
circuits and accessible parts.
circuits and accessible parts.
P
Secondary Wiring: Adequate insulation between
internal hazardous live parts and conductors
connected to accessible parts
internal hazardous live parts and conductors
connected to accessible parts
Adequate insulation between internal
hazardous live parts and secondary
internal wire.
hazardous live parts and secondary
internal wire.
P
8.10
Class II Wiring:
(1) Primary: Double insulation between conductors
connected to the mains and accessible parts.
connected to the mains and accessible parts.
(2) Secondary: Double insulation between
conductors connected to accessible parts and the
mains
conductors connected to accessible parts and the
mains
See above.
P
8.11
Detaching of wires
The wires are inserted into a hole in
PCB before soldering.
PCB before soldering.
There’s no risk of a wire becoming
detached in the sense of this standard.
detached in the sense of this standard.
P
No undue reduction of creepages or clearance
distances if wires become detached
distances if wires become detached
The wires in secondary side are fixed
with double methods, there’s no risk of a
wire becoming detached.
with double methods, there’s no risk of a
wire becoming detached.
P
Vibration test carried out ......................................... : Vibration test is carries out according to
clause 12.1.2.
P
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Page 10 of 73
IEC 60065
Clause
Requirement – Test
Result - Remark
Verdict
IEC60065E
ASTABEAB
8.12
Adequate cross-sectional area of internal wiring to
mains socket-outlets
mains socket-outlets
No mains socket-outlet.
N/A
8.13
Adequate fastening of windows, lenses, lamp
covers etc. (pull test 20 N for 10 s)
covers etc. (pull test 20 N for 10 s)
No such parts that hazardous live parts
are rendered accessible by their absence
are used.
are rendered accessible by their absence
are used.
N/A
8.14
Adequate fastening of covers (pull test 50 N for
10 s)
10 s)
Enclosure of appliance is tested with 50N
for 10s, no access to hazardous live
parts.
for 10s, no access to hazardous live
parts.
P
8.15
No risk of damage to the insulation of internal
wiring due to hot parts or sharp edges (2N force)
wiring due to hot parts or sharp edges (2N force)
Wire inside the appliance are well
secured, no risk of damage to the internal
wiring.
secured, no risk of damage to the internal
wiring.
P
8.16
Only special supply equipment can be used
Supply from AC mains.
N/A
8.17
Insulated winding wire without additional
interleaved insulation
interleaved insulation
Approved triple insulated wire used in T1.
P
8.18
Endurance test as required by 8.17
N/A
8.19
Disconnection from the mains
P
8.19.1
Disconnect device
A mains plug that is part of direct plug-in
equipment is used as disconnect device.
See clause 5.4.2.
equipment is used as disconnect device.
See clause 5.4.2.
P
All-pole switch or circuit breaker with >3mm contact
separation
separation
See above.
N/A
8.19.2
Mains switch ON indication
N/A
8.20
Switch not fitted in the mains cord
No switches provided.
N/A
8.21
Bridging components comply with clause 14
N/A
9
ELECTRIC SHOCK HAZARD UNDER NORMAL OPERATING CONDITIONS
P
9.1
Testing on the outside
P
9.1.1
For voltages >1000 V ac or >1500 V dc complies
with clause 13.3.1 for basic insulation
with clause 13.3.1 for basic insulation
No such high voltage.
N/A
9.1.1.1 a) Determination of Hazardous Live parts
The max. output voltage: 23,8Vdc.
P
b) Touch current measured from terminal devices
using the network in annex D ................................. :
(see appended table)
P
c) Discharge not exceeding 45 µC
0,53µC
P
d) Energy of discharge not exceeding 350 mJ
N/A
9.1.1.2
Test with test finger and test probe
No access to hazardous live parts.
P
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Page 11 of 73
IEC 60065
Clause
Requirement – Test
Result - Remark
Verdict
IEC60065E
ASTABEAB
9.1.2
No hazardous live shafts of knobs, handles or
levers
levers
No such hazardous device.
N/A
9.1.3
Ventilation holes tested by means of
4 mm x 100 mm test pin
4 mm x 100 mm test pin
No ventilation holes.
N/A
9.1.4
Terminal devices - within 25mm tested with
1 mm x 20 mm test pin (10 N); test probe D of IEC
61032
1 mm x 20 mm test pin (10 N); test probe D of IEC
61032
No such terminal.
N/A
Terminal devices tested with 1 mm x 100 mm
straight wire (1 N); test probe D of IEC 61032
straight wire (1 N); test probe D of IEC 61032
N/A
9.1.5
Pre-set controls tested with 2.5 mm x 100 mm test
pin (10 N); test probe C of IEC 61032
pin (10 N); test probe C of IEC 61032
No pre-set controls.
N/A
9.1.6
No shock hazard due to stored charge on
withdrawal of the mains plug; voltage (V) after 2 s :
withdrawal of the mains plug; voltage (V) after 2 s :
After 2 seconds, the measured voltage
across the main terminals is 8 V (no o/p
load applied, supply voltage was 264 V
r.m.s.).
across the main terminals is 8 V (no o/p
load applied, supply voltage was 264 V
r.m.s.).
Capacitance provided: CX1=0,33 µF,
Discharge resistance provided:
R1=R2=1MΩ
R1=R2=1MΩ
P
If C is not greater than 0,1 µF no test needed
The nominal capacitance across the
mains poles is exceeding 0,1µF.
mains poles is exceeding 0,1µF.
N/A
9.1.7
Enclosure sufficiently resistant to external force
P
a)
Test probe 11 of IEC 61032 for 10 s (50 N)
P
b)
Test hook of fig. 4 for 10 s (20 N)
P
c)
Conductive enclosure: 30 mm diameter test tool for
5 s (100 or 250 N) ................................................... :
5 s (100 or 250 N) ................................................... :
100N
P
9.2
No hazard 2s after removing a cover by hand
The enclosure of the appliance is fixed
by ultrasonic welding, no risk of
removing by hand.
by ultrasonic welding, no risk of
removing by hand.
N/A
10
INSULATION REQUIREMENTS
P
10.1
Insulation resistance (MΩ) at least 2 MΩ min. after
surge test for basic and 4 MΩ min. for reinforced
insulation ................................................................. :
surge test for basic and 4 MΩ min. for reinforced
insulation ................................................................. :
Mains supply plug and input/output
terminals were subjected to 50
discharges.
terminals were subjected to 50
discharges.
P
10.2
Humidity treatment 48 h or 120 h ........................... : Performed for 120h at temperature
between 40 °C and a relative humidity
between 93%.
between 93%.
P
10.3
Insulation resistance and dielectric strength
(see appended table)
P
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