Harman Kardon AVR 139 (serv.man3) EMC - CB Certificate ▷ View online
- Page 11 of 42 -
Report
No.
123035
IEC 60065
Clause
Requirement – Test
Result - Remark
Verdict
TRF No. IEC60065_I
8.21
Bridging components comply with clause 14…..:
Yes, mains switch and relay
across the capacitors are
certified component
See appended table, list of
critical components.
across the capacitors are
certified component
See appended table, list of
critical components.
P
8.22
Non-separable thin sheet material ………...:
No non-separable thin
sheet material.
sheet material.
N/A
9
Electric shock hazard under normal operating conditions
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 voltages exceeding 1000 V
ac or 1500 V dc.
ac or 1500 V dc.
N/A
9.1.1.1
a) Open circuit voltages …………….:
Mains input voltage >35 V,
see below.
see below.
—
b) Touch current measured from terminal devices
using the network in annex D ……………:
using the network in annex D ……………:
(see appended table 9.1.1.1)
P
c) Discharge not exceeding 45 μC ……..:
No part or contact of a terminal
with stored voltages between
60V - 15 kV.
with stored voltages between
60V - 15 kV.
N/A
d) Energy of discharge not exceeding 350 mJ ..:
No part or contact of a terminal
with stored voltages exceeding
15kV
with stored voltages exceeding
15kV
N/A
9.1.1.2
Test with test finger and test probe ………...:
No access to hazardous live
parts.
parts.
P
9.1.2
No hazardous live shafts of knobs, handles or levers:
No live shaft, handles or levers.
N/A
9.1.3
Ventilation holes and other holes tested by means of
4 mm x 100 mm test pin ………………………………:
4 mm x 100 mm test pin ………………………………:
No access for the test pin.
P
9.1.4
Terminal devices tested with 1 mm x 20 mm test pin
(10 N); test probe D of IEC 61032 …………………:
(10 N); test probe D of IEC 61032 …………………:
Does not reach hazardous live
parts.
parts.
P
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 ……:
Does not reach hazardous live
parts.
parts.
P
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 preset controls.
N/A
9.1.6
No shock hazard due to stored charge on withdrawal
of the mains plug; voltage (V) after 2 s ………………:
of the mains plug; voltage (V) after 2 s ………………:
See below
N/A
If C is not greater than 0,1 μF no test needed ………:
< 0.1 uF
P
- Page 12 of 42 -
Report
No.
123035
IEC 60065
Clause
Requirement – Test
Result - Remark
Verdict
TRF No. IEC60065_I
9.1.7
Resistance to external forces
P
a) Test probe 11 of IEC 61032 for 10 s (50 N):
Test with test finger result in
no hazard.
no hazard.
P
b) Test hook of fig. 4 for 10 s (20 N) ……:
Test with test hook results in
no hazard.
no hazard.
P
c) 30 mm diameter test tool for 5 s (100 or 250 N) :
Tested with 100N results in
no damage.
no damage.
P
9.2
No hazard after removing a cover by hand ……….:
No cover removable by hand.
N/A
10 Insulation
requirements
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 ……………………………………..:
> 100 M
Ω after surge test
P
10.2
Humidity treatment 48 h or 120 h ………….:
Performed for 120h at temp.
40
40
°C and relative humidity 93%
P
10.3
Insulation resistance and dielectric strength between
mains terminals ……………………………...:
mains terminals ……………………………...:
(see appended table 10.3)
P
Insulation Resistance and dielectric strength across
BASIC or SUPPLEMENTARY insulation (Class 1)
BASIC or SUPPLEMENTARY insulation (Class 1)
Class II apparatus.
N/A
Insulation resistance and dielectric strength across
REINFORCED insulation (Class II) ………..:
REINFORCED insulation (Class II) ………..:
(see appended table 10.3)
P
- Page 13 of 42 -
Report
No.
123035
IEC 60065
Clause
Requirement – Test
Result - Remark
Verdict
TRF No. IEC60065_I
11 Fault
conditions
11.1
No shock hazard under fault condition ………:
No electric shock hazard under
fault conditions.
fault conditions.
P
11.2
Heating under fault condition ……………….:
(see appended table 11.2)
P
Flames
extinguish
within 10 seconds ...................:
No flames
P
No hazard from softening solder ……………...:
No softening of solder
P
Soldered terminations not used as protective
mechanism ……………………………..:
mechanism ……………………………..:
No protective mechanism
P
11.2.1
Measurement of temperature rises …………..:
(see appended table 11.2)
P
11.2.2
Temperature rise of accessible parts ………...:
(see appended table 11.2)
P
11.2.3
Temperature rise of parts, other than windings,
providing electrical insulation ………………:
providing electrical insulation ………………:
(see appended table 11.2)
P
Temperature rise of printed circuit boards (PCB)
exceeding the limits of table 3 by max. 100 K for
max. 5 min …………………………………...:
exceeding the limits of table 3 by max. 100 K for
max. 5 min …………………………………...:
No exceeding the limits of
Table 3.
Table 3.
P
a) Temperature rise of printed circuit boards (PCB)
to 20.1.3, exceeding the limits of table 3 by not more
than 100 K for an area not greater than 2 cm² ……:
to 20.1.3, exceeding the limits of table 3 by not more
than 100 K for an area not greater than 2 cm² ……:
No area where temperature
exceeds 100K above limits
exceeds 100K above limits
N/A
b) Temperature rise of printed circuit boards (PCB)
to 20.1.3 up to 300 K for an area not greater than
2 cm² for a maximum of 5 min ……………….:
to 20.1.3 up to 300 K for an area not greater than
2 cm² for a maximum of 5 min ……………….:
No area where temperature
exceeds 300K above limits
exceeds 300K above limits
N/A
Meets all the special conditions if conductors on
printed circuit boards are interrupted ………………...:
printed circuit boards are interrupted ………………...:
No conductors are
interrupted/peeled/loosened
during fault conditions.
interrupted/peeled/loosened
during fault conditions.
N/A
Class I protective earthing maintained ……….:
Class II equipment.
N/A
11.2.4
Temperature rise of parts acting as a support or
mechanical barrier …………………………..:
mechanical barrier …………………………..:
Temperature rises are within
the limits.
the limits.
P
11.2.5
Temperature rise of windings
…………………………:
…………………………:
(see appended table 11.2)
P
11.2.6
Temperature rise of parts not subject to the limits of
11.2.1 to 11.2.5 …………………………………:
11.2.1 to 11.2.5 …………………………………:
No excessive temperature
observed/measured on
other parts.
(see appended table 11.2)
observed/measured on
other parts.
(see appended table 11.2)
P
- Page 14 of 42 -
Report
No.
123035
IEC 60065
Clause
Requirement – Test
Result - Remark
Verdict
TRF No. IEC60065_I
12 Mechanical
strength
12.1.1
Bump test where mass >7 kg …………...:
No damage in the sense of
this standard
this standard
P
12.1.2
Vibration test ………………………………:
Assessed to be satisfactory
constructed.
constructed.
P
12.1.3
Impact hammer test ……………………...:
No damage in the sense of
this standard.
this standard.
P
Steel ball test ……………………………...:
No damage in the sense of
this standard.
this standard.
P
12.1.4
Drop test for portable apparatus where mass ≤ 7 kg :
Not portable apparatus.
N/A
12.1.5
Thermoplastic enclosures stress relief test ….:
Tested, 70ºC, 7h
P
12.2
Fixing of knobs, push buttons, keys and levers ..:
Normal use will not impair the
protection against electric
shock.
protection against electric
shock.
P
12.3
Remote controls with hazardous live parts ….:
No cable connected remote
control devices.
control devices.
N/A
12.4
Drawers (pull test 50 N, 10 s) ………………:
No drawers
N/A
12.5
Antenna coaxial sockets providing isolation …:
No antenna socket which
insolate hazardous live parts
from accessible parts.
insolate hazardous live parts
from accessible parts.
N/A
12.6
Telescoping or rod antennas construction …….:
No telescoping or rod antennas
N/A
12.6.1
Telescoping or rod antennas securement ……......:
N/A
13
Clearances and creepage distances
13.1
Clearances in accordance with 13.3 ………………:
See 13.3
P
Creepage distances in accordance with 13.4 …….:
See 13.4
P
13.2
Determination of operating voltage ……………..……:
Conventional linear transformer
used. Upper rated supply
voltage (230V) applied in
determining the operating
voltage.
used. Upper rated supply
voltage (230V) applied in
determining the operating
voltage.
P
13.3 Clearances
2N for internal parts and 30N
for enclosures are considered
when determining clearances.
for enclosures are considered
when determining clearances.
P
13.3.1 General
…………………………………:
P
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