Barco Eonis MDRC-2224 User Manual page 31

Immunity test
Electrical fast
transient/burst
IEC 61000-4-4
Surge
IEC61000-4-5
Voltage dips, short
interruptions and voltage
variations on power
supply input lines
IEC 61000-4-11
Power frequency (50/60
Hz) magnetic field
IEC 61000-4-8
Conducted RF
IEC 61000-4-6
Radiated RF
IEC 61000-4-3
1. is the a.c. mains voltage prior to application of the test level.
2. Eonis doesn't contain susceptible components to magnetic fields
K5903081 EONIS 08/03/2016
IEC 60601
Test levels
± 2kV for power supply
lines
± 1kV for input/ output
lines
± 1 kV line(s) to line(s)
± 2 kV line(s) to earth
1
< 5% U (> 95% dip in
T
U ) for 0.5 cycle
T
40% U (60% dip in U )
T T
for 5 cycles
70% U (30% dip in U )
T T
for 25 cycles
< 5% U (>95% dip in
T
U ) for 5s
T
3 A/m
3 Vrms
150 kHz to 80 MHz
3 V/m
80 MHz to 2.5 GHz
7. Important information
Compliance level
± 2kV for power supply
lines
± 1kV for input/ output
lines
± 1 kV line(s) to line(s)
± 2 kV line(s) to earth
< 5% U (> 95% dip in
T
U ) for 0.5 cycle
T
40% U (60% dip in U )
T T
for 5 cycles
70% U (30% dip in U )
T T
for 25 cycles
< 5% U (>95% dip in
T
U ) for 5s
T
2
Not applicable
3 V
3 V/m
Electromagnetic
environment –
guidance
Mains power quality
should be that of a typical
commercial or hospital
environment
Mains power quality
should be that of a typical
commercial or hospital
environment
Mains power quality
should by that of a
typical commercial or
hospital environment. If
the user of the Eonis
requires continued
operation during power
mains interruptions, it is
recommended that the
Eonis be powered from
an uninterruptible power
supply or a battery.
Power frequency
magnetic fields should
be at levels characteristic
of a typical location in
a typical commercial or
hospital environment.
Portable and mobile
RF communications
equipment should be
used no closer to
any part of the Eonis,
including cables, than
the recommended
separation distance
calculated from the
equation applicable
to the frequency
of the transmitter.
Recommended
separation distance
d = 1.2√P
d = 1.2√P 80 MHz to 800
MHz
d = 2.3√P 800 MHz to 2.5
Ghz
Where P is the maximum
output power rating
of the transmitter in
watts (W) according
to the transmitter
manufacturer and d
is the recommended
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