Idiomas disponibles
Idiomas disponibles
A2 Electromagnetic lmmunity
For Home Healthcare Environment EQUIPMENT and SYSTEMS
Guidance and manufacturer's declaration - electromagnetic lmmunity
The VP-M10 is intended for use in the electromagnetic environ-
ments specified below; The customer or the user of the VP-M10
should assure that it is used in such an environment.
lmmunity
IEC60601 test
test
level
Electrostatic
±8kV contact
discharge
±2kV, ±4 kV,
(ESD) IEC
±8kV, ±15kV
61000-4-2
air
Electrical fast
±2KV for power
transient/
supply lines
burst IEC
61000-4-4
Surge IEC
±1kV line to line
61000-4-8
±2kV line to
ground
Power
30A/m
frequency
(50/60Hz)
magnetic
field IEC
61000-4-8
compilance
Electromagnetic
level
environment -guidance
±8kV
Floors should be wood,
contact
concrete or ceramic tile.
±2kV, ±4kV,
lf floors are covered
±BkV,
with synthetic material,
±15kV
the relative humidity
air
should be at least 30%.
±2KV for
Mains power quality
power su-
should be that of a
pply lines
typical commercial or
hospital environment.
±1kV line
Mains power quality
to line
should be that of a
typical commercial or
±2kV line
hospital environment.
to ground
30A/m
Power frequency mag-
netic fields should be
at levels characteristic
of a typical location in
a typical commercial or
hospital environment.
32
Voltage dips,
0% UT; 0,5 cycle
interruptions
At 0º, 45°, 90º,
and voltage
135º, 180º, 225º,
variations on
270º and 315º
power supply
input lines
IEC 61000-
4-11
Conducted
3Vrms 150kHz
RF IEC
to 80MHz
61000-4-6
Radiated
10V/m 80MHz
RF IEC
to 2.7GHz
610004-3
NOTE: UT is the a.c. mains voltage prior to application of the test level.
0% UT; 0,5
Mains power quality
cycle At 0º,
should be that of a
45°, 90º,
typical commercial or
135º, 180º,
hospital environment. lf
225º, 270º
the user of the VP-M10
and 315º
requires continued
operation during power
mains interruptions, it is
recommended that the
VP-M10 be powered
from an uninterruptible
power supply.
3Vrms
The MANUFACTURER
should consider redu-
cing the minimum sepa-
ration distance, based on
RISK MANAGEMENT,
and using higher IM-
MUNITY TEST LEVELS
10V/m
that are appropriate for
the reduced minimum
separation distance.
Minimum separation
distances for higher IM-
MUNITY TEST LEVELS
shall be calculated using
the following equation:
Where P is the maximum
power in W, d is the mini-
mum separation distance in
m, and E is the IMMUNITY
TEST LEVEL in V/m.
33
