Gima SUPER VEGA 36 Handbuch Seite 17

The surgical aspirator SUPER VEGA BATTERYis intended for use in the electromagnetic environment specified below.
The customers or the user of the surgical aspirator SUPER VEGA BATTERYshould assure that it's used in such an environment.
Immunity Test
Conducted Immunity
IEC / EN 61000-4-6
Radiated Immunity
IEC / EN 61000-4-3
Note 1: At 80 MHz and 800 MHz the interval with the highest frequency is applied
Note 2: These guide lines may not be applicable in all situations. The electro-magnetic propagation is influenced by the absorption and by
reflection from buildings, objects and people.
a) The field intensity for fixed transmitters such as the base stations for radiotelephones (mobile and cordless) and terrestrial mobile radio,
amateur radio devices, radio AM and FM transmitters and TV transmitters can not be theoretically and accurately foreseen.
To establish an electro-magnetic environment generated by fixed RF transmitters, an electro-magnetic study of the site should be considered.
If the field intensity measured in the place where the device will be used surpasses the above mentioned applicable level of conformity, the
normal functioning of the device should be monitored. If abnormal performance arises, additional measures such as changing the device's
direction or positioning may be necessary.
b) The field intensity on an interval frequency of 150 kHz to 80 MHz should be less than 3 V/m.
Recommended separation distance between portable and mobile radio-communication devices and the monitor
The SUPER VEGA BATTERYsurgical aspirator is intended to operate in an electro-magnetic environment where RF irradiated interferences are
under control. The client or operator of the SUPER VEGA BATTERYdevice can help prevent electro-magnetic interference by keeping a
minimum distance between the portable and mobile RF communication devices (transmitters) and the SUPER VEGA BATTERYdevice, as
recommended below, in relation to the radio-communication maximum output power.
Maximum nominal output
power of the
Transmitter W
0,01
0,1
1
10
100
For transmitters with a maximum nominal output power not shown above, the recommended separation distance in metres (m) can be
calculated using the equation applicable to the transmitter frequency, where P is the maximum nominal output power of the transmitter in Watt
(W) depending on the transmitter's manufacturer.
Note 1: At 80 MHz and 800 MHz the interval with the highest frequency is applied
Note 2: These guide lines may not be applicable in all situations. The electro-magnetic propagation is influenced by the absorption and by the
reflection from buildings, objects and people.
Guidance and manufacturer's declaration – Immunity Emissions
Level indicated by the
IEC 60601-1-2
3Vrms 150kHz to 80Mhz
(for non life-supporting devices)
3V/m 80MHz to 2.5GHz
(for non life-supporting devices)
150 kHz to 80 MHz
d = [3.5 / V ]
1
0,12
0,38
1,2
3,8
12
Compliance level
V = 3 V rms
1
E = 3 V / m
1
Separation distance from the frequency transmitter (m)
80 MHz to 800 MHz
P
d = [12/E
0,12
0,38
1,2
3,8
17
Electromagnetic environments - guidance
The portable and mobile RF communication
devices, including cables, must not be used
closer to the SUPER VEGA BATTERYdevice,
than the separation distance calculated by the
equation applicable to the transmitter
frequency. Recommended separation distance
P
d = [3.5 / V ]
1
P
d = [12 / E ] from 80 MHz to
1
800MHz
P
d = [23 / E ] from 800 MHz to 2.5
1
GHz
Where P is the maximum nominal output voltage of
the transmitter in Watt (W) depending on the
manufacturer of the transmitter and the
recommended separation distance in metres (m).
The intensity of the field from the fixed RF
transmitters, as determined by an electro-magnetic
a)
study of the site , could be lower than the level of
conformity of each frequency interval
It is possible to check for interference in proximity
to devices identified by the following symbol:
800 MHz to 2.5 GHz
P
] d = [23/E
1
12
b)
.
P
]
1
0,23
0,73
2,3
7,3
23