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6
8. DECLARATION OF ELECTROMAGNETIC COMPATIBILITY
The CN210X Scooter is designed for use in the electromagnetic conditions specified in the
following tables. The user of the CN210X Scooter must make sure that it is used in the
conditions specified.
Warnings related to risks from electromagnetic interference:
Interference can cause accidental movement and/or erratic vehicle control.
Electromagnetic energy emitted by sources such as:
- radio transmitting stations;
- TV broadcasting stations;
- amateur radio stations;
- shop alarms;
- mobile phones and cordless telephones
can interfere with electric wheelchairs and electric scooters.
Interference can cause the electromagnetic brake to release, the device to move in an
unintended direction. They can also permanently damage the
permanently damage the device's electronic control unit. In the everyday environment there
are a number number of relatively intense electromagnetic sources. The intensity of EM
energy can be measured in volts per metre (V/m). Your scooter is equipped with protection
against interference electromagnetic interference tested and certified in accordance with
current international requirements, up to acertain intensity. This is called the 'immunity level'.
Table 1
MANUFACTURER'S GUIDE AND DECLARATION - ELECTROMAGNETIC EMISSIONS
The CN210X Scooter is intended for use in the following electromagnetic conditions.
EMISSION TESTS
RF emissions
CISPR 11
RF emissions
CISPR 11
Harmonic emissions
IEC 61000-3-2
Voltage flutter/flicker
IEC 61000-3-3
The client or user must ensure that it is used in these conditions.
CONFORMITY
Not applicable
Conforming
The CN210X Scooter uses RF energy
Group 1
and in all likelihood do not interfere
with nearby electronic equipment.
Class B
ELECTROMAGNETIC
ENVIRONMENT – GUIDE
only for internal functioning and
for charging the battery. Its RF
emissions are therefore very low
The CN210X Scooter is suitable
for use in all buildings, including
the home and buildings
connected directly to the low
voltage public power grid for
residential applications.
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