14
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Using the equipment with Bluetooth wireless technology on board
airplanes, or
❖
In any other environment where the risk of interference to other
devices or services is perceived or identified as harmful.
If you are uncertain of the policy that applies on the use of wireless devices
in a specific organization or environment (e.g. airports), you are
encouraged to ask for authorization to use the device with Bluetooth
wireless technology prior to turning on the equipment.
Regulatory statements
This product complies with any mandatory product specification in any
country/region where the product is sold. In addition, the product complies
with the following:
European Union (EU) and EFTA
This equipment complies with the R&TTE directive 1999/5/EC and has
been provided with the CE mark accordingly.
Canada — Industry Canada (IC)
This device complies with RSS 210 of Industry Canada.
Taiwan
Article 14
Unless approved, for any model accredited low power radio frequency
electric machinery, any company, trader or user shall not change the
frequency, increase the power or change the features and functions of the
original design.
Article 17
Any use of low power radio frequency electric machinery shall not affect
aviation safety and interfere with legal communications. In the event
interference is caused, the use of such electric machinery shall be
immediately discontinued. Operation of such products can be resumed
only when they are modified and can no longer cause interference.
The legal communications mentioned in the above item refer to radio
communications operated in accordance with telecommunication laws and
regulations.
Low power radio frequency electric machinery shall resist against
interference from legal communications or from industrial, scientific and
medical radio emission electric machinery.
Exposure to Radio Frequency Radiation
The radiated output power of the Bluetooth Card from TOSHIBA is far below
the FCC radio frequency exposure limits. Nevertheless, the Bluetooth Card
from TOSHIBA shall be used in such a manner that the potential for human
contact during normal operation is minimized.