Safety instructions
Warning – High Voltage – Risk of Death!
Opening the Audiobeam while it is connected to the mains is likely to result in a life- threatening electric shock!
There are no user serviceable parts inside – if the Audiobeam should become defective, any repairs must be carried out by an official Sennheiser Service Partner. If the unit is opened in breach of this instruction, the warranty becomes null and void.
Risk of fire!
Audiobeam generates heat! Make sure that the air vents of the unit are not covered or blocked! Keep Audiobeam away from heat sources and never expose Audiobeam to direct sunlight! Maintain a minimum distance of 1 meter between Audiobeam and combustible materials.
Attention!
If liquids or small parts which conduct electricity find their way into the interior or to the connecting sockets of Audiobeam, this can cause a short circuit! Use Audiobeam in dry rooms only and keep liquids and small parts which conduct electricity away from the unit and its connecting sockets. For cleaning Audiobeam, only use a dry or slightly damp cloth. Never use any solvents or cleansing agents.
Is there a danger of hearing damage?
A new study tested the Audiobeam for possible damage to hearing due to the ultrasound it emits and certified its harmlessness. In this study, Prof.
“The ultrasound emitted by the Sennheiser Audiobeam is safe at a minimum distance of 20 cm from the protective grid”.
The limit values of the European and international standards and guidelines IEC
How Audiobeam works
Audiobeam is an acoustic spotlight. This means:
yAudiobeam is able to focus sound – either directly or via reflections on a surface. This allows e.g. information in museums and at exhibitions to be radiated directly from the exhibits – only visitors standing directly in front of an exhibit are addressed.
yAudiobeam limits sound reproduction to precisely defined areas – adjacent areas are kept
yAstonishing audio effects amaze visitors as Audiobeam allows the sound to come from unusual directions.
Audiobeam uses
Audiobeam works with ultrasound, modulating the audible sound onto an ultrasonic carrier frequency. Due to the nonlinearity of air, the desired audio signal is produced by the self- demodulation effect of the ultrasound wave. At an angle of 30°, a slim sound beam is created that can be heard over long distances.
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