Philips SWA3302H
Fibre optic audio cable
1.5 m
Experience superior sound
with this fibre optic audio cable
Experience superior Hi-definition sound. Optically pure light tube transfers digital audio
signals between your components for uncompromised sound quality.
Enjoy better audio quality
• High-quality fibre optics
Enjoy extended durability
• Protective metal shell for extended durability
• Flexible PVC jacket
Easy installation
• Audio adapters included
• Non-slip ergonomic grip for easy use
Environmentally friendly
• Environmentally friendly lead-free construction
Fibre optic audio cable
1.5 m
Packaging dimensions
• Packaging dimensions (W x H x D):
9.1 x 24.2 x 4 cm
• Net weight: 0.039 kg
• Gross weight: 0.079 kg
• Tare weight: 0.04 kg
• EAN: 87 12581 57425 3
• Number of products included: 1
• Packaging type: Blister
Outer Carton
Outer carton (L x W x H): 19.4 x 12.1 x 26.9 cm
Net weight: 0.156 kg
Gross weight: 0.592 kg
Tare weight: 0.436 kg
EAN: 87 12581 57426 0
Number of consumer packages: 4
Flexible PVC Jacket
Flexible PVC jacket provides protection to the
delicate core of the cable. It also offers extended
durability and ease of installation.
Audio Adapters Included
Audio adapter included for versatile application of
Easy grip
This non-slip grip makes connecting your
components easy and ergonomically comfortable.
Metal shell
The metal shell protects the internal connection of
the cable. It ensures durability and reliability of your
Fibre Optics
Optically pure light tube carries digital information
to your components for uncompromised Hidefinition sound.
Issue date 2011-03-04
© 2011 Koninklijke Philips Electronics N.V.
All Rights reserved.
Version: 1.0.6
Specifications are subject to change without notice.
Trademarks are the property of Koninklijke Philips
Electronics N.V. or their respective owners.
12 NC: 8670 000 70087
EAN: 87 12581 57425 3
Was this manual useful for you? yes no
Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Download PDF