Denon AVR-4806CI User Manual
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154
Additional Information
The two diagrams below illustrate two examples of
microphone placement for two types of seating
arrangements. There are six measuring positions shown in
each case. Increasing the number of measuring points will
provide a better sampling of the listening area and produce
better results. The dotted line represents the area in which the
room correction provided by Audyssey MultEQ XT is optimal.
The microphone must be placed at ear height at each location.
• Audyssey MultEQ XT is a trademark of Audyssey
Laboratories. It is licensed under US and National Patent
Applications 20030235318 and 10/700,220. Additional U.S.
and Foreign Patents pending. MultEQ and the Audyssey
MultEQ logo are trademarks of Audyssey Laboratories, Inc..
All rights reserved.
HDCD® (High Definition Compatible
Digital®)
HDCD is an encoding/decoding technology that greatly
reduces the distortion that occurs upon digital recording while
maintaining compatibility with the conventional CD format,
thus expanding the dynamic range and achieving a high
resolution.
Conventional CDs and HDCD compatible CDs are identified
automatically to select the optimum digital processing.
•
®, HDCD®, High Definition Compatible Digital® and
Microsoft® are either registered trademarks or trademarks
of Microsoft Corporation, Inc. in the United States and/or
other countries. HDCD system manufactured under license
from Microsoft Corporation, Inc. This product is covered by
one or more of the following: In the USA: 5,479,168,
5,638,074, 5,640,161, 5,808,574, 5,838,274, 5,854,600,
5,864,311, 5,872,531, and in Australia: 669114. Other
patents pending.
DENON LINK (DENON Digital Link)
High-grade LPCM 24-bit, 96-kHz, 6-channel or 24-bit, 192-kHz,
2-channel digital input is possible when the AVR-4806CI is
connected via a shielded twisted pair (STP) cable to a DENON
DVD player that supports Denon Digital Link, Since DENON
Digital Link uses low-voltage differential signaling (LVDS),
transfer capabilities of greater than 1.2 Gbps at a differential
voltage of approximately 0.3 Vpp are possible.