9301 functional description, Audio down mixer and mono mixer function – Cobalt Digital COMPASS 9301 AES Audio Delay User Manual

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9301 Functional Description

1-8

9301 PRODUCT MANUAL

9301-OM (V4.2)

Output audio rates are always 48 kHz locked to the selected reference, but
discrete AES inputs can be set to bypass the sample rate converters to align
these inputs with the output timing (AES must be nominally 48 kHz input).
The sample rate converters are enabled (bypass turned off) by default. Output
AES is always precisely synchronized with the selected reference.

As set with the default settings, the routing between AES input channels and
AES output channels is basic 1-to-1 (AES Ch 1 input is routed to AES Ch 1
output, and so on). Other sources and/or destinations for each channel are
selected (from the choices listed above) using the card edge controls or a
remote control system.

Note:

As shown in Figure 1-1, the 9301 is equipped with eight discrete AES input
pair ports and eight discrete AES output pair ports. On Rear I/O Modules hav-
ing limited AES I/O capabilities, switches S11 thru S14 allow available rear
module BNC connectors to be allotted between AES inputs and outputs as
desired. Buffered copies of

AES OUT (1-4)

are available as dedicated outputs

and as respective outputs fed through S11 – S14 on the 9301 card.

Audio Down Mixer and Mono Mixer Function

(See Figure 1-2.) The Audio Down Mixer function provides for the selection
of any five AES audio sources serving as Left (

L

), Right (

R

), Center (

C

), Left

Surround (

Ls

), and Right Surround (

Rs

) individual signals to be multiplexed

into a stereo pair (Down Mix Left (

DM-L

) and Down Mix Right (

DM-R

)). The

resulting stereo pair

DM-L

and

DM-R

can in turn be routed and processed just

like any of the other audio sources described earlier.

Figure 1-2 Audio Mixing Functional Block Diagram with Example Sources

The Mono Mixer function (Figure 1-3) generates an additional mono-mixed
channel from two selected AES input channels serving as left and right inputs.
The resulting mono mix channel

MONO

can in turn be routed and processed

just like any of the other audio sources described earlier.

Figure 1-3 Audio Mono Mix Functional Block Diagram with Example Sources

DM-L

Ls

L

C

R

Rs

DM-R

AES Ch 1

AES Ch 2

AES Ch 6

AES Ch 4

AES Ch 5

AES Ch 1 - Ch 16

MONO

L

Σ

R

AES Ch 12

AES Ch 16

AES Ch 1 - Ch 16