ADAV4622 Analog Devices, ADAV4622 Datasheet - Page 25

ADAV4622

Manufacturer Part Number

ADAV4622

Description

Audio Processor for Advanced TV with Sound IF Demodulator and Stereo Decoder

Manufacturer

Analog Devices

Datasheet

1.ADAV4622.pdf (28 pages)

Specifications of ADAV4622

Instructions/cycles

2560

Dac Dnr (db)

94dB

Dac Thd+n

86dB

Product Description

Audio Processor for Advanced TV with Sound IF Demodulator and Stereo Decoder

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Current page: 25 of 28
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S/PDIF INPUT/OUTPUT

The S/PDIF output (SPDIF_OUT/SDO1) uses a multiplexer to

select an output from the audio processor or to pass through the

unprocessed SPDIF_IN signals, as shown in Figure 32. On the

ADAV4622, the S/PDIF inputs, SPDIF_IN0/SPDIF_IN1/

SPDIF_IN2/SPDIF_IN3/SPDIF_IN4/SPDIF_IN5/SPDIF_IN6,

are available on the SDIN3, LRCLK0, BCLK0, LRCLK1,

BCLK1, LRCLK2, and BCLK2 pins, respectively. It is possible to

have all seven S/PDIF inputs connected to different S/PDIF

signals at one time. A consequence of this setup is that none of

the LRCLKs and BCLKs are available for use with the digital

inputs SDIN0, SDIN1, SDIN2, and SDIN3. If there is only one

S/PDIF input in use, using the SDIN3 pin as the dedicated

S/PDIF input is recommended; this enables BCLK0/LRCLK0,

BCLK1/LRCLK1, and BCLK2/LRCLK2 to be used as the clock

and framing signal for the synchronous and asynchronous port.

If SDIN3 is used as an S/PDIF input, it should not be used

internally as an input to the audio processor because it contains

invalid data. Similarly, if BCLK or LRCLK are used as S/PDIF

inputs, they can no longer be used as the clock and framing

signals for SDIN0, SDIN1, SDIN2, and SDIN3. The S/PDIF

encoder supports only consumer formats that conform to

IEC-600958.

HARDWARE MUTE CONTROL

The ADAV4622 mute input can be used to mute any of the

analog or digital outputs. When the MUTE pin goes low, the

selected outputs ramp to a muted condition. Unmuting is

handled in one of two ways and depends on the register setting.

By default, the MUTE pin going high causes the outputs to

immediately ramp to an unmuted state. However, it is also

possible to have the unmute operation controlled by a control

the device does not unmute until a bit in the control register is

set. This can be used when the user wants to keep the outputs

muted, even after the pin has gone high again, for example, in

the case of a fault condition. This allows the system controller

total control over the unmute operation.

Full details on register settings and operation of the mute function

are available upon request. Contact a local Analog Devices sales

representative for more details.

ENCODER

S/PDIF

Figure 32. S/PDIF Output

SDIN3 (SPDIF_IN0)

LRCLK0 (SPDIF_IN1)

BCLK0 (SPDIF_IN2)

LRCLK1 (SPDIF_IN3)

BCLK1 (SPDIF_IN4)

LRCLK2 (SPDIF_IN5)

BCLK2 (SPDIF_IN6)

SDO1 (SPDIF_OUT)

Rev. B | Page 25 of 28

AUDIO PROCESSOR

The internal audio processor runs at 2560 × f

is 122.88 MHz. Internally, the word size is 28 bits, which allows

24 dB of headroom for internal processing. Designed specific-

ally with audio processing in mind, it can implement complex

audio algorithms efficiently.

By default, the ADAV4622 loads a default audio flow, as shown

in Figure 34. However, because the audio processor is fully

programmable, a custom audio flow can be quickly developed

and loaded to the audio processor.

The audio flow is contained in program RAM and parameter

RAM. Program RAM contains the instructions to be processed

by the audio processor, and parameter RAM contains the

coefficients that control the flow, such as volume control, filter

coefficients, and enable bits.

GRAPHICAL PROGRAMMING ENVIRONMENT

Custom flows for the ADAV4622 are created in a powerful

drag-and-drop graphical programming application. No knowl-

edge of assembly code is required to program the ADAV4622.

Featuring a comprehensive library of audio processing blocks

(such as filters, delays, dynamics processors, and third-party

algorithms), it allows the quick and simple creation of custom

flows. For debugging purposes, run-time control of the audio

flow allows the user to fully configure and test the created flow.

Training materials and support are available upon request.

Contact a local Analog Devices sales representative for more

details.

APPLICATION LAYER

Unique to this family is the embedded application layer, which

allows the user to define a custom set of registers to control the

audio flow, greatly simplifying the interface between the audio

processor and the system controller.

Once a custom flow is created, a user-customized register map

can be defined for controlling the flow. Each register is 16 bits,

but controls can use only one bit or all 16 bits. Users have full

control over which parameters they control and the degree of

control they have over those parameters during run time. The

combination of the graphical programming environment and

the powerful application layer allows the user to quickly develop

a custom audio flow and still maintain the usability of a simple

Comprehensive documentation on developing a custom audio

flow and the definition and creation of the custom application

layer for the ADAV4622 is available upon request. Contact a

local Analog Devices sales representative for more details.

; at 48 kHz, this

ADAV4622

ADAV4622 Analog Devices, ADAV4622 Datasheet - Page 25

ADAV4622

Specifications of ADAV4622

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