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| STAC9752 Datasheet, PDF (30/95 Pages) Integrated Device Technology – TWO-CHANNEL, 20-BIT, AC’97 2.3 CODECS WITH HEADPHONE DRIVE, SPDIF OUTPUT MICROPHONE & JACK SENSING | |||
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STAC9752/9753
TWO-CHANNEL, 20-BIT, ACâ97 2.3 CODECS WITH HEADPHONE DRIVE, SPDIF OUTPUT MICROPHONE & JACK SENSING
Slot
0
1
2
3, 4
5
6-11
12
Table 5. The AC-Link input slots (transmitted from the CODEC)
Name
SDATA_IN TAG
STATUS ADDR read port
STATUS DATA read port
PCM L&R ADC record
Modem Line 1 ADC
PCM ADC Record
GPIO Status
Description
MSBs indicate which slots contain valid data
MSBs echo register address; LSBs indicate which slots request data
16-bit command register read data
20-bit PCM data from Left and Right inputs
16-bit modem data from modem Line1 input
20-bit PCM data - Alternative Slots for Input
GPIO read port and interrupt status
5.2.
AC-Link Serial Interface Protocol
The ACâ97 Controller signals synchronization of all AC-Link data transactions. The ACâ97 CODEC,
Controller, or external clock source drives the serial bit clock (BIT_CLK) onto AC-Link, which the
ACâ97 Controller then qualifies with a synchronization signal (SYNC) to construct audio frames.
SYNC, fixed at 48 KHz, is derived by dividing down the serial bit clock (BIT_CLK). BIT_CLK, fixed at
12.288 MHz, provides the necessary clocking granularity to support 12 20-bit outgoing and incoming
time slots. AC-Link serial data is transitioned on each rising edge of BIT_CLK. The receiver of
AC-Link data (CODEC for outgoing data and Controller for incoming data) samples each serial bit on
the falling edges of BIT_CLK.
The AC-Link protocol provides for a special 16-bit time slot (Slot 0) wherein each bit conveys a valid
tag for its corresponding time slot within the current audio frame. A 1 in a given bit position of slot 0
indicates that the corresponding time slot within the current audio frame has been assigned to a data
stream, and contains valid data. If a slot is tagged invalid, it is the responsibility of the source of the
data (ACâ97 CODEC for the input stream, ACâ97 Controller for the output stream), to stuff all bit posi-
tions with 0 during that slotâs active time.
SYNC remains high for a total duration of 16 BIT_CLKs at the beginning of each audio frame. The
portion of the audio frame where SYNC is high is defined as the âTag Phaseâ. The remainder of the
audio frame where SYNC is low is defined as the âData Phaseâ.
Additionally, for power savings, all clock, sync, and data signals can be halted. This requires that an
ACâ97 CODEC be implemented as a static design to allow its register contents to remain intact when
entering a power savings mode.
5.2.1.
AC-Link Variable Sample Rate Operation
The AC-Link serial interconnect defines a digital data and control pipe between the Controller and
the CODEC. The AC-Link supports 12 20-bit slots at 48 KHz on SDATA_IN and SDATA_OUT. The
time division multiplexed (TDM) âslot-basedâ architecture supports a per-slot valid tag infrastructure
that the source of each slotâs data sets or clears to indicate the validity of the slot data within the cur-
rent audio frame. This tag infrastructure can be used to support transfers between Controller and
CODEC at any sample rate.
5.2.2.
Variable Sample Rate Signaling Protocol
AC-Linkâs tag infrastructure imposes FIFO requirements on both sides of the AC-Link. For example,
in passing a 44.1 KHz stream across the AC-Link, for every 480 audio output frames that are sent
across, 441 of them must contain valid sample data. Does the ACâ97 Digital Controller pass all 441
PCM samples followed by 39 invalid slots? Or does the ACâ97 Digital Controller evenly interleave
IDTâ¢
30
STAC9752/9753
TWO-CHANNEL, 20-BIT, ACâ97 2.3 CODECS WITH HEADPHONE DRIVE, SPDIF OUTPUT MICROPHONE & JACK SENSING
REV 3.3 1206
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