SAA2520GP Philips, SAA2520GP Datasheet - Page 11
SAA2520GP
Manufacturer Part Number
SAA2520GP
Description
Stereo filter and codec for MPEG layer 1 audio applications
Manufacturer
Philips
Datasheet
1.SAA2520GP.pdf
(36 pages)
Philips Semiconductors
Interface between SAA2520 and SAA2521 consists of the following signals:
F
Filtered data is transferred between SAA2520 filter/codec
functions and the SAA2521 using the format shown in
Fig.9.
The frequency of the SWS signal is equal to the sample
frequency FS and the bit clock SCL is 64 times the sample
frequency. Each period of SWS contains 64 data-bits, 48
of which are used to transfer data. The half period in which
SWS is LOW is used to transfer the information of the
LEFT channel while the following half period during which
SWS is HIGH carries the data of the RIGHT channel.
The 24-bit samples are transferred most significant bit first.
This bit is transferred in the bit clock period with a 1-bit
delay following the change in SWS. Both SWS and
FDAF/FDAC change state at the negative edge of SCL.
The SAA2521 may be synchronized to the sub-band
codec using the FSYNC signal, which defines the SWS
period in which the samples of sub-band 0 (containing the
lowest frequency components) are transferred
(see Fig.10).
SAA2521
The operation of SAA2521 and the input/output circuitry is
controlled by three signals shown in Table 1.
FRESET and SYNCDAI are given whenever:
August 1993
SWS
SCL
FDAC
FDAF
FSYNC
ILTERED
Stereo filter and codec for MPEG layer 1
audio applications
FS256, SCL and SWS outputs switch between
high and low impedance
FS256 frequency is changed
(12.288/11.2896/8.192 MHz)
FDIR is switching
bit rate is changing
system reset is active
-I
AND INPUT
2
S
bi-directional
bi-directional
bi-directional
bi-directional
output
INTERFACE
/
OUTPUT MODE CONTROL
word select (common to I
bit clock (common to I
codec data
filter data
synchronization
11
2
S)
MPEG C
The interface that carries the MPEG coded signal uses
the following signals:
The MPEG I
SBWS
SBCL
SBDA
SBEF
Operation is further controlled by:
SBDIR
URDA
The SBMCLK signal is the main frequency from which
other clock signals are derived. In encode mode this
division is performed internally. In decode mode the
external source should provide SBWS and SBCL.
The frequency of the signal is equal to 1/32nd of the bit
rate. The frequency of the bit clock SBCL is twice that of
the bit rate. Some examples of the frequencies are given
in Table 2.
2
S)
ODED
bi-directional
bi-directional
bi-directional
input
input
input
2
S interface
I
NTERFACE
word selection
bit clock
sub-band coded data
error signal
direction of data flow
unreliable encoded data signal
FS
64FS
FS/32
Preliminary specification
SAA2520
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