CS8414-CS Ver la hoja de datos (PDF) - Cirrus Logic
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CS8414-CS Datasheet PDF : 38 Pages
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CS8413 CS8414
Normal Modes (M3 = 0)
When M3 is low, the normal serial port formats
shown in Figure 17 are selected using M2, M1, and
M0. These formats are also listed in Table 3,
wherein the first word past the format number
(Out-In) indicates whether FSYNC and SCK are
outputs from the CS8414 or are inputs. The next
word (L/R-WSYNC) indicates whether FSYNC in-
dicates the particular channel or just delineates
each word. If an error occurs (ERF = 1) while using
one of these formats, the previous valid audio data
for that channel will be output. As long as ERF is
high, that same data word will be output. If the
CS8414 is not locked, it will output all zeroes. In
some modes FSYNC and SCK are outputs and in
others they are inputs. In Table 3, LSBJ is short for
LSB justified where the LSB is justified to the end
of the audio frame and the MSB varies with word
length. As outputs the CS8414 generates 32 SCK
periods per audio sample (64 per stereo sample)
and, as inputs, 32 SCK periods must be provided
per audio sample. When FSYNC and SCK are in-
puts, one stereo sample is double buffered. For
those modes which output 24 bits of audio data, the
auxiliary bits will be included. If the auxiliary bits
are not used for audio data, they must be masked
off.
M2 M1 M0
Format
0 0 0 0 - Out, L/R, 16-24 Bits
0 0 1 1 - In, L/R, 16-24 Bits
0 1 0 2 - Out, L/R, I2S Compatible
0 1 1 3 - In, L/R, I2S Compatible
1 0 0 4 - Out, WSYNC, 16-24 Bits
1 0 1 5 - Out, L/R, 16 Bits LSBJ
1 1 0 6 - Out, L/R, 18 Bits LSBJ
1 1 1 7 - Out, L/R, MSB Last
Table 3. Normal Audio Port Modes (M3 = 0)
Special Modes (M3 = 1)
When M3 is high, the special audio modes de-
scribed in Table 4 are selected via M2, M1, and
M0. In formats 8, 9, and 10, SCK, FSYNC, and
SDATA are the same as in formats 0, 1, and 2 re-
spectively; however, the recovered data is output as
is even if ERF is high, indicating an error. (In
modes 0-2 the previous valid sample is output.)
Similarly, when out of lock, the CS8414 will still
output all the recovered data, which should be ze-
ros if there is no input to the RXP, RXN pins. For-
mat 11 is similar to format 0 except that SCK is an
input and FSYNC is an output. In this mode
FSYNC and SDATA are synchronized to the in-
coming SCK, and the number of SCK periods be-
tween FSYNC edges will vary since SCK is not
synchronous to received data stream. This mode
may be useful when writing data to storage.
M2 M1 M0
Format
0 0 0 8 - Format 0 - No repeat on error
0 0 1 9 - Format 1 - No repeat on error
0 1 0 10 - Format 2 - No repeat on error
0 1 1 11 - Format 0 - Async. SCK input
1 0 0 12 - Received NRZ Data
1 0 1 13 - Received Bi-phase Data
1 1 0 14 - Reserved
1 1 1 15 - CS8414 Reset
Table 4. Special Audio Port Modes (M3 = 1)
Format 12 is similar to format 7 except that SDA-
TA is the entire data word received from the trans-
mission line including the C, U, V, and P bits, with
zeros in place of the preamble. In format 13 SDA-
TA contains the entire biphase encoded data from
the transmission line including the preamble, and
SCK is twice the normal frequency. The normal
two frame delay of data from input to output is re-
duced to only a few bit periods in formats 12 and
13. However, the C, U, V bits and error codes fol-
low their normal pathways and therefore follow the
output data by nearly two frames. Figure 18 illus-
trates formats 12 and 13. Format 14 is reserved and
not presently used, and format 15 causes the
CS8414 to go into a reset state. While in reset all
outputs will be inactive except MCK. The CS8414
comes out of reset at the first block boundary after
DS240F1
21
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