TDA1388 Philips Semiconductors, TDA1388 Datasheet - Page 7
TDA1388
Manufacturer Part Number
TDA1388
Description
Bitstream continuous calibration filter-DAC for CD-ROM audio applications
Manufacturer
Philips Semiconductors
Datasheet
1.TDA1388.pdf
(24 pages)
Philips Semiconductors
S
In the static-pin mode most of the features have a default
value (see Table 3). The features that are controlled by the
external pins are, mute left channel, mute right channel
and de-emphasis.
Table 4 External pin feature control in the static-pin
M
The exchange of data and control information between the
microcontroller and the TDA1388 is accomplished through
a serial hardware interface comprising the following pins:
Information transfer through the microcontroller bus is
organized in accordance with the so-called ‘L3’ format, in
which two different modes of operation can be
distinguished; address mode and data transfer mode
(see Figs 4 and 5).
The address mode is required to select a device
communicating via the L3-bus and to define the
destination registers for the data transfer mode.
Data transfer for the TDA1388 can only be in one direction,
input to the TDA1388 to program its sound processing and
other functional features.
Address mode
The address mode is used to select a device for
subsequent data transfer and to define the destination
registers. The address mode is characterized by APPL1
being LOW and a burst of 8 pulses on APPL2,
accompanied by 8 data bits. The fundamental timing is
shown in Fig.4. Data bits 0 to 1 indicate the type of the
subsequent data transfer as shown in Table 5.
Table 6 Data transfer of type ‘status’
1996 Jul 17
TATIC
BIT 7
ICROCONTROLLER MODE
APPL0: microcontroller interface data line.
APPL1: microcontroller interface mode line.
APPL2: microcontroller interface clock line.
Bitstream continuous calibration filter-DAC
for CD-ROM audio applications
0
-
PIN MODE
mode
BIT6
APPL0
APPL1
APPL2
M1
PIN
BIT 5
M0
BIT 4
DE
mute left channel
mute right channel
de-emphasis
BIT 3
OR1
FEATURE
BIT 2
OR0
BIT 1
OL1
7
BIT 0
Table 5 Selection of data transfer
Data bits 7 to 2 represent a 6-bit device address, with bit 7
being the MSB and bit 2 the LSB. The address of the
TDA1388 is 000101 (bit 7 to bit 2). In the event that the
TDA1388 receives a different address, it will deselect its
microcontroller interface logic.
Data transfer mode
The selection preformed in the address mode remains
active during subsequent data transfers, until the
TDA1388 receives a new address command.
The fundamental timing of data transfers is essentially the
same as in the address mode, shown in Fig.4.
The maximum input clock and data rate is 64f
transfers are bitwise, i.e. they are based on groups of
8 bits. Data will be stored in the TDA1388 after the eighth
bit of a byte has been received. A multibyte transfer is
illustrated in Fig.6.
Programming the sound processing and other features
The sound processing and other feature values are stored
in independent registers. The first selection of the registers
is achieved by the choice of data type that is transferred.
This is performed in the address mode, BIT 1 and BIT 0
(see Table 5). The second selection is performed by the
2 MSBs of the data byte (BIT 7 and BIT 6). The other bits
in the data byte (BIT 5 to BIT 0) is the value that is placed
in the selected registers.
When the data transfer of type ‘data’ is selected, the
features VOLUME_R, VOLUME_L, BASS BOOST and
TREBLE can be controlled. When the data transfer of type
‘status’ is selected, the features MODE, DE-EMPHASIS,
CHANNEL_MANIP_R and CHANNEL_MANIP_L can be
controlled.
OL0
BIT 1
0
0
1
1
MODE (1 : 0), DEEMPHASIS, CHANNEL_MA-
NIP_R (1 : 0), CHANNEL_MANIP_L (1 : 0)
BIT 0
0
1
0
1
data (volume left, volume right, bass
boost and treble)
not used
status (de-emphasis, mode and
channel-manipulation)
not used
REGISTER SELECTED
TRANSFER
Objective specification
TDA1388
s
. All
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