CS4360-KZ Cirrus Logic Inc, CS4360-KZ Datasheet - Page 24
CS4360-KZ
Manufacturer Part Number
CS4360-KZ
Description
D/A Converter (D-A) IC
Manufacturer
Cirrus Logic Inc
Datasheet
1.CS4360-KZ.pdf
(36 pages)
Specifications of CS4360-KZ
No. Of Pins
28
Peak Reflow Compatible (260 C)
No
Supply Voltage Max
5V
No. Of Bits
24 Bit
Leaded Process Compatible
No
Mounting Type
Surface Mount
Interface Type
Serial
Package / Case
28-TSSOP
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
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the power or exiting the power-down state. If not, a
transient will occur when the audio outputs are ini-
tially clamped to GND. The time that the device
must remain in the power-down state is related to
the value of the DC-blocking capacitance. For ex-
ample, with a 3.3 µF capacitor, the minimum pow-
er-down time will be approximately 0.4 seconds.
Use of the Mute Control function is recommended
for designs requiring the absolute minimum in ex-
traneous clicks and pops. Also, use of the Mute
Control function can enable the system designer to
achieve idle channel noise/signal-to-noise ratios
which are only limited by the external mute circuit.
See the CDB4360 data sheet for a suggested mute
circuit.
7. CONTROL PORT INTERFACE
The control port is used to load all the internal set-
tings. The operation of the control port may be
completely asynchronous with the audio sample
rate. However, to avoid potential interference prob-
lems, the control port pins should remain static if
no operation is required.
The CS4360 has MAP auto increment capability,
enabled by the INCR bit in the MAP register,
which is the MSB. If INCR is 0, then the MAP will
stay constant for successive writes. If INCR is set
to 1, then MAP will auto increment after each byte
is written, allowing block reads or writes of succes-
sive registers.
7.1
On the CS4360 the control port pins are shared
with stand-alone configuration pins. To enable the
control port, the user must set the CPEN bit. This
is done by performing a Two-Wire or SPI write.
Once the control port is enabled, these pins are ded-
icated to control port functionality.
To prevent audible artifacts the CPEN bit (see Sec-
tion 4.5.2) should be set prior to the completion of
the Stand-Alone power-up sequence, approximate-
ly 512 LRCK cycles in Single-Speed Mode (1024
24
Enabling the Control Port
LRCK cycles in Double-Speed Mode, and 2048
LRCK cycles in Quad-Speed Mode). Writing this
bit will halt the Stand-Alone power-up sequence
and initialize the control port to its default settings.
Note, the CPEN bit can be set any time after RST
goes high; however, setting this bit after the Stand-
Alone power-up sequence has completed can cause
audible artifacts.
7.2
The control port has 2 formats: SPI and Two-Wire,
with the CS4360 operating as a slave device.
If Two-Wire operation is desired, AD0/CS should
be tied to VLS or GND. If the CS4360 ever detects
a high to low transition on AD0/CS after power-up
and after the control port is activated, SPI format
will be selected.
7.3
In Two-Wire Format, SDA is a bidirectional data
line. Data is clocked into and out of the part by the
clock, SCL, with a clock to data relationship as
shown in Figure 5. The receiving device should
send an acknowledge (ACK) after each byte re-
ceived. There is no CS pin. Pin AD0 form the par-
tial chip address and should be tied to VLS or GND
as required. The upper 6 bits of the 7 bit address
field must be 001000.
Note, MCLK is required during all two-wire trans-
actions. The Two-Wire format is compatible with
the I
details.
7.3.1
To communicate with the CS4360, initiate a
START condition of the bus. Next, send the chip
address. The eighth bit of the address byte is the
R/W bit (low for a write). The next byte is the
Memory Address Pointer, MAP, which selects the
register to be read or written. The MAP is then fol-
lowed by the data to be written. To write multiple
registers, continue providing a clock and data,
2
C protocol. Please see reference 2 for further
Format Selection
Two-Wire Format
Writing in Two-Wire Format
CS4360
DS517PP1
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