cs43l41 Cirrus Logic, Inc., cs43l41 Datasheet - Page 25
cs43l41
Manufacturer Part Number
cs43l41
Description
Low Power 24-bit, 96 Khz Dac With Volume Control
Manufacturer
Cirrus Logic, Inc.
Datasheet
1.CS43L41.pdf
(36 pages)
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6. APPLICATIONS
6.1
As with any high resolution converter, the
CS43L41 requires careful attention to power sup-
ply and grounding arrangements to optimize per-
formance. Figure 6 shows the recommended power
arrangement with VA connected to a clean supply.
Decoupling capacitors should be located as close to
the device package as possible.
6.2
The CS43L41 operates in one of two oversampling
modes based on the input sample rate and the state
of the MCLKDIV bit in the MCLK Control Regis-
ter. Base Rate Mode (BRM) supports input sample
rates up to 50 kHz while High Rate Mode (HRM)
supports input sample rates up to 100 kHz. When
the MCLKDIV bit is cleared, the devices operate in
BRM when MCLK/LRCK is 256, 384 or 512 and
in HRM when MCLK/LRCK is 128 or 192. When
the MCLKDIV bit is set, the devices operate in
BRM when MCLK/LRCK is 512, 768 or 1024 and
in HRM when MCLK/LRCK is 256 or 384.
6.3
1. Hold RST low until the power supply, master,
and left/right clocks are stable. In this state, the
control port is reset to its default settings and V
will remain low.
2. Bring RST high. The device will remain in a low
power state with V
sible. The desired register settings can be loaded
while keeping the PDN bit set to 1.
3. Set the PDN bit to 0 which will initiate the pow-
er-up sequence, which requires approximately 50
µs when the POR bit is set to 0. If the POR bit is
set to 1, see Section 6.4 for total power-up timing.
DS473PP1
Grounding and Power Supply
Decoupling
Oversampling Modes
Recommended Power-up Sequence
Q
low and the control port acces-
Q
6.4
The CS43L41 uses a novel technique to minimize
the effects of output transients during power-up
and power-down. This technique, when used with
external DC-blocking capacitors in series with the
audio outputs, minimizes the audio transients com-
monly produced by single-ended single-supply
converters.
When the device is initially powered-up, the audio
outputs, AOUTA and AOUTB, are clamped to
AGND. Following a delay of approximately 1000
sample periods, each output begins to ramp toward
the quiescent voltage. Approximately 10,000
left/right clock cycles later, the outputs reach VQ
and audio output begins. This gradual voltage
ramping allows time for the external DC-blocking
capacitor to charge to the quiescent voltage, mini-
mizing the power-up transient.
To prevent transients at power-down, the device
must first enter its power-down state. When this oc-
curs, audio output ceases and the internal output
buffers are disconnected from AOUTA and
AOUTB. In their place, a soft-start current sink is
substituted which allows the DC-blocking capaci-
tors to slowly discharge. Once this charge is dissi-
pated, the power to the device may be turned off
and the system is ready for the next power-on.
To prevent an audio transient at the next power-on,
it is necessary to ensure that the DC-blocking ca-
pacitors have fully discharged before turning off
the power or exiting the power-down state. If not, a
transient will occur when the audio outputs are ini-
tially clamped to AGND. 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
Use of the Power ON/OFF Quiescent
Voltage Ramp
CS43L41
25
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