ADAU1701JSTZ Analog Devices Inc, ADAU1701JSTZ Datasheet - Page 19
ADAU1701JSTZ
Manufacturer Part Number
ADAU1701JSTZ
Description
IC AUDIO PROC 2ADC/4DAC 48-LQFP
Manufacturer
Analog Devices Inc
Series
SigmaDSP®r
Type
Audio Processorr
Specifications of ADAU1701JSTZ
Design Resources
Analog Audio Input, Class-D Output with ADAU1701, SSM2306, and ADP3336 (CN0162)
Applications
Automotive, Monitors, MP3
Mounting Type
Surface Mount
Package / Case
48-LQFP
Audio Control Type
Digital
Control Interface
I2C, Serial
Supply Voltage Range
1.8V, 3.3V
Operating Temperature Range
0°C To +70°C
Audio Ic Case Style
LQFP
No. Of Pins
48
Svhc
No SVHC
Control / Process Application
MP3 Player Speaker Docks, Automotive Head Units, Studio Monitors
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-ADAU1701MINIZ - BOARD EVAL SIGMADSP AUD ADAU1701EVAL-ADAU1701EBZ - BOARD EVAL FOR ADAU1701
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
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in this register. The ADC power-down mode powers down both
ADCs, and each DAC can be powered down individually. The
current savings is about 15 mA when the ADCs are powered
down and about 4 mA for each DAC that is powered down.
The voltage reference, which is supplied to both the ADCs
and DACs, should only be powered down if all ADCs and
DACs are powered down. The reference is powered down
by setting both Bit 6 and Bit 7 of the control register.
USING THE OSCILLATOR
The ADAU1701 can use an on-board oscillator to generate its
master clock. The oscillator is designed to work with a 256 × f
master clock, which is 12.288 MHz for a f
11.2896 MHz for a f
circuit should be an AT-cut, parallel resonator operating at its
fundamental frequency. Figure 14 shows the external circuit
recommended for proper operation.
The 100 Ω damping resistor on OSCO gives the oscillator a
voltage swing of approximately 2.2 V. The crystal shunt capaci-
tance should be 7 pF. Its load capacitance should be about 18 pF,
although the circuit supports values of up to 25 pF. The necessary
values of the C1 and C2 load capacitors can be calculated from
the crystal load capacitance as follows:
where C
assumed to be approximately 2 pF to 5 pF.
OSCO should not be used to directly drive the crystal signal to
another IC. This signal is an analog sine wave, and it is not appro-
priate to use it to drive a digital input. There are two options for
using the ADAU1701 to provide a master clock to other ICs in
the system. The first, and less recommended, method is to use a
high impedance input digital buffer on the OSCO signal. If this
is done, minimize the trace length to the buffer input. The second
method is to use a clock from the serial output port. Pin MP11 can
be set as an output (master) clock divided down from the internal
core clock. If this pin is set to serial output port (OUTPUT_BCLK)
mode in the multipurpose pin configuration register (2081) and
the port is set to master in the serial output control register (2078),
the desired output frequency can also be set in the serial output
control register with Bits[OBF<1:0>] (see Table 49).
C
L
stray
=
C1
C1
is the stray capacitance in the circuit and is usually
×
+
C2
C2
Figure 14. Crystal Oscillator Circuit
+
S
C
of 44.1 kHz. The crystal in the oscillator
stray
C1
C2
100Ω
ADAU1701
OSCO
MCLKI
S
of 48 kHz and
Rev. A | Page 19 of 56
S
If the oscillator is not utilized in the design, it can be powered
down to save power. This can be done if a system master clock
is already available in the system. By default, the oscillator is
powered on. The oscillator powers down when a 1 is written to
the OPD bit of the oscillator power-down register (see Table 60).
SETTING MASTER CLOCK/PLL MODE
The MCLKI input of the ADAU1701 feeds a PLL, which generates
the 50 MIPS SigmaDSP core clock. In normal operation, the
input to MCLKI must be one of the following: 64 × f
384 × f
mode is set on PLL_MODE0 and PLL_MODE1 as described in
Table 13. If the ADAU1701 is set to receive double-rate signals
(by reducing the number of program steps per sample by a factor
of 2 using the core control register), the master clock frequency
must be 32 × f
is set to receive quad-rate signals (by reducing the number of
program steps per sample by a factor of 4 using the core control
register), the master clock frequency must be 16 × f
or 128 × f
MCLKI pin so that the ADAU1701 can complete its
initialization routine.
Table 13. PLL Modes
MCLKI Input
64 × f
256 × f
384 × f
512 × f
The clock mode should not be changed without also resetting
the ADAU1701. If the mode is changed during operation, a
click or pop can result in the output signals. The state of the
PLL_MODEx pins should be changed while RESET is held low.
The PLL loop filter should be connected to the PLL_LF pin. This
filter, shown in Figure 15, includes three passive components—
two capacitors and a resistor. The values of these components
do not need to be exact; the tolerance can be up to 10% for the
resistor and up to 20% for the capacitors. The 3.3 V signal shown in
Figure 15 can be connected to the AVDD supply of the chip.
S
S
S
S
S
, or 512 × f
S
. On power-up, a clock signal must be present on the
S
, 128 × f
S
, where f
3.3nF
Figure 15. PLL Loop Filter
PLL_MODE0
0
0
1
1
S
, 192 × f
PLL_LF
S
is the input sampling rate. The
ADAU1701
S
3.3V
, or 256 × f
475Ω
56nF
S
. If the ADAU1701
PLL_MODE1
0
1
0
1
ADAU1701
S
, 64 × f
S
, 256 × f
S
, 96 × f
S
,
S
,
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