WM8731 / WM8731L
Production Data
The side tone mode and attenuation is selected under software control using the SIDETONE bit as
shown in Table 11. In true side tone the output from the DAC (DACSEL) and line inputs (BYPASS)
should be deselected from the line output block. However, this can also be used to sum the DAC
output, line inputs and microphone inputs together. The microphone boost gain control and
headphone output volume control and mutes are still operational in side tone mode. The maximum
signal at any point in the side tone path must be no greater than 1.0V rms at VDD = 3.3V, to avoid
distortion. This amplitude tracks linearly with AVDD.
DEVICE OPERATION
DEVICE RESETTING
The WM8731/L contains a power on reset circuit that resets the internal state of the device to a
known condition. The power on reset is applied as DCVDD powers on and released only after the
voltage level of DCVDD crosses a minimum turn off threshold. If DCVDD later falls below a minimum
turn on threshold voltage then the power on reset is re-applied. The threshold voltages and
associated hysteresis are shown in the Electrical Characteristics table.
The user also has the ability to reset the device to a known state under software control as shown in
the table below.
REGISTER
ADDRESS
BIT
LABEL
RESET
DEFAULT
DESCRIPTION
0001111
Reset Register
8:0
not reset
Reset Register
Writing 00000000 to register resets
device
Table 12 Software Control of Reset
When using the software reset. In 3-wire mode the reset is applied on the rising edge of CSB and
released on the next rising edge of SCLK. In 2-wire mode the reset is applied for the duration of the
ACK signal (approximately 1 SCLK period, refer to Figure 34).
CLOCKING SCHEMES
In a typical digital audio system there is only one central clock source producing a reference clock to
which all audio data processing is synchronised. This clock is often referred to as the audio system’s
Master Clock. To allow WM8731/L to be used in a centrally clocked system, the WM8731/L is capable
of either generating this system clock itself or receiving it from an external source as will be
discussed.
For applications where it is desirable that the WM8731/L is the system clock source, then clock
generation is achieved through the use of a suitable crystal connected between the XTI/MCLK input
and XTO output pins (see CRYSTAL OSCILLATOR section).
For applications where a component other than the WM8731/L will generate the reference clock, the
external system can be applied directly through the XTI/MCLK input pin with no software configuration
necessary. Note that in this situation, the oscillator circuit of the WM8731/L can be safely powered
down to conserve power (see POWER DOWN section).
CORE CLOCK
The WM8731/L DSP core can be clocked either by MCLK or MCLK divided by 2. This is controlled by
software as shown in Table 13 below.
REGISTER
ADDRESS
BIT
LABEL
DEFAULT
DESCRIPTION
0001000
6
CLKIDIV2
0
Core Clock divider select
Sampling
Control
1 = Core Clock is MCLK divided by 2
0 = Core Clock is MCLK
Table 13 Software Control of Core Clock
Having a programmable MCLK divider allows the device to be used in applications where higher
frequency master Clocks are available. For example the device can support 512fs master clocks
whilst fundamentally operating in a 256fs mode.
PD, Rev 4.9, October 2012
34
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