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WM8761 Datasheet, PDF (11/23 Pages) Wolfson Microelectronics plc – 24BIT 192KHZ STEREO DAC
WM8761
Production Data
DEVICE DESCRIPTION
GENERAL INTRODUCTION
The WM8761 is a high performance DAC designed for digital consumer audio applications. The
range of features make it ideally suited for use in DVD players, AV receivers and other consumer
audio equipment.
The WM8761 is a complete 2-channel stereo audio digital-to-analogue converter, including digital
interpolation filter, multi-bit sigma delta with dither, and switched capacitor multi-bit stereo DAC
and output smoothing filters. It is fully compatible and an ideal partner for a range of industry
standard microprocessors, controllers and DSPs. A novel multi bit sigma-delta DAC design is
used, utilising a 128x oversampling rate, to optimise signal to noise performance and offer
increased clock jitter tolerance. (In ‘high-rate’ operation, the oversampling ratio is 64x for system
clocks of 128fs).
Control of internal functionality of the device is provided by hardware control (pin programmed).
Operation using master clocks of 256fs, 512fs or 768fs is provided, selection between clock rates
being automatically controlled. Sample rates (fs) from less than 8kHz to 96kHz are allowed,
provided the appropriate system clock is input. Support is also provided for up to 192kHz using a
master clock of 128fs.
The audio data interface supports 24-bit right justified or 16-24-bit I2S (Philips left justified, one bit
delayed) interface formats. A DSP interface is also supported, enhancing the interface options for
the user.
A single 2.7-5.5V supply may be used, the output amplitude scaling with absolute supply level.
Low supply voltage operation and low current consumption combined with the low pin count small
package make the WM8761 attractive for many consumer applications.
The device is packaged in a small 14-pin SOIC.
DAC CIRCUIT DESCRIPTION
The WM8761 DAC is designed to allow playback of 24-bit PCM audio or similar data with high
resolution and low noise and distortion. Sample rates up to 192kHz may be used, with much lower
sample rates acceptable provided that the ratio of sample rate (LRCIN) to master clock (MCLK) is
maintained at one of the required rates.
The two DACs on the WM8761 are implemented using sigma-delta oversampled conversion
techniques. These require that the PCM samples are digitally filtered and interpolated to generate
a set of samples at a much higher rate than the up to 192kHz input rate. This sample stream is
then digitally modulated to generate a digital pulse stream that is then converted to analogue
signals in a switched capacitor DAC. The advantage of this technique is that the DAC is linearised
using noise shaping techniques, allowing the 24-bit resolution to be met using non-critical
analogue components. A further advantage is that the high sample rate at the DAC output means
that smoothing filters on the output of the DAC need only have fairly crude characteristics in order
to remove the characteristic steps, or images on the output of the DAC. To ensure that generation
of tones characteristic to sigma-delta convertors is not a problem, dithering is used in the digital
modulator along with a higher order modulator. The multi-bit switched capacitor technique used in
the DAC reduces sensitivity to clock jitter, and dramatically reduces out of band noise compared to
switched current or single bit techniques used in other implementations.
The voltage on the CAP pin is used as the reference for the DACs. Therefore the amplitude of the
signals at the DAC outputs will scale with the amplitude of the voltage at the CAP pin. An external
reference could be used to drive into the CAP pin if desired, with a value typically of about mid-rail
ideal for optimum performance.
The outputs of the 2 DACs are buffered out of the device by buffer amplifiers. These amplifiers will
source load currents of several mA and sink current up to 1.5mA allowing significant loads to be
driven. The output source is active and the sink is Class A, i.e. fixed value, so greater loads might
be driven if an external ‘pull-down’ resistor is connected at the output.
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PD, Rev 4.6, October 2011
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