CS4228A_03 Datasheet, PDF(27/32 Page) Cirrus Logic – 24-Bit, 96 kHz Surround Sound Codec

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CS4228A_03 Datasheet, PDF (27/32 Pages) Cirrus Logic – 24-Bit, 96 kHz Surround Sound Codec

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LRCK

DGND

MCLK

SCL/CCLK

SDA/CDIN

ADO/CS

RST

MUTEC

CS4228A

Left/Right Clock (Bidirectional) - The Left/Right clock determines which channel is cur-

rently being input or output on the serial audio data output, SDOUT. In Master mode, LRCK

is an output, in Slave Mode, LRCK is an input whose frequency must be equal to Fs and

synchronous to the Master clock.

Audio samples in Left/Right pairs represent simultaneously sampled analog inputs whereas

Right/Left pairs will exhibit a one sample period difference. The required relationship

between the Left/Right clock, serial clock and serial data is defined by the Serial Port Mode

Digital Ground (Input) - Digital Ground Reference.

Digital Power (Input) - Digital Power Supply.

Digital Interface Power (Input) - Digital interface power supply. All digital output voltages

and input threshholds scale with VL.

Master Clock (Input) - The master clock frequency must be either 128x, 256x, 384x or

512x the input sample rate in Base Rate Mode (BRM) and either 64x, 128x, 192x, or 256x

the input sample rate in High Rate Mode (HRM). Table 3 illustrates several standard audio

sample rates and the required master clock frequencies. The MCLK/Fs ratio is set by the

CI1:0 bits in the CODEC Clock Mode register.

Sample

Rate

(kHz)

44.1

88.2

64x

4.0960

5.6448

6.1440

MCLK (MHz)

HRM

128x 192x 256x 128x

- 4.0960

- 5.6448

- 6.1440

8.1920 12.2880 16.3840 -

11.2896 16.9344 22.5792 -

12.2880 18.4320 24.5760 -

BRM

256x 384x

8.1920 12.2880

11.2896 16.9344

12.2880 18.4320

512x

16.3840

22.5792

24.5760

Table 3. Common Master Clock Frequencies

Serial Control Interface Clock (Input) - Clocks the serial control data into or out of

SDA/CDIN.

Serial Control Data I/O (Bidirectional/Input) - In I2C mode, SDA is a bidirectional control

port data line. A pull up resistor must be provided for proper open drain output operation. In

SPI mode, CDIN is the control port data input line. The state of the SDOUT pin during reset

is used to set the control port mode.

Address Bit 0 / Chip Select (Input) - In I2C mode, AD0 is the LSB of the chip address. In

SPI mode, CS is used as a enable for the control port interface.

Reset (Input) - When low, the device enters a low power mode and all internal registers

are reset to the default settings, including the control port. The control port can not be

accessed when reset is low.

When high, the control port and the CODEC become operational.

Mute Control (Output) - The Mute Control pin goes low during the following conditions:

power-up initialization, power-down, reset, no master clock present, or if the master clock to

left/right clock frequency ratio is incorrect. The Mute Control pin can also be user controlled

by the MUTEC bit in the DAC Mute2 Control register. Mute Control can be automatically as-

serted when 512 consecutive zeros are detected on all six DAC inputs, and automatically

deasserted when a single non-zero value is sent to any of the six DACs. The mute on zero

function is controlled by the MUTCZ bit in the DAC Mute2 Control register. The MUTEC pin

is intended to be used as a control for an external mute circuit to achieve a very low noise

floor during periods when no audio is present on the DAC outputs, and to prevent the clicks

and pops that can occur in any single supply system. Use of the Mute Control pin is not man-

datory but recommended.

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