CS8416-CNZ Cirrus Logic Inc, CS8416-CNZ Datasheet - Page 28

CS8416-CNZ

Manufacturer Part Number

CS8416-CNZ

Description

IC RCVR DGTL 192KHZ 28QFN COMM

Manufacturer

Cirrus Logic Inc

Type

Digital Audio Interface Receiverr

Datasheet

1.CS8416-CZZ.pdf (60 pages)

Specifications of CS8416-CNZ

Applications

Digital Audio

Mounting Type

Surface Mount

Package / Case

28-QFN

Audio Control Type

Digital

Control Interface

I2C, SPI

Control / Process Application

AV & DVD Receivers, CD-R, Digital Mixing Consoles

Supply Voltage Range

3.13V To 5.25V, 3.13V To 3.46V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

598-1017 - BOARD EVAL FOR CS8416 RCVR

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

598-1723

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8.1.3

8.2

8.3

Example with OMCK = 11.2896 MHz, the receiver input sample rate = 48 kHz,

OSLCK = 64*Fs, and FSWCLK (Software Mode only) = ‘0’.

Enabled/Disabled

Clock Switching

OMCK System Clock Mode

A special clock switching mode is available that allows the OMCK clock input to automatically replace

RMCK when the PLL becomes unlocked. This is accomplished without spurious transitions or glitches on

RMCK. In Hardware Mode this feature is enabled by a transition (rising edge active) on the OMCK pin after

reset. Therefore to not enable the clock switching feature in Hardware Mode, OMCK should be tied to DGND

or VL. However, in Hardware Mode, once the clock switching feature has been enabled, it can only be dis-

abled by resetting the part. In Software Mode the automatic clock switching feature is enabled by setting

SWCLK bit in Control1 register to a “1”. Additionally in Software Mode, OMCK can be manually forced to

output on RMCK by using the FSWCLK bit in the Control0 register.

When the clock switching feature is enabled, OSCLK and OLRCK are derived from the OMCK input when

the clock has been switched and the serial port is in master mode. When clock switching is enabled and the

PLL is not locked, OLRCK will be OMCK/256 and OSCLK will be OMCK/4. When the PLL loses lock, the

frequency of the VCO drops to ~750 kHz. When this system clock mode is not enabled, the OSCLK and

OLRCK will be based on the VCO when the PLL is not locked and has reached its steady-state idle frequen-

cy.

Clock Recovery and PLL Filter

Please see

components, and layout considerations.

capacitors and one resistor that comprise the PLL filter.

Disabled

Enabled

The second output of the input multiplexer is used to provide the selected input as a source to be output

on a GPO pin. This pass through signal is selected by TXSEL[2:0] in control port register 04h. This single-

ended signal is resolved to full-rail, but is not de-jittered before it is output.

Hardware Mode

In Hardware Mode the input to the decoder is selected by dedicated pins, RXSEL[1:0].

The pass through signal is selected by dedicated pins, TXSEL[1:0] for output on the dedicated TX pin.

This single-ended signal is resolved to full-rail, but is not de-jittered before it is output.

Selectable inputs are restricted to RXP0 to RXP3 for both the receiver and the TX output pin. These inputs

are selected by RXSEL[1:0] and TXSEL[1:0] respectively.

Table 2

“PLL Filter” on page 53

shows an example of output clocks based on clock switching being enabled or disabled.

Locked/Unlocked

Unlocked

Table 2. Clock Switching Output Clock Rates

Locked

PLL

for a general description of the PLL, selection of recommended PLL filter

Figures 5

RMCK Clock

128*F

256*F

Ratio

and

show the recommended configuration of the two

11.2896 MHz

12.288 MHz

6.144 MHz

~375 kHz

~750 kHz

RMCK

2.8224 MHz

~187.5 kHz

3.072 MHz

OSCLK

~2.925 kHz

OLRCK

44.1 kHz

CS8416

48 kHz

DS578F3

CS8416-CNZ Cirrus Logic Inc, CS8416-CNZ Datasheet - Page 28

CS8416-CNZ

Specifications of CS8416-CNZ

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