CS42L51-DNZ Cirrus Logic Inc, CS42L51-DNZ Datasheet - Page 38

CS42L51-DNZ

Manufacturer Part Number

CS42L51-DNZ

Description

Automotive Portable Stereo Codec

Manufacturer

Cirrus Logic Inc

Type

Stereo Audior

Datasheet

1.CS42L51-CNZ.pdf (88 pages)

Specifications of CS42L51-DNZ

Data Interface

Serial

Resolution (bits)

24 b

Number Of Adcs / Dacs

2 / 2

Sigma Delta

Yes

Dynamic Range, Adcs / Dacs (db) Typ

98 / 98

Voltage - Supply, Analog

1.8V, 2.5V

Voltage - Supply, Digital

1.8V, 2.5V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

32-QFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

598-1005 - BOARD EVAL FOR CS42L51 CODEC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

598-1627

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

CS42L51-DNZ

Manufacturer:

CIRRUS

Quantity:

180

Current page: 38 of 88
Download datasheet (2Mb)

4.4.8

4.5

Serial Port Clocking

The CODEC serial audio interface port operates either as a slave or master. It accepts externally generated

clocks in slave mode and will generate synchronous clocks derived from an input master clock (MCLK) in

master mode.

The frequency of the MCLK must be an integer multiple of, and synchronous with, the system sample rate,

Fs. The LRCK frequency is equal to Fs, the frequency at which audio samples for each channel are clocked

into or out of the device.

The SPEED and MCLKDIV2 software control bits or the SDOUT/(M/S) and MCLKDIV2 stand-alone control

pins, configure the device to generate the proper clocks in Master Mode and receive the proper clocks in

Slave Mode. The value on the SDOUT pin is latched immediately after powering up in Hardware Mode.

On-Chip Charge Pump

An on-chip charge pump derives a negative supply voltage from the VA_HP supply. This provides dual

rail supplies allowing a full-scale output swing centered around ground and eliminates the need for large,

DC-blocking capacitors. Added benefits include greater pop suppression and improved low frequency

(bass) response. Note: Series resistance in the path of the power supplies must be avoided. Any voltage

drop on the VA_HP supply will directly impact the derived negative voltage on the charge pump supply,

VSS_HP, and may result in clipping.

The FLYN and FLYP pins connect to internal switches that charges and discharges the external capacitor

attached, at a default switching frequency. This frequency may be adjusted in the control port registers.

Increasing the charge-pumping capacitor will slightly decease the pumping frequency. The capacitor con-

nected to VSS_HP acts as a charge reservoir for the negative supply as well as a filter for the ripple in-

duced by the charge pump. Increasing this capacitor will decrease the ripple on VSS_HP. Refer to the

typical connection diagrams in

values for the charge pump circuitry.

Software

Controls:

Hardware

Software

Control:

“MIC Power Control & Speed Control (Address 03h)” on page

(Address 09h)” on page

“Charge Pump Frequency (Address 21h)” on page

“SDOUT, M/S” pin 29

“MCLKDIV2” pin 2

Figure 1 on page 10

58.

Figure 2 on page 11

47 kΩ Pull-down

47 kΩ Pull-up

Setting

74.

for the recommended capacitor

Slave

Master

No Divide

MCLK is divided by 2 prior

to all internal circuitry.

50,

“DAC Control

Selection

CS42L51

DS679F1

CS42L51-DNZ Cirrus Logic Inc, CS42L51-DNZ Datasheet - Page 38

CS42L51-DNZ

Specifications of CS42L51-DNZ

Available stocks

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