CS42L55-DNZ Cirrus Logic Inc, CS42L55-DNZ Datasheet - Page 27

CS42L55-DNZ

Manufacturer Part Number

CS42L55-DNZ

Description

IC CODEC STER H-HDPN AMP 36-QFN

Manufacturer

Cirrus Logic Inc

Type

Stereo Audior

Datasheet

1.CS42L55-CNZ.pdf (73 pages)

Specifications of CS42L55-DNZ

Data Interface

Serial

Resolution (bits)

24 b

Number Of Adcs / Dacs

1 / 1

Sigma Delta

Yes

Dynamic Range, Adcs / Dacs (db) Typ

95 / 99

Voltage - Supply, Analog

1.65 V ~ 2.71 V

Voltage - Supply, Digital

1.65 V ~ 2.71 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

36-QFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

598-1506 - BOARD EVAL FOR CS42L55 CODEC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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DS773F1

4.5

4.5.1

Class H Amplifier

The CS42L55 headphone and line output amplifiers use a patented Cirrus Logic Bi-Modal Class H technol-

ogy. This technology maximizes operating efficiency of the typical Class AB amplifier while maintaining high

performance. In a Class H amplifier design, the rail voltages supplied to the amplifier vary with the needs of

the music passage that is being amplified. This prevents unnecessarily wasting energy during low power

passages of program material or when the program material is played back at a low volume level.

The central component of the Bi-Modal Class H technology found in the CS42L55 is the internal charge

pump, which creates the rail voltages for the headphone and line amplifiers of the device. The charge pump

receives its input voltage from the voltage present on the VCP pin of the CS42L55. From this input voltage,

the charge pump creates the differential rail voltages that are supplied to the amplifier output stages. The

charge pump is capable of supplying two sets of differential rail voltages. One set is equal to ± VCP and the

other is equal to ± VCP/2.

Referenced Control

Analog Output

ADPTPWR[1:0]

CHGFREQ[3:0]

PDN_HPx[1:0]

PDN_LINx[1:0]

HPxMUTE

HPxVOL[7:0]

LINExMUTE

LINExVOL[7:0]

ANLGZC

PLYBCKB=A

HPxMUX

LINExMUX

Power Control Options

The method by which the CS42L55 decides which set of rail voltages is supplied to the amplifier output

stages depends on the settings of the Adaptive Power bits (ADPTPWR) found in

(Address 06h)” section on page

bits: Mode 00, 01, 10 and 11.

Referenced Control

ADPTPWR[1:0] ...................

from PGAx

from DACx

“Adaptive Power Adjustment” on page 45

“Charge Pump Frequency” on page 67

“Headphone Power Control” on page 43

“Line Power Control” on page 43

“Headphone Channel x Mute” on page 57

“Headphone Volume Control” on page 57

“Line Channel x Mute” on page 58

“Line Volume Control” on page 58

“Analog Zero Cross” on page 46

“Playback Channels B=A” on page 50

“Headphone Input Select” on page 47

“Line Input Select” on page 47

VCP

“Adaptive Power Adjustment” on page 45

Figure 13. Analog Output Stage

HPxMUX

LINExMUX

45. As detailed in this section, there are four possible settings for these

CHGFREQ[3:0]

ADPTPWR[1:0]

+VCP/2

-VCP/2

+VCP

-VCP

Class H Control

HPxVOL[6:0]

HPxMUTE

ANLGZC

PLYBCKB=A

LINExVOL[6:0]

LINExMUTE

ANLGZC

PLYBCKB=A

-HP Supply

+HP Supply

= HP and Line Supply

PDN_HPx[1:0]

PDN_LINx[1:0]

HP Detection

+Line Supply

-Line Supply

HPREF

LINEREF

HPOUTA

HPOUTB

LINEOUTA

LINEOUTB

+VHPFILT

-VHPFILT

HPDETECT

“Class H Power Control

CS42L55

CS42L55-DNZ Cirrus Logic Inc, CS42L55-DNZ Datasheet - Page 27

CS42L55-DNZ

Specifications of CS42L55-DNZ

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