WM8352GEB/V Wolfson Microelectronics, WM8352GEB/V Datasheet - Page 127

Audio CODECs Audio CODEC plus pwr management

WM8352GEB/V

Manufacturer Part Number

WM8352GEB/V

Description

Audio CODECs Audio CODEC plus pwr management

Manufacturer

Wolfson Microelectronics

Datasheet

1.WM8352GEBV.pdf (335 pages)

Specifications of WM8352GEB/V

Number Of Adc Inputs

Number Of Dac Outputs

Conversion Rate

48 KSPS

Interface Type

Serial (2-Wire, 3-Wire, 4-Wire)

Resolution

12 bit

Operating Supply Voltage

3.7 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

BGA

Minimum Operating Temperature

- 25 C

Number Of Channels

2 ADC/2 DAC

Supply Current

260 uA

Thd Plus Noise

- 83 dB

Audio Codec Type

Stereo

No. Of Adcs

No. Of Dacs

No. Of Input Channels

No. Of Output Channels

Adc / Dac Resolution

24bit

Adcs / Dacs Signal To Noise Ratio

95dB

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Production Data

14.6.2

The DC-DC converters are controlled by an internally generated clock signal from the RC Oscillator

with a constant frequency of around 2.0MHz for DC-DC 1, 3, 4 and 6, and a constant frequency of

around 1.0MHz for DC-DC 2 and 5.

14.6.3

DC-DC Converters 1, 3, 4 and 6 are buck converters which can be configured to operate in different

operating modes using the register bits described in Table 71.

In Active mode, the DC-DC Converters operate to their highest level of performance. The DC-DC

Converters will automatically select PWM or Pulse-Skipping operation according to the load

condition. This enables the power efficiency to be maximised across a wide range of load conditions.

It is possible to force the Converters to use the higher performance PWM mode; in this mode, pulse-

skipping is disabled and the output voltage is regulated by switching at a constant frequency which

improves the transient response at light loads.

In Standby/Hysteretic Mode, the DC-DC Converters disable some of the internal control circuitry in

order to reduce power consumption. The load regulation may be degraded in this mode of operation.

The efficiency data in Section 9.2.1 shows the conditions under which Standby Mode can offer better

efficiency than Active Mode.

In LDO Mode, the DC-DC Converters are reconfigured as low power LDOs.

When DCn_SLEEP = 0, the corresponding DCn_ACTIVE register bit selects between Active and

Standby/Hysteretic modes for the associated DC-DC converter.

The DCn_SLEEP register bits control the selection of LDO Mode. Setting DCn_SLEEP = 1 selects

LDO Mode. This bit takes precedence over the corresponding DCn_ACTIVE bit.

R177 (B1h)

DC-DC Active

Options

R178 (B2h)

DC-DC Sleep

Options

Note: n is either 1, 3, 4 or 6 and identifies the individual DC-DC converter

R248 (F8h)

DCDC1 Test

Controls

R250 (FAh)

DCDC3 Test

Controls

R251 (FBh)

DCDC4 Test

Controls

R253 (FDh)

DCDC4 Test

Controls

Table 71 Operating Mode Control for DC-DC Converters 1, 3, 4 and 6

ADDRESS

CLOCKING

DC-DC BUCK (STEP-DOWN) CONVERTER CONTROL

BIT

DC1_ACTIVE

DC3_ACTIVE

DC4_ACTIVE

DC6_ACTIVE

DC1_SLEEP

DC3_SLEEP

DC4_SLEEP

DC6_SLEEP

DC1_FORCE_

PWM

DC3_FORCE_

PWM

DC4_FORCE_

PWM

DC6_FORCE_

PWM

LABEL

DEFAULT

DC-DCn Active mode

0 = Select Standby mode

1 = Select Active mode

DC-DCn Sleep Mode

0 = Normal DC-DC operation

1 = Select LDO mode

Force DC-DC1 PWM mode

0 = Normal DC-DC operation

1 = Force DC-DC PWM mode

Force DC-DC3 PWM mode

0 = Normal DC-DC operation

1 = Force DC-DC PWM mode

Force DC-DC4 PWM mode

0 = Normal DC-DC operation

1 = Force DC-DC PWM mode

Force DC-DC6 PWM mode

0 = Normal DC-DC operation

1 = Force DC-DC PWM mode

DESCRIPTION

PD, March 2010, Rev 4.2

WM8352

127

WM8352GEB/V Wolfson Microelectronics, WM8352GEB/V Datasheet - Page 127

WM8352GEB/V

Specifications of WM8352GEB/V

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