最新文章专题视频专题问答1问答10问答100问答1000问答2000关键字专题1关键字专题50关键字专题500关键字专题1500TAG最新视频文章推荐1 推荐3 推荐5 推荐7 推荐9 推荐11 推荐13 推荐15 推荐17 推荐19 推荐21 推荐23 推荐25 推荐27 推荐29 推荐31 推荐33 推荐35 推荐37视频文章20视频文章30视频文章40视频文章50视频文章60 视频文章70视频文章80视频文章90视频文章100视频文章120视频文章140 视频2关键字专题关键字专题tag2tag3文章专题文章专题2文章索引1文章索引2文章索引3文章索引4文章索引5123456789101112131415文章专题3
当前位置: 首页 - 正文

AD1882[1]声卡芯片

来源:动视网 责编:小OO 时间:2025-10-02 15:42:50
文档

AD1882[1]声卡芯片

HighDefinitionAudioSoundMAXCodecAD1882Rev.AInformationfurnishedbyAnalogDevicesisbelievedtobeaccurateandreliable.However,noresponsibilityisassumedbyAnalogDevicesforitsuse,norforanyinfringementsofpatentsorotherrightsofthirdpartiesthatmayresultfromitsu
推荐度:
导读HighDefinitionAudioSoundMAXCodecAD1882Rev.AInformationfurnishedbyAnalogDevicesisbelievedtobeaccurateandreliable.However,noresponsibilityisassumedbyAnalogDevicesforitsuse,norforanyinfringementsofpatentsorotherrightsofthirdpartiesthatmayresultfromitsu
High Definition Audio

SoundMAX Codec

AD1882 Rev. A

Information furnished by Analog Devices is believed to be accurate and reliable.

However, no responsibility is assumed by Analog Devices for its use, nor for any

infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners.One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 U.S.A. Tel:781.329.4700www.analog.com Fax:781.461.3113©2008 Analog Devices, Inc. All rights reserved.

FEATURES

2 stereo headphone amplifiers

Microsoft Vista Premium logo for notebook and desktop 95 dB audio outputs, 90 dB audio inputs

Internal 32-bit arithmetic for greater accuracy Impedance and presence detection on all jack pins

Digital synthesis PCBeep

C/LFE channel swapping

2 general-purpose digital I/O (GPIO) pins

Advanced power management modes

EAPD control for internal speakers

48-lead, Pb-free LFCSP_VQ package

SIX 96 kHz DACs

3 independent stereo DAC pairs

Independent 8 kHz, 11.025 kHz, 16 kHz, 22.05 kHz, 32 kHz, 44.1 kHz, 48 kHz, 88.2 kHz, and 96 kHz sample rates

16-, 20-, and 24-bit PCM resolution

Selectable stereo mixer on outputs FOUR 96 kHz ADCs

2 independent stereo ADC pairs

Simultaneous record of up to 4 channels

Independent 8 kHz, 11.025 kHz, 16 kHz, 22.05 kHz, 32 kHz, 44.1 kHz, 48 kHz, 88.2 kHz, and 96 kHz sample rates

16-, 20-, and 24-bit resolution

S/PDIF OUTPUT

Supports 44.1 kHz, 48, kHz 88.2 kHz, and 96 kHz sample rates 16-, 20-, and 24-bit data widths; PCM and AC3 formats Digital PCM gain control

DEDICATED AUXILIARY PINS

Stereo CD input w/GND sense

Mono out pin for internal speakers or telephony

Analog PCBeep input pin

Figure 1.AD1882 Block Diagram

AD1882

TABLE OF CONTENTS

Features (1)

Revision History (2)

General Description (3)

Additional Information (3)

Jack Configuration (3)

Specifications (4)

Test Conditions (4)

Performance (4)

General Specifications (4)

HD Audio Link Specifications (6)

Power-Down States (6)

Absolute Maximum Ratings (7)

ESD Caution (7)

Environmental Conditions (7)

Pin Configuration and Function Descriptions (8)

HD Audio Widgets (11)

HD Audio Parameters (12)

Outline Dimensions (16)

Ordering Guide (16)

REVISION HISTORY

4/08—Rev. 0 to Rev. A

Changed analog and digital power supply specifications (6)

Changed analog and digital specifications and revised footnotes

in Power-Down States (6)

Changed revision ID in Widget Parameters (13)

Rev. A|Page 2 of 16|April 2008

AD1882

Rev. A |Page 3 of 16|April 2008

GENERAL DESCRIPTION

The AD1882 audio codec and SoundMAX® software provides superior HD audio quality that exceeds Vista Premium perfor-mance. The AD1882 has six DACs and four ADCs, two stereo headphone ports, C/LFE swapping, digital and analog PCBeep, and S/PDIF output, making the AD1882 the right choice for desktop PCs where performance is the primary consideration. The jack retasking feature on this product supports various con-figurations including platforms for 5.1 on 5 or 3 jacks, and front panel jack retasking.

The AD1882 is available in a 48-lead RoHS compliant lead frame chip scale package in both reels and trays. See Ordering Guide on Page 16.

ADDITIONAL INFORMATION

This data sheet provides a general overview of the AD1882 SoundMAX codec’s architecture and functionality. Additional information on the AD1882 is available in the AD1882 Pro-grammers Reference Manual. Please contact your local Analog Devices, Inc., sales representative for more information. For information on SoundMAX codecs and software, see Analog Devices website at www.analog.com/soundMAX .

JACK CONFIGURATION

The guidelines shown in Table 1 through Table 3 should be used when selecting ports for particular functions.

Table 1.Typical Desktop Configuration with Discreet Jacks

Port Function

Port A Front Panel Headphone Port B Front Panel Microphone Port C Rear Panel Line-In

Port D Rear Panel Line-Out/Headphone Port E Rear Panel Microphone Port F Rear Panel Surround Port G

Rear Panel C/LFE

Table 2.Typical Desktop Configuration with 5.1 on 3 Jacks

Port Function

Port A Front Panel Headphone Port B Front Panel Microphone Port C Rear Panel Line-In/Surround Port D Rear Panel Line-Out/Headphone Port E

Rear Panel Microphone / C/LFE

Table 3.Typical Notebook Configuration

Port Function Port A Headphone Port B Microphone

Port C Internal Microphone Port D Internal Stereo Speakers

Port E

Docking Station Line-In/Microphone

Rev. A |Page 4 of 16|April 2008

AD1882

SPECIFICATIONS

TEST CONDITIONS

PERFORMANCE

GENERAL SPECIFICATIONS

Parameter Test Condition Temperature Digital Supply Analog Supply

MIC_BIAS_IN (via Low-Pass Filter)Sample Rate f S

Input Signal (Frequency Sine Wave) Amplitude for THD + N Analog Output Pass Band 25°C 3.3 V 3.3 V

5.0 V 48 kHz 1008 Hz

–3.0 dB Full Scale 20 Hz to 20 kHz

DAC 10 k Ω Output Load: Line Out Tests 32 Ω Output Load: Headphone Tests ADC

0 dB Gain

Parameter

Min

Typ Max

Unit Line-Out Drive (10 k Ω Loads—DAC to Pin) Total Harmonic Distortion (THD + N)

Dynamic Range (–60 dB in Ref to f S A-Weighted) Signal-to-Noise Ratio

–85 95 95dB dB dB Headphone Drive (32 Ω Loads—DAC to Pin) Total Harmonic Distortion (THD + N)

Dynamic Range (–60 dB in Ref to f S A-Weighted) Signal-to-Noise Ratio

–83 95 95dB dB dB Input Ports (Pin to ADC, Mic Boost = 0 dB) Total Harmonic Distortion (THD + N)

Dynamic Range (–60 dB in Ref to f S A-Weighted) Signal-to-Noise Ratio

–81 90 90

dB dB dB

Table 4.AD1882 General Specifications

Parameter

Min Typ

Max Unit DIGITAL DECIMATION AND INTERPOLATION FILTERS—f S = 8 kHz to 192 kHz 1Pass Band

00.4

f S Hz Pass-Band Ripple ±0.005

dB Stop Band

0.6 f S

Hz Stop-Band Rejection dB Group Delay

+20–100

1/f S Group Delay Variation Over Pass Band 0μs ANALOG-TO-DIGITAL CONVERTERS Resolution

24

Bits Gain Error (Full-Scale Span Relative to Nominal Input Voltage)2±10%Interchannel Gain Mismatch (Difference of Gain Errors)±0.5dB ADC Offset Error 1±5

mV ADC Crosstalk 1

Line Inputs (Input L, Ground R, Read R; Input R, Ground L, Read L)–85dB Line Inputs to Other

–100

–80

dB

AD1882

Rev. A |Page 5 of 16|April 2008

DIGITAL TO ANALOG CONVERTERS Resolution

24

Bits Gain Error (Full-Scale Span Relative to Nominal Input Voltage)1±10%Interchannel Gain Mismatch (Difference of Gain Errors)

±0.5

dB Total Audible Out-of-Band Energy (Measured from 0.6 × f S to 100 kHz)1

–85dB DAC Crosstalk (Input L, Zero R, Read R_OUT; Input R, Zero L, Read L_OUT)1–95dB DAC VOLUMES

Step Size (DAC-0, DAC-1, DAC-2) 1.5

dB Output Gain/Attenuation Range

–58.5

0dB Mute Attenuation of 0 dB Fundamental 1–80dB ADC VOLUMES

Step Size (ADCSEL-0, ADCSEL-1) 1.5

dB PGA Gain/Attenuation Range

–58.5

+22.5dB Mute Attenuation of 0 dB Fundamental 1–80dB ANALOG MIXER

Signal-to-Noise Ratio (SNR) Input to Output CD to Port D Output

Port B, C, or E to Port D Output Port A to Port D Output Port D to Port A Output 9595959595dB dB dB dB dB Step Size: All Mixer Inputs

1.5

dB Input Gain/Attenuation Range: All Mixer Inputs –34.5+12.0dB ANALOG LINE LEVEL OUTPUTS Full-Scale Output Voltage 1.0 1.0

V rms 3Ports C, E, F, and G Mono Out

2.83V p-p Output Impedance 1

300ΩExternal Load Impedance 110

k ΩOutput Capacitance 1

15

pF External Load Capacitance

1000

pF ANALOG HP DRIVE OUTPUTS Full-Scale Output Voltage 1.0V rms 3Ports A and D

2.83

V p-p Output Impedance 1

0.5

ΩExternal Load Impedance 132

ΩOutput Capacitance 1

15

pF External Load Capacitance 1

1000

pF ANALOG INPUTS

CD, Port D (When Used as Input)

12.83V rms 3V p-p Microphone Boost Amplifier, Ports B, C, or E (When Used as Inputs)

Boost = 0 dB 12.83V rms 3V p-p Boost = 10 dB

0.3160.4V rms 3V p-p Boost = 20 dB 0.10.283V rms 3V p-p Boost = 30 dB

0.0320.0V rms 3V p-p Input Impedance 120k ΩInput Capacitance 1

57.5

pF

Table 4.AD1882 General Specifications (Continued)

Parameter

Min

Typ Max

Unit

Rev. A |Page 6 of 16|April 2008

AD1882

HD AUDIO LINK SPECIFICATIONS

HD Audio signals comply with the High Definition Audio spec-ifications. Please refer to these specifications at www.intel.com/standards/hdaudio.

POWER-DOWN STATES

Digital GPIO Pins: GPIO_0, GPIO_1/EAPD

Input Signal High (V IH )

DV IO × 0.60DV IO V Input Signal Low (V IL )0DV IO × 0.24V

Input Leakage Current (Signal High, (I IH ) 150

nA Input Leakage Current (Signal Low, (I IL )50μA

Output Signal High (V OH )

I OUT = –500 μA DV IO × 0.72DV IO V Output Signal Low (V OL )I OUT = +1500 μA 0DV IO × 0.10V S/PDIF_OUT

Output Signal High (V OH )I OUT = –500 μA DV IO × 0.72DV IO V

Output Signal Low (V OL )

I OUT = +1500 μA 0DV IO × 0.10V Power Supply

Analog (AV DD ) 3.3 V ± 5% Power Supply Range Power Dissipation Supply Current 3.13 3.3011635 3.46V mW mA Digital (DV DD ) 3.3 V ± 10% Power Supply Range Power Dissipation Supply Current 2.97 3.3016249 3.63V mW mA Digital I/O (DV IO ) 3.3 V ± 10% Power Supply Range Power Dissipation Supply Current 2.97 3.303.961.20 3.63V mW mA

Power Supply Rejection (100 mV p-p Signal @ 1 kHz)1

80 dB

1Guaranteed but not tested.

2

Measurements reflect main ADC.3

RMS values assume sine wave input.

Table 4.AD1882 General Specifications (Continued)

Parameter Min Typ Max Unit Table 5.Power-Down States

Parameter

ID VDD Typ IA VDD Typ Unit Function Node In D0, All Nodes Active 4935mA Function Node in D3160.7mA Codec in RESET

33mA Individual block power savings

DAC Pair Powered Down Saves (Each) ADC Pair Powered Down Saves (Each)

Mixer Power Control (and Associated Amps) Saves MIC_BIAS Powered Down Saves 1

1

Powering down the MIC_BIAS powers down all port MIC_BIAS pins. This disables all microphone bias circuits set to 100% or 50%, setting them to the high-Z state. The 0 Ω and high-Z states remain unaffected by the MIC_BIAS power state.

6500

.431.0

mA mA mA mA

ABSOLUTE MAXIMUM RATINGS

Stresses greater than those listed below may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.

ESD CAUTION

ENVIRONMENTAL CONDITIONS

Ambient Temperature Rating:

T AMB = T CASE – (PD × θCA )T CASE = case temperature in °C PD = power dissipation in W

θCA = thermal resistance (case-to-ambient)θJA = thermal resistance (junction-to-ambient)θJC = thermal resistance (junction-to-case)

All measurements per EIA-JESD51 with 2S2P test board per EIA-JESD51-7.

Power Supplies Rating

Digital (DV DD )–0.30 V to +3.65 V Digital I/O (DV IO )–0.30 V to +3.65 V Analog (AV DD )

–0.30 V to +3.65 V Input Current (Except Supply Pins)±10.0 mA

Analog Input Voltage (Signal Pins)–0.30 V to AV DD + 0.3 V Digital Input Voltage (Signal Pins)–0.30 V to DV IO + 0.3 V Ambient Temperature (Operating)0°C to +70°C Storage Temperature

–65°C to +150°C

Package θJA

θJC

θCA

Unit LFCSP_VQ

47

15

32°C/W

Figure 2.AD1882 48-Lead Package and PinoutTable 6.AD1882 Pin Descriptions

Mnemonic Pin No.Function Description DIGITAL INTERFACE

SDATA_OUT BIT_CLK

SDATA_IN SYNC

RESET 5

6

8

10

11

I

I

I/O

I

I

Link Serial Data Output. AD1882 input stream. Clocked on both edges of the

BIT_CLK.

Link Bit Clock. 24.000 MHz serial data clock.

Link Serial Data Input. AD1882 output stream Clocked only on one edge of BIT_CLK.

Link Frame Sync.

Link Reset. AD1882 master hardware reset

DIGITAL I/O

GPIO_0

GPIO_1/EAPD SPDIF_OUT 2

47

48

I/O

I/O

O

General-Purpose Input/Output Pin. Digital signal used to control external circuitry.

General-Purpose Input/Output Pin/EAPD Pin. Digital signal used to control external

circuitry. Defaults to high-Z. When used as EAPD: high-Z = amp-on, DV SS = amp off.

S/PDIF_OUT. Supports S/PDIF output.

JACK SENSE AND EAPD

SENSE_A/SRC_B SENSE_B/SRC_A 13

34

I/O

I/O

JACK SENSE A-D Input/Sense B Drive.

JACK SENSE E-H Input/Sense A Drive.

ANALOG I/O

PCBEEP

PORT-E_L PORT-E_R PORT-F_L PORT-F_R CD_L

CD_GND

CD_R

PORT-B_L PORT-B_R PORT-C_L PORT-C_R PORT-D_L PORT-D_R PORT-A_L MONO_OUT PORT-A_R PORT-G_L PORT-G_R 12

14

15

16

17

18

19

20

21

22

23

24

35

36

39

40

41

43

44

LI

LI, MIC, LO, SWAP

LI, MIC, LO, SWAP

I/O

I/O

LI

LI

LI

LI, MIC, HP, LO

LI, MIC, HP, LO

LI, MIC, LO

LI, MIC, LO

LI, HP, LO

LI, HP, LO

LI, MIC, HP, LO

LO

LI, MIC, HP, LO

LO, SWAP

LO, SWAP

Monaural Input from System for Analog PCBeep.

Auxiliary Input/Output Left Channel.

Auxiliary Input/Output Right Channel.

Auxiliary Input/Output Left Channel.

Auxiliary Input/Output Right Channel.

CD Audio Left Channel.

CD Audio Analog Ground Reference (for Differential CD Input). Must be connected to

AGND via 0.1 mF capacitor if not in use as CD_GND.

CD Audio Right Channel.

Front Panel Stereo MIC/Line-In.

Front Panel Stereo MIC/Line-In.

Rear Panel Stereo MIC/Line-In.

Rear Panel Stereo MIC/Line-In.

Rear Panel Headphone/Line-Out.

Rear Panel Headphone/Line-Out.

Front Panel Headphone/Line-Out.

Monaural Output to Internal Speaker or Telephony Subsystem Speakerphone.

Front Panel Headphone/Line-Out.

Rear Panel C/LFE Output.

Rear Panel C/LFE Output.

FILTER/REFERENCE

MIC_BIAS-B MIC_BIAS-C MIC_BIAS-E 28

29

31

O

O

O

Switchable Microphone Bias. For use with Port B (Pins 21, 22).

Switchable Microphone Bias. For use with Port C (Pins 23, 24).

Switchable Microphone Bias. For use with Port E (Pins 14, 15).

DV CORE1O CAUTION: DO NOT APPLY 3.3 V TO THIS PIN!

Filter connection for internal core voltage regulator.

This pin must be connected to filter caps: 10 μF, 1.0 μF, and 0.1 μF connected in

parallel between Pin 1 and DV SS (Pin 4).

VREF_FLT27O Voltage Reference Filter. This pin must be connected to filter caps: 1.0 μF and 0.1μF

connected in parallel between Pin 27 and AV SS (Pins 26, 42).

The symbols used in this table are defined as: I = Input, O = Output, LI = Line level input, LO = Line level output, HP = Output capable of driving headphone load, MIC = Input supports microphones with MIC bias and boost amplifier, SWAP = Outputs can swap L/R channels (typically used to support C/LFE or shared C/LFE function).Table 6.AD1882 Pin Descriptions (Continued)

Mnemonic Pin No.Function Description

POWER AND GROUND

DV I/O (3.3V) 3I Connect to the I/O Voltage Used for the HD Audio Controller Signals.

DV SS4, 7I Digital Supply Return (Ground).

DV DD (3.3 V)9I Digital Supply Voltage 3.3 V. This is regulated down to DV CORE on Pin 1 to supply the

internal digital core internal to the AD1882.

AV DD (3.3 V)25, 38I CAUTION: DO NOT APPLY 5.0 V TO THESE PINS!

Analog supply voltage 3.3 V ONLY.

Note: AV DD supplies should be well regulated and filtered as supply noise degrades

audio performance.

MIC_BIAS_IN33I Source Power for Microphone Bias Boost Circuitry.

AV SS26, 42I Analog Supply Return (Ground). AV SS should be connected to DV SS using a

conductive trace under, or close to, the AD1882.

The symbols used in this table are defined as: I = Input, O = Output, LI = Line level input, LO = Line level output, HP = Output capable of driving headphone load, MIC = Input supports microphones with MIC bias and boost amplifier, SWAP = Outputs can swap L/R channels (typically used to support C/LFE or shared C/LFE function).HD AUDIO WIDGETS

In the following table, node IDs that are not shown are reserved

for future use.

Table 7.HD Audio Widgets

Node ID Name Type ID Type Description

00ROOT x Root Device identification

01FUNCTION x Function Designates this device as an audio codec

02S/PDIF DAC0Audio Output S/PDIF digital stream output interface

03DAC_00Audio Output Headphone/surround side (7.1) channel digital/audio converters

04DAC_10Audio Output Stereo front channel digital/audio converters

05DAC_20Audio Output Stereo C/LFE channel digital/audio converters

08ADC_01Audio Input Stereo record channel 1 audio/digital converters

09ADC_11Audio Input Stereo record channel 2 audio/digital converters

0B S/PDIF Mix Selector3Audio Selector Selects which ADC drives the S/PDIF mixer

0C ADC Selector 03Audio Selector Selects and amplifies/attenuates the input to ADC_0

0D ADC Selector 13Audio Selector Selects and amplifies/attenuates the input to ADC_1

10Digital Beep7Beep Generator Internal digital PCBeep signal

11Port A (Headphone)4Pin Complex Front panel headphone/microphone jack

12Port D (Front L/R)4Pin Complex Rear panel front/headphone jack

13Mono Out4Pin Complex Monorail output pin (internal speakers or telephony system)

14Port B (Front Mic)4Pin Complex Front panel microphone/headphone jack

15Port C (Line In)4Pin Complex Rear panel line-in jack

16Port F (Surr Back)4Pin Complex Rear panel surround-rear (5.1) jack

17Port E (Rear Mic)4Pin Complex Rear panel mic jack

18CD In4Pin Complex Analog CD input

19Mixer Power-Down5Power Widget Powers down the analog mixer and associated amps

1A Analog PCBeep4Pin Complex External analog PCBeep signal input

1B S/PDIF Out4Pin Complex S/PDIF output pin

1D S/PDIF Mixer2Audio Mixer Mixes the selected ADC with the digital stream to drive S/PDIF out

1E Mono Out Mixer2Audio Mixer Selects which source drives the mono out signal

20Analog Mixer2Audio Mixer Mixes individually gainable analog inputs

21Mixer Output Atten3Audio Selector Attenuates the mixer output to drive the Port mixers

22Port A Mixer2Audio Mixer Mixes the Port A selected DAC and mixer output amps to drive Port A 23VREF Power-Down F Vendor Defined Powers down the internal and external VREF circuitry

24Port G (C/LFE)4Pin Complex Rear panel C/LFE jack

26Port E Mixer2Audio Mixer Mixes DAC_1 and mixer output amps to drive Port E

27Port G Mixer2Audio Mixer Mixes DAC_1 and mixer output amps to drive Port G

29Port D Mixer2Audio Mixer Mixes DAC_0 and mixer output amps to drive Port D

2A Port F Mixer2Audio Mixer Mixes DAC_2 and mixer output amps to drive Port F

2C Port C Mixer2Audio Mixer Mixes the Port C selected DAC and mixer output amps to drive Port C 2D Stereo Mix Down2Audio Mixer Mixes the stereo L/R channels to drive mono output

2F BIAS Power-Down F Vendor Defined Powers down the internal MIC_BIAS_FILT and all MIC_BIAS pins

37Port A Out Selector3Audio Selector Selects the Port A DAC (0, 1)

39Port B Boost3Audio Selector Microphone boost amp for Port B

3A Port C Boost3Audio Selector Microphone boost amp for Port C

3C Port E Boost3Audio Selector Microphone boost amp for Port EHD AUDIO PARAMETERS

The SSID value is set on codec power-up only. SSID is not reset by link or soft reset in order to preserve modifications by BIOS control.

Table 8.Root and Function Node Parameters

Node ID Name Vendor ID

0001

Revision ID

02103

Sub Node

Count

04

Func. Group

Type

05

Audio F.G.

Caps

08

GPIO Caps

11

00ROOT0x11D4 18820x0010 03000x0001 0001

01FUNCTION0x0002 003B0x0000 00010x0001 0C0C0x4000 0002 1Subject to change with silicon stepping.

Table 9.Subsystem ID1

Node ID Name Type Value 31:16

SSID

15:8

SKU

7:0

ASM ID

0x01FUNCTION Function0xBFD2 00000xBFD20x000x00 1The default SSID is over-written by platform BIOS after power on. It is preserved across HD Audio link reset and verb reset.

Table 10.Widget Parameters

Node ID Widget

Capabilities

09

PCM Size,

Rate 0A

Stream

Formats

0B

Pin

Capabilities

0C

Input Amp

Capabilities

0D

ConnList

Length

0E

Power

States

0F

Processing

Caps

10

Output

Amp

Capabilities

12

Volume

Knob

Capabilities

13

0100000480000E01FF00000001800000000000000900052727 020003031D000E01E0000000050000000180052727 0300000405000E01FF00000001000000000000000900052727 0400000405000E01FF00000001000000000000000900052727 0500000405000E01FF00000001000000000000000900052727 0800100501000E01FF000000010000000100000009

0900100501000E01FF000000010000000100000009

0B0030030100000002

0C0030010D0000000880053627 0D0030010D0000000880053627 100070000C00000000800B0F0F 110040018D0000373F0000000180000000 120040058D0001003F000000010000000980000000 130040050C00010010000000010000000980051F1F 14004000810000372700000000

150040018D000037370000000180000000 160040018D000000170000000180000000 170040098D000037370000000180000000 18004000010000002000000000 19005005000000000200000009

1A004000000000002000000000

1B004003010000001000000001

1D002003038000000000000002

1E002001038000000000000002

1F00F001000000001000000001

200020010B80051F1700000008

210030010D0000000180051F1F 22002001038000000000000002

2300F0010000000008

240040098D000000170000000180000000 26002001038000000000000002 27002001038000000000000002 29002001038000000000000002

2A002001038000000000000002

2C002001038000000000000002

2D0020010000000001

2F00F0010000000003

370030010100000002

390030010D0000000100270300 3A0030010D0000000100270300 3C0030010D0000000100270300Table 11.Connection List

Node ID Connections01234567 [0–3][4–7]NID I NID I NID I NID I NID I NID I NID I NID 020000001D1D

03

04

05

080000000C0C

090000000D0D

0B000009080809

0C18BC391120123B3B113913C183B3B1220 0D18BC391120123B3B113913C183B3B1220 10

110000002222

120000002929

130000002D2D

14

150000002C2C

160000002A2A

170000002626

18

19000021202021

1A

1B0000000202

1D00000B01010B

1E000021040421

1F0000000202

2012113A391A183B3C393A11123C3B181A 210000002020

22000021373721

23A2209811BC30AE2411118201222412E3013C 240000002727

26000021050521

27000021050521

29000021040421

2A000021060321

2C000021310321

2D0000001E1E

2F00171514141517

37000004030304

390000001414

3A0000001515

3C0000001717In Table12, default configuration values are set on codec

power-up only. Default configuration values are not reset by

link or soft reset to preserve modifications by BIOS control.

Table 12.Default Configuration Bytes

31:3029:2827:2423:2019:1615:1287:43:0

Connectivity Location

Def. Device Conn Type Color

Misc.

Def Assn Sequence

Name Value Chasis Position JD Over Ride

Port A (Headphone)0221401F Jack External Front HP Out1/8” Jack Green01F Port D (Front L/R)01014010Jack External Rear Line Out1/8” Jack Green010 Mono Out901701F0Fixed Internal N/A Speaker Other Analog Unknown1F0 Port B (Front Mic)02A190F0Jack External Front Mic In1/8” Jack Pink0F0 Port C (Line In)01813021Jack External Rear Line In1/8” Jack Blue021 Port F (Surr Back)01011012Jack External Rear Line Out1/8” Jack Black012 Port E (Rear Mic)01A19020Jack External Rear Mic In1/8” Jack Pink020 CD IN9933012E Fixed Internal Special 3CD ATAPI Unknown12E Analog PCBeep90F701F0Fixed Internal N/A Other Other Analog Unknown1F0 S/PDIF Out014511F0Jack External Rear SPDIF Out Optical Black1F0 Port G (C/LFE)01016011Jack External Rear Line Out1/8” Jack Orange011

©2008 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners.

D06826-0-4/08(A)

OUTLINE DIMENSIONS

Dimensions are shown in millimeters.

ORDERING GUIDE

Figure 3.48-Lead Lead Frame Chip Scale Package [LFCSP_VQ]

7 mm x 7 mm Body, Very Thin Quad

(CP-48-1)

Dimensions shown in millimeters

Model

Temperature Range Package Description Package Option AD1882JCPZ 11

Z = RoHS Compliant Part.

0°C to 70°C 48-Lead LFCSP_VQ

CP-48-1AD1882JCPZ-RL 1

0°C to 70°C 48-Lead LFCSP_VQ, 13” Tape and Reel CP-48-1

文档

AD1882[1]声卡芯片

HighDefinitionAudioSoundMAXCodecAD1882Rev.AInformationfurnishedbyAnalogDevicesisbelievedtobeaccurateandreliable.However,noresponsibilityisassumedbyAnalogDevicesforitsuse,norforanyinfringementsofpatentsorotherrightsofthirdpartiesthatmayresultfromitsu
推荐度:
  • 热门焦点

最新推荐

猜你喜欢

热门推荐

专题
Top