ALC268Q-GR [REALTEK]
22 CHANNEL HIGH DEFINITION AUDIO CODEC;型号: | ALC268Q-GR |
厂家: | Realtek Semiconductor Corp. |
描述: | 22 CHANNEL HIGH DEFINITION AUDIO CODEC |
文件: | 总80页 (文件大小:1496K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ALC268 Series
(ALC268-GR, ALC268Q-GR, ALC268-VB1-GR)
2+2 CHANNEL HIGH DEFINITION AUDIO CODEC
DATASHEET
Rev. 1.3
25 April 2008
Track ID: JATR-1076-21
Realtek Semiconductor Corp.
No. 2, Innovation Road II, Hsinchu Science Park, Hsinchu 300, Taiwan
Tel.: +886-3-578-0211. Fax: +886-3-577-6047
www.realtek.com.tw
ALC268 Series
Datasheet
COPYRIGHT
©2008 Realtek Semiconductor Corp. All rights reserved. No part of this document may be reproduced,
transmitted, transcribed, stored in a retrieval system, or translated into any language in any form or by any
means without the written permission of Realtek Semiconductor Corp.
DISCLAIMER
Realtek provides this document “as is”, without warranty of any kind, neither expressed nor implied,
including, but not limited to, the particular purpose. Realtek may make improvements and/or changes in
this document or in the product described in this document at any time. This document could include
technical inaccuracies or typographical errors.
TRADEMARKS
Realtek is a trademark of Realtek Semiconductor Corporation. Other names mentioned in this document
are trademarks/registered trademarks of their respective owners.
USING THIS DOCUMENT
This document is intended for the hardware and software engineer’s general information on the Realtek
ALC268 Series Audio codecs.
Though every effort has been made to assure that this document is current and accurate, more information
may have become available subsequent to the production of this guide. In that event, please contact your
Realtek representative for additional information that may help in the development process.
REVISION HISTORY
Revision
Release Date
2006/09/04
2007/12/12
2008/01/07
Summary
1.0
First release.
1.1
Add ALC268-VB (Version B) information (Intermediate Release)
1.2
Updated ALC268 version B part number in section 12 Ordering Information, page 72
(Intermediate Release).
1.3
2008/04/25
Updated ALC268 version B part number in section 12 Ordering Information, page 72.
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ALC268 Series
Datasheet
Table of Contents
1.
2.
GENERAL DESCRIPTION..............................................................................................................................................1
FEATURES.........................................................................................................................................................................2
2.1.
2.2.
HARDWARE FEATURES ................................................................................................................................................2
SOFTWARE FEATURES..................................................................................................................................................3
3.
4.
SYSTEM APPLICATIONS...............................................................................................................................................4
BLOCK DIAGRAM...........................................................................................................................................................5
4.1.
ANALOG INPUT/OUTPUT UNIT .....................................................................................................................................5
5.
6.
7.
PIN ASSIGNMENTS .........................................................................................................................................................6
5.1.
ALC268/ALC268-VB (LQFP-48) ..............................................................................................................................6
GREEN PACKAGE AND VERSION IDENTIFICATION ........................................................................................................6
ALC268Q (QFN-48) ...................................................................................................................................................7
GREEN PACKAGE AND VERSION IDENTIFICATION ........................................................................................................7
5.2.
5.3.
5.4.
PIN DESCRIPTIONS.........................................................................................................................................................8
6.1.
DIGITAL I/O PINS.........................................................................................................................................................8
ANALOG I/O PINS ........................................................................................................................................................9
FILTER/REFERENCE/NOT CONNECTED.......................................................................................................................10
POWER/GROUND........................................................................................................................................................10
6.2.
6.3.
6.4.
HIGH DEFINITION AUDIO LINK PROTOCOL .......................................................................................................11
7.1.
LINK SIGNALS............................................................................................................................................................11
7.1.1. Signal Definitions.................................................................................................................................................12
7.1.2. Signaling Topology...............................................................................................................................................13
7.2.
FRAME COMPOSITION ................................................................................................................................................14
7.2.1. Outbound Frame – Single SDO............................................................................................................................14
7.2.2. Outbound Frame – Multiple SDOs.......................................................................................................................15
7.2.3. Inbound Frame – Single SDI................................................................................................................................16
7.2.4. Inbound Frame – Multiple SDIs...........................................................................................................................17
7.2.5. Variable Sample Rates .........................................................................................................................................17
7.3.
RESET AND INITIALIZATION .......................................................................................................................................20
7.3.1. Link Reset .............................................................................................................................................................20
7.3.2. Codec Reset..........................................................................................................................................................21
7.3.3. Codec Initialization Sequence ..............................................................................................................................22
7.4.
VERB AND RESPONSE FORMAT ..................................................................................................................................23
7.4.1. Command Verb Format........................................................................................................................................23
7.4.2. Response Format..................................................................................................................................................23
7.5.
POWER MANAGEMENT...............................................................................................................................................24
8.
SUPPORTED VERBS AND PARAMETERS................................................................................................................25
8.1.
VERB – GET PARAMETERS (VERB ID=F00H).............................................................................................................25
8.1.1. Parameter – Vendor ID (Verb ID=F00h, Parameter ID=00h)............................................................................25
8.1.2. Parameter – Revision ID (Verb ID=F00h, Parameter ID=02h)..........................................................................25
8.1.3. Parameter – Subordinate Node Count (Verb ID=F00h, Parameter ID=04h).....................................................26
8.1.4. Parameter – Function Group Type (Verb ID=F00h, Parameter ID=05h) ..........................................................26
8.1.5. Parameter – Audio Function Capabilities (Verb ID=F00h, Parameter ID=08h) ...............................................26
8.1.6. Parameter – Audio Widget Capabilities (Verb ID=F00h, Parameter ID=09h) ..................................................27
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8.1.7. Parameter – Supported PCM Size, Rates (Verb ID=F00h, Parameter ID=0Ah) ................................................28
8.1.8. Parameter – Supported Stream Formats (Verb ID=F00h, Parameter ID=0Bh).................................................29
8.1.9. Parameter – Pin Capabilities (Verb ID=F00h, Parameter ID=0Ch ...................................................................29
8.1.10.
8.1.11.
8.1.12.
8.1.13.
8.1.14.
8.1.15.
8.1.16.
Parameter – Amplifier Capabilities (Verb ID=F00h, Input Amplifier Parameter ID=0Dh) ..........................30
Parameter – Amplifier Capabilities (Verb ID=F00h, Output Amplifier Parameter ID=12h) ........................30
Parameter – Connect List Length (Verb ID=F00h, Parameter ID=0Eh) .......................................................31
Parameter – Supported Power States (Verb ID=F00h, Parameter ID=0Fh) .................................................31
Parameter – Processing Capabilities (Verb ID=F00h, Parameter ID=10h)..................................................31
Parameter – GPIO Capabilities (Verb ID=F00h, Parameter ID=11h)..........................................................32
Parameter – Volume Knob Capabilities (Verb ID=F00h, Parameter ID=13h)..............................................32
8.2.
8.3.
8.4.
8.5.
8.6.
8.7.
8.8.
8.9.
VERB – GET CONNECTION SELECT CONTROL (VERB ID=F01H)................................................................................33
VERB – SET CONNECTION SELECT (VERB ID=701H).................................................................................................33
VERB – GET CONNECTION LIST ENTRY (VERB ID=F02H) .........................................................................................34
VERB – GET PROCESSING STATE (VERB ID=F03H) ...................................................................................................37
VERB – SET PROCESSING STATE (VERB ID=703H) ....................................................................................................37
VERB – GET COEFFICIENT INDEX (VERB ID=DH)......................................................................................................37
VERB – SET COEFFICIENT INDEX (VERB ID=5H) .......................................................................................................38
VERB – GET PROCESSING COEFFICIENT (VERB ID=CH) ............................................................................................38
VERB – SET PROCESSING COEFFICIENT (VERB ID=4H)..............................................................................................38
VERB – GET AMPLIFIER GAIN (VERB ID=BH) ...........................................................................................................39
VERB – SET AMPLIFIER GAIN (VERB ID=3H) ............................................................................................................42
VERB – GET CONVERTER FORMAT (VERB ID=AH)....................................................................................................43
VERB – SET CONVERTER FORMAT (VERB ID=2H).....................................................................................................44
VERB – GET POWER STATE (VERB ID=F05H)............................................................................................................44
VERB – SET POWER STATE (VERB ID=705H) ............................................................................................................45
VERB – GET CONVERTER STREAM, CHANNEL (VERB ID=F06H) ...............................................................................45
VERB – SET CONVERTER STREAM, CHANNEL (VERB ID=706H)................................................................................46
VERB – GET PIN WIDGET CONTROL (VERB ID=F07H) ..............................................................................................46
VERB – SET PIN WIDGET CONTROL (VERB ID=707H) ...............................................................................................47
VERB – GET UNSOLICITED RESPONSE CONTROL (VERB ID=F08H) ...........................................................................47
VERB – SET UNSOLICITED RESPONSE CONTROL (VERB ID=708H)............................................................................48
VERB – GET PIN SENSE (VERB ID=F09H)..................................................................................................................48
VERB – EXECUTE PIN SENSE (VERB ID=709H)..........................................................................................................49
VERB – GET CONFIGURATION DEFAULT (VERB ID=F1CH) .......................................................................................49
VERB – SET CONFIGURATION DEFAULT BYTES 0, 1, 2, 3 (VERB ID=71CH/71DH/71EH/71FH FOR BYTES 0, 1, 2, 3) 50
VERB – GET BEEP GENERATOR (VERB ID=F0AH)...................................................................................................50
VERB – SET BEEP GENERATOR (VERB ID=70AH)....................................................................................................51
VERB – GET GPIO DATA (VERB ID=F15H)...............................................................................................................51
VERB – SET GPIO DATA (VERB ID=715H)................................................................................................................52
VERB – GET GPIO ENABLE MASK (VERB ID=F16H).................................................................................................52
VERB – SET GPIO ENABLE MASK (VERB ID=716H) .................................................................................................53
VERB – GET GPIO DIRECTION (VERB ID=F17H).......................................................................................................53
VERB – SET GPIO DIRECTION (VERB ID=717H) .......................................................................................................54
VERB – GET GPIO UNSOLICITED RESPONSE ENABLE MASK (VERB ID=F19H).........................................................54
VERB – SET GPIO UNSOLICITED RESPONSE ENABLE MASK (VERB ID=719H)..........................................................55
VERB – FUNCTION RESET (VERB ID=7FFH)..............................................................................................................55
VERB – GET DIGITAL CONVERTER CONTROL 1 & CONTROL 2 (VERB ID=F0DH, F0EH)...........................................56
VERB – SET DIGITAL CONVERTER CONTROL 1 & CONTROL 2 (VERB ID=70DH, 70EH)............................................57
GET/SET VOLUME KNOB WIDGET (VERB ID=F0FH/70FH) .......................................................................................58
GET/SET SUBSYSTEM ID [31:0] (VERB ID=F20H / 723H~720H TO SET BIT[31:0])....................................................58
8.10.
8.11.
8.12.
8.13.
8.14.
8.15.
8.16.
8.17.
8.18.
8.19.
8.20.
8.21.
8.22.
8.23.
8.24.
8.25.
8.26.
8.27.
8.28.
8.29.
8.30.
8.31.
8.32.
8.33.
8.34.
8.35.
8.36.
8.37.
8.38.
8.39.
8.40.
8.41.
9.
ELECTRICAL CHARACTERISTICS ..........................................................................................................................59
9.1.
DC CHARACTERISTICS...............................................................................................................................................59
9.1.1. Absolute Maximum Ratings..................................................................................................................................59
9.1.2. Threshold Voltage ................................................................................................................................................59
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9.1.3. Digital Filter Characteristics...............................................................................................................................60
9.1.4. S/PDIF Output Characteristics ............................................................................................................................60
9.2.
AC CHARACTERISTICS...............................................................................................................................................61
9.2.1. Link Reset and Initialization Timing.....................................................................................................................61
9.2.2. Link Timing Parameters at the Codec..................................................................................................................62
9.2.3. S/PDIF Output Timing .........................................................................................................................................63
9.2.4. Test Mode .............................................................................................................................................................63
9.3.
ANALOG PERFORMANCE............................................................................................................................................64
10.
APPLICATION NOTES.............................................................................................................................................65
10.1.
10.2.
10.3.
10.4.
10.5.
APPLICATION CIRCUITS .............................................................................................................................................65
FILTER CONNECTION .................................................................................................................................................65
POWER AND REAR PANEL JACK CONNECTION ...........................................................................................................66
FRONT PANEL HEADER AND FRONT PANEL I/O CABLE .............................................................................................67
DIGITAL MICROPHONE IMPLEMENTATION .................................................................................................................69
11.
MECHANICAL DIMENSIONS.................................................................................................................................70
11.1.
11.2.
LQFP-48 MECHANICAL DIMENSIONS (ALC268/ALC268-VB).................................................................................70
QFN-48 MECHANICAL DIMENSIONS (ALC268Q)......................................................................................................71
12.
ORDERING INFORMATION...................................................................................................................................72
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Datasheet
List of Tables
TABLE 1. DIGITAL I/O PINS..........................................................................................................................................................8
TABLE 2. ANALOG I/O PINS .........................................................................................................................................................9
TABLE 3. FILTER/REFERENCE ....................................................................................................................................................10
TABLE 4. POWER/GROUND.........................................................................................................................................................10
TABLE 5. LINK SIGNAL DEFINITIONS .........................................................................................................................................12
TABLE 6. HDA SIGNAL DEFINITIONS.........................................................................................................................................12
TABLE 7. DEFINED SAMPLE RATE AND TRANSMISSION RATE....................................................................................................18
TABLE 8. 48KHZ VARIABLE RATE OF DELIVERY TIMING ..........................................................................................................18
TABLE 9. 44.1KHZ VARIABLE RATE OF DELIVERY TIMING .......................................................................................................19
TABLE 10. 40-BIT COMMANDS IN 4-BIT VERB FORMAT .............................................................................................................23
TABLE 11. 40-BIT COMMANDS IN 12-BIT VERB FORMAT ...........................................................................................................23
TABLE 12. SOLICITED RESPONSE FORMAT ..................................................................................................................................23
TABLE 13. UNSOLICITED RESPONSE FORMAT .............................................................................................................................23
TABLE 14. SYSTEM POWER STATE DEFINITIONS .........................................................................................................................24
TABLE 15. POWER CONTROLS IN NID=01H.................................................................................................................................24
TABLE 16. POWERED DOWN CONDITIONS...................................................................................................................................24
TABLE 17. VERB – GET PARAMETERS (VERB ID=F00H).............................................................................................................25
TABLE 18. PARAMETER – VENDOR ID (VERB ID=F00H, PARAMETER ID=00H)..........................................................................25
TABLE 19. PARAMETER – REVISION ID (VERB ID=F00H, PARAMETER ID=02H)........................................................................25
TABLE 20. PARAMETER – SUBORDINATE NODE COUNT (VERB ID=F00H, PARAMETER ID=04H)...............................................26
TABLE 21. PARAMETER – FUNCTION GROUP TYPE (VERB ID=F00H, PARAMETER ID=05H) ......................................................26
TABLE 22. PARAMETER – AUDIO FUNCTION CAPABILITIES (VERB ID=F00H, PARAMETER ID=08H)..........................................26
TABLE 23. PARAMETER – AUDIO WIDGET CAPABILITIES (VERB ID=F00H, PARAMETER ID=09H).............................................27
TABLE 24. PARAMETER – SUPPORTED PCM SIZE, RATES (VERB ID=F00H, PARAMETER ID=0AH) ...........................................28
TABLE 25. PARAMETER – SUPPORTED STREAM FORMATS (VERB ID=F00H, PARAMETER ID=0BH)...........................................29
TABLE 26. PARAMETER – PIN CAPABILITIES (VERB ID=F00H, PARAMETER ID=0CH) ...............................................................29
TABLE 27. PARAMETER – AMPLIFIER CAPABILITIES (VERB ID=F00H, INPUT AMPLIFIER PARAMETER ID=0DH).......................30
TABLE 28. PARAMETER – AMPLIFIER CAPABILITIES (VERB ID=F00H, OUTPUT AMPLIFIER PARAMETER ID=12H) ....................30
TABLE 29. PARAMETER – CONNECT LIST LENGTH (VERB ID=F00H, PARAMETER ID=0EH) ......................................................31
TABLE 30. PARAMETER – SUPPORTED POWER STATES (VERB ID=F00H, PARAMETER ID=0FH) ................................................31
TABLE 31. PARAMETER – PROCESSING CAPABILITIES (VERB ID=F00H, PARAMETER ID=10H)..................................................31
TABLE 32. PARAMETER – GPIO CAPABILITIES (VERB ID=F00H, PARAMETER ID=11H) ............................................................32
TABLE 33. PARAMETER – VOLUME KNOB CAPABILITIES (VERB ID=F00H, PARAMETER ID=13H).............................................32
TABLE 34. VERB – GET CONNECTION SELECT CONTROL (VERB ID=F01H)................................................................................33
TABLE 35. VERB – SET CONNECTION SELECT (VERB ID=701H) .................................................................................................33
TABLE 36. VERB – GET CONNECTION LIST ENTRY (VERB ID=F02H) .........................................................................................34
TABLE 37. VERB – GET PROCESSING STATE (VERB ID=F03H) ...................................................................................................37
TABLE 38. VERB – SET PROCESSING STATE (VERB ID=703H) ....................................................................................................37
TABLE 39. VERB – GET COEFFICIENT INDEX (VERB ID=DH)......................................................................................................37
TABLE 40. VERB – SET COEFFICIENT INDEX (VERB ID=5H) .......................................................................................................38
TABLE 41. VERB – GET PROCESSING COEFFICIENT (VERB ID=CH) ............................................................................................38
TABLE 42. VERB – SET PROCESSING COEFFICIENT (VERB ID=4H)..............................................................................................38
TABLE 43. VERB – GET AMPLIFIER GAIN (VERB ID=BH) ...........................................................................................................39
TABLE 44. VERB – SET AMPLIFIER GAIN (VERB ID=3H).............................................................................................................42
TABLE 45. VERB – GET CONVERTER FORMAT (VERB ID=AH)....................................................................................................43
TABLE 46. VERB – SET CONVERTER FORMAT (VERB ID=2H) .....................................................................................................44
TABLE 47. VERB – GET POWER STATE (VERB ID=F05H)............................................................................................................44
TABLE 48. VERB – SET POWER STATE (VERB ID=705H).............................................................................................................45
TABLE 49. VERB – GET CONVERTER STREAM, CHANNEL (VERB ID=F06H) ...............................................................................45
TABLE 50. VERB – SET CONVERTER STREAM, CHANNEL (VERB ID=706H)................................................................................46
TABLE 51. VERB – GET PIN WIDGET CONTROL (VERB ID=F07H) ..............................................................................................46
TABLE 52. VERB – SET PIN WIDGET CONTROL (VERB ID=707H) ...............................................................................................47
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TABLE 53. VERB – GET UNSOLICITED RESPONSE CONTROL (VERB ID=F08H) ...........................................................................47
TABLE 54. VERB – SET UNSOLICITED RESPONSE CONTROL (VERB ID=708H) ............................................................................48
TABLE 55. VERB – GET PIN SENSE (VERB ID=F09H)..................................................................................................................48
TABLE 56. VERB – EXECUTE PIN SENSE (VERB ID=709H)..........................................................................................................49
TABLE 57. VERB – GET CONFIGURATION DEFAULT (VERB ID=F1CH) .......................................................................................49
TABLE 58. VERB – SET CONFIGURATION DEFAULT BYTES 0, 1, 2, 3 (VERB ID=71CH/71DH/71EH/71FH FOR BYTES 0, 1, 2, 3)50
TABLE 59. VERB – GET BEEP GENERATOR (VERB ID=F0AH) ...................................................................................................50
TABLE 60. VERB – SET BEEP GENERATOR (VERB ID=70AH)....................................................................................................51
TABLE 61. VERB – GET GPIO DATA (VERB ID=F15H)...............................................................................................................51
TABLE 62. VERB – SET GPIO DATA (VERB ID=715H)................................................................................................................52
TABLE 63. VERB – GET GPIO ENABLE MASK (VERB ID=F16H).................................................................................................52
TABLE 64. VERB – SET GPIO ENABLE MASK (VERB ID=716H) .................................................................................................53
TABLE 65. VERB – GET GPIO DIRECTION (VERB ID=F17H).......................................................................................................53
TABLE 66. VERB – SET GPIO DIRECTION (VERB ID=717H) .......................................................................................................54
TABLE 67. VERB – GET GPIO UNSOLICITED RESPONSE ENABLE MASK (VERB ID=F19H).........................................................54
TABLE 68. VERB – SET GPIO UNSOLICITED RESPONSE ENABLE MASK (VERB ID=719H)..........................................................55
TABLE 69. VERB – FUNCTION RESET (VERB ID=7FFH) ..............................................................................................................55
TABLE 70. VERB – GET DIGITAL CONVERTER CONTROL 1 & CONTROL 2 (VERB ID=F0DH, F0EH)...........................................56
TABLE 71. VERB – SET DIGITAL CONVERTER CONTROL 1 & CONTROL 2 (VERB ID=70DH, 70EH)............................................57
TABLE 72. GET/SET VOLUME KNOB WIDGET (VERB ID=F0FH/70FH) .......................................................................................58
TABLE 73. GET/SET SUBSYSTEM ID [31:0] (VERB ID=F20H / 723H~720H TO SET BIT[31:0])....................................................58
TABLE 74. ABSOLUTE MAXIMUM RATINGS ................................................................................................................................59
TABLE 75. THRESHOLD VOLTAGE...............................................................................................................................................59
TABLE 76. DIGITAL FILTER CHARACTERISTICS...........................................................................................................................60
TABLE 77. S/PDIF INPUT/OUTPUT CHARACTERISTICS................................................................................................................60
TABLE 78. LINK RESET AND INITIALIZATION TIMING..................................................................................................................61
TABLE 79. LINK TIMING PARAMETERS AT THE CODEC ...............................................................................................................62
TABLE 80. S/PDIF OUTPUT TIMING ............................................................................................................................................63
TABLE 81. ANALOG PERFORMANCE............................................................................................................................................64
TABLE 82. ORDERING INFORMATION ..........................................................................................................................................72
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Datasheet
List of Figures
FIGURE 1. BLOCK DIAGRAM ........................................................................................................................................................5
FIGURE 2. ANALOG INPUT/OUTPUT UNIT.....................................................................................................................................5
FIGURE 3. PIN ASSIGNMENTS ALC268/ALC268-VB (LQFP-48)................................................................................................6
FIGURE 4. PIN ASSIGNMENTS ALC268Q (QFN-48).....................................................................................................................7
FIGURE 5. HDA LINK PROTOCOL...............................................................................................................................................11
FIGURE 6. BIT TIMING................................................................................................................................................................12
FIGURE 7. SIGNALING TOPOLOGY ..............................................................................................................................................13
FIGURE 8. SDO OUTBOUND FRAME...........................................................................................................................................14
FIGURE 9. SDO STREAM TAG IS INDICATED IN SYNC...............................................................................................................14
FIGURE 10. STRIPED STREAM ON MULTIPLE SDOS.....................................................................................................................15
FIGURE 11. SDI INBOUND STREAM .............................................................................................................................................16
FIGURE 12. SDI STREAM TAG AND DATA ...................................................................................................................................16
FIGURE 13. CODEC TRANSMITS DATA OVER MULTIPLE SDIS ....................................................................................................17
FIGURE 14. LINK RESET TIMING..................................................................................................................................................21
FIGURE 15. CODEC INITIALIZATION SEQUENCE...........................................................................................................................22
FIGURE 16. LINK RESET AND INITIALIZATION TIMING ................................................................................................................61
FIGURE 17. LINK SIGNALS TIMING ..............................................................................................................................................62
FIGURE 18. OUTPUT TIMING........................................................................................................................................................63
FIGURE 19. FILTER CONNECTION ................................................................................................................................................65
FIGURE 20. POWER AND REAR PANEL JACK CONNECTION ..........................................................................................................66
FIGURE 21. FRONT PANEL HEADER AND FRONT PANEL I/O CABLE ............................................................................................67
FIGURE 22. S/PDIF-OUT CONNECTION ......................................................................................................................................68
FIGURE 23. DIGITAL MICROPHONE IMPLEMENTATION-1.............................................................................................................69
FIGURE 24. DIGITAL MICROPHONE IMPLEMENTATION-2.............................................................................................................69
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Datasheet
1. General Description
The ALC268 series (ALC268-VB1/ALC268/ALC268Q) 4-Channel ADC High Definition Audio Codecs
with UAA (Universal Audio Architecture). Featuring two stereo DACs and two stereo ADCs, the 4 DAC
channels support stereo sound playback on the rear panel and independent stereo sound output on the
front panel simultaneously (multiple streaming). The two stereo ADCs integrate two stereo and
independent analog sound inputs.
The ALC268-GR and ALC268Q-GR meet the current WLP3.10 (Windows® Logo Program)
requirements. The ALC268-VB1-GR is the B version of the ALC268 and meets future WLP
requirements that become effective from 01 June 2008, bringing PC sound quality closer to consumer
electronic devices.
The ALC268 series support up to 4 digital microphone channels (microphone array) with Acoustic Echo
Cancellation (AEC), Beam Forming (BF), and Noise Suppression (NS) technology simultaneously,
significantly improving sound quality for PC VoIP applications.
The S/PDIF output offers easy connection of PCs to high quality consumer electronic products such as
digital decoders and speakers.
The ALC268 series support host audio controller from the Intel ICH series and upcoming PCH chipset,
and also from any other HDA compatible audio controller. With EAX/Direct Sound 3D/I3DL2/A3D
compatibility, and excellent software utilities like environment sound emulation, multiple and
independent software equalizer bands, dynamic range control, optional Dolby® Digital Live, Dolby®
PCEE programs and SRS® TrueSurround HD, the ALC268 provides an excellent multimedia experience
for PC users.
Model Differences
The ALC268-VB1 is fully pin compatible and software backward compatible with the ALC268. Board
designs using the ALC268 can use the ALC268-VB1 directly without PCB (Printed Circuit Board) or
software changes.
Three main functions have been added in the ALC268-VB:
• Meets future Windows® Logo Program (WLP) requirements that become effective from 01 June 2008
• Integrates a DC cancellation filter to cancel DC offset from digital microphones (becoming common
in notebook and Ultra Mobile PCs)
• ADCs support 24-bit format recording
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ALC268 Series
Datasheet
2. Features
2.1. Hardware Features
Meets WLP (Windows Logo Program) 3.10 premium audio requirements
ALC268-VB1 meets future WLP requirements that become effective from 01 June 2008
95dB Signal-to-Noise Ratio DAC performance and 90dB Signal-to-Noise Ratio ADC performance
Two stereo DACs support independent 16/20/24-bit PCM format playback
Two stereo ADCs support independent 16/20-bit PCM format recording
Two stereo ADCs support independent 16/20/24-bit PCM format recording (ALC268-VB1)
All DACs supports 44.1/48/96/192kHz sample rate
All ADCs support 44.1/48/96kHz sample rate
16/20/24-bit S/PDIF-OUT supports 44.1/48/96/192kHz sample rate
Up to four channels of microphone input are supported for AEC/BF applications
Supports MONO line output with independent volume control
High-quality analog differential CD input
Supports external PCBEEP input and built-in digital BEEP generator
Software selectable 2.5V/3.75V/4.2V VREFOUT
Two jack detection pins, each designed to detect up to 4 jacks
1dB resolution of analog output volume control
Programmable 20dB and 40dB boost for analog microphone input
Supports hardware digital volume control for digital microphone input
Built-in headphone amplifiers for port-A and port-D
4 GPIOs (GPIO0/GPIO3 are digital GPIO shared with digital MIC interface, GPIO1/GPIO2 are
analog) for customized applications
EAPD (External Amplifier Power Down) is supported
2+2 Channel High Definition Audio Codec
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Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
Supports Anti-pop mode when analog power AVDD is on and digital power is off
Power support: 3.3V digital core power; 1.5V~3.3V digital IO power for HDA link; 3.3V~5.0V
analog power
The ALC268-VB integrates a DC cancellation filter to cancel DC offset from digital microphones
48-pin LQFP ‘Green’ package (ALC268, ALC268-VB)
48-pin QFN ‘Green’ package (ALC268Q only)
2.2. Software Features
Meets Microsoft Windows Logo Program requirements
EAX™ 1.0 & 2.0 compatible
Direct Sound 3D™ compatible
A3D™ compatible
I3DL2 compatible
HRTF 3D Positional Audio
Emulation of 26 sound environments to enhance gaming experience
Multi-band software equalizer and tools
Voice Cancellation and Key Shifting effect
Dynamic range control (expander, compressor and limiter) with adjustable parameters
Intuitive Configuration Panel (Realtek Audio Manager) to enhance user experience
Provides 10-foot GUI for Windows Media Center
Microphone Acoustic Echo Cancellation (AEC), Noise Suppression (NS), and Beam Forming (BF)
technology for voice application
Smart multiple streaming operation
HDMI audio driver for AMD platform
Dolby® PCEE program™ (optional software feature)
2+2 Channel High Definition Audio Codec
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Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
SRS® TrueSurround HD (optional software feature)
Fortemedia® SAM™ technology for voice processing (Beam Forming and Acoustic Echo
Cancellation) (optional software feature)
3. System Applications
Windows Vista premium desktop and notebook PCs
Ultra Mobile PCs
2+2 Channel High Definition Audio Codec
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Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
4. Block Diagram
Figure 1. Block Diagram
4.1. Analog Input/Output Unit
Pin widgets NID=14h, 15h, 18h and 1Ah are re-tasking IOs supporting input units. NID=14h and 15h
support an amplifier unit.
Left
A
R
EN_OBUF
EN_AMP
Right
R
Output_Signal_Left
Output_Signal_Right
Input_Signal_Left
EN_OBUF
EN_IBUF
Input_Signal_Right
Figure 2. Analog Input/Output Unit
2+2 Channel High Definition Audio Codec
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Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
5. Pin Assignments
5.1. ALC268/ALC268-VB (LQFP-48)
Figure 3. Pin Assignments ALC268/ALC268-VB (LQFP-48)
Note: The ALC268-VB and ALC268 are pin-to-pin compatible.
5.2. Green Package and Version Identification
Green package is indicated by a ‘G’ in the location marked ‘T’ in Figure 3. The version number is shown
in the location marked ‘VV’. For example, ‘VV=B1’ indicates silicon version ‘B’ and stepping
version ‘1’.
2+2 Channel High Definition Audio Codec
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Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
5.3. ALC268Q (QFN-48)
36 34 33
35
31
27
30 29 28 26 25
32
NC 37
AVDD2 38
LINE1-R(port-C)
24
23
22
21
20
19
18
17
16
15
14
13
LINE1-L(port-C)
MIC1-R(port-B)
MIC1-L(port-B)
CD-R
(port-A)HP-OUT-L 39
NC 40
(port-A)HP-OUT-R 41
AVSS2 42
CD-G
ALC268Q
NC
43
CD-L
NC 44
NC 45
MIC2-R(port-F)
MIC2-L(port-F)
NC
LLLLLLL TXXXVV
DMIC-CLK 46
EAPD 47
NC
Sense A
SPDIFO 48
1
3
6
10
7 8 9 11 12
2
5
4
Figure 4. Pin Assignments ALC268Q (QFN-48)
Note: The ALC268Q is NOT pin compatible with the ALC268/ALC268-VB1.
5.4. Green Package and Version Identification
Green package is indicated by a ‘G’ in the location marked ‘T’ in Figure 4. The version number is shown
in the location marked ‘VV’. For example, ‘VV=B1’ indicates silicon version ‘B’ and stepping
version ‘1’.
2+2 Channel High Definition Audio Codec
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Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
6. Pin Descriptions
6.1. Digital I/O Pins
Table 1. Digital I/O Pins
Name
Type ALC268/-VB1 ALC268Q Description
Characteristic Definition
(LQFP-48)
(QFN-48)
Pin No.
Pin No.
RESET#
SYNC
I
I
11
10
6
11
10
6
H/W Reset Control
Vt=0.5*DVDD
Vt=0.5*DVDD
Vt=0.5*DVDD
Vt=0.5*DVDD
Sample Sync (48kHz)
24MHz Bit Clock Input
Serial TDM Data Input
BCLK
I
SDATA-OUT
SDATA-IN
EAPD
I
5
5
O
O
8
8
Serial TDM Data Output VOH=0.9*DVDD, VOL=0.1*DVDD
47
47
S/PDIF Input /
Output VOH=DVDD, VOL=DVSS
Signal to Power Down
Ext. Amp
SPDIFO
O
48
2
48
2
S/PDIF Output
Output has 12mA@75Ω driving
capability.
GPIO0/
DMIC-12
IO
General Purpose
Input/Output 0
Data input from digital
MIC 1&2
Input Vt=(2/3)*DVDD, output
VOH=DVDD, VOL=DVSS, internal
pulled up by 50KΩ
GPIO3/
DMIC-34
IO
3
4
General Purpose
Input/Output 3
Data input from digital
MIC 3&4
Input Vt=(2/3)*DVDD, output
V
OH=DVDD, VOL=DVSS, internal
pulled up by 50KΩ
DMIC-CLK
Total
O
-
46
46
Clock Output for Digital Default 2.048MHz clock output
MIC
10 pins
10 pins
-
-
2+2 Channel High Definition Audio Codec
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Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
6.2. Analog I/O Pins
Table 2. Analog I/O Pins
Name
Type ALC268/-VB1 ALC268Q Description
Characteristic Definition
(LQFP-48)
Pin No.
16
(QFN-48)
Pin No.
16
MIC2-L
MIC2-R
CD-L
IO
IO
I
2
nd Stereo Microphone Input Left Analog input/output,
Channel
default is input (PORT–F)
17
18
17
18
2
nd Stereo Microphone Input
Analog input/output,
Right Channel
default is input (PORT–F)
CD Input Left Channel
Analog input, 1.6Vrms of
full-scale input
CD-G
I
19
19
CD Input Reference Ground
CD Input Right Channel
Analog input, 1.6Vrms of
full-scale input
CD-R
I
20
20
Analog input, 1.6Vrms of
full-scale input
MIC1-L
MIC1-R
LINE1-L
LINE1-R
PCBEEP
IO
IO
IO
IO
I
21
21
1st Stereo Microphone Input Left Analog input/output,
Channel
1st Stereo Microphone Input
Right Channel
1st Line Input Left Channel
1st Line Input Right Channel
External PCBEEP Input
default is input (PORT–B)
22
22
Analog input/output,
default is input (PORT–B)
23
23
Analog input/output,
default is input (PORT–C)
24
24
Analog input/output,
default is input (PORT–C)
12 pin
12 pin
Analog input, 1.6Vrms of
full-scale input
LINE-OUT-L
LINE-OUT-R
HP-OUT-L
IO
IO
IO
IO
O
35
36
39
41
37
35
36
39
41
32
Line Output Left Channel
Line Output Right Channel
Headphone Out Left Channel
Headphone Out Right Channel
MONO Output
Analog output (PORT–D)
Analog output (PORT–D)
Analog output (PORT–A)
Analog output (PORT–A)
HP-OUT-R
MONO-OUT
Analog mono output is
summation of (L+R)/2
Sense A
Sense B
GPIO1
I
I
13
34
31
13
34
31
Jack Detect Pin L
Resistor {5.1K, 10K, 20K,
39.2K} w/ 1% accuracy
Jack Detect Pin 2
Resistor {5.1K, 10K, 20K,
39.2K} w/ 1% accuracy
IO
General Purpose Input/Output 1
Input Vt=(2/3)*AVDD,
output VOH=AVDD,
VOL=AVSS, internal
pulled up by 50KΩ
GPIO2
Total
IO
-
-
30
General Purpose Input/Output 2
Input Vt=(2/3)*AVDD,
output VOH=AVDD,
VOL=AVSS, internal
pulled up by 50KΩ
18 pins
19 pins
-
-
2+2 Channel High Definition Audio Codec
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Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
6.3. Filter/Reference/Not Connected
Table 3. Filter/Reference
Name
Type ALC268/-VB1 ALC268Q Description
Characteristic Definition
(LQFP-48)
(QFN-48)
Pin No.
27
Pin No.
VREF
-
27
28
29
-
2.5V Reference Voltage
1µF capacitor to analog ground
MIC1-VREFO-L
LINE1-VREFO
MIC2-VREFO
O
O
O
O
28
Bias Voltage for MIC1 Jack 2.5V/3.2/4.2Vreference voltage
Bias Voltage for LINE1 Jack 2.5V/3.2/4.2Vreference voltage
Bias Voltage for MIC2 Jack 2.5V/3.2/4.2Vreference voltage
Bias Voltage for MIC1 Jack 2.5V/3.2/4.2Vreference voltage
29
30
MIC1-VREFO-
R
32
-
JDREF
-
40
33
Ref. Resistor for Jack Detect 20K, 1% resistor to analog
ground
NC
NC
NC
NC
NC
NC
NC
Total
-
-
-
-
-
-
-
-
14
15
14
15
Not Connected
Not Connected
Not Connected
Not Connected
Not Connected
Not Connected
Not Connected
-
-
-
-
-
-
-
-
-
33
37
43
43
44
44
45
45
-
40
12 pins
11 pins
6.4. Power/Ground
Table 4. Power/Ground
Name
Type ALC268/-VB1 ALC268Q Description
Characteristic Definition
(LQFP-48)
Pin No
25
(QFN-48)
Pin No.
25
AVDD1
I
Analog VDD
(5V or 3.3V)
Analog power for mixer and amplifier
AVSS1
I
I
26
38
26
38
Analog GND
Analog ground for mixer and amplifier
Analog power for DACs and ADCs
AVDD2
Analog VDD
(5V or 3.3V)
AVSS2
DVDD
I
I
I
I
42
1
42
1
Analog GND
Analog ground for DACs and ADCs
Digital VDD (3.3V) Digital power
DVSS
4
-
Digital GND
Digital ground
DVDD-IO
9
3
Digital VDD
(1.5V~3.3V)
Scalable digital power for HDA link
DVSS
DVDD
Total
I
I
-
7
-
7
9
Digital GND
Digital ground
Digital VDD (3.3V) Digital power
8 pins
8 pins
-
-
2+2 Channel High Definition Audio Codec
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Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
7. High Definition Audio Link Protocol
7.1. Link Signals
The High Definition Audio (HDA) Link is the digital serial interface that connects the HDA codecs to the
HDA Controller. The HDA link protocol is controller synchronous, based on a 24.0MHz BIT-CLK sent
by the HDA controller. The input and output streams, including command and PCM data, are isochronous
with a 48kHz frame rate. Figure 5 shows the basic concept of the HDA link protocol.
Figure 5. HDA Link Protocol
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ALC268 Series
Datasheet
7.1.1.
Signal Definitions
Table 5. Link Signal Definitions
Item
Description
BCLK
SYNC
24.0MHz of bit clock sourced from the HDA controller and connecting to all codecs.
48kHz of signal is used to synchronize input and output streams on the link. It is sourced from the HDA
controller and connects to all codecs.
SDO
Serial data output signal driven by the HDA controller to all codecs. Commands and data streams are
carried on SDO. The data rate is double-pumped; the controller drives data onto the SDO, the codec
samples data present on SDO with respect to each edge of BCLK. The HDA controller must support at
least one SDO. To extend outbound bandwidth, multiple SDOs may be supported.
SDI
Serial data input signal driven by the codec. It is point-to-point serial data from the codec to the HDA
controller. The controller must support at least one SDI, and up to a maximum of 15 SDI’s can be
supported. SDI is driven by the codec at each rising edge of BCLK, and sampled by the controller at each
rising edge of BCLK. SDI can be driven by the controller to initialize the codec’s ID.
RST#
Active low reset signal. Asserted to reset the codec to default power on state. RST# is sourced from the
HDA controller and connects to all codecs.
Table 6. HDA Signal Definitions
Signal Name
BCLK
SYNC
SDO
Source
Controller
Type for Controller Description
Output
Output
Global 24.0MHz Bit Clock.
Controller
Global 48kHz Frame Sync and Outbound Tag Signal.
Serial Data Output from Controller.
Serial Data Input from Codec.
Controller
Output
SDI
Codec/Controller
Input/Output
Weakly pulled down by the controller.
Global Active Low Reset Signal.
RST#
Controller
Output
BCLK
SYNC
8-Bit Frame SYNC
Start of Frame
7
6
5
4
3
2
1
0 999 998 997 996995 994 993 992 991 990
SDO
SDI
3
2
1
0
499
498
497
496
495
494
Codec samples SDO at both rising and falling edge of BCLK
Controller samples SDI at rising edge of BCLK
Figure 6. Bit Timing
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ALC268 Series
Datasheet
7.1.2.
Signaling Topology
The HDA controller supports two SDOs for the outbound stream, up to 15 SDIs for the inbound stream.
RST#, BCLK, SYNC, SDO0 and SDO1 are driven by controller to codecs. Each codec drives its own
point-to-point SDI signal(s) to the controller.
Figure 7 shows the possible connections between the HDA controller and codecs:
• Codec 0 is a basic connection. There is one single SDO and one single SDI for normal transmission
• Codec 1 has two SDOs for doubled outbound rate, a single SDI for normal inbound rate
• Codec 3 supports a single SDO for normal outbound rate, and two SDIs for doubled inbound rate
• Codec N has two SDOs and multiple SDIs
The multiple SDOs and multiple SDIs are used to expand the transmission rate between controller and
codecs. Section 7.2 Frame Composition, page 14 describes the detailed outbound and inbound stream
compositions for single and multiple SDOs/SDIs.
The connections shown in Figure 7 can be implemented concurrently in an HDA system. The ALC268
series are designed to receive a single SDO stream.
SDI14
.
.
.
.
.
.
SDI13
SDI2
HDA
Controller
SDI1
SDI0
SDO1
SDO0
SYNC
BCLK
RST#
. . .
Codec 0
Codec 1
Codec 2
Codec N
Single SDO
Single SDI
Two SDOs
Single SDI
Single SDO
Two SDIs
Two SDOs
Multiple SDIs
Figure 7. Signaling Topology
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ALC268 Series
Datasheet
7.2. Frame Composition
7.2.1.
Outbound Frame – Single SDO
An outbound frame is composed of one 32-Bit command stream and multiple data streams. There are one
or multiple sample blocks in a data stream. Only one sample block exists in a stream if the HDA
controller delivers a 48kHz rate of samples to the codec. Multiple sample blocks in a stream means the
sample rate is a multiple of 48kHz. This means there should be 2 blocks in the same stream to carry
96kHz samples (Figure 8).
For outbound frames, the stream tag is not in SDO, but in the SYNC signal. A new data stream is started
at the end of the stream tag. The stream tag includes a 4-Bit preamble and 4-Bit stream ID (Figure 9).
To keep the cadence of converters bound to the same stream, samples for these converters must be placed
in the same block.
A 48kHz Frame is composed of Command stream and multiple Data streams
Previous Frame
Next Frame
Frame SYNC
Stream 'A' Tag
(Here 'A' = 5)
Stream 'X' Tag
(Here 'X' = 6)
SYNC
SDO
Command Stream
0s
Stream 'A' Data
Stream 'X' Data
Padded at the
end of Frame
Null Field
One or multiple blocks in a stream
Sample Block(s)
For 48kHz rate, only Block1 is included
For 96kHz rate, Block1 includes (N)th time of samples, Block2
includes (N+1)th time of samples
..
.
Block 1
Block 2
Block Y
..
.
Sample 1 Sample 2
Sample Z
Z channels of PCM Sample
...
msb first in a sample
msb
lsb
Figure 8. SDO Outbound Frame
BCLK
SYNC
Stream Tag
msb lsb
1 0 1 0
Stream=10
(4-Bit)
Preamble
(4-Bit)
Data of Stream 10
7 6 5 4 3 2 1 0
Previous Stream
SDO
Figure 9. SDO Stream Tag is Indicated in SYNC
2+2 Channel High Definition Audio Codec 14 Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
7.2.2.
Outbound Frame – Multiple SDOs
The HDA controller allows two SDO signals to be used to stripe outbound data, completing transmission
in less time to get more bandwidth. If software determines the target codec supports multiple SDO
capability, it enables the ‘Stripe Control’ bit in the controller’s Output Stream Control Register to initiate
a specific stream (Stream ‘A’ in Figure 10) to be transmitted on multiple SDOs. In this case, the MSB of
stream data is always carried on SDO0, the second bit on SDO1 and so forth.
SDO1 is for transmitting a striped stream. The codec does not support multiple SDOs connected to
SDO0.
To guarantee all codecs can determine their corresponding stream, the command stream is not striped. It
is always transmitted on SDO0, and copied on SDO1.
Figure 10. Striped Stream on Multiple SDOs
2+2 Channel High Definition Audio Codec
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ALC268 Series
Datasheet
7.2.3.
Inbound Frame – Single SDI
An Inbound Frame – A single SDI is composed of one 36-bit response stream and multiple data streams.
Except for the initialization sequence (turnaround and address frame), SDI is driven by the codec at each
rising edge of BCLK. The controller also samples data at the rising edge of BCLK (Figure 11).
The SDI stream tag is not carried by SYNC, but included in the SDI. A complete SDI data stream
includes one 4-bit stream tag, one 6-bit data length, and n-bit sample blocks. Zeros will be padded if the
total length of the contiguous sample blocks within a given stream is not of integral byte
length (Figure 12).
A 48kHz Frame is Composed of a Response Stream and Multiple Data streams
Previous Frame
Frame SYNC
Next Frame
SYNC
SDI
0s
Stream 'X'
Response Stream
Stream 'A'
Null Field
Padded at the end of Frame
Stream Tag
Sample Block(s)
For 48kHz rate, only Block1 is included
For 96kHz rate, Block{1, 2} includes {(N)th (N+1)th} time of samples
...
Block Y Null Pad
Block 1
Block 2
Sample 1 Sample 2
msb ...
...
Sample Z Z channels of PCM Sample
lsb msb first in a sample
Figure 11. SDI Inbound Stream
BCLK
SDI
n-Bit Sample Block
Null Pad
Next Stream
Stream Tag
Data Length in Bytes
B5 B4 B3 B2 B1
B8
Dn-1 Dn-2
0
0
B9
B7 B6
B0
D0
0
0
(Data Length in Bytes *8)-Bit
A Complete Stream
Figure 12. SDI Stream Tag and Data
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ALC268 Series
Datasheet
7.2.4.
Inbound Frame – Multiple SDIs
A codec can deliver data to the controller on multiple SDIs to achieve higher bandwidth. If an inbound
stream exceeds the data transfer limits of a single SDI, the codec can divide the data onto separate SDI
signals, each of which operate independently, with different stream numbers at the same frame time. This
is similar to having multiple codecs connected to the controller. The controller samples the divided stream
into separate memory with multiple DMA descriptors, then software re-combines the divided data into a
meaningful stream.
SYNC
Frame SYNC
Stream 'A'
SDI
Tag A
Data A
Response Stream
Stream 'X'
0s
Stream 'Y'
0s
0
Stream 'B'
Data B
SDI
Tag B
Response Stream
1
Stream A, B, X, and Y are independent and have separate IDs
Codec drives SDI0 and SDI1
Figure 13. Codec Transmits Data Over Multiple SDIs
7.2.5.
Variable Sample Rates
The HDA link is designed for sample rates of 48kHz. Variable rates of sample are delivered in multiple
or sub-multiple rates of 48kHz. Two sample blocks per frame result in a 96kHz delivery rate, one sample
block over two frames results in a 24kHz delivery rate. The HDA specification states that the sample rate
of the outbound stream be synchronized by the controller, not by the codec. Each stream has its own
sample rate, independent of any other stream.
The HDA controller supports 48kHz and 44.1kHz base rates. Table 7, page 18, shows the recommended
sample rates based on multiples or sub-multiples of one of the two base rates.
Rates in sub-multiples (1/n) of 48kHz are interleaving n frames containing no sample blocks. Rates in
multiples (n) of 48kHz contain n sample blocks in a frame. Table 8, page 18, shows the delivery cadence
of variable rates based on 48kHz.
The HDA link is defined to operate at a fixed 48kHz frame rate. To deliver samples in (sub) multiple
rates of 44.1kHz, an appropriate ratio between 44.1kHz and 48kHz must be maintained to avoid
frequency drift. The appropriate ratio between 44.1kHz and 48kHz is 147/160. Meaning 147 sample
blocks are transmitted every 160 frames.
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Datasheet
The cadence ‘12-11-11-12-11-11-12-11-11-12-11-11-11- (repeat)’ interleaves 13 frames containing no
sample blocks in every 160 frames. It provides a low long-term frequency drift for 44.1kHz of delivery
rate. Rates in sub-multiples (1/n) of 44.1kHz also follow this cadence and interleave n empty frames.
Rates in multiples (n) of 44.1kHz applying this cadence contain n sample blocks in the non-empty frame
and interleave an empty frame between non-empty frames (Table 9, page 19).
Table 7. Defined Sample Rate and Transmission Rate
(Sub) Multiple 48kHz Base
44.1kHz Base
1/6
1/4
1/3
1/2
2/3
1
8kHz (1 sample block every 6 frames)
-
12kHz (1 sample block every 4 frames)
16kHz (1 sample block every 3 frames)
-
11.025kHz (1 sample block every 4 frames)
-
22.05kHz (1 sample block every 2 frames)
-
32kHz (2 sample blocks every 3 frames)
48kHz (1 sample block per frame)
96kHz (2 sample blocks per frame)
192kHz (4 sample blocks per frame)
44.1kHz (1 sample block per frame)
88.2kHz (2 sample blocks per frame)
176.4kHz (4 sample blocks per frame)
2
4
Table 8. 48kHz Variable Rate of Delivery Timing
Rate
8kHz
Delivery Cadence
YNNNNN (repeat)
YNNN (repeat)
YNN (repeat)
Y2NN (repeat)
Y (repeat)
Description
One sample block is transmitted in every 6 frames
One sample block is transmitted in every 4 frames
One sample block is transmitted in every 3 frames
One sample block is transmitted in every 6 frames
One sample block is transmitted in every 6 frames
Two sample blocks are transmitted in each frame
Four sample blocks are transmitted in each frame
12kHz
16kHz
32kHz
48kHz
96kHz
192kHz
Y2 (repeat)
Y4 (repeat)
N: No sample block in a frame
Y: One sample block in a frame
Yx: X sample blocks in a frame
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ALC268 Series
Datasheet
Table 9. 44.1kHz Variable Rate of Delivery Timing
Delivery Cadence
Rate
11.025kHz {12}{-}{11}{-}{11}{-}{12}{-}{11}{-}{11}{-}{12}{-}{11}{-}{11}{-}{12}{-}{11}{-}{11}{-}{11}{-}
(repeat)
22.05kHz {12}{-}{11}{-}{11}{-}{12}{-}{11}{-}{11}{-}{12}{-}{11}{-}{11}{-}{12}{-}{11}{-}{11}{-}{11}{-}
(repeat)
44.1kHz
88.2kHz
12-11-11-12-11-11-12-11-11-12-11-11-11- (repeat)
122-112-112-122-112-112-122-112-112-122-112-112-112- (repeat)
174.4kHz 124-114-114-124-114-114-124-114-114-124-114-114-114- (repeat)
11.025kHz: {12}=YNNNYNNNYNNNYNNNYNNNYNNNYNNNYNNNYNNNYNNNYNNNYNNN
{11}=YNNNYNNNYNNNYNNNYNNNYNNNYNNNYNNNYNNNYNNNYNNN
{ - }=NNNN
22.050kHz: {12}=YNYNYNYNYNYNYNYNYNYNYNYN
{11}=YNYNYNYNYNYNYNYNYNYNYN
{ - }=NN
44.1kHz: 12- =Contiguous 12 frames containing 1 sample blocks each, followed by one frame with no
sample block.
88.2kHz: 122- =Contiguous 12 frames containing 2 sample blocks each, followed by one frame with no
sample block.
176.4kHz: 124- =Contiguous 12 frames containing 4 sample blocks each, followed by one frame with no
sample block.
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7.3. Reset and Initialization
There are two types of reset within an HDA link:
• Link Reset. Generated by assertion of the RST# signal, all codecs return to their power on state
• Codec Reset. Generated by software directing a command to reset a specific codec back to its default
state
An initialization sequence is requested after any of the following three events:
1. Link Reset
2. Codec Reset
3. Codec changes its power state (For example, hot docking a codec to an HDA system)
7.3.1.
Link Reset
A link reset may be caused by 3 events:
1. The HDA controller asserts RST# for any reason (power up, or PCI reset)
2. Software initiates a link reset via the ‘CRST’ bit in the Global Control Register (GCR) of the HDA
controller
3. Software initiates power management sequences. Figure 14, page 21, shows the ‘Link Reset’ timing
including the ‘Enter’ sequence (n~r) and ‘Exit’ sequence (s~v)
Enter ‘Link Reset’:
n Software writes a 0 to the ‘CRST’ bit in the Global Control Register of the HDA controller to initiate a
link reset
o As the controller completes the current frame, it does not signal the normal 8-Bit frame SYNC at the
end of the frame
p The controller drives SYNC and all SDOs to low. Codecs also drive SDIs to low
q The controller asserts the RST# signal to low, and enters the ‘Link Reset’ state
r All link signals driven by controller and codecs should be tri-state via internal pull-low resistors
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Exit from ‘Link Reset’:
s If BCLK is re-started for any reason (codec wake-up event, power management, etc.)
t Software is responsible for de-asserting RST# after a minimum of 100µsec BCLK running time (the
100µsec provides time for the codec PLL to stabilize)
u Minimum of 4 BCLK after RST# is de-asserted, the controller starts to signal normal frame SYNC
v When the codec drives its SDI to request an initialization sequence (when the SDI is driven high at the
last bit of frame SYNC, it means the codec requests an initialization sequence)
>=100 usec >= 4 BCLK
Initialization Sequence
Previous Frame
4 BCLK
4 BCLK
Link in Reset
BCLK
SYNC
SDOs
SDIs
Normal Frame
SYNC
Normal Frame
SYNC is absent
Driven Low
Pulled Low
2
8
Driven Low
Driven Low
Pulled Low
Pulled Low
Wake Event
9
RST#
Pulled Low
1
3
4
5
6
7
Figure 14. Link Reset Timing
7.3.2.
Codec Reset
A ‘Codec Reset’ is initiated via the Codec RESET command verb. It results in the target codec being
reset to the default state. After the target codec completes its reset operation, an initialization sequence is
requested.
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7.3.3.
Codec Initialization Sequence
n The codec drives SDI high at the last bit of SYNC to request a Codec Address (CAD) from the
controller.
o The codec will stop driving the SDI during this turnaround period.
pqrs The controller drives SDI to assign a CAD to the codec.
t The controller releases the SDI after the CAD has been assigned.
u Normal operation state.
Figure 15. Codec Initialization Sequence
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Datasheet
7.4. Verb and Response Format
7.4.1.
Command Verb Format
There are two types of verbs: one with 4-Bit identifiers (4-Bit verbs) and 16-Bits of data, the other with
12-Bit identifiers (12-Bit verbs) and 8-Bits of data. Table 10 shows the 4-Bit verb structure of a command
stream sent from the controller to operate the codec. Table 11 is the 12-Bit verb structure that gets and
controls parameters in the codec.
Table 10. 40-Bit Commands in 4-Bit Verb Format
Bit [39:32]
Bit [31:28]
Bit [27:20]
Bit [19:16]
Bit [15:0]
Reserved
Codec Address
Node ID
Verb ID
Payload
Table 11. 40-Bit Commands in 12-Bit Verb Format
Bit [39:32]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Bit [7:0]
Reserved
Codec Address
Node ID
Verb ID
Payload
7.4.2.
Response Format
There are two types of response from the codec to the controller. Solicited Responses are returned by the
codec in response to a current command verb. The codec will send Solicited Response data in the next
frame, without regard to the Set (Write) or Get (Read) command. The 32-bit Response is interpreted by
software, opaque to the controller.
Unsolicited Responses are sent by the codec independently of software requests. Jack Detection or GPI
status information can be actively delivered to the controller and interpreted by software. The ‘Tag’ in
Bit[31:28] is used to identify unsolicited events. This tag is undefined in the HDA specifications.
Table 12. Solicited Response Format
Bit [35]
Bit [34]
Bit [33:32]
Bit [31:0]
Valid
Unsol=0
Reserved
Response
Table 13. Unsolicited Response Format
Bit [35]
Valid
Bit [34]
Unsol=1
Bit [33:32]
Bit [31:28]
Tag
Bit [27:0]
Response
Reserved
Note: The response stream in the link protocol is 36-bits wide. The response is placed in the lower 32-bit
field. Bit-35 is a ‘Valid’ bit to indicate the response is ‘Ready’. Bit-34 is set to indicate that an unsolicited
response was sent.
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7.5. Power Management
The ALC268 does not support Wake-Up events when in low power mode. All power management state
changes in widgets are driven by software. Table 14 shows the System Power State Definitions.
In the ALC268, all the widgets include output/input converters support power control. Software may have
various power states depending on system configuration.
Table 15 indicates those nodes that support power management. To simplify power control, software can
configure whole codec power states through the audio function (NID=01h). Output converters (DACs)
and input converters (ADCs) have no individual power control to supply fine-grained power control.
Table 14. System Power State Definitions
Power States
Definitions
D0
D1
All power on. Individual DACs and ADCs can be powered up or down as required.
All amplifiers and converters (DACs and ADCs) are powered down. State maintained, analog
reference stays up.
D2
All amplifiers and converters (DACs and ADCs) are powered down. State maintained, but analog
reference off (D1 + analog reference off).
D3 (Hot)
Power still supplied. The codec stops the internal clock. State is maintained.
All power removed. State lost.
D3 (Cold)
Table 15. Power Controls in NID=01h
Description
Audio Function LINK Response
D0
D1
D2
Normal
PD
D3 (Hot/Cold) Link Reset
Normal
Normal
Normal
Normal
Normal
Normal
Normal
PD
PD
PD
PD
PD
PD
PD
PD
PD
(NID=01h)
DACs
ADCs
PD
PD
PD
All Headphone Drivers
All Mixers
Normal
Normal
Normal
PD
Normal
Normal
Normal
PD
All Reference
PD
Note: PD=Powered Down
Table 16. Powered Down Conditions
Condition
Description
LINK Response powered down
Internal clock is stopped. SDATA-IN and S/PDIF-OUT are floated with pulled low
47K resistors internally. Detection of ‘Link Reset Entry’ and ‘Link Reset Exit’
sequences are supported. All states are maintained if DVDD is supplied.
DAC powered down
ADC powered down
Analog block and digital filter are powered down.
Analog block and digital filter are powered down. The data on SDATA-IN is quiet.
Headphone Driver powered down All headphone drivers are powered down.
Mixers powered down
All internal mixer widgets are powered down. The DC reference and VREFOUTx at
individual pin complex are still alive.
Reference power down
All internal references, DC reference, and VREFOUTx at individual pin complexes
are off.
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8. Supported Verbs and Parameters
This chapter describes the Verbs and Parameters supported by various widgets in the ALC268. If a verb is
not supported by the addressed widget, it will respond with 32 bits of ‘0’.
8.1. Verb – Get Parameters (Verb ID=F00h)
The ‘Get Parameters’ verb is used to get system information and the function capabilities of the HDA
codec. All the parameters are read-only. Refer to section 7.4.1 Command Verb Format, page 23, to get
detailed information about supported parameters.
Table 17. Verb – Get Parameters (Verb ID=F00h)
Get Parameter Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
CAd=X
Node ID=00h Verb ID=F00h
Parameter ID[7:0]
32-bit Response
Note: If the parameter ID is not supported, the returned response is 32 bits of ‘0’.
8.1.1.
Parameter – Vendor ID (Verb ID=F00h, Parameter ID=00h)
Table 18. Parameter – Vendor ID (Verb ID=F00h, Parameter ID=00h)
Codec Response Format
Bit
Description
31:16
15:0
Vendor ID=10Ech (Realtek’s PCI vendor ID).
Device ID=0268h.
Note: The Root Node (NID=00h) supports this parameter.
8.1.2.
Parameter – Revision ID (Verb ID=F00h, Parameter ID=02h)
Table 19. Parameter – Revision ID (Verb ID=F00h, Parameter ID=02h)
Codec Response Format
Bit
Description
31:24
23:20
19:16
Reserved. Read as 0’s.
MajRev. The major version number (in decimal) of the HDA Spec to which the ALC268 is fully compliant.
MinRev. The minor version number (in decimal) of the HDA Spec to which the ALC268 is fully
compliant.
15:8
7:0
Revision ID. The vendor’s revision number.
00h is for the first silicon version A, 01h is for the second version B, etc.
Stepping ID. The vendor’s stepping number within the given Revision ID.
Note: The Root Node (NID=00h in the ALC268) supports this parameter.
For example the Revision ID=00h and Stepping ID=01h stand for the silicon is A1 version.
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8.1.3.
Parameter – Subordinate Node Count
(Verb ID=F00h, Parameter ID=04h)
For the root node, the Subordinate Node Count provides information about audio function group nodes
associated with the root node.
For function group nodes, it provides the total number of widgets associated with this function node.
Table 20. Parameter – Subordinate Node Count (Verb ID=F00h, Parameter ID=04h)
Codec Response Format
Bit
Description
31:24 Reserved. Read as 0’s.
23:16 Starting Node Number. The starting node number in the sequential widgets.
15:8 Reserved. Read as 0’s.
7:0
Total Number of Nodes. For a root node, the total number of function groups in the root node.
For a function group, the total number of widget nodes in the function group.
8.1.4.
Parameter – Function Group Type
(Verb ID=F00h, Parameter ID=05h)
Table 21. Parameter – Function Group Type (Verb ID=F00h, Parameter ID=05h)
Codec Response Format
Bit
Description
31:9 Reserved. Read as 0’s.
8
UnSol Capable.
0: Unsolicited response is not supported by this function group
1: Unsolicited response is supported by this function group
7:0
Function Group Type.
00h: Reserved
01h: Audio Function
02h: Modem Function
03h~7Fh: Reserved
80h~FFh: Vendor Defined Function.
Note: The Audio Function Group (NID=01h) supports this parameter.
8.1.5.
Parameter – Audio Function Capabilities
(Verb ID=F00h, Parameter ID=08h)
Table 22. Parameter – Audio Function Capabilities (Verb ID=F00h, Parameter ID=08h)
Codec Response Format
Bit Description
31:17 Reserved. Read as 0’s.
16
Beep Generator. A ‘1’ indicates the presence of an integrated Beep generator within the Audio Function Group.
15:12 Reserved. Read as 0’s.
11:8 Input Delay.
7:4
3:0
Reserved. Read as 0’s.
Output Delay.
Note: The Audio Function Group (NID=01h) supports this parameter.
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8.1.6.
Parameter – Audio Widget Capabilities
(Verb ID=F00h, Parameter ID=09h)
Table 23. Parameter – Audio Widget Capabilities (Verb ID=F00h, Parameter ID=09h)
Codec Response Format
Bit
Description
31:24
23:20
Reserved. Read as 0’s.
Widget Type.
0h: Audio Output
3h: Selector
6h: Volume Knob Widget
1h: Audio Input
4h: Pin Complex
7h~Eh: Reserved
2h: Mixer
5h: Power Widget
Fh: Vendor defined audio widget
19:16
15:11
10
Delay. Samples delayed between the HDA link and widgets.
Reserved. Read as 0’s.
Power Control.
0: Power state control is not supported on this widget
1: Power state is supported on this widget
9
8
7
6
Digital.
0: An analog input or output converter
1: A widget translating digital data between the HDA link and digital I/O (S/PDIF, I2S, etc.)
ConnList. Connection List.
0: Connected to HDA link. No Connection List Entry should be queried
1: Connection List Entry must be queried
UnsolCap. Unsolicited Capable.
0: Unsolicited response is not supported
1: Unsolicited response is supported
ProcWidget. Processing Widget.
0: No processing control
1: Processing control is supported
5
4
3
2
1
0
Reserved. Read as 0.
Format Override.
AmpParOvr, AMP Param Override.
OutAmpPre, Out AMP Present.
InAmpPre, In AMP Present.
Stereo.
0: Mono Widget
1: Stereo Widget
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8.1.7.
Parameter – Supported PCM Size, Rates
(Verb ID=F00h, Parameter ID=0Ah)
Parameters in audio function provides default information about formats. Individual converters have their
own parameters to provide supported formats if their ‘Format Override’ bit is set.
Table 24. Parameter – Supported PCM Size, Rates (Verb ID=F00h, Parameter ID=0Ah)
Codec Response Format
Bit
31:21
20
Description
Reserved. Read as 0’s.
B32: Indicates whether 32-bit audio format is supported.
0: Not supported
B24: Indicates whether 24-bit audio format is supported.
0: Not supported 1: Supported
B20: Indicates whether 20-bit audio format is supported.
0: Not supported 1: Supported
B16: Indicates whether 16-bit audio format is supported.
0: Not supported 1: Supported
B8: Indicates whether 8-bit audio format is supported.
1: Supported
19
18
17
16
0: Not supported
1: Supported
15:12
11
Reserved. Read as 0’s.
R12: Indicates whether 384kHz (=8*48kHz) rate is supported.
0: Not supported 1: Supported
R11: Indicates whether 192kHz (=4*48kHz) rate is supported.
0: Not supported 1: Supported
R10: Indicates whether 176.4kHz (=4*44.1kHz) rate is supported.
0: Not supported 1: Supported
R9: Indicates whether 96kHz (=2*48kHz) rate is supported.
0: Not supported 1: Supported
R8: Indicates whether 88.2kHz (=2*44.1kHz) rate is supported.
0: Not supported 1: Supported
R7: Indicates whether 48kHz rate is supported.
10
9
8
7
6
5
4
3
2
1
0
0: Not supported
1: Supported
R6: Indicates whether 44.1kHz rate is supported.
0: Not supported
R5: Indicates whether 32kHz (=2/3*48kHz) rate is supported.
0: Not supported 1: Supported
R4: Indicates whether 22.05kHz (=1/2*44.1kHz) rate is supported.
0: Not supported 1: Supported
R3: Indicates whether 16kHz (=1/3*48kHz) rate is supported.
0: Not supported 1: Supported
R2: Indicates whether 11.025kHz (=1/4*44.1kHz) rate is supported.
0: Not supported 1: Supported
R1: Indicates whether 8kHz (=1/6*48kHz) rate is supported.
1: Supported
0: Not supported
1: Supported
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8.1.8.
Parameter – Supported Stream Formats
(Verb ID=F00h, Parameter ID=0Bh)
Parameters in this node only provide default information for audio function groups. Individual converters
have their own parameters to provide supported formats if the ‘Format Override’ bit is set.
Table 25. Parameter – Supported Stream Formats (Verb ID=F00h, Parameter ID=0Bh)
Codec Response Format
Bit
31:3
2
Description
Reserved. Read as 0’s.
AC3.
0: Not supported
Float32.
0: Not supported
PCM.
1: Supported
1: Supported
1: Supported
1
0
0: Not supported
Note: Input converters and output converters support this parameter.
8.1.9.
Parameter – Pin Capabilities (Verb ID=F00h, Parameter ID=0Ch
The Pin Capabilities parameter returns a bit field describing the capabilities of the Pin Complex widget.
Table 26. Parameter – Pin Capabilities (Verb ID=F00h, Parameter ID=0Ch)
Codec Response Format
Bit
31:16
15:8
Description
Reserved. Read as 0’s.
VREF Control Capability.
‘1’ in corresponding bit field indicates signal levels of associated Vrefout are specified as a percentage of
AVDD.
7:6
5
4
3
2
1
0
Reserved
100%
80%
Reserved
Ground
50%
Hi-Z
7
6
5
4
3
2
1
0
L-R Swap. Indicates the capability of swapping the left and rights.
Balanced I/O Pin. ‘1’ indicates this pin complex has balanced pins.
Input Capable. ‘1’ indicates this pin complex supports input.
Output Capable. ‘1’ indicates this pin complex supports output.
Headphone Drive Capable. ‘1’ indicates this pin complex has an amplifier to drive a headphone.
Presence Detect Capable. ‘1’ indicates this pin complex can detect whether there is anything plugged in.
Trigger Required. ‘1’ indicates whether a software trigger is required for an impedance measurement.
Impedance Sense Capable.
‘1’ indicates this pin complex can perform analog sense on the attached device to determine its type.
Note: Only Pin Complex widgets support this parameter.
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8.1.10. Parameter – Amplifier Capabilities
(Verb ID=F00h, Input Amplifier Parameter ID=0Dh)
Parameters in this node provide audio function group default information. Individual converters have
their own parameters to provide amplifier capabilities if the ‘AMP Param Override’ bit is set.
Table 27. Parameter – Amplifier Capabilities (Verb ID=F00h, Input Amplifier Parameter ID=0Dh)
Codec Response Format
Bit
31
Description
(Input) Mute Capable.
30:23
22:16
Reserved. Read as 0.
Step Size.
Indicates the size of each step in the gain range. Each step may be 0~32dB, specified in 0.25dB steps.
‘0’ indicates a step of 0.25dB. ‘127’ indicates a step of 32dB.
15
Reserved. Read as 0.
14:8
Number of Steps.
Indicates the number of steps in the gain range. ‘0’ means the gain is fixed.
7
Reserved. Read as 0.
Offset.
6:0
Indicates which step is 0dB.
8.1.11. Parameter – Amplifier Capabilities
(Verb ID=F00h, Output Amplifier Parameter ID=12h)
Parameters in this node provide audio function group default information. Individual converters have
their own parameters to provide amplifier capabilities if the ‘AMP Param Override’ bit is set.
Table 28. Parameter – Amplifier Capabilities (Verb ID=F00h, Output Amplifier Parameter ID=12h)
Codec Response Format
Bit
31
Description
(Output) Mute Capable.
30:23
22:16
Reserved. Read as 0.
Step Size.
Indicates the size of each step in the gain range. Each step may be 0~32dB, specified in 0.25dB steps.
‘0’ indicates a step of 0.25dB. ‘127’ indicates a step of 32dB.
15
Reserved. Read as 0.
14:8
Number of Steps.
Indicates the number of steps in the gain range. ‘0’ means the gain is fixed.
7
Reserved. Read as 0.
Offset.
6:0
Indicates which step is 0dB.
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8.1.12. Parameter – Connect List Length
(Verb ID=F00h, Parameter ID=0Eh)
Parameters in this node provide audio function widget connection information.
Table 29. Parameter – Connect List Length (Verb ID=F00h, Parameter ID=0Eh)
Codec Response Format
Bit
31:8
7
Description
Reserved. Read as 0.
Short Form.
0: Short Form
1: Long Form
6:0
Connect List Length.
Indicates the number of inputs connected to a widget. If the Connect List Length is 1, there is only one
input, and there is no Connection Select Control (Not a MUX widget).
8.1.13. Parameter – Supported Power States
(Verb ID=F00h, Parameter ID=0Fh)
Table 30. Parameter – Supported Power States (Verb ID=F00h, Parameter ID=0Fh)
Codec Response Format
Bit
31:4
3
Description
Reserved. Read as 0’s.
D3Sup.
1: Power state D3 is supported.
2
1
0
D2Sup.
1: Power state D2 is supported.
D1Sup.
1: Power state D1 is supported.
D0Sup.
1: Power state D0 is supported.
8.1.14. Parameter – Processing Capabilities
(Verb ID=F00h, Parameter ID=10h)
Table 31. Parameter – Processing Capabilities (Verb ID=F00h, Parameter ID=10h)
Codec Response Format
Bit
31:16
15:8
7:1
Description
Reserved. Read as 0’s.
NumCoeff. Number of Coefficient.
Reserved. Read as 0’s.
0
Benign.
0: Processing unit is not linear and time invariant
1: Processing unit is linear and time invariant
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8.1.15. Parameter – GPIO Capabilities
(Verb ID=F00h, Parameter ID=11h)
Table 32. Parameter – GPIO Capabilities (Verb ID=F00h, Parameter ID=11h)
Codec Response Format
Bit
Description
31
GPIWake=0.
The ALC268 does not support GPIO wake up function.
GPIUnsol=1.
30
The ALC268 supports GPIO unsolicited response.
Reserved. Read as 0’s.
NumGPIs=00h.
29:24
23:16
No GPI pin is supported.
NumGPOs=00h.
No GPO pin is supported.
NumGPIOs=04h.
15:8
7:0
Two GPIO pins are supported.
8.1.16. Parameter – Volume Knob Capabilities
(Verb ID=F00h, Parameter ID=13h)
Table 33. Parameter – Volume Knob Capabilities (Verb ID=F00h, Parameter ID=13h)
Codec Response Format for NID=21h (Volume Control Knob)
Bit
31:8
7
Description
Reserved. Read as 0’s.
Delta.
0: Software cannot modify the Volume Control Knob volume
1: Software can write a base volume to the Volume Control Knob
NumSteps.
6:0
The number of steps in the range of the Volume Control Knob.
Note: The ALC268 does not support volume control knob.
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8.2. Verb – Get Connection Select Control (Verb ID=F01h)
Table 34. Verb – Get Connection Select Control (Verb ID=F01h)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=F01h
0’s
Bit[7:0] are Connection Index
Codec Response for Multiplexer Widget NID=23h
Bit
31:8
7:0
Description
0’s.
Connection Index Currently Set (Default value is 00h).
00h: Pin Widget NID=18h (port-B)
01h: Pin Widget NID=19h (port-F)
02h: Pin Widget NID=1Ah (port-C)
04h: Pin Widget NID=14h (port-D)
06h: Pin Widget NID=12h (Digital MIC 1&2)
03h: Pin Widget NID=1Ch (Analog CD-IN)
05h: Pin Widget NID=15h (port-A)
Other: Reserved
Codec Response for Multiplexer Widget NID=24h
Bit
31:8
7:0
Description
0’s.
Connection Index Currently Set (Default value is 00h).
00h: Pin Widget NID=18h (port-B)
02h: Pin Widget NID=1Ah (port-C)
04h: Pin Widget NID=14h (port-D)
06h: Pin Widget NID=13h (Digital MIC 3&4)
01h: Pin Widget NID=19h (port-F)
03h: Pin Widget NID=1Ch (Analog CD-IN)
05h: Pin Widget NID=15h (port-A)
Other: Reserved
Codec Response for other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
8.3. Verb – Set Connection Select (Verb ID=701h)
Table 35. Verb – Set Connection Select (Verb ID=701h)
Set Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Node ID=Xh
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Verb ID=701h
Select Index [7:0]
0’s for all nodes
Note: Only MUX NID-23h and 24h support this verb.
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8.4. Verb – Get Connection List Entry (Verb ID=F02h)
Table 36. Verb – Get Connection List Entry (Verb ID=F02h)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=F02h
Offset Index – N[7:0]
32-bit Response
Codec Response for NID=07h ADC
Bit
Description
31:8
Connection List Entry (N+3), (N+2), and (N+1).
Returns 000000h.
7:0
Connection List Entry (N).
Returns 24h (Sum Widget) for N=0~3.
Returns 00h for N>3.
Codec Response for NID=08h ADC
Bit
Description
31:8
Connection List Entry (N+3), (N+2), and (N+1).
Returns 000000h.
7:0
Connection List Entry (N).
Returns 23h (Sum Widget) for N=0~3.
Returns 00h for N>3.
Codec Response for NID=0Eh)
Bit
Description
31:24
Connection List Entry (N).
Returns 00h.
23:16
15:8
7:0
Connection List Entry (N+2).
Returns 00h.
Connection List Entry (N+1).
Returns 03h (LOUT2 DAC) for N=0~3.
Returns 00h for N>3.
Returns 00h for N>3.
Connection List Entry (N).
Returns 02h (LOUT1 DAC) for N=0~3.
Codec Response for NID=0Fh)
Bit
Description
31:24
Connection List Entry (N).
Returns 00h.
23:16
15:8
7:0
Connection List Entry (N+2).
Returns 00h.
Connection List Entry (N+1).
Returns 1Dh (PCBEEP) for N=0~3.
Returns 00h for N>3.
Returns 00h for N>3.
Connection List Entry (N).
Returns 02h (LOUT1 DAC) for N=0~3.
2+2 Channel High Definition Audio Codec
34
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
Codec Response for NID=10h)
Bit
Description
31:24
Connection List Entry (N).
Returns 00h.
23:16
15:8
7:0
Connection List Entry (N+2).
Returns 00h.
Connection List Entry (N+1).
Returns 1Dh (PCBEEP) for N=0~3.
Returns 00h for N>3.
Connection List Entry (N).
Returns 03h (LOUT2 DAC) for N=0~3.
Returns 00h for N>3.
Returns 00h for N>3.
Returns 00h for N>3.
Codec Response for NID =18h (MIC1, port-B), 1Ah (LINE1, port-C)
Bit
Description
31:24
Connection List Entry (N+3).
Returns 00h.
23:16
15:8
7:0
Connection List Entry (N+2).
Returns 00h.
Connection List Entry (N+1).
Returns 00h.
Connection List Entry (N).
Returns 02h (LOUT1 DAC) for N=0~3.
Codec Response for NID =14h (LOUT, port-D)
Bit
Description
31:24
Connection List Entry (N+3).
Returns 00h.
23:16
15:8
7:0
Connection List Entry (N+2).
Returns 00h.
Connection List Entry (N+1).
Returns 00h.
Connection List Entry (N).
Returns 0Fh (Mixer) for N=0~3.
Codec Response for NID =15h (HPOUT, port-A)
Bit
Description
31:24
Connection List Entry (N+3).
Returns 00h.
23:16
15:8
7:0
Connection List Entry (N+2).
Returns 00h.
Connection List Entry (N+1).
Returns 00h.
Connection List Entry (N).
Returns 10h (Mixer) for N=0~3.
Returns 00h for N>3.
2+2 Channel High Definition Audio Codec
35
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
Codec Response for NID=16h (Pin Widget: MONO-OUT)
Bit
Description
31:8
Connection List Entry (N+3), (N+2), and (N+1).
Returns 000000h.
7:0
Connection List Entry (N).
Returns 0Eh for N=0~3.
Returns 00h for N>3.
Codec Response for NID=1Eh (Pin Widget: S/PDIF-OUT)
Bit
Description
31:8
Connection List Entry (N+3), (N+2), and (N+1).
Returns 000000h.
7:0
Connection List Entry (N).
Returns 06h (S/PDIF-OUT Converter) for N=0~3.
Returns 00h for N>3.
Codec Response for NID=23h (MUX Widget)
Bit
Description
31:24
Connection List Entry (N+3).
Returns 1Ch (Pin Complex – CD) for N=0~3.
Returns 00h for N>3.
Returns 00h for N>7.
Returns 00h for N>7.
Returns 00h for N>7.
23:16
15:8
7:0
Connection List Entry (N+2).
Returns 1Ah (Pin Complex – LINE1, port-C) for N=0~3.
Returns 12h (Pin Complex – Digital MIC 1&2) for N=4~7.
Connection List Entry (N+1).
Returns 19h (Pin Complex – MIC2, port-F) for N=0~3.
Returns 15h (Pin Complex – HPOUT, port-A) for N=4~7.
Connection List Entry (N).
Returns 18h (Pin Complex – MIC1, port-B) for N=0~3.
Returns 14h (Pin Complex – LOUT, port-D) for N=4~7.
Codec Response for NID=24h (MUX Widget)
Bit
Description
31:24
Connection List Entry (N+3).
Returns 1Ch (Pin Complex – CD) for N=0~3.
Returns 00h for N>3.
Returns 00h for N>7.
Returns 00h for N>7.
Returns 00h for N>7.
23:16
15:8
7:0
Connection List Entry (N+2).
Returns 1Ah (Pin Complex – LINE1, port-C) for N=0~3.
Returns 13h (Pin Complex – Digital MIC 3&4) for N=4~7.
Connection List Entry (N+1).
Returns 19h (Pin Complex – MIC2, port-F) for N=0~3.
Returns 15h (Pin Complex – HPOUT, port-A) for N=4~7.
Connection List Entry (N).
Returns 18h (Pin Complex – MIC1, port-B) for N=0~3.
Returns 14h (Pin Complex – LOUT, port-D) for N=4~7.
Codec Response for Other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
2+2 Channel High Definition Audio Codec
36
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.5. Verb – Get Processing State (Verb ID=F03h)
Table 37. Verb – Get Processing State (Verb ID=F03h)
Get Command Format
Codec Response Format
Response [31:0]
32-bit response
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh Verb ID=F03h
0’s
Codec Response for All NID
Bit
Description
31:0
Not Supported (returns 00000000h).
8.6. Verb – Set Processing State (Verb ID=703h)
Table 38. Verb – Set Processing State (Verb ID=703h)
Set Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh Verb ID=703h
Processing State [7:0]
0’s for all nodes
Codec Response for All NID
Bit
Description
31:0
0’s.
8.7. Verb – Get Coefficient Index (Verb ID=Dh)
Table 39. Verb – Get Coefficient Index (Verb ID=Dh)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Node ID=Xh
Bit [19:16]
Payload Bit [15:0]
Response [31:0]
Cad=X
Verb ID=Dh
0’s
Bit [15:0] are Coefficient Index
Codec Response for NID=20h (Realtek Vendor Registers)
Bit
31:16
15:0
Description
Reserved. Read as 0’s.
Coefficient Index.
Codec Response for Other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
2+2 Channel High Definition Audio Codec
37
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.8. Verb – Set Coefficient Index (Verb ID=5h)
Table 40. Verb – Set Coefficient Index (Verb ID=5h)
Set Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:16]
Payload Bit [15:0]
Response [31:0]
Cad=X
Node ID=Xh
Verb ID=5h
Coefficient Index [15:0]
0’s for all nodes
Codec Response for All NID
Bit
Description
31:0
0’s.
8.9. Verb – Get Processing Coefficient (Verb ID=Ch)
Table 41. Verb – Get Processing Coefficient (Verb ID=Ch)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Node ID=Xh
Bit [19:16]
Payload Bit [15:0]
Response [31:0]
Cad=X
Verb ID=Ch
0’s
Processing Coefficient [15:0]
Codec Response for NID=20h (Realtek Vendor Registers)
Bit
31:16
15:0
Description
Reserved. Read as 0’s.
Processing Coefficient.
Codec Response for Other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
8.10. Verb – Set Processing Coefficient (Verb ID=4h)
Table 42. Verb – Set Processing Coefficient (Verb ID=4h)
Set Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Node ID=Xh
Bit [19:16]
Payload Bit [15:0]
Response [31:0]
Cad=X
Verb ID=4h
Coefficient [15:0]
0’s for all nodes
Codec Response for All NID
Bit
Description
31:0
0’s.
2+2 Channel High Definition Audio Codec
38
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.11. Verb – Get Amplifier Gain (Verb ID=Bh)
This verb is used to get gain/attenuation settings from each widget.
Table 43. Verb – Get Amplifier Gain (Verb ID=Bh)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:16]
Payload Bit [15:0]
Response [31:0]
Cad=X
Node ID=Xh
Verb ID=Bh
‘Get’ payload [15:0]
Bit[7:0] are responsible for ‘Get’
‘Get’ Payload in Command Bit[15:0]
Bit
Description
15
Get Input/Output.
0: Input amplifier gain is requested
1: Output amplifier gain is requested
14
13
Reserved. Read as 0.
Get Left/Right.
0: Right amplifier gain is requested
1: Left amplifier gain is requested
12:4
3:0
Reserved. Read as 0’s.
Index[3:0] for Input Source.
Select amplifier for this converter. If a widget has no multiple input sources, the index will be ignored.
Codec Response for NID=02h (LOUT1 DAC) and 03h (LOUT2 DAC)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0 (No Output Amplifier Mute).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0 (No Output Amplifier Mute).
6:0
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0’s (No Input Amplifier Gain).
Payload[15] is 1 in ‘Get Amplifier Gain’: 6-bit control specifying the volume from–64dB~ 0dB in 1dB
step.
Node
Gain[6:0] (Default)
1000000b=40h (0dB)
1000000b=40h (0dB)
Gain Range
LOUT1 DAC(NID=02h)
LOUT2 DAC (NID=03h)
–64dB~0dB in 1dB step
–64dB~0dB in 1dB step
Codec Response for NID=0Eh (MONO Sum Widgets)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Input Amplifier Mute. 0: Unmute; 1: Mute
Node
Index[3:0]=0 (from LOUT1)
Default of Bit [7]
Index[3:0]=Other
MONO Sum (NID=0Eh)
0 (Unmute)
0
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0 (No Output Amplifier Mute).
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0’s (No Input Amplifier Gain).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 4 (No Output Amplifier Gain).
6:0
2+2 Channel High Definition Audio Codec
39
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
Codec Response for NID=0Fh (LINE-OUT Sum Widgets)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Input Amplifier Mute. 0: Unmute; 1: Mute
Node
Index[3:0]=0 (from LOUT1) Index[3:0]=1 (from BEEP)
Index[3:0]=Other
Default of Bit [7]
Default of Bit [7]
LINE-OUT Sum
0 (Unmute)
1 (Mute)
0
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0 (No Output Amplifier Mute).
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0’s (No Input Amplifier Gain).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0’s (No Output Amplifier Gain).
6:0
Codec Response for NID=10h (HP-OUT Sum Widgets)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Input Amplifier Mute. 0: Unmute; 1: Mute
Node
Index[3:0]=0
(from LOUT2)
Default of Bit [7]
1 (Mute)
Index[3:0]=1
(from BEEP)
Default of Bit [7]
1 (Mute)
Index[3:0]=2
(from LOUT1)
Default of Bit [7]
1 (Mute)
Index[3:0]=Other
LINE-OUT Sum
0
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0 (No Output Amplifier Mute).
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0’s (No Input Amplifier Gain).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0’s (No Output Amplifier Gain).
6:0
Codec Response for NID=18h (MIC1, port-B) and 1Ah (LINE1, port-C)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0 (No Input Amplifier Mute).
Payload[15] is 1 in ‘Get Amplifier Gain’: Output Amplifier Mute. 0:Unmute; 1:Mute (Default=1)
Payload[15] is 0 in ‘Get Amplifier Gain’: Input Amplifier Gain [6:0].
6:0
The volume 0dB/20dB/40dB in 20dB per step (Default=0, 0dB).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0’s (No Output Amplifier Gain).
Codec Response for NID=19h (MIC2, port-F)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0 (No Input Amplifier Mute).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0 (No Output Amplifier Mute).
Payload[15] is 0 in ‘Get Amplifier Gain’: Input Amplifier Gain [6:0].
The volume 0dB/20dB/40dB in 20dB per step (Default=0, 0dB).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0’s (No Output Amplifier Gain).
6:0
2+2 Channel High Definition Audio Codec
40
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
Codec Response for NID=14h (LINE-OUT, port-D)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0 (No Input Amplifier Mute).
Payload[15] is 1 in ‘Get Amplifier Gain’: Output Amplifier Mute. 0:Unmute; 1:Mute (Default=1)
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0’s (No Input Amplifier Gain).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0’s (No Output Amplifier Gain).
6:0
Codec Response for NID=15h (HP-OUT, port-A)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0 (No Input Amplifier Mute).
Payload[15] is 1 in ‘Get Amplifier Gain’: Output Amplifier Mute. 0:Unmute; 1:Mute (Default=1)
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0’s (No Input Amplifier Gain).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0’s (No Output Amplifier Gain).
6:0
Codec Response for NID=1Dh (PCBEEP)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0 (No Input Amplifier Mute).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0 (No Output Amplifier Mute).
6:0
Payload[15] is 0 in ‘Get Amplifier Gain’: Input Amplifier Gain [6:0] specifying the volume from –24dB to
0dB in 3dB per step (Default=0000001b, -21dB).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0’s (No Output Amplifier Mute).
Codec Response for NID=12h (Digital MIC DMIC-12) and 13h (Digital MIC DMIC-34)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0 (No Input Amplifier Mute).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0 (No Output Amplifier Mute).
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0’s (No Input Amplifier Gain).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0’s (No Output Amplifier Gain).
6:0
Codec Response for NID=16h (MONO-OUT)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0 (No Input Amplifier Mute).
Payload[15] is 1 in ‘Get Amplifier Gain’: Output Amplifier Mute. 0:Unmute; 1:Mute (Default=1)
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0’s (No Input Amplifier Gain).
Payload[15] is 1 in ‘Get Amplifier Gain’: Read as 0’s (No Output Amplifier Gain).
6:0
2+2 Channel High Definition Audio Codec
41
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
Codec Response for NID=23h and 24h (Multiplexer widgets in front of ADCs)
Bit
31:8
7
Description
0’s.
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0 (No Input Amplifier Mute for all index).
Payload[15] is 1 in ‘Get Amplifier Gain’: Output Amplifier Mute. 0:Unmute; 1:Mute (Default=1)
Payload[15] is 0 in ‘Get Amplifier Gain’: Read as 0’s (No Input Amplifier Gain for all index).
6:0
Payload[15] is 1 in ‘Get Amplifier Gain’: Output Amplifier Gain [6:0] specifying the volume from –16.5dB
to 30dB in 1.5dB per step (Default=0000001b, -15dB).
Codec Response to Other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
8.12. Verb – Set Amplifier Gain (Verb ID=3h)
This verb is used to set amplifier gain/attenuation in each widget.
Table 44. Verb – Set Amplifier Gain (Verb ID=3h)
Set Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh
Verb ID=3h
‘Set’ payload [7:0]
0’s for all nodes
‘Set’ Payload in Command Bit[15:0]
Bit
Description
15
Set Output Amp.
1 indicates output amplifier gain will be set.
Set Input Amp.
1 indicates input amplifier gain will be set.
Set Left Amp.
14
13
1 indicates left amplifier gain will be set.
Set Right Amp.
12
1 indicates right amplifier gain will be set.
Index Offset (for input amplifiers on Sum widgets and Selector Widgets).
11:8
5 bits index offset in connection list is used to select which input gain will be set on a mixer or a
multiplexer widget. The index is ignored if the node is not a mixer or a multiplexer widget, or the ‘Set Input
Amp’ bit is not set.
7
Mute.
0: Unmute
1: Mute (-∞gain)
6:0
Gain[6:0].
A 7-bit step value specifying the amplifier gain.
2+2 Channel High Definition Audio Codec
42
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.13. Verb – Get Converter Format (Verb ID=Ah)
Table 45. Verb – Get Converter Format (Verb ID=Ah)
Get Command Format
Codec Response Format
Response [31:0]
Bit[15:0] are converter format
Bit [31:28]
Bit [27:20]
Node ID=Xh
Bit [19:16]
Payload Bit [15:0]
Cad=X
Verb ID=Ah
0’s
Codec Response for NID=02h, 03h, 06h (Output Converters: LOUT1 DAC, LOUT2 DAC, S/PDIF-OUT).
Codec Response for NID=07h, 08h (Input Converters: MIC ADC, LINE ADC)
Bit
31:16
15
Description
Reserved. Read as 0.
Stream Type (TYPE).
0: PCM
1: Non-PCM
14
Sample Base Rate (BASE).
0: 48kHz
1: 44.1kHz
13:11
10:8
Sample Base Rate Multiple (MULT).
000b: *1
001b: *2
010b: *3
011b: *4
100b~111b: Reserved.
Sample Base Rate Divisor (DIV).
000b: /1
100b: /5
001b: /2
101b: /6
010b: /3
110b: /7
011b: /4
111b: /8
The ALC268 does not support Divisor. Always read as 000b.
7
Reserved. Read as 0.
6:4
Bits per Sample (BITS).
000b: 8 bits
100b: 32 bits
001b: 16 bits
101b~111b: Reserved
010b: 20 bits
2: 3 channels
011b: 24 bits
………
3:0
Number of Channels.
0: 1 channel 1: 2 channels
15: 16 channels
BASE
MULT
DIV
000b
000b
000b
000b
000b
000b
000b
000b
000b
000b
BITS
Sample Rate
48K, 96K,192K
44.1K
NID=02h (LOUT1 DAC)
NID=03h (LOUT2 DAC)
NID=06h (S/PDIF-OUT)
NID=07h (MIC ADC)
NID=08h (LINE ADC)
0
1
0
1
0
1
0
1
0
1
000b, 001b, 011b
000b
001b, 010b, 011b
001b, 010b, 011b
001b, 010b, 011b
001b, 010b, 011b
000b, 001b, 011b
000b
48K, 96K,192K
44.1K
000b, 001b, 011b
000b, 001b
000b, 001b
000b
001b, 010b, 011b, 100b 48K, 96K, 192K
001b, 010b, 011b, 100b
001b, 010b, 011b
001b, 010b, 011b
001b, 010b, 011b
001b, 010b, 011b
44.1K, 88.2K
48K, 96K
44.1K
000b, 001b
000b
48K, 96K
44.1K
Codec Response for other NID
Bit
Description
Not Supported (returns 00000000h).
31:0
2+2 Channel High Definition Audio Codec
43
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.14. Verb – Set Converter Format (Verb ID=2h)
Table 46. Verb – Set Converter Format (Verb ID=2h)
Set Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Node ID=Xh
Bit [19:16]
Verb ID=2h
Payload Bit [15:0]
Set format [15:0]
Cad=X
0’s for all nodes
‘Set’ Payload in Command Bit[15:0]
Bit
31:16
15
Description
Reserved. Read as 0.
Stream Type (TYPE).
0: PCM
1: Non-PCM
14
Sample Base Rate (BASE).
0: 48kHz
1: 44.1kHz
13:11
10:8
Sample Base Rate Multiple (MULT).
000b: *1
001b: *2
010b: *3
011b: *4
100b~111b: Reserved
Sample Base Rate Divisor (DIV).
000b: /1
100b: /5
001b: /2
101b: /6
010b: /3
110b: /7
011b: /4
111b: /8
7
Reserved. Read as 0.
6:4
Bits per Sample (BITS).
000b: 8 bits
100b: 32 bits
Number of Channels.
0: 1 channel
001b: 16 bits
101b~111b: Reserved
010b: 20 bits
011b: 24 bits
………
3:0
1: 2 channels
2: 3 channels
15: 16 channels
8.15. Verb – Get Power State (Verb ID=F05h)
Table 47. Verb – Get Power State (Verb ID=F05h)
Get Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh
Verb ID=Ah
0’s
Power State [7:0]
Codec Response for NID=01h (Audio Function Group)
Bit
31:6
5:4
Description
Reserved. Read as 0’s.
PS-Act. Actual Power State [1:0].
00: Power state is D0
01: Power state is D1
10: Power state is D2
11: Power state is D3
PS-Act indicates the actual power state of the referenced node. For Audio Function Group nodes
(NID=01h), PS-Act is always equal to PS-Set.
Reserved. Read as 0’s.
3:2
1:0
PS-Set. Set Power State [1:0].
00: Power state is D0
01: Power state is D1
10: Power state is D2
11: Power state is D3
PS-Set controls the current power setting of the referenced node.
Note: Specific blocks will be powered down in each power state. Refer to section 7.5 Power Management, page 24.
Codec Response for other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
2+2 Channel High Definition Audio Codec
44
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.16. Verb – Set Power State (Verb ID=705h)
Table 48. Verb – Set Power State (Verb ID=705h)
Set Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=705h
Power State [7:0]
0’s for all nodes
‘Power State’ in Command Bit[7:0]
Bit
7:6
5:4
Description
Reserved. Read as 0’s.
PS-Act. Actual Power State [1:0].
00: Power state is D0
PS-Act indicates the actual power state of the referenced node.
Reserved. Read as 0’s.
01: Power state is D1
10: Power state is D2
11: Power state is D3
11: Power state is D3
3:2
1:0
PS-Set. Set Power State [1:0].
00: Power state is D0
01: Power state is D1
10: Power state is D2
8.17. Verb – Get Converter Stream, Channel (Verb ID=F06h)
Table 49. Verb – Get Converter Stream, Channel (Verb ID=F06h)
Get Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh Verb ID=F06h
0’s
Stream & Channel [7:0]
Codec Response for NID=02h, 03h, 06h (Output Converters: LOUT1 DAC, LOUT2 DAC, S/PDIF-OUT).
Codec Response for NID=07h, 08h (Input Converters: MIC ADC, LINE ADC)
Bit
31:8
7:4
Description
Reserved. Read as 0’s.
Stream[3:0].
The link stream used by the converter. 0000b is stream 0, 0001b is stream 1, etc.
Channel[3:0].
3:0
The lowest channel used by the converter. A stereo converter will use the set channel n as well as n+1 for
its left and right channel.
Codec Response for other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
2+2 Channel High Definition Audio Codec
45
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.18. Verb – Set Converter Stream, Channel (Verb ID=706h)
Table 50. Verb – Set Converter Stream, Channel (Verb ID=706h)
Set Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=706h Stream & Channel [7:0]
0’s for all nodes
‘Stream and Channel’ in Command Bit[7:0]
Bit
31:8
7:4
Description
Reserved. Read as 0’s.
Set Stream[3:0]. The link stream used by the converter. 0000b is stream 0, 0001b is stream 1, etc.
1:0
Set Channel[3:0]. The lowest channel used by the converter. A stereo converter will use the set channel n as
well as n+1 for its left and right channel.
Note: This verb assigns stream and channel for output converters (NID=02h, 03h, 06h) and input converters
(NID=07h, 08h). Other widgets will ignore this verb.
8.19. Verb – Get Pin Widget Control (Verb ID=F07h)
Table 51. Verb – Get Pin Widget Control (Verb ID=F07h)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=F07h
0’s
Pin Control [7:0]
Codec Response for pin widget NID=12h (DMIC-12), 13h (DMIC-34), 14h (LINE-OUT), 15h (HP-OUT), 16h (MONO),
18h (MIC1), 19h (MIC2), 1Ah (LINE1), 1Ch (CD-IN), 1Dh (PCBEEP), and 1Eh (S/PDIF-OUT)
Bit
31:1
7
Description
Reserved. Read as 0’s.
H-Phn Enable (Headphone Amplifier Enable, EN_AMP for an I/O unit).
0: Disabled
1: Enabled
Note: Only HP-OUT (NID=15h) and LINE-OUT (NID=14h) support the headphone amplifier.
6
5
Out Enable (Output Buffet Enable, EN_OBUF for an I/O unit).
0: Disabled
1: Enabled
Note: DMIC-12 (NID=12h), DMIC-34 (NID=13h), MIC2 (NID=19h), CD-IN (NID=1Ch), and
PCBEEP (NID=1Dh) do not support output.
In Enable (Input Buffer Enable, EN_IBUF for an I/O unit).
0: Disabled
1: Enabled
Note: MONO-OUT (NID-16h) does not support input.
Reserved.
VrefEn (Vrefout Enable Control).
4:3
2:0
000b: Hi-Z (Disabled)
011b: Reserved
001b: 50% of AVDD
100b: 80% of AVDD
010b: Ground 0V
101b: 100% of AVDD
110b~111b: Reserved
Note: Only MIC1 (NID=18h), MIC2 (NID=19h), and LINE1 (NID=1Ah) support reference voltage outputs.
Codec Response for other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
2+2 Channel High Definition Audio Codec
46
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.20. Verb – Set Pin Widget Control (Verb ID=707h)
Table 52. Verb – Set Pin Widget Control (Verb ID=707h)
Set Command Format
Codec Response Format
Response [31:0]
0’s for all nodes
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Pin Control [7:0]
Cad=X
Node ID=Xh Verb ID=707h
‘Pin Control’ in command [7:0]: pin widget NID=12h (DMIC-12), 13h (DMIC-34), 14h (LINE-OUT), 15h (HP-OUT),
16h (MONO), 18h (MIC1), 19h (MIC2), 1Ah (LINE1), 1Ch (CD-IN), 1Dh (PCBEEP) and 1Eh (S/PDIF-OUT)
Bit
31:1
7
Description
Reserved. Read as 0’s.
H-Phn Enable.
0: Disabled
1: Enabled
Note: Only HP-OUT (NID=15h) and LINE-OUT (NID=14h) support the headphone amplifier.
6
5
Out Enable.
0: Disabled
1: Enabled
Note: DMIC-12 (NID=12h), DMIC-34 (NID=13h), MIC2 (NID=19h), CD-IN (NID=1Ch), and
PCBEEP (NID=1Dh) do not support output.
In Enable (Input Buffer Enable, EN_IBUF for an I/O unit).
0: Disabled
1: Enabled
Note: MONO-OUT (NID-16h) does not support input.
4:
Reserved.
2:0
VrefEn (Vrefout Enable Control).
000b: Hi-Z (Disabled)
011b: Reserved
001b: 50% of AVDD
100b: 80% of AVDD)
010b: Ground 0V
101b: 100% of AVDD
110b~111b: Reserved
Note: Only MIC1 (NID=18h), MIC2 (NID=19h), and LINE1 (NID=1Ah) support reference voltage outputs.
8.21. Verb – Get Unsolicited Response Control (Verb ID=F08h)
Determines whether a widget is enabled to send an unsolicited response. An HDA codec can use an
unsolicited response to inform software of a real-time event.
Table 53. Verb – Get Unsolicited Response Control (Verb ID=F08h)
Get Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh Verb ID=F08h
0’s
32-bit Response
Codec Response for NID=01h (GPIO in Audio Function Group), 14h~16h (port jack detect), 18h~1Bh (port jack detect)
Bit
31:8
7
Description
Reserved. Read as 0’s.
Unsolicited Response is Enabled.
0: Disabled
1: Enabled
6:4
3:0
Reserved. Read as 0’s.
Assigned Tag for Unsolicited Response.
The tag[3:0] is assigned by software to determine which widget generates unsolicited responses.
Codec Response for other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
2+2 Channel High Definition Audio Codec
47
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.22. Verb – Set Unsolicited Response Control (Verb ID=708h)
Enable a widget to generate an unsolicited response.
Table 54. Verb – Set Unsolicited Response Control (Verb ID=708h)
Set Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh Verb ID=708h
EnableUnsol [7:0]
0’s for all nodes
‘EnableUnsol’ in Command Bit[7:0]
For NID=01h (GPIO in Audio Function Group), 14h~16h (port jack detect), 18h~1Bh (port jack detect)
Bit
31:8
7
Description
Reserved. Read as 0’s.
Enable Unsolicited Response.
0: Disable
1: Enable
6:4
3:0
Reserved. Read as 0’s.
Tag for Unsolicited Response. Tag[3:0] is defined by software to assign a 4-bit tag for nodes that are
enabled to generate unsolicited responses.
8.23. Verb – Get Pin Sense (Verb ID=F09h)
Returns the Presence Detect status and the impedance of a device attached to the pin.
Table 55. Verb – Get Pin Sense (Verb ID=F09h)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=F09h
0’s
32-bit Response
Codec Response: Pin widget 14h (LINE-OUT), 15h (HP-OUT), 18h (MIC1), 19h (MIC2), 1Ah (LINE1)
Bit
Description
31
Presence Detect Status.
0: No device is attached to the pin
1: Device is attached to the pin
30:0
Measured Impedance.
Note: The ALC268 does not support impedance sensing. Read as 0’s.
Codec Response for other NID
Bit
Description
31:0
Not Supported (returns 00000000h).
2+2 Channel High Definition Audio Codec
48
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.24. Verb – Execute Pin Sense (Verb ID=709h)
Table 56. Verb – Execute Pin Sense (Verb ID=709h)
Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=709h
Right Channel[0]
0’s for all nodes
‘Payload’ in Command Bit[7:0]
Bit
7:1
0
Description
Reserved. Read as 0’s.
Right (Ring) Channel Select.
0: Sense Left channel (Tip)
1: Sense Right channel (Ring)
Note: The ALC268 does not support ‘Execute Pin Sense’and will ignore this verb and respond with 0’s.
8.25. Verb – Get Configuration Default (Verb ID=F1Ch)
Read the 32-bit sticky register for each Pin Widget configured by software.
Table 57. Verb – Get Configuration Default (Verb ID=F1Ch)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=F1Ch
0’s
32-bit Response
Codec Response for Pin Widget: NID=14h (LINE-OUT), 15h (HP-OUT), 16h (MONO-OUT), 18h (MIC1), 19h (MIC2),
1Ah (LINE1), 1Ch (CD-IN), 1Dh (PCBEEP), 1Eh (S/PDIF-OUT), 12h (DMIC-12), and 13h (DMIC-34)
Bit
Description
31:0
32-bit configuration information for each pin widget.
Note: The 32-bit registers for each Pin Widget are sticky and will not be reset by a LINK Reset or Codec Reset (Function
Reset Verb).
2+2 Channel High Definition Audio Codec
49
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.26. Verb – Set Configuration Default Bytes 0, 1, 2, 3
(Verb ID=71Ch/71Dh/71Eh/71Fh for Bytes 0, 1, 2, 3)
The BIOS can use this verb to figure out the default conditions for the Pin Widgets 14h~1Bh and
1Eh~1Fh such as placement and expected default device.
Table 58. Verb – Set Configuration Default Bytes 0, 1, 2, 3
(Verb ID=71Ch/71Dh/71Eh/71Fh for Bytes 0, 1, 2, 3)
Set Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Node ID=Xh
Bit [19:8]
Payload Bit [7:0]
Cad=X
Verb ID=71Ch,
Label [7:0]
0’s for all nodes
71Dh, 71Eh, 71Fh
Note: Supported by Pin Widget NID=14h (LINE-OUT), 15h (HP-OUT), 16h (MONO-OUT), 18h (MIC1), 19h (MIC2),
1Ah (LINE1), 1Ch (CD-IN), 1Dh (PCBEEP), 1Eh (S/PDIF-OUT), 12h (DMIC-12), and 13h (DMIC-34). Other widgets
will ignore this verb.
Codec Response for All NID
Bit
Description
31:0
0’s.
8.27. Verb – Get BEEP Generator (Verb ID=F0Ah)
Table 59. Verb – Get BEEP Generator (Verb ID=F0Ah)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=F1Bh
0’s
Divider [7:0]
‘Response’ for NID=01h (Audio Function Group)
Bit
31:8
7:0
Description
Reserved.
Frequency Divider, F[7:0].
The internal BEEP frequency is the result of dividing the 48kHz clock by 4 times the number specified in
F[7:0].
The lowest tone is 48kHz/(255*4)=47Hz.
The highest tone is 48kHz/(1*4)=12kHz.
A value of 00h in F[7:0] disables the internal BEEP generator and allows external PCBEEP input.
Codec Response for Other NID
Bit
Description
31:0
0’s.
2+2 Channel High Definition Audio Codec
50
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.28. Verb – Set BEEP Generator (Verb ID=70Ah)
Table 60. Verb – Set BEEP Generator (Verb ID=70Ah)
Set Command Format
Codec Response Format
Response [31:0]
0’s for all nodes
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh Verb ID=71Bh
Divider [7:0]
‘Divider’ in Set Command
Bit
31:8
7:0
Description
Reserved.
Frequency Divider, F[7:0].
The internal BEEP frequency is the result of dividing the 48kHz clock by 4 times the number specified in
F[7:0].
The lowest tone is 48kHz/(255*4)=47Hz.
The highest tone is 48kHz/(1*4)=12kHz.
A value of 00h in F[7:0] disables the internal BEEP generator and allows external PCBEEP input.
Note: All nodes except Audio Function Group (NID=01h) will ignore this verb.
Codec Response for All NID
Bit
Description
31:0
0’s.
8.29. Verb – Get GPIO Data (Verb ID=F15h)
Table 61. Verb – Get GPIO Data (Verb ID=F15h)
Get Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=01h Verb ID=F15h
0’s
32-bit Response
Codec Response for NID=01h (Audio Function Group)
Bit
31:8
7:4
Description
Reserved.
GPIO[7:4] Data. Not supported in the ALC268.
GPIO[3:0] Data.
3:0
The value written (output) or sensed (input) on the corresponding pin if it is enabled.
Codec Response for Other NID
Bit
Description
31:0
0’s.
2+2 Channel High Definition Audio Codec
51
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.30. Verb – Set GPIO Data (Verb ID=715h)
Table 62. Verb – Set GPIO Data (Verb ID=715h)
Set Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=01h Verb ID=715h
Data [7:0]
0’s for all nodes
‘Data’ in Set command for NID=01h (Audio Function Group)
Bit
31:8
7:4
Description
Reserved.
GPIO[7:4] Output Data. Not supported in the ALC268.
GPIO[3:0] Output Data.
3:0
The value written determines the value driven on a pin that is configured as an output pin.
Codec Response for All NID
Bit
Description
31:0
0’s.
8.31. Verb – Get GPIO Enable Mask (Verb ID=F16h)
Table 63. Verb – Get GPIO Enable Mask (Verb ID=F16h)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=01h Verb ID=F16h
0’s
EnableMask [7:0]
Codec Response for NID=01h (Audio Function Group)
Bit
31:8
7:4
Description
Reserved.
Reserved.
3:0
GPIO[3:0] Enable Mask.
0: The corresponding GPIO pin is disabled and is in Hi-Z state
1: The corresponding GPIO pin is enabled. It’s behavior is determined by the GPIO direction control
Note: All nodes except Audio Function Group (NID=01h) will ignore this verb.
Codec Response for Other NID
Bit
Description
31:0
0’s.
2+2 Channel High Definition Audio Codec
52
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.32. Verb – Set GPIO Enable Mask (Verb ID=716h)
Table 64. Verb – Set GPIO Enable Mask (Verb ID=716h)
Set Command Format
Codec Response Format
Response [31:0]
0’s for all nodes
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=01h Verb ID=716h
Enable Mask [7:0]
Codec Response for NID=01h (Audio Function Group)
Bit
31:8
7:4
Description
Reserved.
GPIO[7:4] Enable Mask. Not supported in the ALC268.
GPIO[3:0] Enable Mask.
3:0
0: The corresponding GPIO pin is disabled and is in Hi-Z state
1: The corresponding GPIO pin is enabled. Its behavior is determined by the GPIO direction control
Note: All nodes except Audio Function Group (NID=01h) will ignore this verb.
Codec Response for All NID
Bit
Description
31:0
0’s.
8.33. Verb – Get GPIO Direction (Verb ID=F17h)
Table 65. Verb – Get GPIO Direction (Verb ID=F17h)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=01h Verb ID=F17h
0’s
Direction [7:0]
Codec Response for NID=01h (Audio Function Group)
Bit
31:8
7:4
Description
Reserved.
GPIO[7:4] Direction Control. Not supported in the ALC268.
GPIO[3:0] Direction Control.
3:0
0: The corresponding GPIO pin is configured as an input
1: The corresponding GPIO pin is configured as an output
Note: All nodes except Audio Function Group (NID=01h) will ignore this verb.
Codec Response for Other NID
Bit
Description
31:0
0’s.
2+2 Channel High Definition Audio Codec
53
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.34. Verb – Set GPIO Direction (Verb ID=717h)
Table 66. Verb – Set GPIO Direction (Verb ID=717h)
Set Command Format
Codec Response Format
Response [31:0]
0’s for all nodes
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=01h Verb ID=717h
Direction [7:0]
Codec Response for NID=01h (Audio Function Group)
Bit
31:8
7:4
Description
Reserved.
GPIO[7:4] Direction Control. Not supported in the ALC268.
3:0
GPIO[3:0] Direction Control.
0: The corresponding GPIO pin is configured as an input
1: The corresponding GPIO pin is configured as an output
Note: All nodes except Audio Function Group (NID=01h) will ignore this verb.
Codec Response for Other NID
Bit
Description
31:0
0’s.
8.35. Verb – Get GPIO Unsolicited Response Enable Mask
(Verb ID=F19h)
Table 67. Verb – Get GPIO Unsolicited Response Enable Mask (Verb ID=F19h)
Get Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=01h Verb ID=F19h
0’s
UnsolEnable [7:0]
Codec Response for NID=01h (Audio Function Group)
Bit
31:8
7:4
Description
Reserved.
GPIO[7:4] Unsolicited Enable Mask. Not supported in the ALC268.
3:0
GPIO[3:0] Unsolicited Enable Mask.
0: Unsolicited response will not be sent on link
1: Unsolicited response will be sent on link when state of corresponding GPIO has been changed
Note: All nodes except Audio Function Group (NID=01h) will ignore this verb.
Codec Response for Other NID
Bit
Description
31:0
0’s.
2+2 Channel High Definition Audio Codec
54
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.36. Verb – Set GPIO Unsolicited Response Enable Mask
(Verb ID=719h)
Table 68. Verb – Set GPIO Unsolicited Response Enable Mask (Verb ID=719h)
Set Command Format
Codec Response Format
Response [31:0]
0’s for all nodes
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=01h Verb ID=719h
UnsolEnable [7:0]
Codec Response for NID=01h (Audio Function Group)
Bit
31:8
7:4
Description
Reserved.
GPIO[7:4] Unsolicited Enable Mask. Not supported in the ALC268
GPIO[3:0] Unsolicited Enable Mask.
0: Unsolicited response will not be sent on link
3:0
1: Unsolicited response will be sent on link when state of corresponding GPIO has been changed
Note 1: All nodes except the Audio Function Group (NID=01h) will ignore this verb.
Note 2: The unsolicited response of corresponding GPIO is enabled when it’s ‘Enable Mask’and Verb-‘Unsolicited
Response’for NID=01h are enabled.
Codec Response for Other NID
Bit
Description
31:0
0’s.
8.37. Verb – Function Reset (Verb ID=7FFh)
Table 69. Verb – Function Reset (Verb ID=7FFh)
Command Format (NID=01H)
Codec Response Format
Response [31:0]
0’s
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=01h Verb ID=7FFh
0’s
Codec Response
Bit
Description
Reserved. Read as 0’s.
31:0
Note: The Function Reset command causes all widgets in the ALC268 to return to their power-on default state.
2+2 Channel High Definition Audio Codec
55
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.38. Verb – Get Digital Converter Control 1 & Control 2
(Verb ID=F0Dh, F0Eh)
Table 70. Verb – Get Digital Converter Control 1 & Control 2 (Verb ID=F0Dh, F0Eh)
Get Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh
Verb ID=F0Dh/F0Eh
0’s
Bit[31:16]=0’s, Bit[15:0] are SIC bit
NID=06h (S/PDIF-OUT) Response to ‘Get verb’ – F0Dh (Control 1 for SIC bit[15:0]).
NID=06h (S/PDIF-OUT) Response to ‘Get verb’ – F0Eh (Control 2 for SIC bit[15:0])
Bit
31:16
15
Description – SIC (S/PDIF IEC Control) Bit[7:0]
Read as 0’s.
Reserved. Read as 0’s.
14:8
7
CC[6:0] (Category Code).
LEVEL (Generation Level).
PRO (Professional or Consumer Format).
0: Consumer format
6
1: Professional format
5
4
3
/AUDIO (Non-Audio Data Type).
0: PCM data
1: AC3 or other digital non-audio data
COPY (Copyright).
0: Asserted
1: Not asserted
PRE (Pre-Emphasis).
0: None
1: Filter pre-emphasis is 50/15 microseconds
VCFG for Validity Control (control V bit and data in Sub-Frame).
V for Validity Control (control V bit and data in Sub-Frame).
DigEn. Digital Enable.
2
1
0
0: OFF
1: ON
Codec Response for Other NID
Bit
Description
31:0
0’s.
2+2 Channel High Definition Audio Codec
56
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.39. Verb – Set Digital Converter Control 1 & Control 2
(Verb ID=70Dh, 70Eh)
Table 71. Verb – Set Digital Converter Control 1 & Control 2 (Verb ID=70Dh, 70Eh)
Set Command Format (Verb ID=70Dh, Set Control 1)
Codec Response Format
Response [31:0]
0’s
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh Verb ID=70Dh
SIC [7:0]
Set Command Format (Verb ID=70Eh, Set Control 2)
Codec Response Format
Response [31:0]
0’s
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh Verb ID=70Eh
SIC [15:8]
‘Payload’ in Set Control 1 for NID=06h (S/PDIF-OUT)
Bit
7
Description – SIC (S/PDIF IEC Control) Bit[7:0]
LEVEL (Generation Level).
PRO (Professional or Consumer Format).
0: Consumer format
6
1: Professional format
5
4
3
/AUDIO (Non-Audio Data Type).
0: PCM data
1: AC3 or other digital non-audio data
COPY (Copyright).
0: Asserted
1: Not asserted
PRE (Pre-Emphasis).
0: None
1: Filter pre-emphasis is 50/15 microseconds
VCFG for Validity Control (control V bit and data in Sub-Frame).
V for Validity Control (control V bit and data in Sub-Frame).
DigEn. Digital Enable.
2
1
0
0: OFF
1: ON
‘Payload’ in Set Control 2 for NID=06h (S/PDIF-OUT)
Bit
7
Description – SIC (S/PDIF IEC Control) Bit[7:0]
Reserved. Read as 0’s.
6:0
CC[6:0] (Category Code).
2+2 Channel High Definition Audio Codec
57
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
8.40. Get/Set Volume Knob Widget (Verb ID=F0Fh/70Fh)
Table 72. Get/Set Volume Knob Widget (Verb ID=F0Fh/70Fh)
Get Command Format
Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=F0Fh
0’s
Bit[31:8]=0’s, Bit[7:0] is volume
Codec Response for Volume Knob Widget
Bit
31:8
7
Description
Reserved.
Direct.
0: The volume generated by an external HW volume control will be sent by unsolicited response. Software
is responsible for programming the amplifier appropriately
1: The volume generated by an external HW volume control will directly affect amplifier volume
6:0
Volume in Steps.
Note: The ALC268 does not support volume knob widget will ignore this verb and respond with 0’s.
Set Command Format (Verb ID=70Fh) Codec Response Format
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Response [31:0]
Cad=X
Node ID=Xh Verb ID=70Fh Bit[7] is ‘Direct’ control
0’s
‘Payload’ in Set Command for Volume Knob Widget
Bit
31:8
7
Description
Reserved.
Direct.
0: The volume generated by an external HW volume control will be sent by unsolicited response. Software
is responsible for programming the amplifier appropriately
1: The volume generated by an external HW volume control will directly affect amplifier volume
6:0
Reserved.
Note: The ALC268 does not support volume knob widget will ignore this verb and respond with 0’s.
8.41. Get/Set Subsystem ID [31:0]
(Verb ID=F20h / 723h~720h to Set Bit[31:0])
Table 73. Get/Set Subsystem ID [31:0] (Verb ID=F20h / 723h~720h to Set Bit[31:0])
Get Command Format
Codec Response Format
Response [31:0]
Bit [31:28]
Bit [27:20]
Bit [19:8]
Payload Bit [7:0]
Cad=X
Node ID=Xh Verb ID=F20h
0’s
32 bits response
Codec Response for NID=01h (Audio Function Group)
Bit
31:16
15:8
7:0
Description
Subsystem ID[23:8] (Default=10Ech).
Subsystem ID[7:0] (Default=02h).
Assembly ID[7:0] (Default=68h).
2+2 Channel High Definition Audio Codec
58
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
9. Electrical Characteristics
9.1. DC Characteristics
9.1.1.
Absolute Maximum Ratings
Table 74. Absolute Maximum Ratings
Parameter
Symbol
Minimum
Typical
Maximum
Units
Power Supplies
Digital Power for Core
Digital Power for Link
Analog Power
DVDD
DVDD-IO
AVDD1, AVDD2
Ta
3.0
1.5
3.0
0
3.3
3.3
3.3
-
3.6
3.6
5.5
V
V
V
oC
oC
Ambient Operating Temperature
Storage Temperature
+70
+125
Ts
-
-
ESD (Electrostatic Discharge)
Susceptibility Voltage
4000V
All Pin
Note: DVDD-IO must be lower than DVDD.
If customers have lower AVDD(=3.0V) request, please contact Realtek sales representatives or agents.
9.1.2.
Threshold Voltage
DVDD-IO=3.3V±5%, Tambient=25°C, with 50pF external load.
Table 75. Threshold Voltage
Parameter
Symbol
Vin
Minimum
Typical
Maximum
DVDD+0.30
0.30*DVDDIO
Units
Input Voltage Range
-0.30
-
-
-
V
V
Low Level Input Voltage
(BCLK, RST#, SDO, SYNC, SDI)
High Level Input Voltage
(BCLK, RST#, SDO, SYNC, SDI)
Low Level Input Voltage
(S/PDIF-OUT, GPIOs)
VIL
VIH
VIL
VIH
0.65*DVDDIO
-
-
-
-
V
V
V
-
0.44*DVDD
-
High Level Input Voltage
(S/PDIF-OUT, GPIOs)
0.56*DVDD
High Level Output Voltage
Low Level Output Voltage
Input Leakage Current
VOH
0.9*DVDD
-
-
V
V
VOL
-
-10
-10
-
-
-
0.1*DVDD
-
-
-
-
10
10
-
µA
µA
mA
Ω
Output Leakage Current (Hi-Z)
Output Buffer Drive Current
Internal Pull Up Resistance
-
5
-
50k
-
2+2 Channel High Definition Audio Codec
59
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
9.1.3.
Digital Filter Characteristics
Table 76. Digital Filter Characteristics
Filter
Symbol
Minimum
Typical
Maximum
Units
kHz
kHz
dB
ADC Lowpass Filter
Passband
0
-
-
0.454*Fs (-1dB)
Stopband
28.8
-
Stopband Rejection
Passband Ripple
Passband
-
-76.0
±0.05
-
-
-
-
dB
DAC Lowpass Filter
0
0.454*Fs (-1dB)
kHz
kHz
dB
Stopband
28.8
-
-
-
-
Stopband Rejection
Passband Ripple
-
-
-78.5
±0.05
dB
9.1.4.
S/PDIF Output Characteristics
DVDD=3.3V, Tambient=25°C, with 75Ω external load.
Table 77. S/PDIF Input/Output Characteristics
Parameter
Symbol
VOH
Minimum
Typical
Maximum
Units
V
S/PDIF-OUT High Level Output
S/PDIF-OUT Low Level Output
3.0
-
3.3
0
-
VOL
0.3
V
2+2 Channel High Definition Audio Codec
60
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
9.2. AC Characteristics
9.2.1.
Link Reset and Initialization Timing
Table 78. Link Reset and Initialization Timing
Parameter
Symbol
TRST
Minimum
Typical
Maximum
Units
µs
RESET# Active Low Pulse Width
RESET# Inactive to BCLK
1.0
20
-
-
-
-
TPLL
µs
Startup Delay for PLL Ready Time
SDI Initialization Request
TFRAME
-
-
1
Frame Time
Initialization
Sequence
>= 4 BCLK
4 BCLK
4 BCLK
BCLK
SYNC
Normal Frame
SYNC
SDO
SDI
Initialization
Request
RESET#
TRST
TPLL
TFRAME
Figure 16. Link Reset and Initialization Timing
2+2 Channel High Definition Audio Codec
61
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
9.2.2.
Link Timing Parameters at the Codec
Table 79. Link Timing Parameters at the Codec
Parameter
Symbol
Minimum
Typical
Maximum
Units
MHz
ns
BCLK Frequency
BCLK Period
-
24.0
-
-
Tcycle
-
41.67
-
BCLK Jitter
Tjitter
Thigh
Tlow
-
-
-
-
-
2.0
22.91 (55%)
22.91 (55%)
-
ns
BCLK High Pulse Width
BCLK Low Pulse Width
18.75 (45%)
18.75 (45%)
2.1
ns (%)
ns (%)
ns
SDO Setup Time at Both Rising and
Falling Edge of BCLK
Tsetup
SDO Hold Time at Both Rising and
Falling Edge of BCLK
Thold
Ttco
2.1
-
-
8.0
-
ns
ns
ns
SDI Valid Time After Rising Edge of
BCLK (1:50pF External Load)
-
-
7.5
2.0
SDI Flight Time
Tflight
T_cycle
T_high
V
IH
BCLK
SDO
V
V
T
IL
T_low
T_setup T_hold
T_tco
V
OH
SDI
V
OL
T_flight
Figure 17. Link Signals Timing
2+2 Channel High Definition Audio Codec
62
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
9.2.3.
S/PDIF Output Timing
Table 80. S/PDIF Output Timing
Parameter
Symbol
-
Minimum
Typical
3.072
Maximum
Units
MHz
ns
S/PDIF-OUT Frequency*1
S/PDIF-OUT Period*1
-
-
Tcycle
Tjitter
THigh
TLow
Trise
-
325.6
-
S/PDIF-OUT Jitter
-
-
4
ns
S/PDIF-OUT High Level Width*1
S/PDIF-OUT Low Level Width*1
S/PDIF-OUT Rising Time
S/PDIF-OUT Falling Time
156.2 (48%)
162.8 (50%)
162.8 (50%)
2.0
169.2 (52%)
ns (%)
ns (%)
ns
156.2 (48%)
169.2 (52%)
-
-
-
-
Tfall
2.0
ns
*1: Bit parameters for 48kHz sample rate of S/PDIF-OUT.
T
cycle
T
T
low
high
V
OH
V
IH
V
t
V
IL
V
OL
T
T
rise
fall
Figure 18. Output Timing
9.2.4.
Test Mode
The ALC268 does not support codec test mode or Automatic Test Equipment (ATE) mode.
2+2 Channel High Definition Audio Codec
63
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
9.3. Analog Performance
• Tambient=25 oC, DVDD-CORE=3.3V ±5%, AVDD=5.0V±5%
Standard Test Conditions
• 1kHz input sine wave; Sampling frequency=48kHz; 0dB=1Vrms
• 10KΩ/50pF load; Test bench Characterization BW:10Hz~22kHz
Table 81. Analog Performance
Parameter
Min
Typ
Max
Units
Vrms
Vrms
Full-Scale Input Voltage
All ADC (Gain=0dB)
Full-Scale Output Voltage
All DAC (Gain=0dB)
Dynamic Range with 1kHz Tone, DR (A Weighted)
ADC
-
-
1.1
-
-
1.4
-
-
90
95
-
-
dB FSA*
dB FSA
DAC
Total Harmonic Distortion Plus Noise, THD+N
ADC
-
-
-
-85
-92
-80
-
-
-
dB FS*
dB FS
dB FS
DAC
Headphone Out @32Ω Load
Frequency Response
ADC (-3dB Lower Edge, -1dB Higher Edge)
DAC (-3dB Lower Edge, -1dB Higher Edge)
Power Supply Rejection Ratio
Total Out-of-Band Noise (28.8kHz~100kHz)
Amplifier Gain Step
10
10
-
-
-
0.454*Fs
0.454*Fs
Hz
Hz
dB
dB
-40
-60
-
-
-
ADC
DAC
-
-
-
-
1.5
1.0
-80
47
-
-
-
-
dB
dB
Crosstalk Between Input Channels
Input Impedance (Gain=0dB)
Output Impedance
dB
KΩ
Amplified Output
Non-Amplified Output
-
-
1
200
-
-
Ω
Ω
Digital Power Supply Current (Normal Operation)
DVDD=3.3V, DVDD-IO=3.3V
-
-
25
-
-
mA
Digital Power Supply Current (Power Down Mode)
DVDD=3.3V, DVDD-IO=3.3V
400
µA
Analog Power Supply Current (Normal Operation)
AVDD1, AVDD2=5.0V
-
-
35
19
-
-
mA
mA
AVDD1, AVDD2=3.3V
Analog Power Supply Current (Power Down Mode)
AVDD1, AVDD2=5.0V
-
-
2.50
5
700
4.20
-
µA
V
VREFOUTx Output Voltage
0
VREFOUTx Output Current
-
mA
Note: FSA=Full-Scale with A-weighting filter.
FS=Full-Scale.
2+2 Channel High Definition Audio Codec
64
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
10. Application Notes
10.1. Application Circuits
Please contact Realtek for the latest application circuits. To get the best compatibility in hardware design
and software driver, any modification should be confirmed by Realtek. Realtek may upload the latest
application circuits onto our web site (www.realtek.com.tw) without modifying this datasheet.
10.2. Filter Connection
MIC1-VREFO-R
GPIO1 (Power by AVDD)
MIC2-VREFO
MIC1-VREFO-L
20K, 1%
R1
MIC2-JD
C5
10u
+
LOUT-L
LOUT-R
+5VA
C8
C7
+
U1
0.1u
10u
37
38
39
40
41
42
43
44
45
46
47
48
24
23
22
21
20
19
18
17
16
15
14
13
MONO-OUT
LINE1-R
LINE1-L
MIC1-R
MIC1-L
MONO
AVDD2
HP-OUT-L
JDREF
HP-OUT-R
AVSS2
NC
LINE1-R
LINE1-L
MIC1-R
MIC1-L
CD-R
+5VA
C14
C15
0.1u
HP-OUT-L
+
10u
C16
C17
R5
20K, 1%
1u
1u
1u
CN1
HP-OUT-R
4
3
2
1
ALC268/
ALC268-VB
CD-GND
CD-L
CD-IN
C19
MIC2-R
MIC2-L
NC
MIC2-R
MIC2-L
NC
NC
DMIC-CLK
EAPD
DMIC-CLK
EAPD
NC
5.1K, 1%
10K, 1%
R6
R7
R8
R9
LOUT-JD
S/PDIF-OUT
SPDIFO
Sense A
LINE1-JD
MIC1-JD
HP-JD
20K, 1%
39.2K,1%
R10 47K
CN2
+3.3VD
C23
+
C25
0.1u
C24
1u
1
2
R11 10
C26
RESET#
10u
R12
10K
BEEP_IN
C27
100P
NC
R13 10
SYNC
DMIC-12 or GPIO0
DMIC-34 or GPIO3
C28
10p
+3.3VD
C29
C30
0.1u
+
10u
SDIN
BCLK
DGND
AGND
10
R16
Tied at one point only under the
codec or near the codec
C34
10p
R17 10
SDOUT
C36
10p
Figure 19. Filter Connection
2+2 Channel High Definition Audio Codec
65
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
10.3. Power and Rear Panel Jack Connection
PH1
LOUT-JD
CN
CS
1
C1
C2
100u
100u
LOUT-R
LOUT-L
3
4
5
Standby +5V
+12V
C3
100P
C4
LINE-OUT-OUT (Jack-D)
100P
For Standby mode De-pop purpose
Rear Panel
D2
1N4148
B130LAW/1N5817
PH2
MIC1-JD
CN
CS
1
3
4
+5VA
LM7805CT/200mA
OUT IN
C6
C9
FERB
1u
1u
MIC1-R
MIC1-L
3
1
5
R2
+
10
C10
C11
MIC1(Jack-B)
R3
R4
2.2K
+
+10u
100P
100P
Rear Panel
MIC1-VREFO-R
MIC1-VREFO-L
+100u
2.2K
PH3
For improving the background
noise of MIC boosting.
LINE1-JD
CN
CS
1
3
4
C18
C20
1u
1u
LINE1-R
LINE1-L
5
C21
C22
LINE1(Jack-C)
Configuation: (Standard Case)
Rear Panel: 3 dedicated audio jacks
Front Panel: 2 dedicated audio jacks
100P
100P
Rear Panel
Pin/Port Assignment
Location
Functions
FRONT(pin-35,36)/Port-D
MIC1 (pin-21,22)/Port-B
LINE1 (pin-23,24)/Port-C
Rear Panel
Rear Panel
Rear Panel
LINE-OUT w/ amplfier
Mic-In
Line-In
HP-OUT (pin-39,41)/Port-A
MIC2 (pin-16,17)/Port-F
Front Panel
Front Panel
HP-OOUT w/ amplifier
Mic-In
Figure 20. Power and Rear Panel Jack Connection
2+2 Channel High Definition Audio Codec
66
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
10.4. Front Panel Header and Front Panel I/O Cable
HD Audio Front Panel I/O Cable
J2
FIO-MICIN-L
1
3
5
7
9
2
4
6
8
10
FIO-MICIN-R
FIO-HPOUT-R
FIO-JD
D3
D4
1N4148
1N4148
FMIC-JD-RETURN
MIC2-VREFO
KEY
FIO-HPOUT-L
FHP-JD-RETURN
CON10A
R14
2.2K
R15
FIO-JD
2.2K
JACK 1
4
3
5
C31 1u
C32 1u
FMIC-JD-RETURN
MIC2-L
MIC2-R
FIO-MICIN-R
FIO-MICIN-L
L2
L3
FERB
J1
FERB
C37
1
3
5
7
9
2
4
6
8
10
2
1
C33 100u
C35 100u
C38
MIC2-JD
HP-JD
HP-OUT-L
HP-OUT-L
Key
FIO-MICIN
100P
100P
For re-tasking purpose,
Non-Polarity Caps are
CON10A
recommended
Front panel header
FIO-JD
JACK 2
4
3
5
FHP-JD-RETURN
FIO-HPOUT-R
FIO-HPOUT-L
L4
L5
FERB
FERB
C40
2
1
C41
FIO-HPOUT
100P
100P
Figure 21. Front Panel Header and Front Panel I/O Cable
2+2 Channel High Definition Audio Codec
67
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
As the ALC268 series does not support LINE2 (port-E) or HP-OUT (port-A), these pins may be
connected to the front panel header as the headphone output. To accommodate the ALC268 series and
ALC262 series on the same front panel I/O cable, the connection of the front panel header in Figure 21 is
modified. Please contact Realtek to confirm your design can accommodate all ALC series HD Audio
Codecs.
S/PDIF module option 1: Optical
U3
Optical Transmitter
TOTX178
5
4
N.C
N.C
R21 10
C39
0.1u
S/PDIF-OUT
+5VD
S/PDIF module option 2: Coaxial
S/PDIF OUTPUT
C42
R23 200
J3
1
S/PDIF-OUT
C43 0.01u
100P
R24
100
Figure 22. S/PDIF-OUT Connection
2+2 Channel High Definition Audio Codec
68
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
10.5. Digital Microphone Implementation
This section describes the ALC268 series digital microphone implementation. There is one Clock output
pin and 1 Data input pin in the ALC268 series. The ALC268 series provide the clock signal to the digital
microphone. When the digital microphone receives the external sound input, it converts the analog signals
to digital in a 1-bit format. The 1-bit data is delivered to the codec though the data input pin. The Digital
Filter in the audio codec converts the 1-bit data stream into Pulse Code Modulation (PCM) data. The
PCM data is sent to the HDA controller through the HDA link.
Figure 23. Digital Microphone Implementation-1
The ALC268Q supports a two-wire interface (DMIC-CLK and DMIC-DATA) for the digital microphone
and operates in single-channel (mono type) or stereo-channels (stereo) digital microphone mode. One pin
is clock output to the digital microphone, and the other two are serial pins. The default clock output is
2.048MHz.
The ALC268 and ALC268-VB1 support a 3-wire interface. DMIC-CLK is clock output to a digital
microphone, DMIC-12 and DMIC-34 are data inputs from a digital microphone. With the extra data pin
DMIC-34, the ALC268 and ALC268-VB1 can support up to 4 channels of digital microphone input.
In Type 1 (Figure 24), the ALC268 uses one data pin to support mono input from digital microphones
with an LMV1024 (L), SPD0205ND (L), or AKU2000 (L).
In Type 2 (Figure 24), the ALC268 uses one data pin to support stereo inputs from digital microphones
with an LMV1024/1026 (L/R), SPD0205ND (L & R), or AKU2000 (L & R).
Figure 24. Digital Microphone Implementation-2
2+2 Channel High Definition Audio Codec
69
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
11. Mechanical Dimensions
11.1. LQFP-48 Mechanical Dimensions (ALC268/ALC268-VB)
L
L1
SYMBOL
MILLIMETER
MIN. TYP MAX. MIN.
INCH
TYP MAX
A
A1
A2
c
-
-
1.60
0.15
1.45
0.20
-
-
-
0.063
0.006
0.05
1.35
0.09
-
0.002
1.40
0.053 0.055 0.057
TITLE: LQFP-48 (7.0x7.0x1.6mm)
PACKAGE OUTLINE DRAWING,
FOOTPRINT 2.0mm
-
0.004
-
0.008
D
9.00 BSC
7.00 BSC
5.50
0.354 BSC
0.276 BSC
0.217
D1
D2
E
LEADFRAME MATERIAL
APPROVE
DOC. NO.
9.00 BSC
7.00 BSC
5.50
0.354 BSC
0.276 BSC
0.217
VERSION 02
DWG NO. PKGC-065
DATE
E1
E2
b
CHECK
0.17
0.20
0.27
0.007 0.008 0.011
0.0196 BSC
0o
REALTEK SEMICONDUCTOR CORP.
e
0.50 BSC
3.5o
TH
L
0o
0.45
-
7o
0.75
-
3.5o
7o
0.60
0.018 0.0236 0.030
0.0393
L1
1.00
-
-
2+2 Channel High Definition Audio Codec
70
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
11.2. QFN-48 Mechanical Dimensions (ALC268Q)
SYMBOL
MILLIMETER
INCH
MIN. TYP MAX. MIN. TYP MAX
A
A1
A2
A3
b
0.80 0.85
0.00 0.02
1.00 0.031 0.033 0.039
0.05 0.000 0.001 0.002
-
-
0.65
0.20
1.00
0
-
-
0.026 0.039
0.008
TITLE: QFN-48 (7.0x7.0x1.0mm)
PACKAGE OUTLINE DRAWING
LEADFRAME MATERIAL
-
0.18 0.23
7.00BSC
6.75BSC
2.25 4.70
0.30 0.007 0.009 0.012
0.276BSC
D
APPROVE
DOC. NO.
VERSION
DWG NO.
DATE
D1
D2
E
0.266BSC
5.25 0.089 0.185 0.207
0.276 BSC
CHECK
7.00BSC
6.75BSC
E1
E2
e
0.266 BSC
REALTEK SEMICONDUCTOR CORP.
2.25 4.70
0.50BSC
5.25 0.089 0.185 0.207
0.020BSC
L
0.30 0.40
0.50 0.012 0.016 0.020
TH
aaa
bbb
chamfer
0o
-
-
-
-
-
12o
0o
-
-
-
-
-
12o
0.25
0.10
0.60
0.010
0.004
0.024
-
-
-
-
2+2 Channel High Definition Audio Codec
71
Track ID: JATR-1076-21 Rev. 1.3
ALC268 Series
Datasheet
12. Ordering Information
Table 82. Ordering Information
Part Number
ALC268-GR
Package
Status
LQFP-48 & ‘Green’ Package (ALC268 Version A)
QFN-48 & ‘Green’ Package (ALC268 Version A)
ALC268 Version B1, LQFP-48 with ‘Green’ Package
Mass Production
Mass Production
Mass Production
ALC268Q-GR
ALC268-VB1-GR
Note 1: See page 6 and page 7 for Green package and version identification.
Note 2: Above parts are tested under AVDD =5.0V. If customers have lower AVDD request, please contact Realtek sales
representatives or agents.
Realtek Semiconductor Corp.
Headquarters
No. 2, Innovation Road II
Hsinchu Science Park, Hsinchu 300, Taiwan
Tel.: +886-3-578-0211. Fax: +886-3-577-6047
www.realtek.com.tw
2+2 Channel High Definition Audio Codec
72
Track ID: JATR-1076-21 Rev. 1.3
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