AD1881AJST [ADI]
AC’97 SoundMAX Codec; AC'97的SoundMAX编解码器型号: | AD1881AJST |
厂家: | ADI |
描述: | AC’97 SoundMAX Codec |
文件: | 总26页 (文件大小:261K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
®
a
AC’97 SoundMAX Codec
AD1881A
AC’97 2.1 FEATURES
Variable Sample Rate
ENHANCED FEATURES
Mobile Low Power Mixer Mode
True Line-Level Output
Supports Secondary Codec Modes
Digital Audio Mixer Mode
Full Duplex Variable 8 kHz to 48 kHz Sampling Rate
with 1 Hz Resolution
PHAT™ Stereo 3D Stereo Enhancement
Split Power Supplies (3.3 V Digital/5 V Analog)
Extended 6-Bit Master Volume Control
Audio Amp Power-Down Signal
AC’97 FEATURES
Designed for AC’97 Analog I/O Component
48-Lead LQFP Package
Multibit ⌺⌬ Converter Architecture for Improved
S/N Ratio Greater than 90 dB
16-Bit Stereo Full-Duplex Codec
Four Analog Line-Level Stereo Inputs for Connection
from LINE, CD, VIDEO, and AUX
Two Analog Line-Level Mono Inputs for Speakerphone
and PC BEEP
Mono MIC Input Switchable from Two External
Sources
High Quality CD Input with Ground Sense
Stereo Line-Level Output
Mono Output for Speakerphone or Internal Speaker
Power Management Support
FUNCTIONAL BLOCK DIAGRAM
CS0 CS1
EAPD
MODE
AD1881A
MODE/SYNCHRONIZER
MIC1
MIC2
0dB/
20dB
LINE_IN
AUX
16-BIT
⌺⌬ A/D
PGA
PGA
CONVERTER
CD
16-BIT
⌺⌬ A/D
CONVERTER
RESET
VIDEO
PHONE_IN
SYNC
SAMPLE
RATE
GENERATORS
MONO_OUT
MV
BIT_CLK
G
A
M
G
A
M
G
A
M
G
A
M
G
A
M
G
A
M
⌺
⌺
⌺
LNLVL_OUT_L
SDATA_OUT
⌺
POP
G
A
M
16-BIT
⌺⌬ D/A
PHAT
MV
MV
⌺
⌺
⌺
⌺
⌺
⌺
⌺
LINE_OUT_L
SDATA_IN
STEREO
NC
NC
CONVERTER
D
A
M
G
A
M
16-BIT
⌺⌬ D/A
CONVERTER
PHAT
STEREO
⌺
⌺
LINE_OUT_R
LNLVL_OUT_R
PC_BEEP
⌺
⌺
⌺
⌺
⌺
⌺
POP
G = GAIN
A = ATTENUATE
M = MUTE
MV = MASTER VOLUME
NC = NO CONNECT
A
M
OSCILLATORS
XTL_OUT
XTL_IN
SoundMAX is a registered trademark and PHAT is a trademark of Analog Device, Inc.
REV. 0
Information furnished by Analog Devices is believed to be accurate and
reliable. However, no responsibility is assumed by Analog Devices for its
use, nor for any infringements of patents or other rights of third parties
which may result from its use. No license is granted by implication or
otherwise under any patent or patent rights of Analog Devices.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781/329-4700
Fax: 781/326-8703
World Wide Web Site: http://www.analog.com
© Analog Devices, Inc., 2000
AD1881A–SPECIFICATIONS
STANDARD TEST CONDITIONS UNLESS OTHERWISE NOTED
Temperature
Digital Supply (VDD
Analog Supply (VCC
Sample Rate (FS)
Input Signal
25
°C
V
V
kHz
Hz
DAC Test Conditions
Calibrated
–3 dB Attenuation Relative to Full-Scale
Input 0 dB
10 kΩ Output Load
ADC Test Conditions
Calibrated
)
)
3.3
5.0
48
1008
0 dB Gain
Input –3.0 dB Relative to Full-Scale
ANALOG INPUT
Parameter
Min
Typ
Max
Unit
Input Voltage (RMS Values Assume Sine Wave Input)
LINE_IN, AUX, CD, VIDEO, PHONE_IN, PC_BEEP
1
V rms
V p-p
V rms
V p-p
V rms
V p-p
kΩ
2.83
0.1
0.283
1
2.83
20
MIC with +20 dB Gain (M20 = 1)
MIC with 0 dB Gain (M20 = 0)
Input Impedance*
Input Capacitance*
5
7.5
pF
MASTER VOLUME
Parameter
Min
Typ
Max
Unit
Step Size (0 dB to –94.5 dB); LINE_OUT_L, LINE_OUT_R
Output Attenuation Range Span*
Step Size (0 dB to –46.5 dB); MONO_OUT
Output Attenuation Range Span*
1.5
–94.5
1.5
dB
dB
dB
dB
dB
–46.5
Mute Attenuation of 0 dB Fundamental*
80
PROGRAMMABLE GAIN AMPLIFIER—ADC
Parameter
Min
Min
Typ
Max
Unit
Step Size (0 dB to 22.5 dB)
PGA Gain Range Span
1.5
22.5
dB
dB
ANALOG MIXER—INPUT GAIN/AMPLIFIERS/ATTENUATORS
Parameter
Typ
Max
Unit
Signal-to-Noise Ratio (SNR)
CD to LINE_OUT
Other to LINE_OUT
90
90
dB
dB
Step Size (+12 dB to –34.5 dB): (All Steps Tested)
MIC, LINE_IN, AUX, CD, VIDEO, PHONE_IN, DAC
Input Gain/Attenuation Range: MIC, LINE, AUX, CD, VIDEO, PHONE_IN, DAC
Step Size (0 dB to –45 dB): (All Steps Tested) PC_BEEP
Input Gain/Attenuation Range: PC_BEEP
1.5
–46.5
3.0
–45
dB
dB
dB
dB
*Guaranteed, not tested.
Specifications subject to change without notice.
REV. 0
–2–
AD1881A
DIGITAL DECIMATION AND INTERPOLATION FILTERS*
Parameter
Min
Typ
Max
Unit
Passband
0
0.4 × FS
0.09
0.6 × FS
∞
Hz
dB
Hz
Hz
dB
sec
µs
Passband Ripple
Transition Band
Stopband
Stopband Rejection
Group Delay
0.4 × FS
0.6 × FS
–74
12/FS
0.0
Group Delay Variation Over Passband
ANALOG-TO-DIGITAL CONVERTERS
Parameter
Min
Typ
Max
Unit
Resolution
Total Harmonic Distortion (THD)
16
Bits
%
dB
dB
dB
0.02
–74
Dynamic Range (–60 dB Input THD+N Referenced to Full Scale, A-Weighted)
Signal-to-Intermodulation Distortion* (CCIF Method)
ADC Crosstalk*
87
85
Line Inputs (Input L, Ground R, Read R; Input R, Ground L, Read L)
LINE_IN to Other
Gain Error (Full-Scale Span Relative to Nominal Input Voltage)
Interchannel Gain Mismatch (Difference of Gain Errors)
ADC Offset Error
–100
–90
–90
–85
10
0.5
10.5
dB
dB
%
dB
mV
DIGITAL-TO-ANALOG CONVERTERS
Parameter
Min
Typ
Max
Unit
Resolution
16
Bits
%
dB
dB
dB
%
Total Harmonic Distortion (THD) LINE_OUT, LNLVL_OUT
0.02
–74
Dynamic Range (–60 dB Input THD+N Referenced to Full Scale, A-Weighted)
Signal-to-Intermodulation Distortion* (CCIF Method)
Gain Error (Full-Scale Span Relative to Nominal Input Voltage)
Interchannel Gain Mismatch (Difference of Gain Errors)
DAC Crosstalk* (Input L, Zero R, Measure R_OUT; Input R, Zero L,
Measure L_OUT)
90
85
10
0.7
–80
dB
dB
Total Audible Out-of-Band Energy (Measured from 0.6 × FS to 20 kHz)*
–40
dB
ANALOG OUTPUT
Parameter
Min
Typ
Max
Unit
Full-Scale Output Voltage
(LINE_OUT, LNLVL_OUT)
Output Impedance*
External Load Impedance*
1
2.83
V rms
V p-p
Ω
kΩ
pF
500
10
Output Capacitance*
15
External Load Capacitance
VREF
VREF_OUT
100
2.5
pF
V
V
mV
2.0
2.2
2.2
5
Mute Click (Muted Output Minus Unmuted Midscale DAC Output)
*Guaranteed, not tested.
Specifications subject to change without notice.
REV. 0
–3–
AD1881A–SPECIFICATIONS
STATIC DIGITAL SPECIFICATIONS
Parameter
Min
Typ
Max
Unit
High Level Input Voltage (VIH): Digital Inputs
Low Level Input Voltage (VIL)
High Level Output Voltage (VOH), IOH = –0.5 mA
Low Level Output Voltage (VOL), IOL = +0.5 mA
Input Leakage Current
0.65 × DVDD
V
V
V
V
µA
µA
0.35 × DVDD
0.9 × DVDD
0.1 × DVDD
+10
+10
–10
–10
Output Leakage Current
POWER SUPPLY
Parameter
Min
Typ
Max
Unit
Power Supply Range – Analog
Power Supply Range – Digital (3.3 V)
Power Dissipation – 5 V/3.3 V
Analog Supply Current – 5 V
Digital Supply Current – 3.3 V
4.75
3.0
5.25
3.6
V
V
mW
mA
mA
dB
280
40
23
Power Supply Rejection (100 mV p-p Signal @ 1 kHz)*
40
(At Both Analog and Digital Supply Pins, Both ADCs and DACs)
CLOCK SPECIFICATIONS*
Parameter
Min
Typ
Max
Unit
Input Clock Frequency
Recommended Clock Duty Cycle
24.576
50
MHz
%
45
55
POWER-DOWN MODE
DVDD (3.3 V)
Typ
AVDD (5 V)
Typ
Parameter
Set Bits
Unit
ADC
DAC
PR0
PR1
PR1, PR0
17
17
4
30
26
20
12
18
12
8
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
ADC and DAC
ADC + DAC + Mixer (Analog CD On) LPMIX, PR1, PR0
Mixer
ADC + Mixer
4
PR2
PR2, PR0
PR2, PR1
PR2, PR1, PR0
LPMIX, PR5, PR1, PR0
LPMIX, PR1, PR0, PR4, PR5
PR5, PR4, PR3, PR2, PR1, PR0
20
17
17
4
4
0
DAC + Mixer
ADC + DAC + Mixer
Analog CD Only (AC-Link On)
Analog CD Only (AC-Link Off)
Standby
2
12
12
0.1
0
*Guaranteed, not tested.
Specifications subject to change without notice.
REV. 0
–4–
AD1881A
TIMING PARAMETERS1 (GUARANTEED OVER OPERATING TEMPERATURE RANGE)
Parameter
Symbol
Min
Typ
Max
Unit
RESET Active Low Pulsewidth
RESET Inactive to BIT_CLK Startup Delay
SYNC Active High Pulsewidth
SYNC Low Pulsewidth
tRST_LOW
tRST2CLK
tSYNC_HIGH
tSYNC_LOW
tSYNC2CLK
50
ns
µs
ns
µs
ns
833
80
19.5
SYNC Inactive to BIT_CLK Startup Delay
162.8
BIT_CLK Frequency
12.288
81.4
MHz
ns
ps
BIT_CLK Period
tCLK_PERIOD
BIT_CLK Output Jitter2
750
BIT_CLK High Pulsewidth
BIT_CLK Low Pulsewidth
SYNC Frequency
tCLK_HIGH
tCLK_LOW
36.62
36.62
40.69
40.69
48.0
20.8
2.5
44.76 ns
44.76 ns
kHz
µs
SYNC Period
tSYNC_PERIOD
tSETUP
tHOLD
Setup to Falling Edge of BIT_CLK
Hold from Falling Edge of BIT_CLK
BIT_CLK Rise Time
BIT_CLK Fall Time
SYNC Rise Time
SYNC Fall Time
SDATA_IN Rise Time
SDATA_IN Fall Time
SDATA_OUT Rise Time
5
5
2
2
2
2
2
2
2
2
0
15
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ms
ns
ns
ns
ns
tRISECLK
tFALLCLK
tRISESYNC
tFALLSYNC
tRISEDIN
tFALLDIN
tRISEDOUT
tFALLDOUT
tS2_PDOWN
tSETUP2RST
tOFF
4
4
4
4
4
4
4
4
10
10
10
10
10
10
10
10
10
SDATA_OUT Fall Time
End of Slot 2 to BIT_CLK, SDATA_IN Low
Setup to Trailing Edge of RESET (Applies to SYNC, SDATA_OUT)
Rising Edge of RESET to HI-Z Delay (ATE Test Mode)
Propagation Delay
25
15
50
RESET Rise Time
NOTES
1Guaranteed, not tested.
2Output jitter is directly dependent on crystal input jitter.
Specifications subject to change without notice.
REV. 0
–5–
AD1881A
tRST_LOW
BIT_CLK
SYNC
tRST2CLK
RESET
tRISECLK
tFALLCLK
tFALLSYNC
tFALLDIN
BIT_CLK
Figure 1. Cold Reset
tRISESYNC
SDATA_IN
tRISEDIN
tRST2CLK
tSYNC_HIGH
SYNC
SDATA_OUT
tRISEDOUT
BIT_CLK
tFALLDOUT
Figure 2. Warm Reset
Figure 5. Signal Rise and Fall Time
tCLK_LOW
SLOT 2
SLOT 1
SYNC
BIT_CLK
tCLK_HIGH
tCLK_PERIOD
BIT_CLK
WRITE
TO 0x26
DATA
PR4
DON’T
CARE
tSYNC_LOW
SDATA_OUT
SDATA_IN
SYNC
tS2_PDOWN
tSYNC_HIGH
tSYNC_PERIOD
NOTE: BIT_CLK NOT TO SCALE
Figure 3. Clock Timing
Figure 6. AC Link Low Power Mode Timing
tSETUP
RESET
BIT_CLK
SYNC
SDATA_OUT
tSETUP2RST
SDATA_IN, BIT_CLK
SDATA_OUT
HI-Z
tOFF
tHOLD
Figure 7. ATE Test Mode
Figure 4. Data Setup and Hold
REV. 0
–6–
AD1881A
ORDERING GUIDE
ABSOLUTE MAXIMUM RATINGS*
Temperature
Range
Package
Description
Package
Option
Parameter
Min Max
Unit
Model
AD1881AJST 0°C to 70°C
Power Supplies
Digital (VDD
Analog (VCC
48-Lead LQFP
ST-48
)
)
–0.3 +3.6
–0.3 +6.0
V
V
Analog Input Voltage (Signal Pins) –0.3 VCC + 0.3
V
V
°C
°C
ENVIRONMENTAL CONDITIONS
Ambient Temperature Rating
Digital Input Voltage (Signal Pins)
Ambient Temperature (Operating)
Storage Temperature
–0.3
0
–65
V
+70
+150
DD + 0.3
TAMB = TCASE – (PD × θCA
TCASE = Case Temperature in °C
D = Power Dissipation in W
)
*Stresses greater than those listed under Absolute Maximum Ratings may cause
permanent damage to the device. This is a stress rating only; functional operation
of the device at these or any other conditions above those indicated in the
operationalsectionofthisspecificationisnotimplied. Exposuretoabsolute maximum
rating conditions for extended periods may affect device reliability.
P
θCA = Thermal Resistance (Case-to-Ambient)
θJA = Thermal Resistance (Junction-to-Ambient)
θJC = Thermal Resistance (Junction-to-Case)
Package
JA
JC
CA
LQFP
76.2°C/W
17°C/W
59.2°C/W
CAUTION
ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000 V readily
accumulate on the human body and test equipment and can discharge without detection. Although
the AD1881A features proprietary ESD protection circuitry, permanent damage may occur on
devices subjected to high-energy electrostatic discharges. Therefore, proper ESD precautions are
recommended to avoid performance degradation or loss of functionality.
WARNING!
ESD SENSITIVE DEVICE
PIN CONFIGURATION
48-Lead LQFP
48 47 46 45 44 43 42 41 40 39 38 37
1
DV
DD1
36
35
LINE_OUT_R
PIN 1
IDENTIFIER
2
3
XTL_IN
LINE_OUT_L
CX3D
XTL_OUT
34
33
4
5
6
7
DV
RX3D
SS1
SDATA_OUT
BIT_CLK
FILT_L
32
31
AD1881A
TOP VIEW
(Not to Scale)
FILT_R
AFILT2
DV
30
29
SS2
8
9
SDATA_IN
AFILT1
VREFOUT
VREF
DV
28
27
DD2
10
11
SYNC
RESET
26
25
AV
SS1
DD1
12
PC_BEEP
AV
13 14 15 16 17 18 19 20 21 22 23 24
NC = NO CONNECT
REV. 0
–7–
AD1881A
PIN FUNCTION DESCRIPTIONS
Description
Digital I/O
Pin Name
LQFP
I/O
XTL_IN
2
I
Crystal (or Clock) Input, 24.576 MHz.
XTL_OUT
SDATA_OUT
BIT_CLK
SDATA_IN
SYNC
3
5
6
8
10
11
O
I
O
O
I
Crystal Output.
AC-Link Serial Data Output, AD1881A Input Stream.
AC-Link Bit Clock. 12.288 MHz Serial Data Clock. Daisy Chain Output Clock.
AC-Link Serial Data Input. AD1881A Output Stream.
AC-Link Frame Sample Sync 48 kHz Fixed Rate.
AC-Link Reset. AD1881A Master H/W Reset.
RESET
I
Miscellaneous Connections
Pin Name
LQFP
I/O
Description
CS0
CS1
EAPD
MODE
45
46
47
48
I
I
O
I
Chip Select 0.
Chip Select 1.
External Amp Power-Down Control Signal, Default LO, Active HI
MODE Select.
Analog I/O
These signals connect the AD1881A component to analog sources and sinks, including microphones and speakers.
Pin Name
LQFP
I/O
Description
PC_BEEP
PHONE_IN
AUX_L
AUX_R
VIDEO_L
VIDEO_R
CD_L
CD_GND_REF
CD_ R
MIC1
MIC2
LINE_IN_L
LINE_IN_R
LINE_OUT_L
LINE_OUT_R
MONO_OUT
LNLVL_OUT_L
LNLVL_OUT_R
12
13
14
15
16
17
18
19
20
21
22
23
24
35
36
37
39
41
I
I
I
I
I
I
I
I
I
I
I
I
PC Beep. PC Speaker Beep Passthrough.
Phone. From Telephony Subsystem Speakerphone or Handset.
Auxiliary Input Left Channel.
Auxiliary Input Right Channel.
Video Audio Left Channel.
Video Audio Right Channel.
CD Audio Left Channel.
CD Audio Analog Ground Reference for Pseudo-Differential CD Input.
CD Audio Right Channel.
Microphone 1. Desktop Microphone Input.
Microphone 2. Second Microphone Input.
Line In Left Channel.
Line In Right Channel.
Line Out Left Channel.
Line Out Right Channel.
Monaural Output to Telephony Subsystem Speakerphone.
Line-Level Output Left Channel.
Line-Level Output Right Channel.
I
O
O
O
O
O
Filter/Reference
These signals are connected to resistors, capacitors, or specific voltages.
Pin Name
LQFP
I/O
Description
VREF
27
28
29
30
31
32
33
34
O
O
O
O
O
O
O
I
Voltage Reference Filter.
VREFOUT
AFILT1
AFILT2
FILT_R
FILT_L
RX3D
Voltage Reference Output 5 mA Drive (Intended for MIC Bias).
Antialiasing Filter Capacitor—ADC Right Channel.
Antialiasing Filter Capacitor—ADC Left Channel.
AC-Coupling Filter Capacitor—ADC Right Channel.
AC-Coupling Filter Capacitor—ADC Left Channel.
3D PHAT Stereo Enhancement—Capacitor.
3D PHAT Stereo Enhancement—Capacitor.
CX3D
REV. 0
–8–
AD1881A
Power and Ground Signals
Pin Name
LQFP
Type
Description
DVDD1
DVSS1
DVSS2
DVDD2
AVDD1
AVSS1
AVDD2
AVSS2
1
4
7
9
25
26
38
42
I
I
I
I
I
I
I
I
Digital VDD 3.3 V
Digital GND
Digital GND
Digital VDD 3.3 V
Analog VDD 5.0 V
Analog GND
Analog VDD 5.0 V
Analog GND
No Connects
Pin Name
LQFP
Type
Description
NC
NC
NC
40
43
44
No Connect
No Connect
No Connect
0
MIC1
MIC2
0dB/20dB
M20 0x0E
AD1881A
MS
LS/RS (0)
LS (4)
1
0x20
LINE_IN
AUX
RS (4)
GM 0
LIM
IM
X1C
16-BIT
⌺⌬ A/D
LS (3)
RS (3)
S
E
L
E
C
T
LS (1)
RS (1)
CD
LS (2)
RS (2)
VIDEO
O
R
PHONE_IN
LS/RS (7)
GM 0
RIM
IM
X1C
16-BIT
⌺⌬ A/D
STEREO MIX (L)
MONO MIX
LS (5)
LS/RS (6)
RS (5)
STEREO MIX (R)
RESET
MONO_OUT
MV
S 0x1A
MIX
0x20
SYNC
⌺
GA 0x0C
GA 0x0E GA 0x10
GA 0x14
GA 0x16 GA 0x12
LPBK
0x20
PCM DAC RATE 0x2C
SR1 0x7A
PHV
MCV
LLV
RLA
LCV
RCV
LAV
RAV
LVV
RVV
⌺
⌺
BIT_CLK
M
0x0C
PCM ADC RATE 0x32
M
0x0E
M
0x10
M
0x14
M
0x16
M
0x12
PHM
SDATA_OUT
SDATA_IN
SR0
0x78
MCM
LM
CM
AM
VM
LNLVL_OUT_L
LINE_OUT_L
POP
0x20
GAM 0x18
LOV
OM
0x02
MM
02
16-BIT
0x22
DP
⌺⌬ D/A
PHAT
0x20
LMV
⌺
⌺
⌺
⌺
⌺
⌺
⌺
NC
0x20
POP
NC
0x22
DP
02
PHAT
0x20
0x02
MM
LINE_OUT_R
⌺
⌺
⌺
⌺
⌺
⌺
⌺
GAM 0x18
LMV
16-BIT
⌺⌬ D/A
ROV
OM
POP
0x20
LNLVL_OUT_R
PC_BEEP
M 0x0A
PCM
G = GAIN
A = ATTENUATE
M = MUTE
A 0x0A
PCV
MV = MASTER VOLUME
OSCILLATORS
XTL_OUT
XTL_IN
Figure 8. Block Diagram Register Map
REV. 0
–9–
AD1881A
PRODUCT OVERVIEW
Analog-to-Digital Signal Path
The AD1881A meets the Audio Codec ’97 2.0 and 2.1 Extensions. In
addition, the AD1881A SoundMAX Codec is designed to meet all
requirements of the Audio Codec ’97, Component Specification, Revi-
sion 1.03, © 1996, Intel Corporation, found at www.Intel.com.
The AD1881A also includes some other Codec enhanced fea-
tures such as the built-in PHAT Stereo 3D enhancement.
The selector sends left and right channel information to the
programmable gain amplifier (PGA). The PGA following the
selector allows independent gain control for each channel entering
the ADC from 0 dB to +22.5 dB in 1.5 dB steps. Each channel
of the ADC is independent, and can process left and right chan-
nel data at different sample rates.
The AD1881A is an analog front end for high performance PC
audio applications. The AC’97 architecture defines a 2-chip
audio solution comprising a digital audio controller, plus a high
quality analog component that includes Digital-to-Analog
Converters (DACs), Analog-to-Digital Converters (ADCs),
mixer and I/O.
Sample Rates and D2S
The AD1881A default mode sets the Codec to operate at 48 kHz
sample rates. The converter pairs may process left and right
channel data at different sample rates. The AD1881A sample
rate generator allows the Codec to instantaneously change and
process sample rates from 8 kHz to 48 kHz with a resolution
of 1 Hz. The in-band integrated noise and distortion artifacts
introduced by rate conversions are below –90 dB. The AD1881A
uses a 4-bit D/A structure and Data Directed Scrambling (D2S)
to enhance noise immunity on motherboards and in PC enclo-
sures, and to suppress idle tones below the device’s quantization
noise floor. The D2S process pushes noise and distortion artifacts
caused by errors in the multibit DAC to frequencies beyond the
auditory response of the human ear and then filters them.
The main architectural features of the AD1881A are the high
quality analog mixer section, two channels of Σ∆ ADC conversion,
two channels of Σ∆ DAC conversion with Data Direct Scram-
bling (D2S) rate generators. The AD1881A’s left channel ADC
and DAC are compatible for modem applications supporting irra-
tional sample rates and modem filtering requirements.
FUNCTIONAL DESCRIPTION
This section overviews the functionality of the AD1881A and
is intended as a general introduction to the capabilities of the
device. Detailed reference information may be found in the
descriptions of the Indexed Control Registers.
Digital-to-Analog Signal Path
The analog output of the DAC may be gained or attenuated from
+12 dB to –34.5 dB in 1.5 dB steps, and summed with any of
the analog input signals. The summed analog signal enters the
Master Volume stage where each channel of the mixer output may
be attenuated from 0 dB to –94.5 dB in 1.5 dB steps or muted.
Analog Inputs
The Codec contains a stereo pair of Σ∆ ADCs. Inputs to the
ADC may be selected from the following analog signals: tele-
phony (PHONE_IN), mono microphone (MIC1 or MIC2),
stereo line (LINE_IN), auxiliary line input (AUX), stereo CD
ROM (CD), stereo audio from a video source (VIDEO) and
post-mixed stereo or mono line output (LINE_OUT).
Line-Level Outputs
The AD1881A offers a true line-level output for notebook dock-
ing station and home theater applications. The line-level output
does not change with master volume settings.
Host-Based Echo Cancellation Support
Analog Mixing
The AD1881A supports time correlated I/O data format by pre-
senting MIC data on the left channel of the ADC and the mono
summation of left and right output on the right channel. The
ADC is splittable; left and right ADC data can be sampled at
different rates.
PHONE_IN, MIC1 or MIC2, LINE_IN, AUX, CD and VIDEO
can be mixed in the analog domain with the stereo output from the
DACs. Each channel of the stereo analog inputs may be inde-
pendently gained or attenuated from +12 dB to –34.5 dB in 1.5 dB
steps. The summing path for the mono inputs (PHONE_IN, MIC1,
and MIC2 to LINE_OUT) duplicates mono channel data on both
the left and right LINE_OUT. Additionally, the PC attention sig-
nal (PC_BEEP) may be mixed with the line output. A switch
allows the output of the DACs to bypass the PHAT Stereo
3D enhancement.
Power Management Modes
The AD1881A is designed to meet ACPI power consumption
requirements through flexible power management control of all
internal resources.
Digital Audio Mode
The AD1881A is designed with a Digital Audio Mode (DAM)
that allows mixing of all analog inputs independent of the DAC
output signal path. Mixed analog input signals may be sent to
the ADCs for processing by the controller or the host, and may
be used during simultaneous capture and playback at different
sample rates.
REV. 0
–10–
AD1881A
Indexed Control Registers
Reg
Num
Name
D15
X
D14
SE4
X
D13
D12
D11
D10
D9
D8
D7
ID7
X
D6
ID6
X
D5
D4
D3
D2
D1
D0
Default
00h
02h
04h
06h
Reset
SE3
SE2
SE1
SE0
ID9
ID8
ID5
ID4
ID3
ID2
ID1
ID0
0410h
Master Volume
Reserved
MM
X
LMV5 LMV4 LMV3 LMV2 LMV1 LMV0
RMV5 RMV4 RMV3 RMV2 RMV1 RMV0 8000h
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Master Volume Mono
MMM
X
X
X
MMV MMV MMV MMV MMV 8000h
4
2
2
1
0
08h
0Ah
0Ch
0Eh
10h
12h
14h
16h
18h
1Ah
1Ch
1Eh
20h
22h
26h
28h
2Ah
Reserved
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
ID0
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
SR5
X
X
X
X
X
X
X
PC Beep Volume
Phone In Volume
MIC Volume
PCM
PHM
MCM
LM
CVM
VM
AM
OM
X
X
X
X
PCV3 PCV2 PCV1 PCV0
8000h
X
X
X
PHV4 PHV3 PHV2 PHV1 PHV0 8008h
MCV4 MCV3 MCV2 MCV1 MCV0 8008h
RLV4 RLV3 RLV2 RLV1 RLV0 8808h
RCV4 RCV3 RCV2 RCV1 RCV0 8808h
RVV4 RVV3 RVV2 RVV1 RVV0 8808h
RAV4 RAV3 RAV2 RAV1 RAV0 8808h
ROV4 ROV3 ROV2 ROV1 ROV0 8808h
X
X
M20
X
Line In Volume
CD Volume
X
LLV4 LLV3 LLV2 LLV1 LLV0
LCV4 LCV3 LCV2 LCV1 LCV0
LVV4 LVV3 LVV2 LVV1 LVV0
LAV4 LAV3 LAV2 LAV1 LAV0
LOV4 LOV3 LOV2 LOV1 LOV0
X
X
X
X
Video Volume
Aux Volume
X
X
X
X
X
X
PCM Out Vol
X
X
X
Record Select
X
X
X
LS2
LS1
LS0
X
X
X
X
RS2
RS1
RS0
0000h
Record Gain
IM
X
X
LIM3 LIM2 LIM1 LIM0
X
X
X
RIM3 RIM2 RIM1 RIM0 8000h
Reserved
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
General Purpose
3D Control
POP
X
3D
X
X
X
X
MIX MS
LPBK
X
X
X
X
X
X
X
0000h
0000h
000Xh
0001h
0000h
BB80h
X
X
X
X
X
X
X
DP3
REF
X
DP2
DP1
DP0
Power-Down Cntrl/Stat
Extended Audio ID
Extended Audio Stat/Ctrl
PCM DAC Rate (SR1)
EAPD
ID1
X
PR5
X
PR4
X
PR3
X
PR2
X
PR1
X
PR0
X
X
X
X
ANL DAC ADC
X
X
X
X
X
VRA
VRA
SR0
X
X
X
X
X
X
X
X
X
X
X
X
2Ch/
SR15
SR14 SR13 SR12 SR11 SR10 SR9
SR8
SR7
SR6
SR4
SR3
SR2
SR1
(7Ah)*
32h /
PCM ADC Rate (SR0)
SR15
SR14 SR13 SR12 SR11 SR10 SR9
SR8
SR7
SR6
SR5
SR4
SR3
SR2
SR1
SR0
BB80h
(78h)*
34h
Reserved
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
X
..
5ah
70h
Vendor Reserved**
72h
74h
Reserved
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Serial Configuration
SLOT
16
7X0Xh
76h
Misc. Control Bits
DAC
Z
LPMI
X
X
DAM DMS DLSR
X
ALSR MOD SRX
SRX
X
X
DRSR
X
ARSR 0404h
EN
10D7 8D7
7Ch
Vendor ID1
Vendor ID2
F7
T7
F6
T6
F5
T5
F4
T4
F3
T3
F2
T2
F1
T1
F0
T0
S7
S6 S5
S4
S3
S2
S1
S0
4144h
7Eh
REV7 REV6 REV5 REV4 REV3 REV2 REV1 REV0 5348h
NOTES
All registers not shown and bits containing an X are assumed to be reserved.
Odd register addresses are aliased to the next lower even address.
Reserved registers should not be written.
Zeros should be written to reserved bits.
*Indicates Aliased register for AD1819, AD1819A backward compatibility.
**Vendor Reserved registers should not be written.
REV. 0
–11–
AD1881A
Reset (Index 00h)
Reg
Name
Num
D15 D14 D13 D12 D11 D10 D9
SE4 SE3 SE2 SE1 SE0 ID9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Default
0410h
00h
Reset
X
ID8
ID7
ID6
ID5
ID4
ID3
ID2
ID1
ID0
Note: Writing any value to this register performs a register reset, which causes all registers to revert to their default values (except
74h, which forces the serial configuration). Reading this register returns the ID code of the part and a code for the type of 3D Stereo
Enhancement.
ID[9:0] Identify Capability. The ID decodes the capabilities of AD1881A based on the following:
Bit = 1
Function
AD1881A
ID0
ID1
ID2
ID3
ID4
ID5
ID6
ID7
ID8
ID9
Dedicated MIC PCM In Channel
Modem Line Codec Support
Bass and Treble Control
Simulated Stereo (Mono to Stereo)
Headphone Out/True Line-Level Out
Loudness (Bass Boost) Support
18-Bit DAC Resolution
20-Bit DAC Resolution
18-Bit ADC Resolution
20-Bit ADC Resolution
0
0
0
0
1
0
0
0
0
0
SE[4:0] Stereo Enhancement. The 3D stereo enhancement identifies the Analog Devices 3D stereo enhancement.
Master Volume Registers (Index 02h)
Reg
Num
Name
D15
MM
D14
X
D13
D12
D11
D10
D9
D8
D7
X
D6
X
D5
D4
D3
D2
D1
D0
Default
Master
Volume
02h
LMV5 LMV4 LMV3 LMV2 LMV1 LMV0
RMV5 RMV4 RMV3 RMV2 RMV1 RMV0 8000h
RMV[5:0]
LMV[5:0]
MM
Right Master Volume Control. The least significant bit represents 1.5 dB. This register controls the output from
0 dB to a maximum attenuation of –94.5 dB.
Left Master Volume Control. The least significant bit represents 1.5 dB. This register controls the output from 0 dB to
a maximum attenuation of –94.5 dB.
Master Volume Mute. When this bit is set to “1,” the channel is muted.
MM
xMV5 . . . xMV0
Function
0
0
0
1
00 0000
01 1111
11 1111
xx xxxx
0 dB Attenuation
–46.5 dB Attenuation
–94.5 dB Attenuation
–
∞
dB Attenuation
Master Volume Mono (Index 06h)
Reg
Name
D15
D14 D13 D12 D11 D10 D9
D8
X
D7
X
D6
X
D5
X
D4
D3
D2
D1
D0
Default
Num
Master Volume
Mono
06h
MMM X
X
X
X
X
X
MMV4 MMV3 MMV2 MMV1 MMV0 8000h
MMV[4:0]
MMM
Mono Master Volume Control. The least significant bit represents 1.5 dB. This register controls the output from
0 dB to a maximum attenuation of –46.5 dB.
Mono Master Volume Mute. When this bit is set to “1,” the channel is muted.
REV. 0
–12–
AD1881A
PC Beep Register (Index 0Ah)
Reg
Name
D15
D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D0 Default
D3
D2
D1
Num
0Ah
PC_BEEP Volume PCM
X
X
X
X
X
X
X
X
PCV3 PCV2 PCV1 PCV0 X 8000h
PCV[3:0]
PC Beep Volume Control. The least significant bit represents 3 dB attenuation. This register controls the output
from 0 dB to a maximum attenuation of –45 dB. The PC Beep is routed to Left and Right Line outputs even when
the RESET pin is asserted. This is so that Power on Self-Test (POST) codes can be heard by the user in case of a
hardware problem with the PC.
PCM
PC Beep Mute. When this bit is set to “1,” the channel is muted.
PCM
PCV3 . . . PCV0
Function
0
0
1
0000
1111
xxxx
0 dB Attenuation
–45 dB Attenuation
–∞ dB Attenuation
Phone Volume (Index 0Ch)
Reg
Name
D15
D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4
D3
D2
D1
D0
Default
Num
0Ch
Phone Volume PHM
X
X
X
X
X
X
X
X
PHV4 PHV3 PHV2 PHV1 PHV0 8008h
PHV[4:0]
PHM
Phone Volume. Allows setting the Phone Volume Attenuator in 32 steps. The LSB represents 1.5 dB, and the
range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Phone Mute. When this bit is set to “1,” the channel is muted.
MIC Volume (Index 0Eh)
Reg
Num
Name
D15
D14 D13 D12 D11 D10 D9 D8 D7 D6
M20
D5 D4
D3
D2
D1
D0
Default
0Eh Mic Volume MCM
X
X
X
X
X
X
X
X
X MCV4 MCV3 MCV2 MCV1 MCV0 8008h
MCV[4:0]
M20
MIC Volume Gain. Allows setting the MIC Volume attenuator in 32 steps. The LSB represents 1.5 dB, and the
range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Microphone 20 dB Gain Block
0 = Disabled; Gain = 0 dB.
1 = Enabled; Gain = 20 dB.
MCM
MIC Mute. When this bit is set to “1,” the channel is muted.
Line In Volume (Index 10h)
Reg
Name
D15 D14 D13 D12
D11
D10
D9
D8
D7 D6 D5 D4
D3
D2
D1
D0
Default
Num
10h
Line InVolume LM
X
X
LLV4 LLV3 LLV2 LLV1 LLV0
X
X
X
RLV4 RLV3 RLV2 RLV1 RLV0 8808h
RLV[4:0]
LLV[4:0]
LM
Right Line In Volume. Allows setting the Line In right channel attenuator in 32 steps. The LSB represents 1.5 dB,
and the range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Line In Volume Left. Allows setting the Line In left channel attenuator in 32 steps. The LSB represents 1.5 dB, and
the range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Line In Mute. When this bit is set to “1,” the channel is muted.
REV. 0
–13–
AD1881A
CD Volume (Index 12h)
Reg
Name
D15 D14 D13 D12
D11
D10
D9
D8
D7
X
D6
X
D5
X
D4
D3
D2
D1
D0
Default
Num
12h
CD Volume CVM
X
X
LCV4 LCV3 LCV2 LCV1 LCV0
RCV4 RCV3 RCV2 RCV1 RCV0 8808h
RCV[4:0]
LCV[4:0]
CVM
Right CD Volume. Allows setting the CD right channel attenuator in 32 steps. The LSB represents 1.5 dB, and
the range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Left CD Volume. Allows setting the CD left channel attenuator in 32 steps. The LSB represents 1.5 dB, and the
range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
CD Volume Mute. When this bit is set to “1,” the channel is muted.
Video Volume (Index 14h)
Reg
Name
D15 D14 D13 D12
D11
D10
D9
D8
D7
X
D6
X
D5
X
D4
D3
D2
D1
D0
Default
Num
14h
Video Volume VM
X
X
LVV4 LVV3 LVV2 LVV1 LVV0
RVV4 RVV3 RVV2 RVV1 RVV0 8808h
RVV[4:0]
LVV[4:0]
VM
Right Video Volume. Allows setting the Video right channel attenuator in 32 steps. The LSB represents 1.5 dB,
and the range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Left Video Volume. Allows setting the Video left channel attenuator in 32 steps. The LSB represents 1.5 dB, and
the range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Video Mute. When this bit is set to “1,” the channel is muted.
AUX Volume (Index 16h)
Reg
Name
D15 D14 D13 D12
D11
D10
D9
D8
D7
X
D6
X
D5
X
D4
D3
D2
D1
D0
Default
Num
16h
Aux Volume AM
X
X
LAV4 LAV3 LAV2 LAV1 LAV0
RAV4 RAV3 RAV2 RAV1 RAV0 8808h
RAV[4:0]
LAV[4:0]
AM
Right Aux. Volume. Allows setting the Aux right channel attenuator in 32 steps. The LSB represents 1.5 dB, and
the range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Left Aux. Volume. Allows setting the Aux left channel attenuator in 32 steps. The LSB represents 1.5 dB, and the
range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Aux. Mute. When this bit is set to “1,” the channel is muted.
PCM Out Volume (Index 18h)
Reg
Name
D15 D14 D13 D12
D11
D10
D9
D8
D7
X
D6
X
D5
X
D4
D3
D2
D1
D0
Default
Num
18h
PCM Out
Volume
OM
X
X
LOV4 LOV3 LOV2 LOV1 LOV0
ROV4 ROV3 ROV2 ROV1 ROV0 8808h
ROV[4:0]
LOV[4:0]
OM
Right PCM Out Volume. Allows setting the PCM right channel attenuator in 32 steps. The LSB represents 1.5 dB,
and the range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
Left PCM Out Volume. Allows setting the PCM left channel attenuator in 32 steps. The LSB represents 1.5 dB,
and the range is +12 dB to –34.5 dB. The default value is 0 dB, mute enabled.
PCM Out Volume Mute. When this bit is set to “1,” the channel is muted.
Volume Table (Index 0Ch to 18h)
MM
x4 . . . x0
Function
0
0
0
1
00000
01000
11111
xxxxx
+12 dB Gain
0 dB Gain
–34.5 dB Gain
–∞ dB Gain
REV. 0
–14–
AD1881A
Record Select Control Register (Index 1Ah)
Reg
Name
D15 D14 D13 D12
D11
X
D10
LS2
D9
D8
D7
X
D6
X
D5
X
D4
X
D3
X
D2
D1
D0
Default
Num
1Ah Record Select
X
X
X
X
LS1
LS0
RS2
RS1
RS0
0000h
RS[2:0]
LS[2:0]
Right Record Select
Left Record Select.
Used to select the record source independently for right and left. See table for legend.
The default value is 0000h, which corresponds to MIC in.
RS2 . . . RS0
Right Record Source
0
1
2
3
4
5
6
7
MIC
CD_R
VIDEO_R
AUX_R
LINE_IN_R
Stereo Mix (R)
Mono Mix
PHONE_IN
LS2 . . . LS0
Left Record Source
0
1
2
3
4
5
6
7
MIC
CD_L
VIDEO_L
AUX_L
LINE_IN_L
Stereo Mix (L)
Mono Mix
PHONE_IN
Record Gain (Index 1Ch)
Reg
Name
D15 D14 D13 D12
D11
D10
D9
D8
D7
X
D6
X
D5
X
D4
X
D3
D2
D1
D0
Default
Num
1Ch Record Gain IM
X
X
X
LIM3 LIM2 LIM1 LIM0
RIM3 RIM2 RIM1 RIM0 8000h
RIM[3:0]
LIM[3:0]
IM
Right Input Mixer Gain Control. Each LSB represents 1.5 dB, 0000 = 0 dB and the range is 0 dB to +22.5 dB.
Left Input Mixer Gain Control. Each LSB represents 1.5 dB, 0000 = 0 dB and the range is 0 dB to +22.5 dB.
Input Mute.
0 = Unmuted,
1 = Muted or – dB gain.
∞
IM
xIM3 . . . xIM0 Function
0
0
1
1111
0000
xxxxx
+22.5 dB Gain
0 dB Gain
dB Gain
–
∞
REV. 0
–15–
AD1881A
General Purpose Register (Index 20h)
Reg
Name
D15
D14
X
D13
3D
D12
X
D11
X
D10
X
D9
D8
D7
D6
X
D5
X
D4
X
D3
X
D2
X
D1
X
D0
X
Default
0000h
Num
20h
General Purpose
POP
MIX MS
LPBK
Note: This register should be read before writing to generate a mask for only the bit(s) that need to be changed. The function
default value is 0000h which is all off.
LPBK
MS
Loopback Control. ADC/DAC Digital Loopback Mode
MIC Select
0 = MIC1.
1 = MIC2.
MIX
3D
Mono Output Select
0 = Mix.
1 = MIC.
3D PHAT Stereo Enhancement
0 = PHAT Stereo is off.
1 = PHAT Stereo is on.
POP
PCM Output Path and Mute. The POP bit controls the optional PCM out 3D bypass path (the pre- and post-3D
PCM out paths are mutually exclusive).
0 = pre-3D.
1 = post-3D.
3D Control Register (Index 22h)
Reg
Name
D15 D14 D13 D12 D11 D10 D9
D8
X
D7
X
D6
X
D5
X
D4
X
D3
D2
D1
D0
Default
Num
22h
3D Control
X
X
X
X
X
X
X
DP3 DP2 DP1 DP0 0000h
DP[2:0]
Depth Control. Sets 3D “Depth” PHAT Stereo enhancement according to table below.
DP3 . . . DP0
Depth
0000
0001
.
0%
6.67%
.
.
.
1110
1111
93.33%
100%
REV. 0
–16–
AD1881A
Subsection Ready Register (Index 26h)
Reg
Name
D15
D14 D13 D12 D11 D10 D9
D8
D7 D6 D5 D4 D3
D2
D1
D0
Default
Num
26h
Power-Down Cntrl/Stat EAPD
X
PR5 PR4 PR3 PR2 PR1 PR0
X
X
X
X
REF ANL DAC ADC N/A
Note: The ready bits are read only, writing to REF, ANL, DAC, ADC will have no effect. These bits indicate the status for the
AD1881A subsections. If the bit is a one, then that subsection is “ready.” Ready is defined as the subsection able to perform in its
nominal state.
ADC
DAC
ANL
ADC section ready to transmit data.
DAC section ready to accept data.
Analog gain, attenuators and mute blocks, and mixers ready.
Voltage References, VREF and VREFOUT up to nominal level.
REF
PR[5:0]
AD1881A Power-Down Modes. The first three bits are to be used individually rather than in combination with each
other. The last bit PR3 can be used in combination with PR2 or by itself. The mixer and reference cannot be
powered down via PR3 unless the ADCs and DACs are also powered down. Nothing else can be powered up until
the reference is up.
PR5 has no effect unless all ADCs, DACs, and the AC-Link are powered down. The reference and the mixer can
either be up or down, but all power-up sequences must be allowed to run to completion before PR5 and PR4 are
both set.
In multiple-codec systems, the master codec’s PR5 and PR4 bits control the slave codec. PR5 is also effective in
the slave codec if the master’s PR5 bit is clear, but the PR4 bit has no effect except to enable or disable PR5.
EAPD
External Audio Amp Power Down. Available when programmed as an AC’97 codec.
0 = Pin 47 set to LO state (default).
1 = Pin 47 set to HI state.
Power-Down State
PR5 PR4 PR3 PR2 PR1 PR0
ADC Power-Down
DAC Power-Down
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
1
0
0
0
1
1
1
1
1
0
1
1
0
0
1
1
1
1
0
1
0
1
0
1
1
ADC and DAC Power-Down
Mixer Power-Down
ADC + Mixer Power-Down
DAC + Mixer Power-Down
ADC + DAC + Mixer Power-Down
Standby
Extended Audio ID Register (Index 28h)
Reg
Name
D15 D14 D13 D12 D11 D10 D9
ID1 ID0
D8
X
D7
X
D6
X
D5
X
D4
D3
X
D2
X
D1
X
D0
Default
Num
28h
Extended Audio ID
X
X
X
X
X
X
VRA 0000h
Note: The Extended Audio ID is a read only register.
VRA
Variable Rate Audio. VRA = 1 enables Variable Rate Audio.
ID[1:0]
ID1, ID0 is a 2-bit field that indicates the codec configuration: Primary is 00; Secondary is 01, 10, or 11.
REV. 0
–17–
AD1881A
Extended Audio Status and Control Register (Index 2Ah)
Reg
Num
Name
D15 D14 D13 D12 D11 D10 D9
D8
X
D7
X
D6
X
D5
X
D4
X
D3
X
D2
X
D1
X
D0
Default
2Ah Extended Audio St/Ctrl
X
X
X
X
X
X
X
VRA 0000h
Note: The Extended Audio Status and Control Register is a read/write register that provides status and control of the extended audio
features.
VRA
Variable Rate Audio. VRA = 1 enables Variable Rate Audio mode (sample rate control registers and SLOTREQ
signaling.
PCM DAC Rate Register (Index 2Ch)
Reg
Num
Name
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Default
2Ch/(7Ah) PCM DAC Rate SR15 SR14 SR13 SR12 SR11 SR10 SR9 SR8 SR7 SR6 SR5 SR4 SR3 SR2 SR1 SR0 BB80h
Note: 2Ch is an alias for 7Ah. The VRA bit in register 2Ah must be set for the alias to work; if a zero is written to VRA, both sample
rates are reset to 48k.
SR[15:0]
Writing to this register allows programming of the sampling frequency from 8 kHz (1B80h) to 48 kHz (BB80h) in
1 Hz increments. Programming a value outside of the range 7040 Hz (1b80h) to 48000 Hz (bb80h) causes the codec
to saturate to 48 kHz if a rate greater than 48 kHz is programmed or to 7.040 kHz if a rate less than 7.040 kHz is
programmed. For all rates, if the value written to the register is supported, that value will be echoed back when read,
otherwise the closest rate supported is returned.
PCM ADC Rate Register (Index 32h)
Reg
Num
Name
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Default
32h/(78h) PCM ADC Rate SR15 SR14 SR13 SR12 SR11 SR10 SR9 SR8 SR7 SR6 SR5 SR4 SR3 SR2 SR1 SR0 BB80h
Note: 32h is an alias for 78h. The VRA bit in register 2Ah must be set for the alias to work; if a zero is written to VRA, both sample
rates are reset to 48k.
SR[15:0]
Writing to this register allows programming of the sampling frequency from 8 kHz (1B80) to 48 kHz (BB80h) in
1 Hz increments. Programming a value outside of the range 7040 Hz (1b80h) to 48000 Hz (bb80h) causes the codecto
saturate to 48 kHz if a rate greater than 48 kHz is programmed, or to 7.040 kHz if a rate less than 7.040 kHz
is programmed. For all rates, if the value written to the register is supported, that value will be echoed back
when read, otherwise the closest rate supported is returned.
Serial Configuration (Index 74h)
Reg
Num
Name
D15
D14
X
D13
X
D12
X
D11
X
D10
X
D9
X
D8
X
D7 D6 D5 D4 D3 D2
D1
X
D0
X
Default
7x0xh
Serial
Configuration
SLOT
16
74h
X
X
X
X
X
X
Note: This register is not reset when the reset register (register 00h) is written.
SLOT16 Enable 16-bit slots.
DRQEN and DxRQx are retained only for compatibility with the AD1819. New controller designs should use the VRA bit in register
2Ah and the request bits in the status address slot instead.
If your system uses only a single AD1881A, you can ignore the register mask and the slave 1/slave 2 request bits. If you write to
this register, write ones to all of the register mask bits.
SLOT16 makes all AC Link slots 16 bits in length, formatted into 16 slots.
REV. 0
–18–
AD1881A
Miscellaneous Control Bits (Index 76h)
Reg
Name
D15
D14
D13 D12
D11
D10
D9 D8
D7
D6
D5
D4 D3 D2
D1 D0
Default
Num
DAC LPMI
MOD SRX10 SRX8
76h
Misc Control Bits
X
DAM DMS DLSR
X
ALSR
X
X
DRSR
X
ARSR 0404h
Z
X
EN
D7
D7
ARSR
DRSR
ADC right sample generator select
0 = SR0 Selected (32h)
1 = SR1 Selected (2Ch).
DAC right sample generator select
0 = SR0 Selected (32h)
1 = SR1 Selected (2Ch).
SRX8D7
SRX10D7
MODEN
ALSR
Multiply SR1 rate by 8/7.
Multiply SR1 rate by 10/7. SRX10D7 and SRX8D7 are mutually exclusive; SRX10D7 has priority if both are set.
Modem filter enable (left channel only). Change only when DACs are powered down.
ADC left sample generator select
0 = SR0 Selected (32h)
1 = SR1 Selected (2Ch).
DLSR
DMS
DAC left sample generator select
0 = SR0 Selected (32h)
1 = SR1 Selected (2Ch).
Digital Mono Select.
0 = Mixer
1 = Left DAC and Right DAC.
DAM
Digital Audio Mode. DAC Outputs bypass analog mixer and sent directly to the codec output.
Low Power Mixer. Keeps CD to LINE_OUT alive for notebook applications.
Zero fill (vs. repeat) if DAC is starved for data.
LPMIX
DACZ
Sample Rate 0 (Index 78h)
Reg
Num
Name
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Default
78h Sample Rate 0 SR015 SR014 SR013 SR012 SR011 SR010 SR09 SR08 SR07 SR06 SR05 SR04 SR03 SR02 SR01 SR00 BB80H
Note: 32h is an alias for 78h. The VRA bit in register 2Ah must be set for the alias to work; if a zero is written to VRA then both
sample rates are reset to 48k.
SR0[15:0]
Writing to this register allows the user to program the sampling frequency from 7 kHz (1B58h) to 48 kHz (BB80h)
in 1 Hertz increments. Programming a value greater than 48 kHz or less than 7 kHz may cause unpredictable results.
REV. 0
–19–
AD1881A
Sample Rate 1 (Index 7Ah)
Reg
Num
Name
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Default
7Ah Sample Rate 1 SR115 SR114 SR113 SR112 SR111 SR110 SR19 SR18 SR17 SR16 SR15 SR14 SR13 SR12 SR11 SR10 BB80h
Note: 2Ch is an alias for 7Ah. The VRA bit in register 2Ah must be set for the alias to work; if a zero is written to VRA, both sample
rates are reset to 48k.
SR1[15:0]
Writing to this register allows the user to program the sampling frequency from 7 kHz (1B58h) to 48 kHz (BB80h)
in 1 Hertz increments. Programming a value greater than 48 kHz or less than 7 kHz may cause unpredictable
results.
Vendor ID Registers (Index 7Ch–7Eh)
Reg
Num
Name
D15 D14 D13 D12 D11 D10 D9
D8
F0
D7
S7
D6
S6
D5
S5
D4
S4
D3
S3
D2
S2
D1
S1
D0
S0
Default
4144h
7Ch Vendor ID1
F7
F6
F5
F4
F3
F2
F1
S[7:0]
F[7:0]
This register is ASCII encoded to “A.”
This register is ASCII encoded to “D.”
Reg
Name
Num
D15 D14 D13 D12 D11 D10 D9 D8 D7
D6
D5
D4
D3
D2
D1
D0
Default
7Eh
Vendor ID2 T7
T6 T5 T4 T3 T2 T1 T0 REV7 REV6 REV5 REV4 REV3 REV2 REV1 REV0 5348h
T[7:0]
This register is ASCII encoded to “S.”
Revision Register field.
REV[7:0]
These bits are read-only and should be verified before accessing vendor defined features.
AD1881A/AD1881 USER VISIBLE DIFFERENCES
• Pin 48 is now MODE pin, no longer CHAIN_CLK.
• AD1881 chaining mode not supported.
• LSB of register 7Eh is 48h instead of 40h.
REV. 0
–20–
AD1881A
APPLICATIONS CIRCUITS
The AD1881A has been designed to require a minimum amount of external circuitry. The recommended applications circuits are
shown in Figure 9. Reference designs for the AD1881A are available and may be obtained by contacting your local Analog Devices’
sales representative or authorized distributor.
+5AV
+3.3DV
DD
DD
10F
10F
100nF 100nF
100nF 100nF
AV
SS1
AV
SS2
AV
DD2
DV
DV
DD2
DV
SS1
DV
SS2
AV
DD1
DD1
100nF
10k⍀
1k⍀
PC_BEEP
100nF
0.33F
0.33F
0.33F
0.33F
0.33F
0.33F
0.33F
0.33F
0.33F
0.33F
0.33F
0.33F
0.33F
1F
LINE_IN_R
LINE_IN_L
RESET
MIC1
MIC2
SDATA_OUT
SDATA_IN
SYNC
DIGITAL
CONTROLLER
47⍀
47pF
CD_R
BIT_CLK
CD_L
AD1881A
CD_GND
VIDEO_L
VIDEO_R
CS0
CS1
AUX_L
AUX_R
47
EAPD
EAPD
MODE
48
39
1F
PHONE_IN
LNLVL_OUT_L
7
47k⍀
47k⍀
MONO_OUT
1F
36
LINE_OUT_R
LINE_OUT_L
LNLVL_OUT_R
XTL_IN XTL_OUT
41
1F
47k⍀ 47k⍀
47k⍀
V
V
AFILT1 AFILT2 FILT_L FILT_R CX3D RX3D
34
33
REFOUT
28
REF
27
100nF
24.576MHz
270pF
NP0
270pF
NP0
2.25V
DC
1F
1F
10F
TANT
22pF
NP0
22pF
NP0
47nF
100nF
600Z
DIGITAL GROUND
ANALOG GROUND
NOTE: FOR OPTIMAL PERFORMANCE USE A REGULATED ANALOG POWER SUPPLY.
Figure 9. Recommended One Codec Application Circuit
REV. 0
–21–
AD1881A
CD-ROM CONNECTIONS
The CD-ROM audio output level should be investigated; typical drives generate 2 V rms output and require a voltage divider for
compatibility with the Codec input (1 V rms range). The recommended circuit is basically a group of divide-by-two voltage dividers
as shown on Figure 10.
The CD_GND_REF pin is used to cancel differential ground noise from the CD-ROM. For optimum noise cancellation, this section
of the divider should have approximately half the impedance of the right and left channel section dividers.
VOLTAGE
DIVIDER
TO CODEC
CD_L INPUT
C1
R1
+
4.7k⍀
R2
4.7k⍀
0.33F
1
2
3
4
TO CODEC
CD_GND_REF
INPUT
HEADER FOR
CD ROM AUDIO
(LGGR)
C2
R3
+
2.7k⍀
R4
2.7k⍀
0.33F
TO CODEC
CD_R INPUT
C3
R5
+
4.7k⍀
R6
4.7k⍀
0.33F
Figure 10. Typical CD-ROM Audio Connections
LINE_IN, AUX AND VIDEO INPUT CONNECTIONS
Most of these audio sources also generate 2 V rms audio level and require a –6 dB input voltage divider to be compatible with the
Codec inputs. Figure 11 shows the recommended application circuit. For applications requiring EMC compliance, the EMC compo-
nents should be configured and selected to provide adequate RF immunity and emissions control.
EMC
COMPONENTS
LINE/AUX/VIDEO
INPUT
VOLTAGE
DIVIDER
AC-COUPLING
C3
+
0.33F
L2 600Z
R1
J1
1
4.7k⍀
C1
470pF
R2
4.7k⍀
TO CODEC
RIGHT CHANNEL
INPUT
2
3
4
5
C4
L1 600Z
R3
+
4.7k⍀
C2
470pF
R4
4.7k⍀
0.33F
TO CODEC
LEFT CHANNEL
INPUT
Figure 11. LINE_IN, AUX, and Video Input Connections
MICROPHONE CONNECTIONS
The AD1881A contains an internal microphone preamp with 20 dB gain, in most cases a direct microphone connection as shown in
Figure 12 is adequate. If the microphone level is too low, an external preamp can be added as shown in Figure 13. In either case the
microphone bias can be derived from the Codec’s internal reference (VREFOUT) using a 2.2 kΩ resistor. For the preamp circuit, the
VREFOUT signal can also provide the mid-point bias for the amplifier.
To meet the PC99 1.0A requirements, the MIC signal should be placed on the microphone jack tip and the bias on the ring. This
configuration supports electret microphones with three conductor plugs, as well as dynamic microphones with two conductor plugs
(ring and sleeve shorted together).
Additional filtering may be required to limit the microphone response to the audio band of interest.
REV. 0
–22–
AD1881A
EMC COMPONENTS
L1 600Z
J1
1
2
3
4
5
AC-COUPLING
C3
L2 600Z
TO CODEC
MIC1 OR MIC2
INPUT
0.22F
C2
470pF
C1
470pF
MIC INPUT
R1
FROM CODEC
REFOUT
V
2.2k⍀
Figure 12. Recommended Microphone Input Connections
PREAMP
EMC COMPONENTS
R3
J1
L1 600Z
1
2
3
4
5
100k⍀
AC-COUPLING
+5AV
DD
AC-COUPLING
R2
C3
L2 600Z
10k⍀
U1
C3
TO CODEC
MIC1 OR MIC2
INPUT
0.22F
C2
470pF
C1
470pF
0.22F
AD8531
MIC INPUT
MIC BIAS
R1
FROM CODEC
REFOUT
V
2.2k⍀
Figure 13. Microphone with Additional External Preamp (20 dB Gain)
LINE OUTPUT CONNECTIONS
The AD1881A Codec provides stereo LINE_OUT signals at a standard 1 V rms level. These signals must be ac-coupled before they
can be connected to an external load. After the ac-coupling, a minimal resistive load is recommended to keep the capacitors properly
biased and reduce click and pop when plugging stereo equipment into the output jack. The capacitor values should be selected
to provide a desired frequency response, taking into account the nominal impedance of the external load. To meet the PC99
specification for PCs, testing must be performed with a 10 kΩ load, therefore a 1 µF value is recommended to achieve less than
–3 dB roll-off at 20 Hz.
EMC COMPONENTS
AC-COUPLING
STEREO
LINE_OUT JACK
C1
L2 600Z
+
J1
C1
470pF
1F
FROM CODEC
LINE_OUT_R
C2
+
L1 600Z
C2
470pF
R1
47k⍀
R2
47k⍀
1F
FROM CODEC
LINE_OUT_L
NOTE: IF AN OUTPUT AMP IS USED,
THE AC-COUPLING CAP VALUES WILL
DEPEND ON THE AMP DESIGN.
Figure 14. Recommended LINE_OUT Connections
USING AN EXTERNAL HEADPHONE/POWER AMP
The SSM2250 Power Amplifier is an ideal companion for the AD1881A. The amplifier can provide up to 250 mW output in stereo
mode and up to 1.5 W into a mono speaker connected in a bridge-tied load (BTL) configuration.
The SM2250 has a mode control pin that can be used to switch between the stereo output mode and the mono BTL speaker.
Figure 15 shows a typical PC configuration where the SSM2250 drives a set of stereo headphones or external speakers, as well as an
internal mono speaker. One of the normalizing pins on the stereo jack senses the stereo plug insertion and automatically switches
from driving the internal mono speaker to driving the external stereo load.
To conserve power, the SSM2250 can be shut down by the EAPD pin on the AD1881A, using proper power management software.
This is particularly important for portable applications. In shutdown mode, the SSM2250 consumes only 60 µA.
REV. 0
–23–
AD1881A
5AV
DD
R1
100k⍀
STEREO
HP/SPEAKER
OUTPUT
C2
100F
C1
1F
F1
R2
49.9k⍀
U1
J1
R3
1k⍀
C3
470pF
FB
600Z
AD1881A
U2
EAPD/CHAIN_IN
SSM2250RU
C5
NC
NC
R4
49.9k⍀
100F
F2
LEFT IN
LEFT OUT/BLT
STEREO
3.5mm JACK
LINE_OUT_L
LIN_OUT_R
R5
1k⍀
C6
470pF
FB
600Z
C4
0.33F
SHUTDOWN
VDO
BTL+
SE/BTL
LS1
INTERNAL
MONO
SPEAKER
BYPASS
RIGHT OUT
NC
R6
49.9k⍀
GND
MONO_OUT
RIGHT IN
NC
4⍀
C8
0.1F
C7
0.33F
NC = NO CONNECT
R7
49.9k⍀
Figure 15. Using the SSM2250 Amplifier for Stereo and Mono Output
GROUNDING AND LAYOUT
To reduce noise and emissions, Analog Devices recommends a split ground plane as shown in Figure 16. The purpose of splitting the
ground plane is to create a low noise analog area that is somewhat isolated from the digital ground current noise generated by the
system’s logic. All the analog circuitry should be placed on the analog ground plane area.
For reference purposes, and to return power supply currents, the analog and digital ground planes must be connected at some point,
ideally a small bridge under or near the Codec should be provided. A 0 Ω resistor or a ferrite bead should also be considered since
these allow some flexibility in optimizing the layout to meet EMC requirements.
DIGITAL
GROUND PLANE
CONNECT SPLIT GROUND
PLANES AT OR NEAR CODEC.
PIN 1
AD1881A
ISOLATION
TRENCH
ANALOG
GROUND PLANE
Figure 16. Recommended Split Ground Plane
ANALOG POWER SUPPLY
To minimize audio noise, the Codec analog power supply (AVDD) should be well decoupled and regulated. In PC systems it is rec-
ommended that the analog supply be derived from the 12 V PC power supply using a localized linear voltage regulator. Preferably,
the analog power supply should be connected to the Codec’s analog section using a ferrite bead.
REV. 0
–24–
AD1881A
U1
IN
LM78M05CP
OUT
L1
3
5AV
12V
DD
600Z
+
+
C1
F
C2
0.1
C3
F
C4
10
10
F
0.1
F
R1
0
Figure 17. Recommended Regulator Circuit for Analog Power Supply
If a power plane layer is being used in the system design, it is recommended that the analog power plane for the Codec also be split
(mirroring the analog ground plane). In this case, the analog power supply ferrite bead should bridge the isolation trench, close to the
Codec location.
REV. 0
–25–
AD1881A
OUTLINE DIMENSIONS
Dimensions shown in inches and (mm).
48-Lead Thin Plastic Quad Flatpack (LQFP)
(ST-48)
0.063 (1.60) MAX
0.354 (9.00) BSC
0.057 (1.45)
0.053 (1.35)
0.276 (7.0) BSC
0.030 (0.75)
0.018 (0.45)
37
36
48
1
SEATING
PLANE
TOP VIEW
(PINS DOWN)
0.006 (0.15)
0.002 (0.05)
12
13
25
24
0° MIN
0° – 7°
0.007 (0.18)
0.004 (0.09)
0.011 (0.27)
0.006 (0.17)
0.020 (0.5)
BSC
REV. 0
–26–
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