AK4616VQ

[AKD4616-A]
AK4616 Evaluation Board Rev.3
GENERAL DESCRIPTION
The AKD4616-A is an evaluation board for AK4616, which is a 24bit CODEC including 3ch ADC, 5ch
DAC and microphone amplifier. The control settings of this board may be controlled via USB port,
allowing for easy A/D and D/A evaluation. RCA connectors are used for the input and output of the analog
signals. This board also has a digital interface which can be connected to the digital audio system via
optical connector.
 Ordering guide
AKD4616-A
--- Evaluation board for AK4616
Control software included in package
FUNCTION
 Clock generate circuits (AK4118A used)
 Compatible with 2 types of digital audio interface
- Optical input (x1) / Optical output (x1)
- 10pin header for interface with external data source
 RCA connector for external clock input
 ADC 3ch input, DAC 5ch output
 USB port and 10pin header for board control
Figure 1. AKD4616-A Block Diagram
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Evaluation Board Diagram
 Board Diagram
Figure 2. AKD4616-A Board Diagram
 Description
(1) AINL/R; AIN4L/R; MIC; AOUT1L/R; AOUT2L/R; AOUT3 (RCA Jack)
AINL/R: Analog input jacks for AIN1-3. AIN4L/R: Analog input jacks for AIN4.
MIC: Analog input jack for Microphone (Single-end and Differential).
AOUT1-2L/R: Analog output jacks for AOUT1-2L/R. AOUT3: Analog output jack for AOUT3.
White jacks are used for left channel and red ones are for right channel.
(2) AK4118A
AK4118A has DIR, DIT and X’tal oscillator. Transports input data to AK4616 when working in master mode, and
output data from AK4616 when working in slave mode.
(3) TOTX/TORX (Optical Connector)
TORX PORT1: Output optical signal from AK4118A
TOTX PORT2: Input optical signal to AK4118A.
(4) VOP +12V/AGNDn/DGNDn (Power supply)
Connect to +12V and GND according to the following operation sequence.
(5) PIC18F4550
USB control chip. Sets up AK4616 registers from PC via USB port.
(6) SW1
DIP type switch. Sets clock and audio format of AK4118A. DIF[2:0] used to set audio interface format and
OCKS[1:0] used to master clock frequency. Please refer to Table 3. SW1 Setting, Table 4. Audio format, Table 5.
Master Clock Frequency Select for details.
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(7) SW2
Toggle type switch. Power-down switch for AK4616. Reset board by bringing down SW2 once upon power-up.
(8) SW3
Toggle type switch. Power-down switch for AK4118A.
(9) PORT3 (10-pin header)
DSP port. Input/output MCLK, BICK, LRCK
(10) PORT4 (10-pin header)
DSP port. Input SDTI1, SDTI2 and output SDTO1, SDTO2, SDTO3.
(11) PORT5 (10-pin header)
DSP port. Input/output SCL and SDA. SDA(ACK) not used. May alternatively be used to write AK4616 registers
from PC.
(12) EXT (RCA jack)
Input external clock source.
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Evaluation Board Manual
 Operation sequence
[1] Power supply line settings
[2] Jumper pins settings
[3] DIP switches settings
[4] Toggle switches settings
[5] LED indication
[6] Register control (Serial control)
[7] Evaluation modes
Refer to the following pages for details.
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[1] Power Supply Line Settings
Red
Voltage
Range
+9+12V
Typ
Voltages
+12V
A3V31
Green
+3.0+3.6V
+3.3V
A3V32
Green
+3.0+3.6V
D3V3
Green
+3.0+3.6V
D1V8
Green
+1.7+1.9V
D3V
Green
+3.0+3.6V
AGND
DGND
Black
Black
0V
0V
Name
Color
VOP+
(12V)
Function
Comments
Regulator power
supply
OPAmp +terminal
power supply
AK4616 A3V31
Should always be connected
3.3V regulator is used (JP20
= REG) by default, when
jack is used (JP20=A3V31).
+3.3V
AK4616 A3V32
3.3V regulator is used (JP21
= REG) by default, when
jack is used (JP21=A3V32).
+3.3V
AK4616 D3V3
3.3V regulator is used (JP22
= REG) by default, when
jack is used (JP22=D3V3).
+1.8V
AK4616 D1V8
1.8V regulator is used (JP24
= REG) by default, when
jack is used (JP24=D1V8).
+3.3V
AK4118 D3V,
3.3V regulator is used (JP23
Logic IC power
= REG) by default, when
supply
jack is used (JP23=D3V).
0V
Analog ground
Should always be connected
0V
Digital ground
Should always be connected
Table 1. Power supply line setting
Default
Settings
+12V
REG
REG
REG
REG
REG
0V
0V
Note 1. Each power supply should be powered up while PDN pin = “L”. The PDN pin may be brought to “H” after all
power supplies are powered up. Do not turn off AK4616 while surrounding devices are still powered on and I2C bus is in
use. A3V31 and A3V32 must be connected to the same power supply.
<Operation procedure>
1) Connect power supply as above.
2) Set up jumper pin and evaluation mode (See below for details)
3) Power-up
Reset AK4616 once by bringing SW2 “L” upon power up.
The dummy command will be executed automatically when ACK isn’t returned.
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[2] Jumper Pin Settings
No
1
Names
AINLN-SEL
Default
AIN1LN
2
AINRN-SEL
AIN1RN
3
AINLP-SEL
AIN1LP
4
AINRP-SEL
AIN1RP
5
MINN
Open
6
7
8
LIN1
MIN/MINP
BICK-SEL
DIR
9
BICK-PHASE
THR
10
LRCK-SEL
DIR
11
DAUX-SEL
SDTO1
12
SDTI3-SEL
DIR
13
SDTI2-SEL
DIR
Functions
Select Lch Analog Negative input to AK4616 (U1)
AIN1LN: Lch Analog Negative Input 1 Pin (default)
AIN2LN: Lch Analog Negative Input 2 Pin
AIN3LN: Lch Analog Negative Input 3 Pin
Select Rch Analog Negative input to AK4616 (U1)
AIN1LN: Rch Analog Negative Input 1 Pin (default)
AIN2LN: Rch Analog Negative Input 2 Pin
AIN3LN: Rch Analog Negative Input 3 Pin
Select Lch Analog Positive input to AK4616 (U1)
AIN1LN: Lch Analog Positive Input 1 Pin (default)
AIN2LN: Lch Analog Positive Input 2 Pin
AIN3LN: Lch Analog Positive Input 3 Pin
Select Rch Analog Positive input to AK4616 (U1)
AIN1LN: Rch Analog Positive Input 1 Pin (default)
AIN2LN: Rch Analog Positive Input 2 Pin
AIN3LN: Rch Analog Positive Input 3 Pin
Select Microphone Negative input to AK4616 (U1)
Open: Single-End (MDIF bit = “0”) (default)
Short: Differential (MDIF bit = “1”)
Select input to AK4616 (U1) BICK Buffer
64fs: 64fs divider6
32fs: 32fs divider
DIR: DIR-AK4118-BICK (default)
10-pin: 10pin-BICK
Open: No signal
Select polarity (non-inverted output / inverted output) of 10pin-BICK
outputs.
THR: Non-inverted output. (default)
INV: Inverted output.
Select input to AK4616 (U1) LRCK Buffer
1fs: 1fs divider
DIR: DIR-AK4118-BICK (default)
10-pin: 10pin-BICK
Open: No signal
Select input to DIT:AK4118 (U12) DAUX
SDTO1: AK4616-SDTO1 (pin 1) (default)
SDTO2: AK4615-SDTO2 (pin 3)
Open: Connect DIT-AK4118-DAUX input side of JP9 to Digital ground
with a clip. No signal
Select input to AK4616 (U1) SDTI3
DIR: DIR-AK4118-SDTO (default)
10-pin: 10pin-SDTI3
GND: Digital ground
Select input to AK4616 (U1) SDTI2
DIR: DIR-AK4118-SDTO (default)
10-pin: 10pin-SDTI2
GND: Digital ground
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14
SDTI1-SEL
15
MCKI-SEL
16
EXT
17
CTRL-SEL
18
20
PIC
A3V31-SEL
21
A3V32-SEL
22
D3V3-SEL
23
D3V-SEL
24
D1V8-SEL
25
GND
DIR
Select input to AK4616 (U1) SDTI1
DIR: DIR-AK4118-SDTO (default)
10-pin: 10pin-SDTI1
GND: Digital ground
DIR
10-pin: 10pin-MCKI
EXT: External MCLK (JACK: J12) input
GND: GND
DIR: DIR-AK4118-MCKI (default)
Short
Open: No input
Short: External MCLK(JACK: J11) input (default)
SDA
Select control setting mode
SDA/SCL: Serial (default)
SDA (ACK): Open ***SDA Ack not used
10-pin: Parallel
Open
Connect PIC microchip connector
REG
Select power supply to A3V31
REG: Regulator T2 (default)
(When regulator “T2” is selected, power supply jack “A3V31” should be
open.)
JACK: Power supply jack “A3V31”
REG
Select power supply to A3V32
REG: Regulator T2 (default)
(When regulator “T2” is selected, power supply jack “A3V32” should be
open.)
JACK: Power supply jack “A3V32”
REG
Select power supply to D3V3
REG: Regulator T3 (default)
(When regulator “T3” is selected, power supply jack “D3V3” should be
open.)
JACK: Power supply jack “D3V3”
REG
Select power supply to D3V
REG: Regulator T3 (default)
(When regulator “T3” is selected, power supply jack “D3V” should be
open.)
JACK: Power supply jack “D3V”
REG
Select power supply to D1V8
REG: Regulator T4 (default)
(When regulator “T4” is selected, power supply jack “D1V8” should be
open.)
JACK: Power supply jack “D1V8”
Short
Select connection / separation between analog ground and digital ground.
Open: Separate analog ground from digital ground
Short: Connect analog ground to digital ground (default)
Table 2. Main board Jumper pin setting
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[3] DIP switch setting
(1). Setting for SW1 (Sets AK4118 (U12) audio format and master clock setting)
No. Switch Name
Function
1
DIF0
Set-up of DIF0 pin. (in parallel mode)
2
DIF1
Set-up of DIF1 pin. (in parallel mode)
3
DIF2
Set-up of DIF2 pin. (in parallel mode)
4
OCKS1
Set-up of OCKS1 pin. (in parallel mode)
5
OCKS0
Set-up of OCKS0 pin. (in parallel mode)
Table 3. SW1 Setting
Mode
DIF2 pin
(SW1_1)
DIF2 bit
DIF1 pin
(SW1_2)
DIF1 bit
DIF0 pin
(SW1_3)
DIF0 bit
0
0
0
0
1
0
0
1
2
0
1
0
3
0
1
1
4
1
0
0
5
1
0
1
6
1
1
0
7
1
1
1
OCKS1 pin
(SW1_4)
OCKS1 bit
OCKS0 pin
(SW1_5)
OCKS0 bit
0
0
1
1
0
1
0
1
DAUX
SDTO
LRCK
default
H
L
H
L
L
BICK
I/O
24bit, Left
16bit, Right
justified
justified
24bit, Left
18bit, Right
justified
justified
24bit, Left
20bit, Right
justified
justified
24bit, Left
24bit, Right
justified
justified
24bit, Left
24bit, Left
justified
justified
24bit, I2S
24bit, I2S
24bit, Left
24bit, Left
justified
justified
24bit, I2S
24bit, I2S
Table 4. Audio format
(X’tal)
MCKO1
MCKO2
256fs
256fs
256fs
256fs
256fs
128fs
512fs
512fs
256fs
128fs
128fs
64fs
Table 5. Master Clock Frequency Select
I/O
H/L
O
64fs
O
H/L
O
64fs
O
H/L
O
64fs
O
H/L
O
64fs
O
H/L
O
64fs
O
L/H
O
64fs
O
H/L
I
64-128fs
I
L/H
I
64-128fs
I
default
fs (max)
96 kHz
96 kHz
48 kHz
192 kHz
default
[4] Toggle switch settings
SW2, SW3, SW4 Settings
SW2
DIO-PDN
SW3
PDN
Power down switch for DIR/T: AK4118 (U6).
Reset AK4118 (U6) once by brining SW2 to “L” once upon power-up.
Keep “H” when AK4118 is in use; keep “L” when AK4118 is not in use.
Power down switch for AK4616 (U1).
Reset AK4616 (U1) once by brining SW3 to “L” once upon power-up.
Keep “H” during normal operation.
Table 6. Toggle switch settings
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[5] LED
LE1 Indication
LE1
INT0
DIR: AK4118 (U6) INT0 pin output. Turns on when DIR: AK4118 (U6) is unlocked
Table 7. LED Indication
[6] Register control
NC
CDTO / SDA (ACK)
CDTI / SDA
CCLK / SCL
9
CSN
AKD4616-A can be controlled via USB (serial port) or printer port (parallel port) of IBM-AT. Connect board to PC
using the USB cable (U22 – serial) or 10-wire flat cable (Port5 – uP-IF) included with the AKD4616-A. There is a
mark on the no.1-pin of the 10-pin connector. See Figure 3. The pin assignments of PORT5 below.
1
Red
GND
GND
GND
GND
10
GND
PORT5
uP I/F
2
Figure 3. The pin assignments of PORT5
The control software is packed with the evaluation board. The software operation sequence is included in the
evaluation board manual.
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[7] Evaluation modes
(1) ADCDAC (Analog  Analog) by internal loop back
(2) ADC (Analog  Digital): Stereo ADC and Monaural ADC (Microphone Input)
(3) DAC (Digital  Analog)
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(1) ADCDAC (Analog  Analog) by internal loop back
 Toggle switch setting:
SW2
SW3
H
L→H
AK4118(U6) : Used
AK4616(U1) : Used
Table 8. Toggle switch setting
 Start up Control Register Setting
Set Addr: 00H = “31” to release Internal timing reset and power on ADC and DAC. Other control register settings are
default.
Dummy Command will be executed automatically.
RSTN bit: Internal timing reset
0: Reset.
1: Normal operation (default)
PMADC bit: Power management of mono-stereo
0: All ADC’s power-down
1: Normal operation (default)
PMDAC bit: Power management of DAC1-3
0: All DAC’s power-down. PMDA1-3 bits are invalid.
1: Normal operation (default). PMDA1-3 bits are valid.
Addr
00H
Register Name
Power Management
R/W
Setting
D7
D6
D5
D4
0
PMMB
PMADC
PMDAC
RD
R/W
R/W
R/W
0
0
1
1
Table 9. Addr 00H control register setting
D3
0
RD
0
D2
0
RD
0
D1
0
RD
0
D0
RSTN
R/W
1
D1
AIN1
R/W
X
D0
AIN0
R/W
X
 Analog Input Selector for Stereo ADC
AIN1 bit
0
0
1
1
AIN0 bit
Input Selector
0
AIN1L/AIN1R (default)
1
AIN2L/AIN2R
0
AIN3L/AIN3R
1
AIN4L/AIN4R
Table 10a.Input Selector for ADC
Control Register Setting:
AIN1-0 bit: ADC Input Table
Addr
04H
Register Name
Input Selector
R/W
Setting
D7
0
RD
0
D6
D5
D4
D3
0
0
DACIN
MOMIX
RD
RD
R/W
R/W
0
0
0
0
Table 10b. Addr 04H control register setting
D2
MDIF
R/W
0
Change jumper setting for JP1-4 to corresponding input channel (AIN1-3).
For all stereo ADC Inputs (AIN1-4), analog signal output from both AOUT1 and AOUT2.
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(2) ADC (Analog  Digital): Stereo ADC and Monaural ADC (Microphone Input)
 Toggle switch setting:
SW2
SW3
H
L→H
AK4118(U6) : Used
AK4616(U1) : Used
Table 11. Toggle switch setting
 Start up Control Register Setting
Set Addr: 00H = “21” to release Internal timing reset and power on ADC. Other control register settings are default.
Dummy Command will be executed automatically.
RSTN bit: Internal timing reset
0: Reset.
1: Normal operation (default)
PMADC bit: Power management of mono-stereo
0: All ADC’s power-down
1: Normal operation (default)
Addr
00H
Register Name
Power Management
R/W
Setting
D7
D6
D5
D4
0
PMMB
PMADC
PMDAC
RD
R/W
R/W
R/W
0
0
1
0
Table 12. Addr 00H control register setting
D3
0
RD
0
D2
0
RD
0
D1
0
RD
0
D0
RSTN
R/W
1
D1
AIN1
R/W
X
D0
AIN0
R/W
X
 Analog Input Selector for Stereo ADC
Control Register Setting:
AIN1-0 bit: ADC Input Table
AIN1 bit
0
0
1
1
Addr
04H
Register Name
Input Selector
R/W
Setting
D7
0
RD
0
AIN0 bit
Input Selector
0
AIN1L/AIN1R (default)
1
AIN2L/AIN2R
0
AIN3L/AIN3R
1
AIN4L/AIN4R
Table 13a.Input Selector for ADC
D6
D5
D4
D3
0
0
DACIN
MOMIX
RD
RD
R/W
R/W
0
0
0
0
Table 13b. Addr 04H control register setting
D2
MDIF
R/W
0
 Analog Input Selector for Monaural ADC
Control Register Setting:
MDIF bit: Single-ended/Differential Input Select for Microphone Amp
0: Single-ended input to MIN/MINP pin. Leave MINN pin open. (default)
1: Differential input (MINP/MINN pin).
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Addr
04H
Register Name
Input Selector
R/W
Setting
D7
0
RD
0
D6
D5
D4
D3
0
0
DACIN
MOMIX
RD
RD
R/W
R/W
0
0
0
0
Table 14b. Addr 04H control register setting
D2
MDIF
R/W
X
D1
AIN1
R/W
0
D0
AIN0
R/W
0
 For Differential Input Select for Microphone Amp (MDIF=”1”):
Change to following jumper setting:
JP5 (MINN)
= short
JP11 (DAUX-SEL) = SDTO2
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[AKD4616-A]
(3) DAC (Digital  Analog)
 Toggle switch setting:
SW2
SW3
H
L→H
AK4118(U6) : Used
AK4616(U1) : Used
Table 15. Toggle switch setting
 Start up Control Register Setting
Set Addr: 00H = “11” to release Internal timing reset and power on DAC. Other control register settings are default.
Dummy Command will be executed automatically.
RSTN bit: Internal timing reset
0: Reset.
1: Normal operation (default)
PMDAC bit: Power management of DAC1-3
0: All DAC’s power-down. PMDA1-3 bits are invalid.
1: Normal operation (default). PMDA1-3 bits are valid.
Addr
00H
Register Name
Power Management
R/W
Setting
D7
D6
D5
D4
0
PMMB
PMADC
PMDAC
RD
R/W
R/W
R/W
0
0
0
1
Table 16. Addr 00H control register setting
D3
0
RD
0
D2
0
RD
0
D1
0
RD
0
D0
RSTN
R/W
1
D1
AIN1
R/W
X
D0
AIN0
R/W
X
 Input Selector for DAC
Control Register Setting:
DACIN bit: Input selector for DAC1,2
DACIN bit
Input Selector
0
ADC (default)
1
DOUTL/R
Table 17a. Input Selector for DAC1 and DAC2
Addr
04H
Register Name
Input Selector
R/W
Setting
D7
0
RD
0
D6
D5
D4
D3
0
0
DACIN
MOMIX
RD
RD
R/W
R/W
0
0
1
0
Table 17b. Addr 04H control register setting
D2
MDIF
R/W
0
* When DACIN bit = “0”, the digital ADC output is connected to the digital DAC input. In this mode, the
input DAC data to SDTI1-2 is ignored. The audio format of SDTO at loopback mode becomes mode 3 at
mode 0, 1, 2, and 3, and mode 4 at mode 4, respectively. DACIN bit should be set “1” in TDM mode.
 Power management of DAC
Control Register Setting:
PMDA3-1 bit: Power management of DAC 1-3 (0: Power-down, 1: Normal operation)
PMDA1 bit: Power management control of DAC1
PMDA2 bit: Power management control of DAC2
PMDA3 bit: Power management control of DAC3
Addr
Register Name
D7
D6
D5
D4
< KM110803 >
D3
D2
D1
D0
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[AKD4616-A]
01H
Power Management 2
R/W
Default
0
0
0
0
0
PMDA3
RD
RD
RD
RD
RD
R/W
0
0
0
0
0
1
Table 18. Addr 01H control register setting
PMDA2
R/W
1
PMDA1
R/W
1
Only the DAC bit being used should be powered on for best results.
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[AKD4616-A]
Control Software Manual
 Set-up evaluation board and control software
1. Set up AKD4616-A evaluation board according to above instructions.
2. Connect PC with AKD4616-A evaluation board by USB cable (included in package).
3. Insert the CD-ROM labeled “AKD4616-A Evaluation Kit” into the CD-ROM drive.
4. Access the CD-ROM drive, double-click on “akd4616-a.exe” and set up the control program.
5. Evaluate according to the following.
 Operation flow
Set up control program as above and open control program.
The following operation screen will be shown. (Default setting)
Figure 4. Control software window
Input registers accordingly into dialog box to evaluate AK4616.
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 Button Functions
1. [Port Reset]
2. [Write Default]
3. [All Write]
4. [All Read]
5. [Save]
6. [Load]
7. [All Reg Write]
8. [Data R/W]
9. [Read]
10. [Close]
:
:
:
:
:
:
:
Set up USB interface board (AKDUSBIF-B).
Initialize all register setting.
Write all registers currently displayed.
Read all register setting.
Save the current register setting to .akr file.
Load register setting from saved .akr file.
Opens “All Register Write” dialog box. (see Dialog boxes below)
: Opens “Data Read/Write” dialog box . (see Dialog boxes below)
: Read and display current register setting in register window (on right side of main window).
Different from [All Read] as it does not reflect to the register map.
: Close Control Software window.
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Dialog boxes
1. [All Register Write]: Dialog box to write register setting files
Clicking the [All Reg Write] button in the main window opens the dialog box below.
Multiple register setting files created by the [SAVE] button can be set and applied.
Figure 5. Window of [All Reg Write]
<Operation flow>
(1) Click [Open(left) Button.
(2) Select file (*.akr) and Click [Open] Button. Up to 10 files can be selected.
(3) Click [Write] to write each file. [Write ALL] writes all files selected.
Button Functions:
1. [Open (left)] :
2. [Write]
:
3. [Write ALL] :
4. [Help]
:
5. [Save]
:
6. [Open (right)] :
7. [Close]
:
Select register setting file (*.akr).
Write register setting file in textbox.
Write all register setting files selected. Write is executed in descending order.
“Help” window pops up.
Save the current register map setting (*.mar).
Load register map setting file (*.mar ).
Close dialog box.
< KM110803 >
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[AKD4616-A]
2. [Data Read/Write]: Dialog box to manually enter register setting
Click the [Data R/W] button in the main window to open the data read/write dialog box.
Data manually entered into Data box is written to the specified address.
Figure 6. Window of [Data R/W]
Textbox Functions:
[Address] : Input register address in 2 hexadecimal digits.
[Data]
: Input register data in 2 hexadecimal digits.
[Mask]
: Input mask data in 2 hexadecimal digits. This value is AND-ed with input data.
Button Functions:
[Write]
: Writes data generated from [Data] and [Mask] to register specified in [Address]
[Read]
: Displays register data specified in [Address] in [Read Data] box in hexadedimal.
[Close]
: Closes dialog box. To cancel a process close the dialog box without writing
※ Register map updated after [Write] and [Read] operation.
< KM110803 >
2013/04
- 19-
[AKD4616-A]
Tab Functions
1. [REG]: Register Map
Register data is indicated on the register map. Each bit on the register map is a push-button switch.
Button DOWN and red lettering indicates “1” and button UP with blue lettering indicates “0”.
Buttons with “---“are undefined in the datasheet.
Figure 7. [REG] window
< KM110803 >
2013/04
- 20-
[AKD4616-A]
2. [Tool]: Testing Tools
This tab screen is for the evaluation testing tool.
Click button for each testing tool.
Figure 8. [Tool] window
< KM110803 >
2013/04
- 21-
[AKD4616-A]
Measurement Results
[Measurement condition]
・ Measurement unit
・ MCKI
・ BICK
・ fs
・ Bit
・ Measurement Mode
・ Power Supply
: Audio Precision, System two Cascade
: 256fs (12.288MHz)
: 64fs
: 48kHz
: 24bit
: ADC @ Master Mode / DAC @ Slave Mode
: VOP+(12V)=12V, GND
A3V31=A3V32=3.3V (regulator), D3V=D3V3=3.3V (regulator),
D1V8=1.8V (regulator)
・ Input Frequency
: 1kHz
・ Measurement Frequency : 20 ~ 20kHz @48kHz
・ Temperature
: Room
[Measurement Results]
1. Stereo ADC
Result
Lch
Rch
88.6
98.5
98.4
88.7
98.5
98.6
Unit
Stereo ADC : AIN1L/R => ADC => SDTO1
S/(N+D)
DR
S/N
fs = 48kHz (-1dBFS)
fs = 48kHz (-60dBFS, A-Weighted)
fs = 48kHz (A-weighted)
dB
dB
dB
2. Monaural ADC
Result
Single
Diff
fs = 48kHz (-1dBFS), MGAIN[2:0]=0h(0dB)
87.4
87.6
fs = 96kHz (-1dBFS ), MGAIN[2:0]=3h(+21dB)
fs = 48kHz (-60dBFS, A-Weighted),
MGAIN[2:0]=0h(0dB)
fs = 48kHz (-60dBFS, A-Weighted),
MGAIN[2:0]=3h(+21dB)
fs = 48kHz (A-weighted), MGAIN[2:0]=0h(0dB)
fs = 48kHz (A-weighted), MGAIN[2:0]=3h(+21dB)
81.1
81.6
97.9
98.5
85.8
85.2
98.0
85.8
98.6
85.2
Unit
Mono ADC : MIC => Mono ADC => SDTO2
S/(N+D)
DR
S/N
dB
dB
dB
3. DAC1
Result
Lch
Rch
Unit
DAC1 : SDTI1 => DAC1 => AOUT1
S/(N+D)
fs = 48kHz (0dBFS)
92.8
92.6
dB
DR
S/N
fs = 48kHz (-60dBFS, A-Weighted, 20kHz SPCL)
fs = 48kHz (A-weighted, 20kHz SPCL)
104.9
105.0
104.9
104.9
dB
dB
< KM110803 >
2013/04
- 22-
[AKD4616-A]
4. DAC3
Result
AOUT3
-
Unit
DAC3 : SDT31 => Mono DAC => AOUT3
S/(N+D)
fs = 48kHz (0dBFS)
93.9
-
dB
DR
S/N
fs = 48kHz (-60dBFS, A-Weighted, 20kHz SPCL)
fs = 48kHz (A-weighted, 20kHz SPCL)
107.2
107.2
-
dB
dB
< KM110803 >
2013/04
- 23-
[AKD4616-A]
[Plot Data]
Stereo ADC (AIN1)
1. ADC1 (fs = 48kHz); AIN1(Diff) => ADC1 => SDTO1
AK4616 FFT Stereo ADC (AIN1L/R)
[fs=48kHz, fin=1kHz, -1dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
F
S
-80
-90
-100
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
5k
10k
20k
Hz
Figure 9. ADC1 – FFT (-1dBFS) [fs = 48kHz]
AK4616 FFT Stereo ADC (AIN1L/R)
[fs=48kHz, fin=1kHz, -60dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
F
S
-80
-90
-100
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
Hz
Figure 10. ADC1 – FFT (-60dBFS) [fs = 48kHz]
< KM110803 >
2013/04
- 24-
[AKD4616-A]
AK4616 FFT Stereo ADC (AIN1L/R)
[fs=48kHz, fin=1kHz, no signal]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
F
S
-80
-90
-100
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 11. ADC1 – FFT (No Signal) [fs = 48kHz]
AK4616 THD+N vs Amplitude Stereo ADC (AIN1L/R)
[fs=48kHz, fin=1kHz]
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
F
S
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
dBr
Figure 12. ADC1 – THD+N vs. Amplitude (Input Level) [fs = 48kHz]
< KM110803 >
2013/04
- 25-
[AKD4616-A]
AK4616 THD+N vs Input Frequency Stereo ADC (AIN1L/R)
[fs=48kHz, -1dBFS]
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
F
S
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 13. ADC1 – THD+N vs. Input Frequency [fs = 48kHz]
AK4616 Linearity Stereo ADC (AIN1L/R)
[fs=48kHz, fin=1kHz]
+0
-10
-20
-30
-40
-50
-60
d
B
F
S
-70
-80
-90
-100
-110
-120
-130
-140
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
+0
dBr
Figure 14. ADC1 – Linearity [fs = 48kHz]
< KM110803 >
2013/04
- 26-
[AKD4616-A]
AK4616 Frequency Response Stereo ADC (AIN1L/R)
[fs=48kHz, -1dBFS]
-0
-0.1
-0.2
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
d
B
F
S
-0.9
-1
-1.1
-1.2
-1.3
-1.4
-1.5
-1.6
-1.7
-1.8
-1.9
-2
20
50
100
200
500
1k
2k
5k
10k
20k
5k
10k
20k
Hz
Figure 15. ADC1 – Frequency Response [fs = 48kHz]
AK4616 Crosstalk Stereo ADC (AIN1L/R)
[fs=48kHz, -1dBFS]
-80
TT TT T T
T
-85
-90
-95
-100
-105
-110
d
B
-115
-120
-125
-130
-135
-140
-145
-150
20
50
100
200
500
1k
2k
Hz
Figure 16. ADC1 – Crosstalk [fs = 48kHz]
< KM110803 >
2013/04
- 27-
[AKD4616-A]
2.
ADC2 (fs = 48kHz); MIC (Single-end) => Mono ADC => SDTO2
AK4616 FFT Mono ADC (MIC) Single-end
[fs=48kHz, fin=1kHz, -1dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
F
S
-80
-90
-100
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
5k
10k
20k
Hz
Figure 17. ADC2 – FFT (-1dBFS) [fs = 48kHz]
AK4616 FFT Mono ADC (MIC) Single-end
[fs=48kHz, fin=1kHz, -60dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
F
S
-80
-90
-100
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
Hz
Figure 18. ADC2 – FFT (-60dBFS) [fs = 48kHz]
< KM110803 >
2013/04
- 28-
[AKD4616-A]
AK4616 FFT Mono ADC (MIC) Single-end
[fs=48kHz, fin=1kHz, no signal]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
F
S
-80
-90
-100
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 19. ADC2 – FFT (No Signal) [fs = 48kHz]
AK4616 THD+N vs Amplitude Mono ADC (MIC) Single-end
[fs=48kHz, fin=1kHz]
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
F
S
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
dBr
Figure 20. ADC2 – THD+N vs. Amplitude (Input Level) [fs = 48kHz]
< KM110803 >
2013/04
- 29-
[AKD4616-A]
AK4616 THD+N vs Input Frequency Mono ADC (MIC) Single-end
[fs=48kHz, -1dBFS] AMP Bypass
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
F
S
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 21. ADC2 – THD+N vs. Input Frequency [fs = 48kHz]
AK4616 Linearity Mono ADC (MIC) Single-end
[fs=48kHz, fin=1kHz]
+0
-10
-20
-30
-40
-50
-60
d
B
F
S
-70
-80
-90
-100
-110
-120
-130
-140
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
+0
dBr
Figure 22. ADC2 – Linearity [fs = 48kHz]
< KM110803 >
2013/04
- 30-
[AKD4616-A]
AK4616 Frequency Response Mono ADC(MIC) Single-end
[fs=48kHz, -1dBFS] AMP Bypass
-0
-0.1
-0.2
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
d
B
F
S
-0.9
-1
-1.1
-1.2
-1.3
-1.4
-1.5
-1.6
-1.7
-1.8
-1.9
-2
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 23. ADC2 – Frequency Response [fs = 48kHz]
< KM110803 >
2013/04
- 31-
[AKD4616-A]
3.
Mono ADC (fs = 48kHz); MIC (Differential) => Mono ADC => SDTO2
AK4616 FFT Mono ADC (MIC) Diff
[fs=48kHz, fin=1kHz, -1dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
F
S
-80
-90
-100
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
5k
10k
20k
Hz
Figure 24. DAC1 – FFT (0BFS) [fs = 48kHz]
AK4616 FFT Mono ADC (MIC) Diff
[fs=48kHz, fin=1kHz, -60dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
F
S
-80
-90
-100
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
Hz
Figure 25. DAC1 – FFT (-60dBFS) [fs = 48kHz]
< KM110803 >
2013/04
- 32-
[AKD4616-A]
AK4616 FFT Mono ADC (MIC) Diff
[fs=48kHz, fin=1kHz, no signal]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
F
S
-80
-90
-100
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 26. DAC1 – FFT (No Signal) [fs = 48kHz]
AK4616 THD+N vs Amplitude Mono ADC (MIC) Diff
[fs=48kHYz, fin=1kHz]
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
F
S
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
dBr
Figure 27. DAC1 – THD+N vs. Amplitude (Input Level) [fs = 48kHz]
< KM110803 >
2013/04
- 33-
[AKD4616-A]
AK4616 THD+N vs Input Frequency Mono ADC(MIC) Diff
[fs=48kHz, -1dBFS] AMP bypass
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
F
S
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 28. DAC1 – THD+N vs. Input Frequency [fs = 48kHz]
AK4616 Linearity Mono ADC (MIC) Diff
[fs=48kHYz, fin=1kHz]
+0
-10
-20
-30
-40
-50
-60
d
B
F
S
-70
-80
-90
-100
-110
-120
-130
-140
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
+0
dBr
Figure 29. DAC1 – Linearity [fs = 48kHz]
< KM110803 >
2013/04
- 34-
[AKD4616-A]
AK4616 Frequency Response Mono ADC(MIC) Diff
[fs=48kHz, -1dBFS] AMP bypass
-0
-0.1
-0.2
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
d
B
F
S
-0.9
-1
-1.1
-1.2
-1.3
-1.4
-1.5
-1.6
-1.7
-1.8
-1.9
-2
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 30. DAC1 – Frequency Response [fs = 48kHz]
< KM110803 >
2013/04
- 35-
[AKD4616-A]
4.
DAC1 (fs = 48kHz); SDTI1 => DAC1 => AOUT1
AK4616 FFT Single-end DAC (AOUT1L/R)
[fs=48kHz, fin=1kHz, 0dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
r
-80
A
-100
-90
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
5k
10k
20k
Hz
Figure 31. DAC2 – FFT (0BFS) [fs = 48kHz]
AK4616 FFT Single-end DAC (AOUT1L/R)
[fs=48kHz, fin=1kHz, -60dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
r
-80
A
-100
-90
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
Hz
Figure 32. DAC2 – FFT (-60dBFS) [fs = 48kHz]
< KM110803 >
2013/04
- 36-
[AKD4616-A]
AK4616 FFT Single-end DAC (AOUT1L/R)
[fs=48kHz, fin=1kHz, no signal]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
r
-80
A
-100
-90
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 33. DAC2 – FFT (No Signal) [fs = 48kHz]
AK4616 THD+N vs Amplitude Single-end DAC (AOUT1L/R)
[fs=48kHz, fin=1kHz] 20kHz SPCL
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
r
A
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
+0
dBFS
Figure 34. DAC2 – THD+N vs. Amplitude (Input Level) [fs = 48kHz]
< KM110803 >
2013/04
- 37-
[AKD4616-A]
AK4616 THD+N vs Input Frequency Single-end DAC (AOUT1L/R)
[fs=48kHz, 0dBFS] 20kHz SPCL
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
r
A
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 35. DAC2 – THD+N vs. Input Frequency [fs = 48kHz]
AK4616 Linearity Single-end DAC (AOUT1L/R)
[fs=48kHz,fin=1kHz]
+0
-10
-20
-30
-40
-50
d
B
r
-60
A
-80
-70
-90
-100
-110
-120
-130
-140
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
+0
dBFS
Figure 36. DAC2 – Linearity [fs = 48kHz]
< KM110803 >
2013/04
- 38-
[AKD4616-A]
AK4616 Frequency Response Single-end DAC (AOUT1L/R)
[fs=48kHz, 0dBFS]
+1
+0.9
+0.8
+0.7
+0.6
+0.5
+0.4
+0.3
+0.2
d
B
r
A
+0.1
+0
-0.1
-0.2
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
-0.9
-1
20
50
100
200
500
1k
2k
5k
10k
20k
5k
10k
20k
Hz
Figure 37. DAC2 – Frequency Response [fs = 48kHz]
AK4616 Crosstalk Single-end DAC (AOUT1L/R)
[fs=48kHz, 0dBFS]
-80
-85
-90
-95
-100
-105
-110
d
B
-115
-120
-125
-130
-135
-140
-145
-150
20
50
100
200
500
1k
2k
Hz
Figure 38. DAC2 – Crosstalk [fs = 48kHz]
< KM110803 >
2013/04
- 39-
[AKD4616-A]
5.
Mono DAC (fs = 48kHz); SDTI3 => Mono DAC3 => AOUT3
AK4616 FFT Diff DAC (AOUT3)
[fs=48kHz, fin=1kHz, -60dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
r
-80
A
-100
-90
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
5k
10k
20k
Hz
Figure 39. DAC3 – FFT (0BFS) [fs = 48kHz]
AK4616 FFT Diff DAC (AOUT3)
[fs=48kHz, fin=1kHz, -60dBFS]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
r
-80
A
-100
-90
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
Hz
Figure 40. DAC3 – FFT (-60dBFS) [fs = 48kHz]
< KM110803 >
2013/04
- 40-
[AKD4616-A]
AK4616 FFT Diff DAC (AOUT3)
[fs=48kHz, fin=1kHz, no signal]
+0
-10
-20
-30
-40
-50
-60
-70
d
B
r
-80
A
-100
-90
-110
-120
-130
-140
-150
-160
-170
-180
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 41. DAC3 – FFT (No Signal) [fs = 48kHz]
AK4616 THD+N vs Amplitude Diff DAC (AOUT3)
[fs=48kHz, fin=1kHz] 20kHz SPCL
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
r
A
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
+0
dBFS
Figure 42. DAC3 – THD+N vs. Amplitude (Input Level) [fs = 48kHz]
< KM110803 >
2013/04
- 41-
[AKD4616-A]
AK4616THD+N vs Input Frequency Diff DAC (AOUT3)
[fs=48kHz, 0dBFS] 20kHz SPCL
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
r
A
-92.5
-95
-97.5
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 43. DAC3 – THD+N vs. Input Frequency [fs = 48kHz]
AK4616 Linearity Diff DAC (AOUT3)
[fs=48kHz, fin=1kHz]
+0
-10
-20
-30
-40
-50
d
B
r
-60
A
-80
-70
-90
-100
-110
-120
-130
-140
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
+0
dBFS
Figure 44. DAC3 – Linearity [fs = 48kHz]
< KM110803 >
2013/04
- 42-
[AKD4616-A]
AK4616 Frequency Response Diff DAC (AOUT3)
[fs=48kHz, 0dBFS] AMP Bypass
+1
+0.9
+0.8
+0.7
+0.6
+0.5
+0.4
+0.3
+0.2
d
B
r
A
+0.1
+0
-0.1
-0.2
-0.3
-0.4
-0.5
-0.6
-0.7
-0.8
-0.9
-1
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 45. DAC3 – Frequency Response [fs = 48kHz]
< KM110803 >
2013/04
- 43-
[AKD4616-A]
REVISION HISTORY
Date
(yy/mm/dd)
12/02/11
12/07/12
Manual
Revision
KM110800
KM110801
Board
Revision
0
2
13/04/16
KM110802
3
13/04/23
KM110803
3
Reason
First edition
Board
Revision
Board
Revision
Soft Revision
Page
Contents
p6,13 Remove JP6,7
p45
Control Software Manual Revision
IMPORTANT NOTICE
 These products and their specifications are subject to change without notice.
When you consider any use or application of these products, please make inquiries the sales office of Asahi Kasei
Microdevices Corporation (AKM) or authorized distributors as to current status of the products.
 Descriptions of external circuits, application circuits, software and other related information contained in this
document are provided only to illustrate the operation and application examples of the semiconductor products. You
are fully responsible for the incorporation of these external circuits, application circuits, software and other related
information in the design of your equipments. AKM assumes no responsibility for any losses incurred by you or third
parties arising from the use of these information herein. AKM assumes no liability for infringement of any patent,
intellectual property, or other rights in the application or use of such information contained herein.
 Any export of these products, or devices or systems containing them, may require an export license or other official
approval under the law and regulations of the country of export pertaining to customs and tariffs, currency exchange,
or strategic materials.
 AKM products are neither intended nor authorized for use as critical componentsNote1) in any safety, life support, or
other hazard related device or systemNote2), and AKM assumes no responsibility for such use, except for the use
approved with the express written consent by Representative Director of AKM. As used here:
Note1) A critical component is one whose failure to function or perform may reasonably be expected to result,
whether directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and
which must therefore meet very high standards of performance and reliability.
Note2) A hazard related device or system is one designed or intended for life support or maintenance of safety
or for applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or
perform may reasonably be expected to result in loss of life or in significant injury or damage to person or
property.
 It is the responsibility of the buyer or distributor of AKM products, who distributes, disposes of, or otherwise places
the product with a third party, to notify such third party in advance of the above content and conditions, and the buyer
or distributor agrees to assume any and all responsibility and liability for and hold AKM harmless from any and all
claims arising from the use of said product in the absence of such notification.
< KM110803 >
2013/04
- 44-
3
R1
R2
51
51
1
AK4616-AOUT1L
AK4616-AOUT3N
AK4616-A3V32
AK4616-SDTI3
AK4616-D1V8
AK4616-PDN
2
AK4616-AOUT3P
4
AK4616-SCL
5
D
D
48pin_4
37
38
39
40
41
42
43
44
45
46
47
48
DVSS
AVSS
CN1
AOUT1L
AOUT3N
AOUT3P
C202
100u
+
C1 10u
1M
A3V32
TST3
TP1
+
C201
100u
SDTI3
D1V8
PDN
SCL
R201
51
AK4616-SDTI1
+
C5
37
open
38
39
40
C4 0.1u
41
42
43
44
45
46
0
SDTI1
2
2
AOUT1L
AOUT3P
VSS3
A3V32
TST3
SDTI3
VSS4
D1V8
PDN
AOUT3N
1
VREFH2
SDA
1
R4
47
48
SCL
51
R5
R3
48pin_3
CN2
AK4616-SDA
VREFH2
+
C2 10u
C3 0.1u
SDA
AOUT1R
SDTI1
AOUT2L
AOUT1R
36
35
C
R6
51
AK4616-SDTI2
R7
51
AK4616-AOUT1R
35
AK4616-AOUT2L
34
AK4616-AOUT2R
C
AOUT2R
SDTI2
3
3
AK4616-LRCK
36
AOUT2L
LRCK
4
4
SDTI2
AOUT2R
LRCK
TST2
34
33
33
TP2
AK4616-MCLK
MCLK
5
5
MCLK
MIN/MINP
1.0u(A)
32
C6
+
51
+
R8
C7
MIN/MINP
MIN/MINP
32
AK4616-MIN/MINP
31
AK4616-MINN
TP3
R9
51
AK4616-BICK
BICK
6
6
BICK
MINN
U1
1.0u(A)
31
MINN
MINN
TP4
R10
SDTO1
AK4616-SDTO1
51
7
7
AK4616
SDTO1
MICBIAS
30
MICBIAS
MICBIAS
R13
SDTO2
8
8
AK4616-SDTO2
SDTO2
MPRF
29
TP6
D3V3
AK4616-D3V3
9
9
C203
100u
B
VSS1
+
C11
10u
C12
+
D3V3
VCOM
+
C10
1.0u
28
VCOM
+
28
C13
1.0u
0.1u
10
10
11
11
VSS1
AIN4L
AIN3RP
AIN4R
B
AIN4L
27
26
(open)
MPRF
29
30
(open)
TP5
51
R14
R12
AK4616-AIN4L
27
C205 +
100u
AIN4R
26
R202
DVSS
25
1M
25
A3V31
VSS2
AIN1LN
AIN1LP
AIN1RP
AIN2LN
AIN2LP
AIN2RP
AIN3LP
AIN1RN
TST1
AIN2RN
AIN3RN
AIN3LN
12
12
24
23
22
21
20
19
18
17
16
15
14
CN3
13
48pin_1
A3V31
AIN1LN
AIN1LP
AIN1RN
AIN1RP
AIN2LN
AIN2LP
AIN2RN
AIN2RP
AIN3LN
AIN3LP
AIN3RN
AK4616-AIN4R
+
AIN3RP
C14
0.1u
C15
10u
C204
100u
14
13
12
11
10
9
8
7
6
5
4
3
2
1
+
CN4
A
A
5
4
3
AK4616-A3V31
- 45-
AK4616-AIN1LN
AK4616-AIN1LP
AK4616-AIN1RN
AK4616-AIN1RP
AK4616-AIN2LN
AK4616-AIN2LP
AK4616-AIN2RN
AK4616-AIN2RP
AK4616-AIN3LN
AK4616-AIN3LP
AK4616-AIN3RN
AVSS
AK4616-AIN3RP
28pin_L
AVSS
Title
<AKD4616-A>
Size
A3
Date:
2
Document Number
<AK4616>
Tuesday, April 16, 2013
Rev
<3>
Sheet
1
1
of
7
5
4
3
AOUT1L
+
J1
R16
(open)
R17
10k
22u(A)
C17
J2
+
2
3
1
AK4616-AOUT1L
C18
open
1
AOUT1R
C16
D
2
C19
open
R18
(open)
MR-552LS(W)
R19
10k
22u(A)
AVSS
AVSS
C20
+
R20
(open)
C
AOUT2R
J3
2
3
1
AK4616-AOUT2L
C22
open
R21
10k
22u(A)
AVSS
AVSS
C21
J4
+
AOUT2L
R22
(open)
C23
open
R23
10k
22u(A)
AOUTR2
C
MR-552LS(R)
AVSS
AVSS
AVSS
AVSS
AVSS
AOUT3 (Monaural)
2
3
1
AK4616-AOUT2R
AOUTL2
MR-552LS(W)
AVSS
AOUTR1
MR-552LS(R)
AVSS
AVSS
D
2
3
1
AK4616-AOUT1R
AOUT1L
R24
6.8k
R26
300
C24
+
R25
AK4616-AOUT3N
6.8k
C25
270p
B
4
C27
2200p(F)
6
5
C29
+
AK4616-AOUT3P
R32
(open)
C30
open
6.8k
300
R28
22u(A)
LME49720MA
R30
R29
C28
7
8
AVSS
AVSS
U2B
J5
+
22u(A)
+
R27
(open)
C26
open
-
B
2
3
1
220
R31
DOUT3
MR-552LS(Y)
10k
22u(A)
R33
C31
AVSS
AVSS
VOP-DAC
6.8k
270p
VOP-DAC
R34
1k
AVSS
C32
R35
10u
1k
+
C33
0.1u
AVSS
AVSS
A
TP8
LC-3-G_B
A
AVSS
Title
<AKD4616-A>
Size
A3
- 465
4
3
Date:
2
Document Number
<Analog OUT>
Tuesday, April 16, 2013
Rev
<3>
Sheet
1
2
of
7
5
4
3
2
1
AREA: SHORTEST WIRING
JP1
C34
C36
R37 4.7k
1.0u(A)
C38 68p
22u(A)
R41
4.7k
R40 4.7k
C39 68p
22u(A)
MR-552LS(R)
AVSS
8
C46
open
AVSS
VOP-ADC
C50
0.1u
C52
0.1u
+
6
R47
TP9
LC-3-G_B
VOP-ADC
C51
0.1u
C54
0.1u
C53
10u
C43
+
JP4
AK4616-AIN1RP
AK4616-AIN2RP
AK4616-AIN3RP
7
1.0u(A)
C47
open
+
C49
10u
5
2k
U4B
LME49720MA
+
R45
4.7k
1
AVSS
R51
1k
AVSS
AVSS
AINRP-SEL
AVSS
C55
10u
AVSS
AVSS
AVSS
C45
open
R49
1k
AINLP-SEL
3
2k
8
8
1.0u(A)
R42
4
4
5
2k
2
VOP-ADC
AK4616-AIN1LP
AK4616-AIN2LP
AK4616-AIN3LP
+
4
+
R46
JP3
C42
7
U4A
LME49720MA
8
4
6
+
-
1
U3B
LME49720MA
-
C44
open
R48
1k
R43
4.7k
+
3
2k
U3A
LME49720MA
-
2
R44
+
AINRN-SEL
AVSS
VOP-ADC
C48
10u
1.0u(A)
D
AK4616-AIN1RN
AK4616-AIN2RN
AK4616-AIN3RN
C41
open
AVSS
AVSS
R50
1k
JP2
+
T
B
S
C40
open
MR-552LS(W)
C37
J7
AINLN-SEL
+
T
B
S
R39
4.7k
+
J6
R38
4.7k
+
R36
4.7k
C35
AINR
AK4616-AIN1LN
AK4616-AIN2LN
AK4616-AIN3LN
+
AINL
-
D
AVSS
AVSS
AVSS
AVSS
C
C
AIN4R
AIN4L
J9
MR-552LS(R)
C56
C57
+
+
J8
MR-552LS(W)
2
3
1
2
3
1
AK4616-AIN4L
1.0u(A)
AK4616-AIN4R
1.0u(A)
AVSS
AVSS
B
B
MIC
JP5
R54
4.7k
C58
AK4616-MINN
Single
+
R52 4.7k
Diff
22u(A)
C60 68p
MINN
C59
open
MR-552LS(Y)
AVSS
C61
open
1k
6
R56
C62
open
AVSS
R59
1k
5
2k
U5B
LME49720MA
7
Single
Single
AK4616-MIN/MINP
Diff
Diff
8
R58
R55
4.7k
1
8
3
2k
+
R57
U5A
LME49720MA
-
2
VOP-ADC
4
4
AVSS
+
T
B
S
R53
4.7k
-
J10
+
C63
10u
C64
0.1u
VOP-ADC
AVSS
AVSS
C65
0.1u
+
TP10
LC-3-G_B
C66
10u
AVSS
AVSS
AVSS
AVSS
A
A
Title
- 47-
<AKD4616-A>
Size
A2
Date:
5
4
3
2
Document Number
<AnalogIN>
Rev
<3>
Tuesday, April 16, 2013
1
Sheet
3
of
7
5
4
L1
1
GND
OUT
2
1
47uH
2
D3V
PORT1
VCC
3
D3V
3
C67
0.1u
2
1
TORX
+
C68
10u
TP11
R60
51
+
DGND
D
C69
RX
DGND
D
10u
C70
0.1u
R61
10k
C71
1
2
10
9
8
7
6
D3V
H
3
38
37
INT1
R
AVDD
39
40
VCOM
41
VSS3
42
RX0
43
NC
44
RX1
45
TEST1
46
RX2
47
VSS4
RX3
48
0.47u
IPS0/RX4
INT0
NC
OCKS0/CSN/CAD0
DIF0/RX5
OCKS1/CCLK/SCL
36
INT0
35
OCKS0
34
OCKS1
SW1
4
TEST2
CM1/CDTI/SDA
33
D3V
1
2
3
4
5
L
C
5
6
OCKS0
OCKS1
7
DIF1/RX6
CM0/CDTO/CAD1
U6
VSS1
32
DGND
PDN
DIF2/RX7
XTI
31
DIO-PDN
30
1
DIF2
DIF1
DIF0
OCKS1
OCKS0
C
C72
5p
C73
5p
5
4
3
2
1
X1
12.288MHz
IPS1/IIC
XTO
29
2
8
DGND
DGND
9
P/SN
DAUX
XTL0
MCKO2
XTL1
BICK
28
DAUX
RP1
47k (R-PACK5R)
10
11
27
26
DIR-BICK
25
LRCK
DIR-SDTO
24
MCKO1
23
22
VSS2
DVDD
SDTO
21
VOUT/GP7
20
UOUT/GP6
19
18
17
TX1/GP3
16
TX0/GP2
15
14
13
TVDD
NC/GP1
VIN/GP0
COUT/GP5
B
12
BOUT/GP4
B
0.1u
0.1u
+
D3V
C75
+
DIR-LRCK
C74
C76
10u
C77
10u
DIR-MCKI
DGND
A
PORT2
IN
VCC
GND
A
TP12
3
2
TX
C78
D3V
0.1u
1
TOTX
Title
<AKD4616-A>
DGND
Size
A3
- 485
4
3
Date:
2
Document Number
<DIR/DIT>
Tuesday, April 16, 2013
Rev
<3>
Sheet
1
4
of
7
5
4
3
2
1
U7
10
11
D
D3V
16
8
C79
0.1u
CLK
Q1
Q2
Q3
Q4
Q5
Q6
Q7
Q8
Q9
Q10
VD
Q11
DGND Q12
RST
9
7
6
5
3
2
4
13
12
14
15
1
JP8
DIR-BICK
JP10
THR
D
AK4616-BICK
INV
BICK-PHASE
BICK-SEL
4040-1fs
DIR
10pin
DIR-LRCK
JP9
4040-64fs
4040-32fs
DIR
10pin
AK4616-LRCK
LRCK-SEL
74HC4040
DGND
D3V
K
D3V
A
D1
HSU119
R62
10k
SW2
DIO-PDN
1
H
1A
1Y
2A
2Y
3A
3Y
GND
VCC
6A
6Y
5A
5Y
4A
4Y
DAUX
14
13
12
11
10
9
8
PORT3
10
8
6
4
2
C80
0.1u
INT0
9
7
5
3
1
LE1
R63
C81
0.1u
2
L
3
C
JP11
U8
1
2
3
4
5
6
7
74HC14
1k 2
1
DAUX-SEL
SDTO2
AK4616-SDTO2
AK4616-SDTO1
SDTO1
C
LRCK
BICK
MCLK
CLK
INT0
DGND
DGND
DGND
DIO-PDN
K
D3V
A
D2
HSU119
PORT4
10
8
6
4
2
Ak4616-PDN
R64
10k
9
7
5
3
1
SDTO2
SDTO1
SDTI3
SDTI2
SDTI1
JP12
DIR-SDTO
DIR
10pin
GND
AK4616-SDTI3
AK4616-SDTI2
AK4616-SDTI1
AK4616-MCLK
SDTI3-SEL
SDTI/O
1
2
SW3
PDN
3
DGND
L
JP13
DGND
H
DIR-SDTO
C82
0.1u
DIR
10pin
GND
SDTI2-SEL
B
B
DGND
JP14
DGND
DIR-SDTO
DIR
10pin
GND
SDTI1-SEL
2
3
4
5
J11
EXT
JP15
1
R65
DIR-MCKI
DGND
10pin
EXT
GND
DIR
MCKI-SEL
51
JP16
EXT
DGND
A
A
Title
<AKD4616-A>
Size
A3
- 495
4
3
Date:
2
Document Number
<LOGIC>
Tuesday, April 16, 2013
Rev
<3>
Sheet
1
5
of
7
5
4
3
2
1
D
D
4.7k
R66
10
8
6
4
2
2.2u
C83
5V => 3.3V
10k
10k
10k
DGND
+
+
C85
10u
R67
R68
R69
NC
NC
Vin
Vout
Vcont PCL
NC
GND
T1
D3V
8
7
6
5
TK73633AME
1
2
3
4
10pin-CTRL
C84
10u
JP17
DGND
PIC
DGND
17
16
15
14
11
10
9
8
VDD0
6
VSS0
1
2
3
4
5
MCLR_N/Vpp/RE3
RB7/KBI3/PGD
RB6/KBI2/PGC
RB5/KBI1/PGM
RB4/AN11/KBI0/CSSPP
RB3/AN9/CPP2/VPO
RB2/AN8/INT2/VMO
RB1/AN10/INT1/SCK/SCL
RB0/AN12/INT0/FLT0/SDI/SDA
NC/ICCK/ICPGC
NC/ICDT/ICPGD
NC/ICRST_N/ICVpp
NC/ICPORTS
TP13
TP14
RD1
TP16
RD3
TP18
RD5
TP20
RD7
RD0
TP15
RD2
TP17
RD4
TP19
RD6
38
39
40
41
2
3
4
5
USB
7
0.1u
28
0.1u
VDD1
SILK-SCREEN(P1)
1:VDD
2:MCLR
3:PGD
4:PGC
5:GND
C
C87
VSS1
JP18
PIC18F4550
TQFP 44-PIN
RD0/SPP0
RD1/SPP1
RD2/SPP2
RD3/SPP3
RD4/SPP4
RD5/SPP5/P1B
RD6/SPP6/P1C
RD7/SPP7/P1D
U9
B
OSC1/CLKI
OSC2/CLKO/RA6
RE0/AN5/CK1SPP
RE1/AN6/CK2SPP
RE2/AN7/OESPP
VUSB
32
35
36
U10
USB(B type)
1
2
3
4
R74
R75
0
0
42
43
44
1
JMP3x3
DGND
C86
29
1u/25V(A)
VUSB
DD+
GND
SCL
SDA
SDA(ACK)
DGND
C88
C
PORT5
9
7
5
3
1
RC0/T1OSO/T13CKI
RC1/T1OSI/CCP2/UOE_N
RC2/CCP1/P1A
RC4/D-/VM
RC5/D+/VP
RC6/TX/CK
RC7/RX/DT/SDO
18
USB-RST
12
13
33
34
30
31
R70
0.1u
100k
25
26
27
37
C92
USB
10pin
USB
10pin
SCL
AK4616-SCL
SDA
AK4616-SDA
SDA(ACK)
CTRL-SEL
C89
XTI
XTO
10pin
C90
22p
X2
20MHz
C91
22p
0.47u
B
DGND
RA0/AN0
RA1/AN1
RA2/AN2/Vref-/CVref
RA3/AN3/Vref+
RA4/T0CKI/C1OUT/RCV
RA5/AN4/SS_N/HLVDIN/C2OUT
19
20
21
22
23
24
R71
R72
R73
51
51
51
SCL
SDA
SDA(ACK)
DGND
PIC18F4550
A
A
Title
<AKD4616-A>
Size
A3
- 505
4
3
Date:
2
Document Number
<PC-IF>
Tuesday, April 16, 2013
Rev
<3>
Sheet
1
6
of
7
5
4
3
2
L2
1
short
2
J12
VOP+ (12V)
J13
A3V31
1
JP20
R76
REG
AK4616-A3V31
A3V31
(Short)
1
1
A3V31-SEL
D
C94
C93
47u(A)
+
T2
TK73633AME
47u(A)
8
7
6
5
AVSS
C95
NC
Vin
Vcont
NC
12V =>
NC
Vout
PCL
GND
3.3V
L3
1
short
L4
1
short
D
2
+
AVSS
1
2
3
4
2
J14
A3V32
JP21
R77
REG
AK4616-A3V32
A3V32
(Short)
A3V32-SEL
C96
1
2.2u
1u/25V(A)
C97
47u(A)
L5
1
short
L6
1
short
2
+
AVSS
AVSS
T3
TK73633AME
8
7
6
5
C
C98
NC
Vin
Vcont
NC
12V =>
NC
Vout
PCL
GND
3.3V
1
2
3
4
2
J15
D3V3
JP22
AK4616-D3V3
D3V3
C
(Short)
D3V3-SEL
C99
1
2.2u
1u/25V(A)
R78
REG
C100
47u(A)
L7
1
short
L8
1
short
2
+
DVSS
DVSS
C101
0.1u
+ C103
3
+ C102
10u
OUT
heatsink
IN
2
J16
D3V
1
JP23
R79
REG
D3V
D3V
(Short)
D3V-SEL
C104
0.1u
1
2
GND
T4
LM1117-1.8V
+ C105
10u
100u/16V(A)
C106
47u(A)
B
L9
1
short
2
+
B
DVSS
L10
1
short
2
J17
D1V8
JP24
R80
REG
AK4616-D1V8
D1V8
(Short)
L11
1
short
1
D1V8-SEL
R81
2
VOP-ADC
(Short)
C107
10u
+
C108
0.1u
C109
47u(A)
AVSS
L12
1
short
2
+
DVSS
R82
VOP-DAC
(Short)
C110
10u
+
C111
0.1u
J18
DGND
R83
J19
AVSS
(open)
A
AVSS
DVSS
1
1
A
AVSS
JP25
TP21
GND
R84
GND1
(open)
Title
<AKD4616-A>
DGND
5
4
AVSS
DVSS
DGND
Size
A3
- 513
Date:
2
Document Number
<POWER>
Tuesday, April 16, 2013
Rev
<3>
Sheet
1
7
of
7
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