AK4344ET

[AKD4344-A]
AKD4344-A
AK4344 Evaluation Board Rev.2
GENERAL DESCRIPTION
The AKD4344-A is an evaluation board for the AK4344, 24bit and 96kHz DAC with DIT for portable and
home audio systems. The AKD4344-A has the interface with AKM’s A/D converter evaluation boards and
the interface with digital audio systems via optical connector. Therefore, it is easy to evaluate the
AK4344.
Ordering guide
AKD4344-A ---
AK4344 Evaluation Board
FUNCTION
• Compatible with 2 types of input data interface
- Direct interface with AKM’s A/D converter evaluation boards via 10-pin header
- On-board AK4112B as DIR, which accepts optical or BNC Inputs
• Optical output for internal DIT
• BNC connector for an external clock input
• BNC connector for DAC output
DGND
VCC
74LVC541
Digital In
OPT
VDD AGND
AK4344
AK4112B
(DIR)
BNC
Digital Out
OPT
Analog Out
LOUT
MCLK
Clock
Divider
Generator
ROUT
10pin Header
DSP Data
Figure 1. AKD4344-A Block Diagram
* Circuit diagram and PCB layout are attached at the end of this manual.
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[AKD4344-A]
Operation sequence
1) Set up the power supply lines.
[VDD]
(Red)
= 2.7 ∼ 3.6V (typ. 3.3V, for AK4344)
[VCC]
(Red)
= 2.7 ∼ 3.6V (typ. 3.3V, for AK4112B, for 74LVC541 and for logic)
[AGND] (Black)
= 0V
[DGND] (Black)
= 0V
Each supply line should be distributed from the power supply unit.
2) Set-up the evaluation modes, jumper pins and DIP switches (See the followings.)
3) Power on.
When AK4112B is used, The AK4112B and AK4344 should be reset once by bringing SW2 and SW1 “L”
upon power-up.
When AK4112B is not used, keep SW2 to “L”, and the AK4344 should be reset once by bringing SW1 “L”
upon power-up.
Evaluation mode
1) D/A part evaluation using optical or S/PDIF input <Default>
Use PORT1 (RX1: OPT) or J2 (RX1: BNC).
The AK4112B (DIR) generates MCLK, BICK, LRCK and SDTI1 from the received data through Optical
connector (TORX141) or BNC connector. This evaluation mode should be used for the evaluation using CD test
disk. Nothing should be connected to PORT3 (DSP). The selection of OPT and BNC should be done by JP14
(RX1)
JP4
MCLK
DIR
EXT
JP5
BICK
DIR
JP6
SDTI1
JP7
JP12
LRCK
EXT
DIR
EXT
EXT
2) D/A part evaluation using 10-pin connector on the AKM’s A/D evaluation board
Use PORT3 (DSP).
It is able to evaluate the AK4344, connecting the 10-pin connector on the AKM’s A/D evaluation board and
PORT3 (DSP) via 10-line flat cable. MCLK, BICK, LRCK and SDTI1 are sent from the A/D converter evaluation
board to the AKD4344 through PORT3 (DSP) via 10-line flat cable.
JP4
MCLK
DIR
EXT
JP5
BICK
DIR
JP6
SDTI1
JP7
JP12
LRCK
EXT
DIR
EXT
EXT
3) D/A part evaluation using PORT3 (DSP), and supplying all interface signals from external equipments
In case of using PORT3 (DSP), and supplying signals (MCLK, BICK, LRCK, SDTI1) that is needed for
the AK4344 from external equipments, set up as following.
JP4
MCLK
DIR
EXT
JP5
BICK
DIR
JP6
SDTI1
JP7
JP12
LRCK
EXT
DIR
EXT
EXT
In case of using PORT3 (DSP), and supplying SDTI2 from external equipments, setting of SDTI2
should be done by JP8 (SDTI2).
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[AKD4344-A]
Other Jumper pins set up
(1) JP15 (VDD): VDD and VCC
OPEN:
Separated
SHORT: Common. (The connector “VCC” can be open.) <Default>
By opening the connector “VCC”, shorting JP15 (VDD) and supplying 3.3V to the connector “VDD”, the
connector “VDD” can supply 3.3V to all circuits
(2) JP16 (GND): Analog ground and Digital ground
OPEN:
Separated
SHORT: Common. (The connector “DGND” can be open.) <Default>
(3) JP10 (BCFS): Select the BICK of the AK4344
x1: BICK=128fs in case of MCLK=256fs/384fs/512fs/768fs.
BICK=64fs in case of MCLK=192fs.
x2: BICK=64fs in case of MCLK=128fs/256fs/384fs/512fs/768fs. <Default>
BICK=32fs in case of MCLK=192fs.
BICK=128fs in case of MCLK=1024fs/1536fs.
x4: BICK=32fs in case of MCLK=128fs/256fs/384fs/512fs/768fs.
BICK=64fs in case of MCLK=1024fs/1536fs.
x8: BICK=32fs in case of MCLK=1024fs/1536fs.
(4) JP11 (DIV), [JP9] (CLK), [JP13] (LRFS)
When using J1 (EXT), these jumper pins should be set according to Table 1.
(5) JP2 (CDTO / SDTI2): Select the signal of CDTO / SDTI2 pin
CDTO: Select the CDTO<Default>
SDTI2: Select the SDTI2
(6) JP8 (SDTI2): Select the input of SDTI2 pin
PORT3: Input the signal from PORT3
GND: Input the “0” Data <Default>
(When JP2 (CDTO / SDTI2): setting is CDTO, Set to GND)
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[AKD4344-A]
Example for External Clock setting
Refer to the following setting when MCLK, BICK and LRCK are supplied to the AK4344 from J1 (EXT).
Mode
fs
8kHz
Half
24kHz
8kHz
32kHz
Normal
44.1kHz
48kHz
48kHz
Double
96kHz
MCLK
JP11 (DIV)
JP9 (CLK)
512fs = 4.096MHz
x2
x2
768fs = 6.144MHz
x3
x2
1024fs = 8.192MHz
x2
x2
1536fs = 12.288MHz
x3
x2
512fs = 12.288MHz
x2
x2
768fs = 18.432MHz
x3
x2
1024fs = 24.576MHz
x2
x2
1536fs = 36.864MHz
x3
x2
256fs = 2.048MHz
x1
x2
384fs = 3.072MHz
OPEN
x3
512fs = 4.096MHz
x2
x2
768fs = 6.144MHz
x3
x2
256fs = 8.192MHz
x1
x2
384fs = 12.288MHz
OPEN
x3
512fs = 16.384MHz
x2
x2
768fs = 24.576MHz
x3
x2
256fs = 11.2896MHz
x1
x2
384fs = 16.9344MHz
OPEN
x3
512fs = 22.5792MHz
x2
x2
768fs = 33.8688MHz
x3
x2
256fs = 12.288MHz
x1
x2
384fs = 18.432MHz
OPEN
x3
512fs = 24.576MHz
x2
x2
768fs = 36.864MHz
x3
x2
128fs = 6.144MHz
OPEN
x1
192fs = 9.216MHz
OPEN
x3
256fs = 12.288MHz
x1
x2
384fs = 18.432MHz
OPEN
x3
128fs = 12.288MHz
OPEN
x1
192fs = 18.432MHz
OPEN
x3
256fs = 24.576MHz
x1
x2
384fs = 36.864MHz
OPEN
x3
Table 1. Clock Setting
<KM087902>
JP13 (LRFS)
x1
x1
x2
x2
x1
x1
x2
x2
x1
x1
x1
x1
x1
x1
x1
x1
x1
x1
x1
x1
x1
x1
x1
x1
x1
x3
x1
x1
x1
x3
x1
x1
Default
2007/07
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[AKD4344-A]
DIP Switch set up
[SW3]: Setting the audio data format of the AK4112B (ON=“H”, OFF=“L”)
Mode
0
3
4
5
SW3-3 SW3-2 SW3-1
SDTI Format
DIF2
DIF1
DIF0
L
L
L
16bit, LSB justified
L
H
H
24bit, LSB justified
H
L
L
24bit, MSB justified
H
L
H
24bit, I2S Compatible
Table 2. SW3: Audio Data Format of AK4112B
Default
Note. The AK4112B does not support 16bit, I2S Compatible.
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[AKD4344-A]
The function of the toggle SW
[SW1] (AK4344-PDN): Resets the AK4344. Keep “H” during normal operation.
The AK4344 should be reset once by bringing SW1 “L” upon power-up.
[SW2] (AK4112B-PDN): Resets the AK4112B. Keep “H” during normal operation.
The AK4112B should be reset once by bringing SW2 “L” upon power-up.
Analog Output Circuit
+
The DAC of AK4344 outputs analog audio signals through J3 and J4.
C13
22u
R7
220
AK4344-LOUT
R9
10k
J3
BNC-R-PC
1
C100
1n
C17
22u
+
R12
220
AK4344-ROUT
R13
10k
2LOUT
3
4
5
J4
BNC-R-PC
1
C101
1n
2ROUT
3
4
5
Figure 2. LOUT/ROUT Output circuit
* AKEMD assumes no responsibility for the trouble when using the above circuit examples.
Serial control
GND
GND
GND
GND
CCLK
CSN
1
CDTI
Red
CDTO
2
NC
PORT4
uP I/F
GND
The AKD4344-A can be controlled via the printer port (parallel port) of IBM-AT compatible PC. Connect PORT4
(uP-I/F) to PC by 10-line flat cable packed with the AKD4344-A. Take care of the direction of connector. There is a
mark at pin#1. The pin layout of PORT4 as shown Figure 3.
10
9
Figure 3. PORT4 pin layout
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[AKD4344-A]
Control Software Manual
Set-up of evaluation board and control software
1. Set up the AKD4344-A according to the Operating Sequence located on page 2.
2. Connect IBM-AT compatible PC with AKD4344-A by 10-line type flat cable (packed with AKD4344-A). Take care
of the direction of 10pin header. (Please install the driver in the CD-ROM when this control software is used on
Windows 2000/XP. Please refer “Installation Manual of Control Software Driver by AKM device control software”.
In case of Windows95/98/ME, this installation is not needed. This control software does not operate on Windows
NT.)
3. Insert the CD-ROM labeled “AKD4344-A Evaluation Kit” into the CD-ROM drive.
4. Access the CD-ROM drive and double-click the icon of “akd4344-a.exe” to set up the control program.
5. Please evaluate according to the following.
Operation flow
Keep the following flow.
1. Set up the control program according to explanation above.
2. Click “Port Reset” button.
Explanation of each buttons
1. [Port Reset]:
2. [Write default]:
3. [All Write]:
4. [Function1]:
5. [Function2]:
6. [Function3]:
7. [Function4]:
8. [Function5]:
9. [SAVE]:
10. [OPEN]:
11. [Write]:
Set up the USB interface board (AKDUSBIF-A).
Initialize the register of AK4344.
Write all registers that is currently displayed.
Dialog to write data by keyboard operation.
Dialog to write data by keyboard operation.
The sequence of register setting can be set and executed.
The sequence that is created on [Function3] can be assigned to buttons and executed.
The register setting that is created by [SAVE] function on main window can be assigned to
buttons and executed.
Save the current register setting.
Write the saved values to all register.
Dialog to write data by mouse operation.
Indication of data
Input data is indicated on the register map. Red letter indicates “H” or “1” and blue one indicates “L” or “0”. Blank is the
part that is not defined in the datasheet.
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[AKD4344-A]
Explanation of each dialog
1. [Write Dialog]: Dialog to write data by mouse operation
There are dialogs corresponding to each register.
Click the [Write] button corresponding to each register to set up the dialog. If you check the check box, data becomes
“H” or “1”. If not, “L” or “0”.
If you want to write the input data to AK4344, click [OK] button. If not, click [Cancel] button.
2. [Function1 Dialog] : Dialog to write data by keyboard operation
Address Box: Input registers address in 2 figures of hexadecimal.
Data Box:
Input registers data in 2 figures of hexadecimal.
If you want to write the input data to AK4344, click [OK] button. If not, click [Cancel] button.
3. [Function2 Dialog] : Dialog to evaluate ATT
Address Box:
Start Data Box:
End Data Box:
Interval Box:
Step Box:
Input registers address in 2 figures of hexadecimal.
Input starts data in 2 figures of hexadecimal.
Input end data in 2 figures of hexadecimal.
Data is written to AK4344 by this interval.
Data changes by this step.
Mode Select Box:
*If you check this check box, data reaches end data, and returns to start data.
[Example]
Start Data = 00, End Data = 09
Data flow: 00 01 02 03 04 05 06 07 08 09 09 08 07 06 05 04 03 02 01 00
*If you do not check this check box, data reaches end data, but does not return to start data.
[Example]
Start Data = 00, End Data = 09
Data flow: 00 01 02 03 04 05 06 07 08 09
If you want to write the input data to AK4344, click [OK] button. If not, click [Cancel] button.
<KM087902>
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[AKD4344-A]
4. [Save] and [Open]
4-1. [Save]
Save the current register setting data. The extension of file name is “akr”.
(Operation flow)
(1) Click [Save] Button.
(2) Set the file name and push [Save] Button. The extension of file name is “akr”.
4-2. [Open]
The register setting data saved by [Save] is written to AK4344. The file type is the same as [Save].
(Operation flow)
(1) Click [Open] Button.
(2) Select the file (*.akr) and Click [Open] Button.
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[AKD4344-A]
5. [Function3 Dialog]
The sequence of register setting can be set and executed.
(1) Click [F3] Button.
(2) Set the control sequence.
Set the address, Data and Interval time. Set “-1” to the address of the step where the sequence should be paused.
(3) Click [Start] button. Then this sequence is executed.
The sequence is paused at the step of Interval="-1". Click [START] button, the sequence restarts from the paused step.
This sequence can be saved and opened by [Save] and [Open] button on the Function3 window. The extension of file name
is “aks”.
Figure 4. Window of [F3]
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[AKD4344-A]
6. [Function4 Dialog]
The sequence that is created on [Function3] can be assigned to buttons and executed. When [F4] button is clicked, the
window as shown in Figure opens.
Figure 5. [F4] window
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[AKD4344-A]
6-1. [OPEN] buttons on left side and [START] buttons
(1) Click [OPEN] button and select the sequence file (*.aks).
The sequence file name is displayed as shown in Figure.
Figure 6. [F4] window(2)
(2) Click [START] button, then the sequence is executed.
6-2. [SAVE] and [OPEN] buttons on right side
[SAVE]: The sequence file names can assign be saved. The file name is *.ak4.
[OPEN]: The sequence file names assign that are saved in *.ak4 are loaded.
6-3. Note
(1) This function doesn't support the pause function of sequence function.
(2) All files need to be in same folder used by [SAVE] and [OPEN] function on right side.
(3) When the sequence is changed in [Function3], the file should be loaded again in order to reflect the change.
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[AKD4344-A]
7. [Function5 Dialog]
The register setting that is created by [SAVE] function on main window can be assigned to buttons and executed. When
[F5] button is clicked, the following window as shown in Figure opens.
Figure 7. [F5] window
7-1. [OPEN] buttons on left side and [WRITE] button
(1) Click [OPEN] button and select the register setting file (*.akr).
(2) Click [WRITE] button, then the register setting is executed.
7-2. [SAVE] and [OPEN] buttons on right side
[SAVE] : The register setting file names assign can be saved. The file name is *.ak5.
[OPEN] : The register setting file names assign that are saved in *.ak5 are loaded.
7-3. Note
(1) All files need to be in same folder used by [SAVE] and [OPEN] function on right side.
(3) When the register setting is changed by [Save] Button in main window, the file should be loaded again in order to
reflect the change.
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[AKD4344-A]
MEASUREMENT RESULTS
[Measurement condition]
• Measurement unit
• MCLK
• BICK
• fs
• BW
• Bit
• Power Supply
• Interface
• Temperature
: Audio Precision, System Two Cascade
: 512fs (fs=44.1KHz) / 256fs (fs=96KHz)
: 64fs
: 44.1kHz / 96kHz
: 20Hz~20KHz (fs=44.1kHz) / 20Hz~40KHz (fs=96kHz)
: 24bit
: VDD = 3.3V
: PSIA
: Room
[Measurement Results]
Parameter
DAC Analog Output Characteristics
S/(N+D)
(fs=44.1kHz, fin=1KHz, 0dBFS)
(fs=96kHz, fin=1KHz, 0dBFS)
D-Range
(fs=44.1kHz, fin=1KHz, -60dBFS, A-weighted)
(fs=96kHz, fin=1KHz, -60dBFS, A-weighted)
Results
Lch / Rch
Unit
-91.2/-91.2
-89.0/-89.1
dB
dB
99.4/99.4
99.4/99.4
dB
dB
99.6/99.5
99.4/99.4
115.0/115.2
dB
dB
dB
S/N
(fs=44.1kHz, no-input, A-weighted)
(fs=96kHz, no-input, A-weighted)
Interchannel Isolation (fin=1KHz, 0dBFS/ no-input)
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[AKD4344-A]
[DAC Plot: fs=44.1kHz]
AKM
THD+N vs. Input Level
fs=44.1kHz, fin=1kHz
06/18/07 09:30:43
-70
-72
-74
-76
-78
-80
-82
d
B
r
-84
-86
A
-88
-90
-92
-94
-96
-98
-100
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
+0
dBFS
Figure 1. THD+N vs. Input Level (fin=1KHz)
AKM
THD+N vs. Input Freqency
fs=44.1kHz, fin=0dBFs
06/18/07 09:28:48
-70
-72
-74
-76
-78
-80
-82
d
B
r
-84
-86
A
-88
-90
-92
-94
-96
-98
-100
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 2. THD+N vs. Input Frequency (Input Level=0dBFS)
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[AKD4344-A]
[DAC Plot: fs=44.1kHz]
AKM
Linearity
fs=44.1kHz, fin=1kHz
06/18/07 09:35:13
+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 3. Linearity (fin=1KHz)
AKM
Freqency Response
fs=44.1kHz, fin=0dBFs
06/18/07 09:49:36
+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
2k
4k
6k
8k
10k
12k
14k
16k
18k
20k
Hz
Figure 4. Frequency Response (Input Level=0dBFS)
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[AKD4344-A]
[DAC Plot: fs=44.1kHz]
AKM
Crosstalk
fs=44.1kHz
06/18/07 09:56:53
-70
-76
-82
-88
-94
d
B
-100
-106
-112
-118
-124
-130
10
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 5. Crosstalk (fin=1KHz, Input Level=0dBFS/no-input)
AKM
FFT
fs=44.1kHz, fin=0dBFs,1kHz
06/18/07 10:07:31
+0
-10
-20
-30
-40
-50
-60
d
B
r
A
-70
-80
-90
-100
-110
-120
-130
-140
-150
-160
10
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 6. FFT Plot (fin=1KHz, Input Level=0dBFS)
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[AKD4344-A]
[DAC Plot: fs=44.1kHz]
AKM
FFT
fs=44.1kHz, fin=-60dBFs,1kHz
06/18/07 10:08:53
+0
-10
-20
-30
-40
-50
-60
d
B
r
-70
A
-90
-80
-100
-110
-120
-130
-140
-150
-160
10
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 7. FFT Plot (fin=1KHz, Input Level=−60dBFS)
AKM
FFT Noise floor
fs=44.1kHz
06/18/07 10:09:30
+0
-10
-20
-30
-40
-50
-60
d
B
r
A
-70
-80
-90
-100
-110
-120
-130
-140
-150
-160
10
20
50
100
200
500
1k
2k
5k
10k
20k
Hz
Figure 8. FFT Plot (no-input)
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[AKD4344-A]
[DAC Plot: fs=96kHz]
AKM
FFT Out-of-band Noise
fs=44.1kHz
06/18/07 10:32:35
+0
-10
-20
-30
-40
-50
-60
d
B
r
-70
A
-90
-80
-100
-110
-120
-130
-140
-150
-160
10
20
50
100
200
500
1k
2k
5k
10k
20k
-40
-30
50k
100k
Hz
Figure 9. FFT Plot (out-of-band-noise)
THD+N vs Input Level
fs=96KHz, fin=1KHz
-70
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
r
-92.5
A
-97.5
-95
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
-140
-130
-120
-110
-100
-90
-80
-70
-60
-50
-20
-10
+0
dBFS
Figure 10. THD+N vs. Input Level (fin=1KHz)
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[AKD4344-A]
[DAC Plot: fs=96kHz]
THD+N vs Input Frequency
fs=96KHz, Input Level=0dBFS
-70
TT
TT
-72.5
-75
-77.5
-80
-82.5
-85
-87.5
-90
d
B
r
-92.5
A
-97.5
-95
-100
-102.5
-105
-107.5
-110
-112.5
-115
-117.5
-120
10
20
50
100
200
500
1k
2k
5k
10k
20k
40k
Hz
Figure 11. THD+N vs. Input Frequency (Input Level=0dBFS)
AKM
Linearity
fs=96kHz
06/18/07 10:46:53
+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 12. Linearity (fin=1KHz)
<KM087902>
2007/07
- 20 -
[AKD4344-A]
[DAC Plot: fs=96kHz]
AKM
Frequency response
fs=96kHz
06/18/07 10:49:42
+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
2.5k
5k
7.5k
10k
12.5k
15k
17.5k
20k
22.5k
25k
27.5k
30k
32.5k
35k
37.5k
40k
Hz
Figure 13. Frequency Response (Input Level=0dBFS)
AKM
Crosstalk
fs=96kHz
06/18/07 10:52:01
-70
-75
-80
-85
-90
-95
d
B
-100
-105
-110
-115
-120
-125
-130
10
20
50
100
200
500
1k
2k
5k
10k
20k
40k
Hz
Figure 14. Crosstalk (fin=1KHz, Input Level=0dBFS/no-input)
<KM087902>
2007/07
- 21 -
[AKD4344-A]
[DAC Plot: fs=96kHz]
AKM
FFT
fs=96kHz, fin=0dBFs,1kHz
06/18/07 10:24:00
+0
-10
-20
-30
-40
-50
-60
d
B
r
-70
A
-90
-80
-100
-110
-120
-130
-140
-150
-160
10
20
50
100
200
500
1k
2k
5k
10k
20k
40k
Hz
Figure 15. FFT Plot (fin=1KHz, Input Level= 0dBFS)
AKM
FFT
fs=96kHz, fin=-60dBFs,1kHz
06/18/07 10:28:58
+0
-10
-20
-30
-40
-50
-60
d
B
r
A
-70
-80
-90
-100
-110
-120
-130
-140
-150
-160
10
20
50
100
200
500
1k
2k
5k
10k
20k
40k
Hz
Figure 16. FFT Plot (fin=1KHz, Input Level= −60dBFS)
<KM087902>
2007/07
- 22 -
[AKD4344-A]
[DAC Plot: fs=96kHz]
AKM
FFT Noise floor
fs=96kHz
06/18/07 10:29:37
+0
-10
-20
-30
-40
-50
-60
d
B
r
-70
A
-90
-80
-100
-110
-120
-130
-140
-150
-160
10
20
50
100
200
500
1k
2k
5k
10k
20k
40k
Hz
Figure 17. FFT Plot (no-input)
AKM
FFT Out-of-band Noise
fs=96kHz
06/18/07 10:30:24
+0
-10
-20
-30
-40
-50
-60
d
B
r
A
-70
-80
-90
-100
-110
-120
-130
-140
-150
-160
10
20
50
100
200
500
1k
2k
5k
10k
20k
50k
100k
Hz
Figure 18. FFT Plot (out-of-band-noise)
<KM087902>
2007/07
- 23 -
[AKD4344-A]
Revision History
Date
(yy/mm/dd)
07/03/15
07/04/17
Manual
Revision
KM087900
KM087901
Board
Revision
0
1
07/07/02
KM087902
2
Reason
Contents
First Edition
Circuit
Change
Change
Circuit
Change
Add
Change U1 (AK4344): 28pin SOP 16pin TSSOP
Remove jumper pins: JP1 (TEST2), JP3 (TEST1).
TEST2 is open. Connect TEST1 to GND.
P3. Remove description: (7) JP1 (TEST2), (8) JP3 (TEST1).
Capacitor between VCOM and VSS: C3: Change: 10uF 4.7uF
Add capacitor C100: 1nF between J3 (LOUT) and GND.
Add capacitor C101: 1nF between J4 (ROUT) and GND.
Add measurement results
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 EMD Corporation
(AKEMD) or authorized distributors as to current status of the products.
AKEMD assumes no liability for infringement of any patent, intellectual property, or other rights in the application or use of any
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.
AKEMD products are neither intended nor authorized for use as critical componentsNote1) in any safety, life support, or other hazard
related device or systemNote2), and AKEMD assumes no responsibility for such use, except for the use approved with the express
written consent by Representative Director of AKEMD. 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 AKEMD 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 AKEMD harmless from any and all claims arising from the use of said
product in the absence of such notification.
<KM087902>
2007/07
- 24 -
A
B
C
D
E
E
E
CN1
D
U1
CN2
AK4344-MCLK
1
1
MCLK
AK4344-BICK
2
2
BICK
AK4344-SDTI1
3
3
SDTI1
TEST2
16
CDTO/SDTI2
15
VDD
14
CDTO
JP2(3x1)
CDTO/SDTI2 SDTI2
+
C1
0.1u
4
4
LRCK
VSS
13
C3
4.7u
C
AK4344-TX
15
AK4344-CDTO
14
AK4344-SDTI2
13
VDD
D
C2
10u
+
AK4344-LRCK
16
AK4344-PDN
5
5
PDN
VCOM
12
12
AK4344-CSN
6
6
CSN
LOUT
11
11
AK4344-LOUT
AK4344-CCLK
7
7
CCLK
ROUT
10
10
AK4344-ROUT
AK4344-CDTI
8
8
CDTI
TEST1
9
9
C
AK4344
B
B
A
A
Title
AKD4344-A
A4
AK4344
Tuesday, June 12, 2007
Size
Date:
A
B
C
D
Document Number
Sheet
1
E
Rev
2
of
6
A
B
C
D
E
U2
1
DVDD
CM0/CDTO
28
2
DVSS
CM1/CDTI
27
VCC
3
TVDD
OCKS1/CCLK
26
VCC
4
V/TX
OCKS0/CSN
25
5
XTI
MCKO1
24
6
XTO
MCKO2
23
7
PDN
DAUX
22
8
R
BICK
21
AK4112B-BICK
9
AVDD
SDTO
20
AK4112B-SDTO
10
AVSS
LRCK
19
AK4112B-LRCK
AK4112B-RX1
11
RX1
ERF
18
AK4112B-ERF
AK4112B-DIF0
12
RX2/DIF0
FS96
17
AK4112B-DIF1
13
RX3/DIF1
P/S
16
AK4112B-DIF2
14
RX4/DIF2
AUTO
15
VCC
C4
10u
C6
10u
+
C7
0.1u
VCC
C8
E
C5
0.1u
+
E
5p
D
AK4112B-MCKO1
D
X1 HC-49/U
11.2896MHz
C9
5p
AK4112B-PDN
R1
18k
VCC
C
C10
10u
B
+
C
C11
0.1u
VCC
B
AK4112B
A
A
Title
Size
A4
Date:
A
B
C
D
AKD4344-A
AK4112B
Document Number
Thursday, May 31, 2007
Rev
2
Sheet
2
E
of
6
A
B
C
D
E
E
E
VCC
U3
1
G1
VCC
20
C12
0.1u
EXT-MCLK
D
AK4112B-MCKO1
PORT3-MCLK
JP4(3x1)
MCLK
PORT3-BICK
JP5(3x1)
BICK
PORT3-SDTI1
JP6(2x1)
SDTI1
PORT3-LRCK
JP7 (3x1)
LRCK
EXT
DIR
EXT-BICK
EXT
AK4112B-BICK
DIR
AK4112B-SDTO
EXT-LRCK
AK4112B-LRCK
C
EXT
DIR
74LVC541A-PDN
PORT3-SDTI2
PORT3
GND
JP8 (3x1)
SDTI2
19
G2
GND
10
2
A1
Y1
18
3
A2
Y2
17
4
A3
Y3
16
5
A4
Y4
15
AK4344-LRCK
6
A5
Y5
14
AK4344-PDN
7
A6
Y6
13
AK4344-SDTI2
8
A7
Y7
12
9
A8
Y8
11
R2
51
D
AK4344-MCLK
R3
51
AK4344-BICK
R4
51
AK4344-SDTI1
R5
51
C
B
B
74LVC541A
A
A
Title
Size
A4
Date:
A
B
C
D
Document Number
AKD4344-A
74LVC541A
Thursday, May 31, 2007
Sheet
3
E
Rev
2
of
6
A
B
C
D
E
EXT-MCLK
VCC
CLK
DIV
5
Q
6
x1 1
x2 3
x3 5
2
4
6
16
Q
10
CLK
11
RST
CLK
VCC
CLK
VCC
PR
D
3
8
Q
7
10
2
9
1
14
13
12
11
15
U5
74HC4040
14
1
3
Q1
Q2
Q3
Q4
Q5
Q6
Q7
Q8
Q9
Q10
Q11
Q12
9
7
6
5
3
2
4
13
12
14
15
1
x1
x2
x4
x8
1
2
3
4
5
6
7
8
EXT-BICK
BCFS
JP13
(3x2)
x3 1
x1 3
x2 5
D
2
4
6
EXT-LRCK
LRFS
2
U7A
74HC14
4
U7B
74HC14
C
5
8
ENP
ENT
CLK
LOAD
CLR
QA
QB
QC
QD
RCO
7
VCC
A
B
C
D
GND
3
4
5
6
VCC
GND
JP12
(2x1)
VCC
U6
74AC163
C
2
JP10
(4x2)
8
D
EXT
2
4
6
VCC
JP9
(3x2)
7
13
R6
51
x1 1
x2 3
x3 5
GND
CL
11
1
9
Q
JP11
(3x2)
U4A
74AC74
7
1
D
GND
CL
2
3
4
5
12
16
EXT
J1
BNC-R-PC
U4B
74AC74
14
10
VCC
14
4
E
VCC
PR
E
6
U7C
74HC14
9
8
U7D
74HC14
11
10
U7E
74HC14
B
B
13
12
U7F
74HC14
A
A
Title
Size
A4
Date:
A
B
C
D
AKD4344-A
Document Number
Rev
External Master Clock Divider
Thursday, May 31, 2007
Sheet
4
E
of
2
6
A
B
C
D
E
2
VCC
L1
47u
K
R8
10k
A
D1
HSU119
RX1(OPT)
U8A
1
2
4
1
AK4344-LOUT
VCC
3
GND
OUT
2
1
C14
0.1u
R10
R9
10k
470
74LVC541A-PDN
OPT
74HC14
C100
1n
JP14 (3x1)
1
RX1(BNC)
2
2
3
4
5
J2
BNC-R-PC
BNC
C16
1
0.1u
R11
75
C17
22u
J4
BNC-R-PC
+
R12
220
1
AK4344-ROUT
VCC
PORT2
TOTX141
K
D
R14
10k
D2
HSU119
A
E
AK4112B-RX1
C15
0.1u
TX(OPT)
U8C
5
3
2
GND
1
AK4344-TX
9
74HC14
8
C101
1n
2ROUT
3
4
5
D
VCC
C18
0.1u
U8D
6
H
IN
VCC
R13
10k
AK4112B-PDN
74HC14
1
L
3
2LOUT
3
4
5
RX1
SW1
ATE1D-2M3
AK4344-PDN
3
74HC14
H
3
L
U8B
J3
BNC-R-PC
R7
220
+
PORT1
TORX141
E
C13
22u
1
VCC
C19
0.1u
2
SW2
ATE1D-2M3
AK4112B-PDN
C
C
SW3
DSS103
DIF0
DIF1
DIF2
1
2
3
VCC
4
5
6
PORT3-MCLK
AK4112B-MODE
R15
R16
R17
47K
47K
47K
U9A
74HCT04
AK4112B-ERF
PORT3-BICK
PORT3-LRCK
AK4112B-DIF0
AK4112B-DIF1
AK4112B-DIF2
1
R18
2
PORT3-SDTI2
PORT3
A1-10PA-2.54DSA
1
10
MCLK
2
9
BICK
3
8
LRCK
4
7
SDTI1
SDTI2
5
6
LED1
SML-210VT
K
1k
B
PORT3-SDTI1
A
VCC
AK4112B-ERF
B
DSP
U9B
74HCT04
VCC
U8E
11
10
4
14
5
6
U9D
74HCT04
9
16
U8F
12
7
13
VCC
VCC
74HC14
R19
10k
R20
470
R22
10k
R23
470
R25
10k
R26
470
8
U9E
74HCT04
PORT4
A1-10PA-2.54DSA
10
9 CSN
8
7 CCLK
6
5 CDTI
4
3 CDTO
10
VCC
14
U9F
74HCT04
13
2
1
15
1A
1B
2A
2B
3A
3B
4A
4B
A/B
G
U10
74HCT157
4
R21
100
2Y
7
R24
100
3Y
9
R27
100
4Y
12
R28
100
1Y
AK4344-CSN
AK4344-CCLK
AK4344-CDTI
AK4344-CDTO
R29
100K
A
8
11
A
2
3
5
6
11
10
14
13
VCC
74HC14
U9C
74HCT04
GND
3
1
12
R30
Title
(short)
7
uP-I/F
Size
A3
Date:
A
B
C
D
AKD4344-A
Document Number
Rev
Input Output for Digital
Analog
Sheet
of
Tuesday, June 12, 2007
5
E
6
2
C
D
E
VDDi
AGND
DGND
1
D
L3
(short)
2
L2
(short)
JP15
(2x1)
For 74HC14 x 1, 74HCT04 x 1, 74AC74 x 1, 74HC4040 x 1,
74AC163 x 1, 74HC14 x 1
2
D
VCCi
E
AGND
DGND
T_45(BLACK)T_45(BLACK)
VCCi
1
VDDi
VCC
T_45(RED)
1
1
VDD
T_45(RED)
E
1
B
1
A
R31
VCC
C20
47u +
VDD C21
47u +
(short)
C22
0.1u
C23
0.1u
C24
0.1u
C25
0.1u
C26
0.1u
C27
0.1u
C28
0.1u
R32
C
C
VDD
(short)
JP16
AGND (2x1) DGND
GND
B
B
A
A
Title
Size
A4
Date:
A
B
C
D
Document Number
AKD4344-A
Power Supply
Thursday, May 31, 2007
Sheet
6
E
Rev
2
of
6