AKM AK4124VF 192khz/ 24bit high performance asynchronous src Datasheet

ASAHI KASEI
[AK4124]
AK4124
192kHz / 24Bit High Performance Asynchronous SRC
GENERAL DESCRIPTION
AK4124 is a stereo digital sample rate converter (SRC). The input sample rate ranges from 8kHz to
216kHz. The output sample rate is from 8kHz to 216kHz. By using the AK4124, the system can take very
simple configuration because the AK4124 has an internal PLL and does not need any master clock at
slave mode. Then the AK4124 is suitable for the application interfacing to different sample rates like
high-end Car Audio, DVD recorder, etc.
FEATURES
1. SRC
• Asynchronous Sample Rate Converter
• Input Sample Rate Range (fsi) : 8kHz ∼ 216kHz
• Output Sample Rate (fso) : 8kHz ∼ 216kHz
• Input to Output Sample Rate Ratio : 1/6 to 6
• THD+N : −130dB
• Dynamic Range : 140dB (A-weighted)
• I/F format : MSB justified, LSB justified and I2S compatible
• PLL for Internal Operation Clock
• Clock for Master mode : 128/192/256/384/512/768fsi, 128/192/256/384/512/768fso
• SRC Bypass mode
• Soft Mute Function
2. Power Supply
• AVDD, DVDD: 3.0 ∼ 3.6V (typ. 3.3V)
3. Ta = −40 ∼ 85°C
4. Package : 30pin VSOP
IDIF2 IDIF1 IDIF0
AVDD AVSS DVDD DVSS ODIF1 ODIF0
OBIT1
OBIT0
IBICK
ILRCK
SDTI
Serial
Audio
I/F
Serial
Audio
I/F
SRC
OLRCK
OBICK
SDTO
OMCLK
PDN
PLL2
PLL1
PLL0
SMUTE
PLL
UNLOCK
DITHER
IMCLK
CMODE2 CMODE1 CMODE0
MS0288-E-01
2004/08
-1-
ASAHI KASEI
[AK4124]
„ Ordering Guide
AK4124VF
AKD4124
−40 ∼ +85°C
30pin VSOP (0.65mm pitch)
Evaluation Board for AK4124
„ Pin Layout
FILT
1
30
AVDD
AVSS
2
29
DVSS
PDN
3
28
DVDD
SMUTE
4
27
OMCLK
DITHER
5
26
OLRCK
PLL2
6
25
OBICK
ILRCK
7
24
SDTO
IBICK
8
23
ODIF1
SDTI
9
22
ODIF0
IDIF0
10
21
CMODE2
IDIF1
11
20
CMODE1
IDIF2
12
19
CMODE0
PLL0
13
18
IMCLK
PLL1
14
17
OBIT1
UNLOCK
15
16
OBIT0
Top View
MS0288-E-01
2004/08
-2-
ASAHI KASEI
[AK4124]
„ Compatibility with AK4121
Pin 5
Pin 6
THD+N
D-Range (A-weighted)
Gain between Input and Output Signal
fs
Master mode for Input PORT
MCLK for Master mode (Input PORT)
MCLK for Master mode (Output PORT)
Output Data Length
De-emphasis Filter
PLL Unlock Flag (UNLOCK pin)
5V tolerant
Package
AK4124
DITHER
PLL2
−130dB
140dB
−0.01dB (typ)
8kHz ∼ 216kHz
Yes
128/192/256/384/512/768fsi
128/192/256/384/512/768fso
16/18/20/24 bit
No
Yes
No
30VSOP
MS0288-E-01
AK4121
DEM0
DEM1
−113dB
117dB
−0.2dB (typ)
8kHz ∼ 96kHz
No
No
256/384/512/768fso
16/20 bit
Yes (32k/44.1k/48kHz)
No
Yes (TVDD)
24VSOP
2004/08
-3-
ASAHI KASEI
[AK4124]
PIN/FUNCTION
No.
Pin Name
I/O
1
2
FILT
AVSS
O
-
3
PDN
I
4
SMUTE
I
5
DITHER
I
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
PLL2
ILRCK
IBICK
SDTI
IDIF0
IDIF1
IDIF2
PLL0
PLL1
UNLOCK
OBIT0
OBIT1
IMCLK
CMODE0
CMODE1
CMODE2
ODIF0
ODIF1
SDTO
OBICK
OLRCK
OMCLK
DVDD
DVSS
AVDD
I
I/O
I/O
I
I
I
I
I
I
O
I
I
I
I
I
I
I
I
O
I/O
I/O
I
-
Function
PLL Loop Filter Pin
Analog Ground Pin
Power-Down Mode Pin
“H”: Power up, “L”: Power down reset and initializes the control register.
Soft Mute Pin
“H” : Soft Mute, “L” : Normal Operation
Dither Enable Pin
“H” : Dither ON, “L” : Dither OFF
PLL Mode Select 2 Pin
Input Channel Clock Pin
Audio Serial Data Clock Pin
Audio Serial Data Input Pin
Audio Interface Format 0 Pin for Input PORT
Audio Interface Format 1 Pin for Input PORT
Audio Interface Format 2 Pin for Input PORT
PLL Mode Select 0 Pin
PLL Mode Select 1 Pin
Unlock Status Pin
Bit Length Select 0 Pin for Output Data
Bit Length Select 1 Pin for Output Data
Master Clock Input Pin for Input PORT
Clock Mode Select 0 Pin
Clock Mode Select 1 Pin
Clock Mode Select 2 Pin
Audio Interface Format 0 Pin for Output PORT
Audio Interface Format 1 Pin for Output PORT
Audio Serial Data Output Pin for Output PORT
Audio Serial Data Clock Pin for Output PORT
Output Channel Clock Pin for Output PORT
Master Clock Input Pin for Output PORT
Digital Power Supply Pin, 3.0 ∼ 3.6V
Digital Ground Pin
Analog Power Supply Pin, 3.0 ∼ 3.6V
Note: All input pins should not be left floating.
MS0288-E-01
2004/08
-4-
ASAHI KASEI
[AK4124]
„ Handling of Unused pins
The unused digital I/O pins should be processed appropriately as below.
Classification
Analog
Digital
Pin Name
FILT
SMUTE, DITHER
IMCLK, OMCLK
UNLOCK
Setting
This pin should be open.
These pins should be connected to DVSS.
These pins should be connected to DVSS in slave mode.
This pin should be open.
ABSOLUTE MAXIMUM RATINGS
(AVSS, DVSS=0V; Note 1)
Parameter
Power Supplies:
Analog
Digital
|AVSS − DVSS| (Note 2)
Input Current, Any Pin Except Supplies
Digital Input Voltage
Ambient Temperature (Power applied)
Storage Temperature
Symbol
min
max
Units
AVDD
DVDD
∆GND
IIN
VIND
Ta
Tstg
−0.3
−0.3
−0.3
−40
−65
4.6
4.6
0.3
±10
DVDD+0.3
85
150
V
V
V
mA
V
°C
°C
Note 1. All voltages with respect to ground.
Note 2. AVSS, BVSS and DVSS must be connected to the same ground.
WARNING: Operation at or beyond these limits may result in permanent damage to the device.
Normal operation is not guaranteed at these extremes.
RECOMMENDED OPERATING CONDITIONS
(AVSS, DVSS=0V; Note 1)
Parameter
Symbol
min
typ
Power Supplies
Analog
AVDD
3.0
3.3
(Note 3)
Digital
DVDD
3.0
3.3
max
3.6
AVDD
Units
V
V
Note 1. All voltages with respect to ground.
Note 3. The power up sequence between AVDD and DVDD is not critical.
WARNING: AKM assumes no responsibility for the usage beyond the conditions in this datasheet.
MS0288-E-01
2004/08
-5-
ASAHI KASEI
[AK4124]
SRC CHARACTERISTICS
(Ta=25°C; AVDD=DVDD=3.3V; AVSS=DVSS=0V; data = 24bit; measurement bandwidth = 20Hz ~ FSO/2; unless
otherwise specified.)
Parameter
Symbol
min
typ
max
Units
SRC Characteristics:
Resolution
24
Bits
Input Sample Rate
FSI
8
216
kHz
Output Sample Rate
FSO
8
216
kHz
THD+N
(Input = 1kHz, 0dBFS, Note 4)
FSO/FSI = 44.1kHz/48kHz
−130
dB
FSO/FSI = 48kHz/44.1kHz
−124
dB
FSO/FSI = 48kHz/192kHz
−129
dB
FSO/FSI = 192kHz/48kHz
−124
dB
Worst Case (FSO/FSI = 48kHz/8kHz)
−108
dB
Dynamic Range (Input = 1kHz, −60dBFS, Note 4)
FSO/FSI = 44.1kHz/48kHz
136
dB
FSO/FSI = 48kHz/44.1kHz
136
dB
FSO/FSI = 48kHz/192kHz
136
dB
FSO/FSI = 192kHz/48kHz
132
dB
Worst Case (FSO/FSI = 48kHz/32kHz)
132
dB
Dynamic Range (Input = 1kHz, −60dBFS, A-weighted, Note 4)
FSO/FSI = 44.1kHz/48kHz
140
dB
Ratio between Input and Output Sample Rate
FSO/FSI
1/6
6
Note 4. Measured by Audio Precision System Two Cascade.
MS0288-E-01
2004/08
-6-
ASAHI KASEI
[AK4124]
FILTER CHARACTERISTICS
(Ta=25°C; AVDD, DVDD=3.0 ∼ 3.6V)
Parameter
Symbol
min
Digital Filter
Passband −0.001dB 0.985 ≤ FSO/FSI ≤ 6.000
PB
0
0.905 ≤ FSO/FSI < 0.985
PB
0
0.714 ≤ FSO/FSI < 0.905
PB
0
0.656 ≤ FSO/FSI < 0.714
PB
0
0.536 ≤ FSO/FSI < 0.656
PB
0
0.492 ≤ FSO/FSI < 0.536
PB
0
0.452 ≤ FSO/FSI < 0.492
PB
0
0.357 ≤ FSO/FSI < 0.452
PB
0
0.324 ≤ FSO/FSI < 0.357
PB
0
0.246 ≤ FSO/FSI < 0.324
PB
0
0.226 ≤ FSO/FSI < 0.246
PB
0
0.1667 ≤ FSO/FSI < 0.226
PB
0
Stopband
0.985 ≤ FSO/FSI ≤ 6.000
SB
0.5417FSI
0.905 ≤ FSO/FSI < 0.985
SB
0.5021FSI
0.714 ≤ FSO/FSI < 0.905
SB
0.3965FSI
0.656 ≤ FSO/FSI < 0.714
SB
0.3643FSI
0.536 ≤ FSO/FSI < 0.656
SB
0.2974FSI
0.492 ≤ FSO/FSI < 0.536
SB
0.2732FSI
0.452 ≤ FSO/FSI < 0.492
SB
0.2510FSI
0.357 ≤ FSO/FSI < 0.452
SB
0.1983FSI
0.324 ≤ FSO/FSI < 0.357
SB
0.1822FSI
0.246 ≤ FSO/FSI < 0.324
SB
0.1366FSI
0.226 ≤ FSO/FSI < 0.246
SB
0.1255FSI
0.1667 ≤ FSO/FSI < 0.226
SB
0.0911FSI
Passband Ripple
PR
Stopband Attenuation
SA
113
Group Delay
(Note 5)
GD
-
typ
max
Units
0.4583FSI
0.4167FSI
0.3195FSI
0.2852FSI
0.2182FSI
0.1982FSI
0.1740FSI
0.1212FSI
0.1072FSI
0.0595FSI
0.0484FSI
0.0182FSI
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
kHz
dB
dB
1/fs
±0.01
56
-
Note 5. This value is the time from the rising edge of LRCK after data is input to rising edge of LRCK after data is output,
when LRCK for Output data corresponds with LRCK for Input.
DC CHARACTERISTICS
(Ta=25°C; AVDD, DVDD=3.0 ∼ 3.6V)
Parameter
Symbol
min
High-Level Input Voltage
VIH
70%DVDD
Low-Level Input Voltage
VIL
High-Level Output Voltage
(Iout=−400µA)
VOH
DVDD−0.4
Low-Level Output Voltage
(Iout=400µA)
VOL
Input Leakage Current
Iin
Power Supplies
Power Supply Current
Normal operation (PDN pin = “H”)
FSI=FSO=48kHz at Slave Mode: AVDD=DVDD=3.3V
FSI=FSO=192kHz at Master Mode: AVDD=DVDD=3.3V
: AVDD=DVDD=3.6V
Power down (PDN pin = “L”)
(Note 6)
AVDD+DVDD
typ
-
max
30%DVDD
0.4
±10
Units
V
V
V
V
µA
85
mA
mA
mA
100
µA
13
55
10
Note 6. All digital input pins are held DVSS.
MS0288-E-01
2004/08
-7-
ASAHI KASEI
[AK4124]
SWITCHING CHARACTERISTICS
(Ta=25°C; AVDD, DVDD=3.0 ∼ 3.6V; CL=20pF)
Parameter
Symbol
min
Master Clock Timing
Frequency
fCLK
1.024
Pulse Width Low
tCLKL
0.4/fCLK
Pulse Width High
tCLKH
0.4/fCLK
LRCK for Input data (ILRCK)
Frequency
fs
8
Duty Cycle
Duty
48
LRCK for Output data (OLRCK)
Frequency
fs
8
Duty Cycle
Slave Mode
Duty
48
Master Mode
Duty
Audio Interface Timing
Input PORT (Slave mode)
IBICK Period
(8kHz ∼ 108kHz)
(108kHz ∼ 216kHz)
IBICK Pulse Width Low
Pulse Width High
ILRCK Edge to IBICK “↑”
(Note 7)
IBICK “↑” to ILRCK Edge
(Note 7)
SDTI Hold Time from IBICK “↑”
SDTI Setup Time to IBICK “↑”
Input PORT (Master mode)
IBICK Frequency
IBICK Duty
IBICK “↓” to ILRCK
SDTI Hold Time from IBICK “↑”
SDTI Setup Time to IBICK “↑”
Output PORT (Slave mode)
OBICK Period
(8kHz ∼ 108kHz)
(108kHz ∼ 216kHz)
OBICK Pulse Width Low
Pulse Width High
OLRCK Edge to OBICK “↑”
(Note 7)
OBICK “↑” to OLRCK Edge
(Note 7)
2
OLRCK to SDTO (MSB) (Except I S mode)
OBICK “↓” to SDTO
Output PORT (Master mode)
OBICK Frequency
OBICK Duty
OBICK “↓” to OLRCK
OBICK “↓” to SDTO
Reset Timing
PDN Pulse Width
(Note 8)
tBCK
tBCK
tBCKL
tBCKH
tLRB
tBLR
tSDH
tSDS
fBCK
dBCK
tMBLR
tSDH
tSDS
tBCK
tBCK
tBCKL
tBCKH
tLRB
tBLR
tLRS
tBSD
typ
50
50
50
max
Units
41.472
MHz
ns
ns
216
52
kHz
%
216
52
kHz
%
%
1/128fs
1/64fs
27
27
15
15
15
15
ns
ns
ns
ns
ns
ns
ns
ns
64fs
50
−20
15
15
20
1/128fs
1/64fs
27
27
20
20
fBCK
dBCK
tMBLR
tBSD
−20
−20
tPD
150
20
20
64fs
50
20
20
Hz
%
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Hz
%
ns
ns
ns
Note 7. BICK rising edge must not occur at the same time as LRCK edge.
Note 8. The AK4124 can be reset by bringing the PDN pin = “L”.
MS0288-E-01
2004/08
-8-
ASAHI KASEI
[AK4124]
„ Timing Diagram
1/fCLK
VIH
MCLK
VIL
tCLKH
tCLKL
1/fs
VIH
LRCK
VIL
tBCK
VIH
BICK
VIL
tBCKH
tBCKL
Clock Timing
VIH
LRCK
VIL
tBLR
tLRB
VIH
BICK
VIL
tBSD
tLRS
SDTO
50%DVDD
tSDS
tSDH
VIH
SDTI
VIL
Audio Interface Timing (Slave mode)
Note : BICK shows IBICK and OBICK, LRCK shows ILRCK and OLRCK.
MS0288-E-01
2004/08
-9-
ASAHI KASEI
[AK4124]
50%DVDD
LRCK
tMBLR
dBCK
BICK
50%DVDD
tBSD
SDTO
50%DVDD
tSDH
tSDS
VIH
SDTI
VIL
Audio Interface Timing (Master mode)
Note : BICK shows IBICK and OBICK, LRCK shows ILRCK and OLRCK.
tPD
PDN
VIL
Power Down & Reset Timing
MS0288-E-01
2004/08
- 10 -
ASAHI KASEI
[AK4124]
OPERATION OVERVIEW
„ System Clock & Audio Interface Format for Input PORT
The input port works in master mode or slave mode. An internal system clock is created by the internal PLL using ILRCK
(Mode 0 ∼ 2 of Table 2) or IBICK (Mode 4 ∼ 7 of Table 2) in slave mode. The MCLK is not needed in slave mode. And
an internal system clock is created by IMCLK (Mode 8 ∼ 15 of Table 2) in master mode. The PLL2-0 pins and IDIF2-0
pins select the master/slave and PLL mode. The PLL2-0 pins and IDIF2-0 pins should be controlled when PDN pin = “L”.
The IDIF2-0 pins select the audio interface format for the input port. The audio data is MSB first, 2’s compliment format.
The SDTI is latched on the rising edge of IBICK. Select the audio interface format when PDN pin = “L”. When in
BYPASS mode, both IBICK and OBICK are fixed to 64fs.
Mode
0
1
2
3
4
5
6
7
Mode
IDIF2
L
L
L
L
H
H
H
H
IDIF1
L
L
H
H
L
L
H
H
Master / Slave
PLL2
PLL1
PLL0
ILRCK Freq
IBICK Freq
IMCLK
0
L
L
L
1
L
L
H
Depending on
IDIF2-0
L
H
L
8k ∼ 96kHz
8k ∼ 216kHz
16k ∼ 216kHz
(Note 1)
Not
needed.
(Note 4)
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Master / Slave
IDIF0
SDTI Format
ILRCK IBICK
IBICK Freq
L
16bit, LSB justified
≥ 32fsi
H
20bit, LSB justified
≥ 40fsi
Input
Input
L
24/20bit, MSB justified
≥ 48fsi
H
24/16bit, I2S Compatible
≥ 48fsi or 32fsi
L
24bit, LSB justified
≥ 48fsi
H
24bit, MSB justified
64fs
Output Output
L
24bit, I2S Compatible
64fs
H
Reserved
Table 1. Input Audio Interface Format (Input PORT)
Slave
IMCLK = DVSS
IBICK = Input
ILRCK = Input
Master
IMCLK = Input
IBICK = Output
ILRCK = Output
L
H
H
H
H
L
L
L
L
H
H
H
H
Slave
Master
H
H
Reserved
L
L
32fsi (Note 3)
Not
L
H
64fsi
8k ∼ 216kHz
needed.
(Note 2)
H
L
128fsi
(Note 4)
64fsi
H
H
L
L
128fs
8k ∼ 216kHz
L
H
256fs
8k ∼ 108kHz
H
L
512fs
8k ∼ 54kHz
H
H
128fs
8k ∼ 216kHz
64fs
L
L
192fs
8k ∼ 216kHz
L
H
384fs
8k ∼ 108kHz
H
L
768fs
8k ∼ 54kHz
H
H
192fs
8k ∼ 216kHz
Table 2. PLL Setting (Input PORT)
SMUTE
(Note 5)
Manual
Semi-Auto
Manual
Semi-Auto
Manual
Semi-Auto
Manual
Semi-Auto
Note 1. PLL lock rage is changed by the value of R and C connected FILT pin. Refer to “PLL Loop Filter”.
Note 2. The IBCIK must be continuous except when the clocks are changed.
Note 3. IBCIK = 32fsi is supported only 16bit LSB justified and I2S Compatible.
Note 4. Fixed to DVSS.
Note 5. Refer to “Soft Mute Operation” for Manual mode and Semi-Auto mode.
MS0288-E-01
2004/08
- 11 -
ASAHI KASEI
[AK4124]
ILRCK
0 1 2 3
9 10 11 12 13 14 15 0 1 2 3
9 10 11 12 13 14 15 0 1
IBICK(32fs)
SDTI(i)
15 14 13
7 6 5 4 3 2 1 0 15 14 13
0 1 2 3
17 18 19 20
7 6 5 4 3 2 1 0 15
31 0 1 2 3
17 18 19 20
31 0 1
IBICK(64fs)
SDTI(i)
Don't Care
15 14 13 12
1 0
Don't Care
15 14 13 12
2 1 0
15:MSB, 0:LSB
Lch Data
Rch Data
Figure 1. Mode 0 Timing
ILRCK
0 1 2
12 13
24
31 0 1 2
12 13
24
31 0 1
IBICK(64fs)
SDTI(i)
Don't Care
19
1 0
8
Don't Care
8
19
1 0
19:MSB, 0:LSB
Lch Data
Rch Data
Figure 2. Mode 1 Timing
ILRCK
0 1 2
20 21 22 23 24
31 0 1 2
20 21 22 23 24
31 0 1
IBICK(64fs)
SDTI(i)
23 22
4 3 2 1 0
Don't Care 23 22
4 3 2 1 0
Don't Care 23
23:MSB, 0:LSB
Lch Data
Rch Data
Figure 3. Mode 2,5 Timing (24bit MSB)
ILRCK
0 1 2 3
21 22 23 24 25
0 1 2
21 22 23 24 25
0 1
IBICK(64fs)
SDTI(i)
23 22
4 3 2 1 0 Don't Care 23 22
4 3 2 1 0
Don't Care
23:MSB, 0:LSB
Lch Data
Rch Data
2
Figure 4. Mode 3, 6 Timing (24bit I S)
MS0288-E-01
2004/08
- 12 -
ASAHI KASEI
[AK4124]
ILRCK
0 1 2
8 9
24
31 0 1 2
8 9
24
31 0 1
IBICK(64fs)
SDTI(i)
Don't Care
23
8
1 0
Don't Care
23
8
1 0
23:MSB, 0:LSB
Lch Data
Rch Data
Figure 5. Mode 4 Timing
„ System Clock & Audio Interface Format for Output PORT
The output port works in master mode or slave mode. The MCLK is not needed in slave mode. The CMODE2-0 pins
select the master/slave and bypass mode. The CMODE2-0 pins should be controlled when PDN pin = “L”.
The ODIF1-0 pins and OBIT1-0 pins select the audio interface format for the output port. The audio data is MSB first, 2’s
compliment format. The SDTO is clocked out on the falling edge of OBICK. Select the audio interface format when PDN
pin = “L”. When in BYPASS mode, both IBICK and OBICK are fixed to 64fs.
Mode
0
1
2
3
4
5
6
7
CMODE
2
L
L
L
L
H
H
H
H
CMODE
CMODE0
Master / Slave
OMCLK
1
L
L
Master
256fso
L
H
Master
384fso
H
L
Master
512fso
H
H
Master
768fso
L
L
Slave
Not used. Set to DVSS.
L
H
Master
128fso
H
L
Master
192fso
H
H
Master (Bypass) Not used. Set to DVSS.
Table 3. Master/Slave Control (Output PORT)
fso
8k ∼ 108kHz
8k ∼ 108kHz
8k ∼ 54kHz
8k ∼ 54kHz
8k ∼ 216kHz
8k ∼ 216kHz
8k ∼ 216kHz
8k ∼ 216kHz
Mode ODIF1 ODIF0
SDTO Format
0
L
L
LSB justified
1
L
H
(Reserved)
2
H
L
MSB justified
3
H
H
I2S Compatible
Table 4. Output Audio Interface Format 1 (Output PORT)
Mode
0
1
2
3
4
5
6
7
Master / Slave
Slave
CMODE2-0 =
“HLL”
Master
Except
CMODE2-0 =
“HLL”
OBIT1
OBIT0
SDTO
OLRCK
OBICK
OBICK Frequency
MSB justified, I2S LSB justified
≥ 32fso
≥ 36fso
64fso
≥ 40fso
≥ 48fso
L
L
16bit
L
H
18bit
Input
Input
H
L
20bit
H
H
24bit
L
L
16bit
L
H
18bit
Output
Output
H
L
20bit
H
H
24bit
Table 5. Output Audio Interface Format 2 (Output PORT)
MS0288-E-01
64fso
2004/08
- 13 -
ASAHI KASEI
[AK4124]
OLRCK
0 1
8 9 10 11 12 13 14 15 16 17
20 21 22 23
29 30 31 0 1
8 9 10 11 12 13 14 15 16 17
20 21 22 23
29 30 31 0 1 2
OBICK(64fs)
15 14
11 10 9 8
2 1 0
15 14
11 10 9 8
2 1 0
17 16 15 14
11 10 9 8
2 1 0
17 16 15 14
11 10 9 8
2 1 0
19 18 17 16 15 14
11 10 9 8
2 1 0
19 18 17 16 15 14
11 10 9 8
2 1 0
11 10 9 8
2 1 0
23 22 21 20 19 18 17 16 15 14
11 10 9 8
2 1 0
SDTO(O)
15:MSB, 0:LSB
SDTO(O)
17:MSB, 0:LSB
SDTO(O)
19:MSB, 0:LSB
SDTO(O)
23 22 21 20 19 18 17 16 15 14
23:MSB, 0:LSB
Lch Data
Rch Data
Figure 6. LSB Timing
OLRCK
0 1 2 3 4
13 14 15 16 17 18 19 20 21 22 23 24
31 0 1 2 3 4
13 14 15 16 17 18 19 20 21 22 23 24
31 0 1 2
OBICK(64fs)
SDTO(O)
15 14 13 12
2 1 0
15 14 13 12
2 1 0
15 14
17 16 15 14
4 3 2 1 0
17 16
19 18 17 16
6 5 4 3 2 1 0
19 18
23 22 21 20
10 9 8 7 6 5 4 3 2 1 0
23 22
15:MSB, 0:LSB
SDTO(O)
17 16 15 14
4 3 2 1 0
17:MSB, 0:LSB
SDTO(O)
19 18 17 16
6 5 4 3 2 1 0
19:MSB, 0:LSB
SDTO(O)
23 22 21 20
10 9 8 7 6 5 4 3 2 1 0
23:MSB, 0:LSB
Lch Data
Rch Data
Figure 7. MSB Timing
OLRCK
0 1 2 3 4
14 15 16 17 18 19 20 21 22 23 24
0 1 2 3 4
14 15 16 17 18 19 20 21 22 23 24
31 0 1 2
OBICK(64fs)
SDTO(O)
15 14 13 12
2 1 0
15 14 13 12
2 1 0
15
17 16 15 14
4 3 2 1 0
17
19 18 17 16
6 5 4 3 2 1 0
19
23 22 21 20
10 9 8 7 6 5 4 3 2 1 0
23
15:MSB, 0:LSB
SDTO(O)
17 16 15 14
4 3 2 1 0
17:MSB, 0:LSB
SDTO(O)
19 18 17 16
6 5 4 3 2 1 0
19:MSB, 0:LSB
SDTO(O)
23 22 21 20
10 9 8 7 6 5 4 3 2 1 0
23:MSB, 0:LSB
Lch Data
Rch Data
2
Figure 8. I S Compatible Timing
MS0288-E-01
2004/08
- 14 -
ASAHI KASEI
[AK4124]
„ Soft Mute Operation
1. Manual mode
Soft mute operation is performed in the digital domain of the SRC output. Soft mute can be controlled by SMUTE pin.
When SMUTE pin goes “H”, the SRC output data is attenuated by −∞ within 1024 OLRCK cycles. When the SMUTE pin
goes “L” the mute is cancelled and the output attenuation gradually changes to 0dB during 1024 OLRCK cycles. If the
soft mute is cancelled before mute state after starting of the operation, the attenuation is discontinued and returned to 0dB
by the same cycles. The soft mute is effective for changing the signal source.
SM U T E
1024/fso
(1)
0dB
(3)
Attenuation
-∞
GD
GD
(2)
SD T O
Figure 9. Soft Mute Function (Manual Mode)
(1) The output data is attenuated by −∞ during 1024 OLRCK cycles (1024/fso).
(2) Digital output delay from the digital input is called the group delay (GD).
(3) If the soft mute is cancelled before attenuating to −∞ after starting the operation, the attenuation is discontinued and
returned to 0dB by the same number of clock cycles.
2. Semi-Auto mode
The soft mute is cancelled automatically by the setting of PLL2-0 pins (refer to Table 2), after the AK4124 detects the
rising edge (PDN pin = “L” → “H”) and the mute is continued during 4410/fso=100ms@fso=44.1kHz. After PDN pin =
“L” → “H” and when SMUTE pin is “H”, the mute is not cancelled.
PD N pin
“L”
D on’t care
SM U T E pin
(1)
0dB
Attenuation
“L”
4410/fso
-∞
(2)
GD
SD T O
Figure 10. Soft Mute Function (Semi-Auto Mode)
(1) The output data is attenuated by −∞ during 1024 OLRCK cycles (1024/fso).
(2) Digital output delay from the digital input is called the group delay (GD).
MS0288-E-01
2004/08
- 15 -
ASAHI KASEI
[AK4124]
„ Dither
The AK4124 has the dither circuit. The dither circuit adds the dither to the LSB of the output data set with the OBIT1-0
pins by DITHER pin = “H" regardless of the SRC mode or the SRC bypass mode.
„ System Reset
Bringing the PDN pin = “L” sets the AK4124 power-down mode and initializes the digital filter. The AK4124 should be
reset once by bringing PDN pin = “L” upon power-up. When PDN pin = “L”, the SDTO output is “L”. The SDTO valid
time is 100ms. Until then, the SDTO outputs “L”.
Case 1
External clocks
(Input port)
Don’t care
Input Clocks 1
Input Clocks 2
Don’t care
SDTI
Don’t care
Input Data 1
Input Data 2
Don’t care
External clocks
(Output port)
Don’t care
Output Clocks 1
Output Clocks 2
Don’t care
PDN
< 100ms
< 100ms
(Internal state) Power-down
SDTO
Normal
operation
PLL lock &
fs detection
“0” data
PD
Normal data
PLL lock &
fs detection
“0” data
Normal
operation
Power-down
Normal data
“0” data
UNLOCK
Figure 11. System Reset
Case 2
External clocks
(Input port)
(No Clock)
SDTI
External clocks
(Output port)
Input Clocks
Don’t care
(Don’t care)
Input Data
Don’t care
(Don’t care)
Output Clocks
Don’t care
PDN
< 100ms
(Internal state) Power-down
SDTO
PLL Unlock
“0” data
PLL lock &
fs detection
Normal
operation
Power-down
Normal data
“0” data
UNLOCK
Figure 12. System Reset 2
MS0288-E-01
2004/08
- 16 -
ASAHI KASEI
[AK4124]
„ Internal Reset Function for Clock Change
The change of the clock supplied to AK4124 is shown in Figure 13. When the frequency transition occurs gradually
without phase change or the clock of output port is changed keeping fso/fsi > 4, the internal reset is not executed and the
SDTO takes time over 100ms to output normal data. To output normal data within 100ms, please reset by PDN pin = “L”.
External clocks
(Input port
or Output port)
Clocks 1
Don’t care
Clocks 2
PDN pin
< 100ms
(Internal state) Normal operation Power-down PLL lock &
fs detection
SDTO
Normal data
SMUTE (Note2,
recommended)
Att.Level
Note1
Normal operation
Normal data
1024/fso
1024/fso
0dB
-∞dB
Figure 13. Sequence of changing clocks
Note 1. The data on SDTO may cause a clicking noise. To prevent this, set SDTI to “0” from GD before PDN pin goes
“L”, which will cause the data on SDTO to remain “0”.
Note 2. SMUTE can also be used to remove the unknown data.
„ UNLOCK pin
The UNLOCK pin outputs “L” when the internal PLL is locked. When the internal PLL is unlocked, the UNLOCK pin
outputs “H”. When PDN pin = “L”, the UNLOCK pin outputs “H”.
MS0288-E-01
2004/08
- 17 -
ASAHI KASEI
[AK4124]
„ PLL Loop Filter
The C1 and R should be connected in series and attached between FILT pin and AVSS in parallel with C2. Please be
careful the noise onto the FILT pin. When using IBICK, the value of an external element doesn't depend on the IBICK
input frequency.
AK4124
FILT
R
C2
C1
AVSS
Figure 14. PLL Loop Filter
[Input PORT in slave mode]
1. When using ILRCK
PLL2
L
PLL1
L
L
L
L
H
PLL0
L
ILRCK
R [Ω]
8k ∼ 96kHz
1.8k ± 5%
8k ∼ 216kHz
1k ± 5%
H
16k ∼ 216kHz
1.5k ± 5%
8k ∼ 216kHz
1k ± 5%
L
16k ∼ 216kHz
1.5k ± 5%
Table 6. PLL Loop Filter (ILRCK Mode)
C1 [µF]
0.68 ± 30%
1.0 ± 30%
0.68 ± 30%
1.0 ± 30%
0.68 ± 30%
C2 [nF]
0.68 ± 30%
2.2 ± 30%
0.68 ± 30%
2.2 ± 30%
0.68 ± 30%
- Note. The mode of between 16kHz and 216kHz the capacitor value (C1, C2) can be small.
2. When using IBICK
PLL2
H
PLL1
*
PLL0
ILRCK
R [Ω]
C1 [µF]
*
8k ∼ 216kHz
470 ± 5%
0.22 ± 30%
Table 7. PLL Loop Filter (IBICK Mode, *: Don’t care)
C2 [nF]
1.0 ± 30%
Note. The IBCIK must be continuous except when the clocks are changed.
Note. IBCIK = 32fsi is supported only 16bit LSB justified and I2S Compatible.
[Input PORT in master mode]
1. When IMCLK is 256fs, 384fs, 512fs or 768fs, an external element is not needed.
2. When IMCLK is 128fs or 192fs in master mode, an external element is needed in case of using IBICK.
MS0288-E-01
2004/08
- 18 -
ASAHI KASEI
[AK4124]
SYSTEM DESIGN
Figure 15 shows the system connection diagram. An evaluation board is available which demonstrates application circuits,
the optimum layout, power supply arrangements and measurement results.
• Input PORT : Slave Mode, IBICK lock mode (64fsi), 24bit MSB justified
• Output PORT : Slave mode, 24bit MSB justified
• Dither = OFF
470 1.0n
10µ
1 FILT
AVDD 30
2 AVSS
DVSS 29
3 PDN
DVDD 28
0.22µ
Reset
4 SMUTE
OMCLK 27
5 DITHER
OLRCK 26
6 PLL2
fsi
64fsi
DSP, uP
7 ILRCK
0.1µ
0.1µ
OBICK 25
AK4124
Supply
3.0 ~ 3.6V
fso
64fso
DSP
SDTO 24
8 IBICK
ODIF1 23
9 SDTI
ODIF0 22
10 IDIF0
CMODE2 21
11 IDIF1
CMODE1 20
12 IDIF2
CMODE0 19
13 PLL0
IMCLK 18
14 PLL1
OBIT1 17
15 UNLOCK
OBIT0 16
Note:
- AVSS and DVSS of the AK4124 should be distributed separately from the ground of external digital
devices (MPU, DSP etc.).
- All digital input pins should not be left floating.
Figure 15. Typical Connection Diagram (Slave mode)
MS0288-E-01
2004/08
- 19 -
ASAHI KASEI
[AK4124]
• Input PORT : Slave Mode, IBICK lock mode (64fsi), 24bit MSB justified
• Output PORT : Master mode, 24bit MSB justified
• Dither = OFF
470 1.0n
10µ
1 FILT
AVDD 30
2 AVSS
DVSS 29
3 PDN
DVDD 28
0.22µ
Reset
4 SMUTE
OMCLK 27
5 DITHER
OLRCK 26
64fsi
7 ILRCK
0.1µ
OBICK 25
6 PLL2
fsi
0.1µ
AK4124
Supply
3.0 ~ 3.6V
128fso
fso
64fso
DSP
SDTO 24
8 IBICK
ODIF1 23
9 SDTI
ODIF0 22
10 IDIF0
CMODE2 21
11 IDIF1
CMODE1 20
12 IDIF2
CMODE0 19
13 PLL0
IMCLK 18
14 PLL1
OBIT1 17
15 UNLOCK
OBIT0 16
DSP, uP
Note:
- AVSS and DVSS of the AK4124 should be distributed separately from the ground of external digital
devices (MPU, DSP etc.).
- All digital input pins should not be left floating.
Figure 16. Typical Connection Diagram (Master mode)
1. Grounding and Power Supply Decoupling
The AK4124 requires careful attention to power supply and grounding arrangements. Alternatively if AVDD and DVDD
are supplied separately, the power up sequence is not critical. Decoupling capacitors should be as near to the AK4124 as
possible, with the small value ceramic capacitor being the nearest.
MS0288-E-01
2004/08
- 20 -
ASAHI KASEI
[AK4124]
2. Jitter Tolerance
Figure 17 shows the jitter tolerance to ILRCK and IBICK for AK4124. The jitter frequency and the jitter amplitude shown
in Figure 17 define the jitter quantity. When the jitter amplitude is 0.01Uipp or less, the AK4124 operate normally
regardless of the jitter frequency.
AK4124 Jitter Tolerance
10.00
Amplitude [UIpp]
1.00
(3)
0.10
(2)
0.01
(1)
0.00
1
10
100
1000
10000
Jitter Frequency [Hz]
(1) Normal operation
(2) There is a possibility that the distortion degrades. (It may degrade up to about −50dB.)
(3) There is a possibility that the output data is lost.
Note:
- When PLL2-0 = “L/L/L”, “L/L/H”, “L/H/L”, the jitter amplitude is for ILRCK and 1UI (Unit Interval) is one
cycle of ILRCK. When FSI = 48kHz, 1UI is 1/48kHz = 20.8µs.
- When PLL2-0 = “H/*/*” (*: Don’t care), the jitter amplitude is for IBICK and 1UI (Unit Interval) is one cycle of
IBICK. When FSI = 48kHz, 1UI is 1/(64 x 48kHz) = 326ns.
Figure 17. Jitter Tolerance
MS0288-E-01
2004/08
- 21 -
ASAHI KASEI
[AK4124]
PACKAGE
30pin VSOP (Unit: mm)
1.5MAX
*9.7±0.1
0.3
30
16
15
1
0.22±0.1
7.6±0.2
5.6±0.1
A
0.15 +0.10
-0.05
0.65
0.12 M
0.45±0.2
+0.10
0.08
0.10 -0.05
1.2±0.10
Detail A
NOTE: Dimension "*" does not include mold flash.
„ Material & Lead finish
Package molding compound:
Lead frame material:
Lead frame surface treatment:
Epoxy
Cu
Solder (Pb free) plate
MS0288-E-01
2004/08
- 22 -
ASAHI KASEI
[AK4124]
MARKING
AKM
AK4124VF
XXXBYYYYC
XXXBYYYYC
Date code identifier
XXXB :Lot number (X : Digit number, B : Alpha character)
YYYYC : Assembly date (Y : Digit number, C : Alpha character)
Revision History
Date (YY/MM/DD)
04/01/26
04/08/09
Revision
00
01
Reason
First Edition
Add Spec
Add Spec
Page
Contents
7
21
Add FILTER CHARACTERISTICS
Add Jitter Tolerance
MS0288-E-01
2004/08
- 23 -
ASAHI KASEI
[AK4124]
IMPORTANT NOTICE
• These products and their specifications are subject to change without notice. Before considering any
use or application, consult the Asahi Kasei Microsystems Co., Ltd. (AKM) sales office or authorized
distributor concerning their current status.
• AKM assumes no liability for infringement of any patent, intellectual property, or other right 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.
• AKM products are neither intended nor authorized for use as critical components in any safety, life
support, or other hazard related device or system, and AKM assumes no responsibility relating to any
such use, except with the express written consent of the Representative Director of AKM. As used
here:
a. 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.
b. 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.
• It is the responsibility of the buyer or distributor of an AKM product who distributes, disposes of, or
otherwise places the product with a third party to notify that 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.
MS0288-E-01
2004/08
- 24 -
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