English
Language : 

AK4648 Datasheet, PDF (11/119 Pages) Asahi Kasei Microsystems – Stereo CODEC with MIC/HP/SPK-AMP
[AK4648]
ANALOG CHARACTERISTICS
(Ta=25°C; AVDD, DVDD, TVDD=3.3V, HVDD=3.6V; VSS1=VSS2=VSS3=0V; fs=44.1kHz, BICK=64fs; Signal
Frequency=1kHz; 16bit Data; Measurement frequency=20Hz ∼ 20kHz; unless otherwise specified)
Parameter
min
typ
max
Units
MIC Amplifier: LIN1/RIN1/LIN2/RIN2/LIN4/RIN4 pins & LIN3/RIN3 pins (AIN3 bit = “1”);
PMAINL2=PMAINR2=PMAINL3=PMAINR3=PMAINL4=PMAINR4 bits = “0”;
MDIF1=MDIF2 bits = “0” (Single-ended inputs)
Input
MGAIN1-0 bits = “00”
40
60
80
kΩ
Resistance MGAIN1-0 bits = “01”, “10”or “11”
20
30
40
kΩ
MGAIN1-0 bits = “00”
-
0
-
dB
Gain
MGAIN1-0 bits = “01”
MGAIN1-0 bits = “10”
-
+20
-
dB
-
+26
-
dB
MGAIN1-0 bits = “11”
-
+32
-
dB
MIC Amplifier: IN1+/IN1−/IN2+/IN2− pins; MDIF1 = MDIF2 bits = “1” (Full-differential input)
Input Voltage (Note 12)
MGAIN1-0 bits = “00”
-
-
1.155
Vpp
MGAIN1-0 bits = “01”
-
-
0.228
Vpp
MGAIN1-0 bits = “10”
-
-
0.114
Vpp
MGAIN1-0 bits = “11”
-
-
0.057
Vpp
MIC Power Supply: MPWR pin
Output Voltage (Note 13)
2.22
2.47
2.72
V
Load Resistance
0.5
-
-
kΩ
Load Capacitance
-
-
30
pF
ADC Analog Input Characteristics: LIN1/RIN1/LIN2/RIN2/LIN4/RIN4 pins & LIN3/RIN3 pins (AIN3 bit = “1”)
→ ADC → IVOL, IVOL=0dB, ALC=OFF
Resolution
-
-
16
Bits
Input Voltage (Note 14)
(Note 15)
(Note 16)
0.168
1.68
0.198
1.98
0.228
Vpp
2.28
Vpp
(Note 15, LIN1/RIN1/LIN2/RIN2)
71
83
-
dBFS
S/(N+D)
(Note 15, LIN3/RIN3/LIN4/RIN4)
-
83
-
dBFS
(−1dBFS)
(Note 16, except for LIN3/RIN3)
-
88
-
dBFS
(Note 16, LIN3/RIN3)
-
72
-
dBFS
D-Range (−60dBFS, A-weighted)
(Note 15)
(Note 16)
76
-
86
95
-
dB
-
dB
S/N (A-weighted)
(Note 15)
76
86
(Note 16)
-
95
-
dB
-
dB
Interchannel Isolation
(Note 15)
75
90
(Note 16)
-
100
-
dB
-
dB
Interchannel Gain Mismatch
(Note 15)
-
(Note 16)
-
0.1
0.8
dB
0.1
0.8
dB
Note 12. The voltage difference between IN1/2+ and IN1/2− pins. AC coupling capacitor should be inserted in series at
each input pin. Maximum input voltage of IN1+, IN1−, IN2+ and IN2− pins is proportional to AVDD voltage,
respectively.
Vin = = |(IN+) − (IN−)| = 0.35 x AVDD (max) @ MGAIN1-0 bits = “00”, 0.069 x AVDD (max.)@MGAIN1-0
bits = “01”, 0.035 x AVDD (max.)@MGAIN1-0 bits = “10”, 0.017 x AVDD (max.)@MGAIN1-0 bits = “11”.
When MGAIN1-0 bits = “00”, the full scale level can not be input to ADC. The input level is -6dBFS @ IVL/R =
0dB”. When the signal larger than above value is input to IN1+, IN1−, IN2+ or IN2− pin, ADC does not operate
normally.
Note 13. Output voltage is proportional to AVDD voltage. Vout = 0.75 x AVDD (typ.)
Note 14. Input voltage is proportional to AVDD voltage. Vin = 0.06 x AVDD (typ.)@MGAIN1-0 bits = “01” (+20dB),
Vin = 0.6 x AVDD(typ.)@MGAIN1-0 bits = “00” (0dB)
Note 15. MGAIN1-0 bits = “01” (+20dB)
Note 16. MGAIN1-0 bits = “00” (0dB)
MS0625-E-01
- 11 -
2007/06