[AK4614]
DAC Analog Output Characteristics (differential outputs)
S/(N+D)
fs=48kHz
BW=20kHz
0dBFS
-60dBFS
0dBFS
90
88
100
45
98
dB
fs=96kHz
BW=40kHz
-60dBFS
0dBFS
-60dBFS
42
98
42
fs=192kHz
BW=40kHz
DR
S/N
(-60dBFS with A-weighted)
(A-weighted)
100
100
90
108
108
110
0
dB
dB
dB
dB
Interchannel Isolation
Interchannel Gain Mismatch
Gain Drift
0.5
-
20
ppm/°C
Output Voltage
Load Resistance
Load Capacitance
Power Supply Rejection
AOUT=0.65xVREFH2 (Note 8)
(Note 10)
±1.87
2
±2.08
±2.29
Vpp
kΩ
pF
dB
30
(Note 7)
50
Note 7. PSR is applied to AVDD1, AVDD2, DVDD, TVDD1 and TVDD2 with 1kHz, 50mVpp. VREFH1 and VREFH2
pins are held a constant voltage +3.3V.
Note 8. This value is (LIN+) – (LIN-) and (RIN+) – (RIN-). The voltage is proportional to VREFH1, VREFH2 voltage.
Note 9. VREFH1 and VREFH2 are held +3.3V, the input bias voltage is set to AVDD1, 2 x 0.5. The 1kHz, 0.96Vpp
signal is applied to LIN- and LIN+ with same phase (e.g. shorted) or RIN- and RIN+. The CMRR is measured as
the attenuation level from 0dB = -7dBFS (since the normal 0.96Vpp = -7dBFS). This value is guaranteed but not
tested.
Note 10. For AC-load. In the case of DC-load is 5kΩ.
Note 11. This value is Load Capacitance for output pin to GND. In differential mode, this value should be estimated to be
twice, because Load Capacitance exists to GND and between the differential pin.
Parameter
min
typ
max
Units
Power Supplies
Power Supply Current
Normal Operation (PDN pin = “H”)
AVDD1+AVDD2
DVDD
fs=48kHz, 96kHz, 192kHz
95.0
18.0
25.0
40.0
6.0
125.0
24.0
35.0
55.0
8.0
mA
mA
mA
mA
mA
mA
mA
fs=48kHz
fs=96kHz
fs=192kHz
fs=48kHz
fs=96kHz
fs=192kHz
TVDD1+TVDD2
7.0
7.0
9.5
9.5
Power-down mode
(PDN pin = “L”, DVMPD = “ L”)
AVDD1+AVDD2+DVDD+TVDD1+TVDD2
(PDN pin = “L”, DVMPD = “ H”)
(Note 12)
(Note 12)
300
10
550
200
µA
µA
AVDD1+AVDD2+DVDD+TVDD1+TVDD2
Note 12. In the power-down mode, all digital input pins including clock pins are held VSS3 (TST1, TST3, TST4, TST5,
CAD0, CAD1, I2C, CSN, CCLK, CDTI pins), VSS4 (TST2, M/S, MCKI, LRCK, BICK, SDTI1, SDTI2, SDTI3,
SDTI4,SDTI5, SDTI6).
MS1025-E-00
2008/10
- 11 -