Philips Semiconductors Product data
NE/SA/AU5232
Matched dual high-performance
low-voltage operational amplifier
2002 May 21
5
DC ELECTRICAL CHARACTERISTICS
V
CC
= 2 V to 5.5 V, V
EE
= 0 V, T
amb
= 25 °C; V
EE
< V
i(CM)
< V
CC
; unless otherwise stated.
LIMITS
SYMBOL PARAMETER
TEST CONDITIONS
AU5232
UNIT
MIN TYP MAX
V
CC
= 5.5V 1.4 2.0
I
CC
Supply current
V
CC
= 5.5 V;
over full temp. range
1.6 2.4
mA
±0.2 ±4
OS
v
Over full temp. range ±0.6 ±5
∆V
OS
/∆T Offset voltage drift with temperature 4 µV/°C
Offset voltage difference between any amplifiers in the
0.4 3
OS
same package at the same common mode level
1
Over full temp. range 1.2 4
±3 ±30
OS
u
Over full temp. range ±6 ±60
∆I
OS
/∆T Offset current drift with temperature 0.03 ±.3 nA/°C
V
EE
< V
i(CM)
< V
EE
+0.5 V –200 –90
p
Over full temp. range –250 –150
B
u
u
V
EE
+1 V < V
i(CM)
< V
CC
25 75
Over full temp. range 35 120
∆I
B
/∆T Input bias current drift with temperature 0.5 nA/°C
V
EE
< V
i(CM)
< V
EE
+0.5 V 10 30
∆I
B
Input bias current difference between any amplifier in the
Over full temp. range 50 70
same package at the same common mode level.
V
EE
+1 V < V
i(CM)
< V
CC
5 20
Over full temp. range 25 50
V
OS
≤ 6 mV V
EE
–0.25 V
CC
+0.25
V
i(CM)
Common-mode input range
V
OS
≤ 6 mV;
Over full temp. range
V
EE
–0.1 V
CC
+0.1
V
Common-mode rejection ratio, small signal
V
EE
< V
i(CM)
< V
EE
+0.5V;
V
EE
+1V < V
i(CM)
< V
CC
80 100
CMRR
Over full temp. range 70
dB
Common mode rejection ratio large signal
V
EE
< V
i(CM)
< V
CC
65 90
-
,
Over full temp. range 55
pp
V
EE
< V
i(CM)
< V
CC
80 100
w
u
y
Over full temp. range 75 90
Peak load current sink and source
10 12
L
u
,
u
Over full temp. range 5 8
p
p
90 110
VOL
-
v
Over full temp. range 90
I
PEAK
= 0.1 mA V
EE
+0.1 V
CC
–0.1
p
I
PEAK
= 10 mA V
EE
+0.25 V
CC
–0.25
V
OUT
I
PEAK
= 5 mA;
over full temp. range
V
EE
+0.2 V
CC
–0.2
Output voltage swing for
R
L
= 2 kΩ V
EE
+0.2 V
CC
–0.2
V
CC
= 2.75 V, V
EE
= –2.75 V
R
L
= 600 Ω V
EE
+0.25 V
CC
–0.25
NOTE:
1. These parameters are measured for V
EE
< V
CM
< V
EE
+0.5 V and for V
EE
+1 V < V
CM
< V
CC
. By design these parameters are intermediate
for common mode ranges between the measured regions.