DC Electrical Specifications
All specifications and figures are at the nominal operating condition of VIN+ = 0 V, VIN- = 0 V, TA = 25°C, VDD1
=
5.0 V, and VDD2 = 5.0 V, unless otherwise noted.
Parameter
Input Offset Voltage
Input Offset Drift vs.
Temperature
Abs. Value of Input
Symbol
Min.
-1.8
Typ. Max.
Unit
mV
µV/°C
Test Conditions
Fig. Note
1
V
-0.9
-2.1
0.0
OS
dV /dT
1, 2
6
7
OS
|dV /dT|
4.6
µV/°C
1
OS
Offset Drift vs. Temperature
Input Offset Drift vs. VDD1
Input Offset Drift vs. VDD2
Gain (± 5% Tol.)
Gain - A Version (± 1% Tol.)
Gain - B Version (± 1% Tol.)
Gain Drift vs. Temperature
dV /dVDD1
30
µV/V
µV/V
1, 3
1, 4
8
9
10
OS
dV /dVDD2
-40
OS
G
GA
7.61
7.85
7.99
8.00 8.40
7.93 8.01
8.07 8.15
0.001
-200 mV < VIN+ < 200 mV 1, 5
GB
dG/dT
|dG/dT|
%/°C
%/°C
5, 6
5
11
12
Abs. Value of Gain Drift vs.
Temperature
0.001
Gain Drift vs. VDD1
Gain Drift vs. VDD2
200 mV Nonlinearity
200 mV Nonlinearity Drift
vs. Temperature
200 mV Nonlinearity Drift
vs. VDD1
200 mV Nonlinearity Drift
vs. VDD2
dG/dVDD1
dG/dVDD2
NL200
0.21
%/V
%/V
%
5, 7
5, 8
5, 9
13
14
15
16
-0.06
0.2
-0.001
0.35
0.25
dNL200/dT
% pts/°C
5, 10
dNL200/dVDD1
dNL200/dVDD2
NL100
-0.005
-0.007
% pts/V
% pts/V
5, 11
5, 12
17
18
19
100 mV Nonlinearity
0.1
%
-100 mV< VIN+ < 100 mV 5, 13
14
Maximum Input Voltage
Before Output Clipping
|V
|
300
mV
IN+ max
Average Input Bias Current
Input Bias Current
IIN
dIIN/dT
-670
3
nA
nA/°C
15,16 20
Temperature Coefficient
Average Input Resistance
RIN
530
kΩ
15
20
Input Resistance
dRIN/dT
0.38
%/°C
Temperature Coefficient
Input DC Common-Mode
Rejection Ratio
Output Resistance
CMRRIN
72
dB
21
5
RO
11
Ω
Output Resistance
dRO/dT
0.6
%/°C
Temperature Coefficient
Output Low Voltage
Output High Voltage
Output Common-Mode
Voltage
V
1.18
3.61
2.39 2.60
V
V
V
|VIN+| = 500 mV
IOUT+ = 0 A, IOUT– = 0 A
14
14
22
OL
V
OH
V
2.20
-40°C < T < 85°C
OCM
A
4.5 V < VDD1 < 5.5 V
Input Supply Current
Output Supply Current
IDD1
IDD2
10.7 15.5
11.6 14.5
mA
mA
17
18
23
24
VIN+ = 200 mV,
-40°C < T < 85°C
A
4.5 V < VDD2 < 5.5 V
Output Short-Circuit
Current
|IOSC
|
9.3
mA
VOUT = 0 V or VDD2
25
1-221
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