OP90
–6–
TEMPERATURE – C
INPUT
OFFSET
V
OL
T
A
GE
–
V
100
80
0
–75
–50
125
025
100
40
60
20
75
50
–25
VS = 15V
TPC 1. Input Offset Voltage
vs. Temperature
TEMPERATURE – C
SUPPL
Y
CURRENT
–
A
22
18
2
–75
–50
125
025
100
10
14
6
75
50
–25
NO LOAD
VS = 1.5V
20
16
8
12
4
VS = 15V
TPC 4. Supply Current vs.
Temperature
FREQUENCY – Hz
CLOSED-LOOP
GAIN
–
dB
60
40
–20
10
100k
1k
20
0
10k
100
VS = 15V
TA = 25 C
TPC 7. Closed-Loop Gain
vs. Frequency
–Typical Performance Characteristics
TEMPERATURE – C
INPUT
OFFSET
CURRENT
–
nA
1.6
0.2
–75
–50
125
025
100
0.8
1.0
0.4
75
50
–25
1.4
1.2
0.6
VS = 15V
TPC 2. Input Offset Current
vs. Temperature
SINGLE-SUPPLY VOLTAGE – V
OPEN-LOOP
GAIN
–
V/mV
600
0
030
10
15
25
300
100
20
5
500
400
200
RL = 10k
TA = 25 C
TA = 85 C
TA = 125 C
TPC 5. Open-Loop Gain vs.
Single-Supply Voltage
LOAD RESISTANCE –
OUTPUT
V
OL
T
A
GE
SWING
–
V
6
4
0
100
100k
1k
3
1
10k
V+ = 5V, V– = 0V
TA = 25 C
5
2
TPC 8. Output Voltage Swing
vs. Load Resistance
TEMPERATURE – C
INPUT
BIAS
CURRENT
–
nA
4.2
4.0
3.0
–75
–50
125
025
100
3.6
3.8
3.4
75
50
–25
VS = 15V
3.2
TPC 3. Input Bias Current
vs. Temperature
FREQUENCY – Hz
OPEN-LOOP
GAIN
–
dB
140
120
0
0.1
1
100k
10
100
10k
80
100
60
1k
VS = 15V
TA = 25 C
RL = 100k
40
20
GAIN
45
0
90
135
180
PHASE
SHIFT
–
DEG
TPC 6. Open-Loop Gain and
Phase Shift vs. Frequency
LOAD RESISTANCE –
OUTPUT
SWING
–
V
16
12
0
100
100k
1k
8
4
10k
TA = 25 C
VS = 15V
14
6
10
2
POSITIVE
NEGATIVE
TPC 9. Output Voltage Swing
vs. Load Resistance
REV. C