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LT1013_16 Datasheet, PDF (12/36 Pages) Texas Instruments – Dual Precision Operational Amplifier
LT1013, LT1013D, LT1013M, LT1013AM
SLOS018I – MAY 1988 – REVISED JULY 2016
6.18 Typical Characteristics
Table 1. Table of Graphs
VIO
ΔVIO
IIO
IIB
VIC
AVD
CMRR
kSVR
ICC
IOS
Vn
In
VN(PP)
Input offset voltage
Change in input offset voltage
Input offset current
Input bias current
Common-mode input voltage
Differential voltage amplification
Channel separation
Output saturation voltage
Common-mode rejection ratio
Supply-voltage rejection ratio
Supply current
Short-circuit output current
Equivalent input noise voltage
Equivalent input noise current
Peak-to-peak input noise voltage
Pulse response
Phase shift
vs Input Resistance
vs Temperature
vs Time
vs Temperature
vs Temperature
vs Input bias current
vs Load resistance
vs Frequency
vs Frequency
vs Temperature
vs Frequency
vs Frequency
vs Temperature
vs Time
vs Frequency
vs Frequency
vs Time
Small signal
Large signal
vs Frequency
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FIGURE
Figure 1
Figure 2
Figure 3
Figure 4
Figure 5
Figure 6
Figure 7, Figure 8
Figure 9, Figure 10
Figure 11
Figure 12
Figure 13
Figure 14
Figure 15
Figure 16
Figure 17
Figure 17
Figure 18
Figure 19, Figure 21
Figure 20, Figure 22, Figure 23
Figure 9
10
VCC+ = 5 V, VCC− = 0
TA = −55°C to 125°C
VCC± = ±15 V
1
TA = −55°C to 125°C
VCC+ = 5 V
VCC− = 0
TA = 25°C
0.1
RS
−
VCC± = ± 15V
TA = 25°C
0.01
+
RS
1 k 3 k 10 k 30 k 100 k 300 k 1 M 3 M
10 M
|V CC±| − Supply Voltage − V
Figure 1. Input Offset Voltage vs Input Resistance
250
VCC± = ±15 V
200
150
100
50
0
−50
−100
−150
−200
−250
−50 −25 0 25 50 75 100 125
TA − Free-Air Temperature − °C
Figure 2. Input Offset Voltage of Representative Units vs
Free-Air Temperature
12
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