TL H 10550
OP-07
Low
Offset
Low
Drift
Operational
Amplifier
December 1994
OP-07 Low Offset Low Drift Operational Amplifier
General Description
The OP-07 has very low input offset voltage which is ob-
tained by trimming at the wafer stage These low offset volt-
ages generally eliminate any need for external nulling The
OP-07 also features low input bias current and high open-
loop gain The low offsets and high open-loop gain make
the OP-07 particularly useful for high-gain applications
The wide input voltage range of
g
13V minimum combined
with high CMRR of 110 dB and high input impedance pro-
vide high accuracy in the non-inverting circuit configuration
Excellent linearity and gain accuracy can be maintained
even at high closed-loop gains
Stability of offsets and gain with time or variation in temper-
ature is excellent
The OP-07 is available in TO-99 metal can ceramic or
molded DIP
For improved specifications see the LM607
Features
Y
Low V
OS
75 mV Max
Y
Low V
OS
Drift
0 6 mV C Max
Y
Ultra-Stable vs Time
1 0 mV Month Max
Y
Low Noise
0 6 mVp-p Max
Y
Wide Input Voltage Range
g
14V
Y
Wide Supply Voltage Range
g
3V to
g
18V
Y
Fits 725 108A 308A 741 AD510 Sockets
Y
Replaces the mA714
Applications
Y
Strain Gauge Amplifiers
Y
Thermocouple Amplifiers
Y
Precision Reference Buffer
Y
Analog Computing Functions
Connection Diagram
Dual-In-Line Package
TL H 10550 1
See NS Package Number N08E
Ordering Information
T
A
e
25 C
N08E
Operating
V
OS
Max
Plastic
Temperature
(mV)
Range
75
OP07EP
COM
150
OP07CP
COM
150
OP07DP
COM
Also available per SMD
8203602
C1995 National Semiconductor Corporation
RRD-B30M115 Printed in U S A
Absolute Maximum Ratings
If Military Aerospace specified devices are required
please contact the National Semiconductor Sales
Office Distributors for availability and specifications
Supply Voltage
g
22V
Internal Power Dissipation (Note 5)
500 mW
Differential Input Voltage
g
30V
Input Voltage (Note 6)
g
22V
Output Short-Circuit Duration
Continuous
Storage Temperature Range
b
65 C to
a
150 C
Lead Temperature (Soldering 60 sec )
260 C
Junction Temperature
b
65 C to
a
150 C
Operating Temperature Range
OP-07E OP-07C OP-07D
0 C to
a
70 C
Simplified Schematic
TL H 10550 3
R2A and R2B are electronically trimmed on chip at the factory for minimum offset voltage
2
Electrical Characteristics
Unless otherwise specified V
S
e
g
15V T
A
e
25 C Boldface type refers to limits over 0 C
s
T
A
s
70 C
Symbol
Parameter
Conditions
OP-07E
OP-07C
Units
Min
Typ
Max
Min
Typ
Max
V
OS
Input Offset Voltage
(Note 1)
30
75
60
150
m
V
45
130
85
250
V
OS t
Long-Term V
OS
(Note 2)
0 3
1 5
0 4
2 0
m
V Mo
Stability
I
OS
Input Offset Current
0 5
3 8
0 8
6 0
nA
0 9
5 3
1 6
8 0
I
B
Input Bias Current
g
1 2
g
4 0
g
1 8
g
7 0
nA
g
1 5
g
5 5
g
2 2
g
9 0
e
np-p
Input Noise Voltage
0 1 Hz to 10 Hz (Note 3)
0 35
0 6
0 38
0 65
m
V
p-p
e
n
Input Noise Voltage
f
O
e
10 Hz
10 3
18 0
10 5
20 0
Density
f
O
e
100 Hz (Note 3)
10 0
13 0
10 2
13 5
nV
0
Hz
f
O
e
1000 Hz
9 6
11 0
9 8
11 5
i
np-p
Input Noise Current
0 1 Hz to 10 Hz (Note 3)
14
30
15
35
pA
p-p
i
n
Input Noise Current
f
O
e
10 Hz
0 32
0 80
0 35
0 90
Density
f
O
e
100 Hz (Note 3)
0 14
0 23
0 15
0 27
pA
0
Hz
f
O
e
1000 Hz
0 12
0 17
0 13
0 18
R
IN
Input Resistance
(Note 4)
15
50
8
33
MX
Differential-Mode
R
INCM
Input Resistance
160
120
GX
Common-Mode
IVR
Input Voltage Range
g
13 0
g
14 0
g
13
g
14
V
CMRR
Common-Mode
V
CM
e
g
13V
106
123
100
120
dB
Rejection Ratio
103
123
97
120
PSRR
Power Supply
V
S
e
g
3V to
g
18V
5
20
7
32
m
V V
Rejection Ratio
V
S
e
g
3V to
g
18V
7
32
10
51
A
VO
Large Signal
R
L
t
2 kX V
O
e
g
10V
200
500
120
400
Voltage Gain
R
L
t
2 kX
180
450
100
400
V mV
R
L
t
500X V
O
e
g
0 5V
150
400
100
400
V
S
e
g
3V (Note 4)
V
O
Output Voltage Swing
R
L
t
10 kX
g
12 5
g
13 0
g
12 0
g
13 0
R
L
t
2 kX
g
12 0
g
12 8
g
11 5
g
12 8
V
R
L
t
2 kX
g
12 0
g
12 6
g
11 0
g
12 6
R
L
t
1 kX
g
10 5
g
12 0
g
12 0
SR
Slew Rate
R
L
t
2 kX (Note 3)
0 1
0 3
0 1
0 3
V ms
BW
Closed-Loop Bandwidth
A
VCL
e a
1 (Note 3)
0 4
0 6
0 4
0 6
MHz
R
O
Output Resistance
V
O
e
0 I
O
e
0
60
60
X
P
d
Power Consumption
V
S
e
g
15V No Load
75
120
80
150
mW
V
S
e
g
3V No Load
4
6
4
8
Offset Adj Range
R
P
e
20 kX
g
4
g
4
mV
TCV
OS
Average Input Offset
(Note 4)
0 3
1 3
0 5
1 8
Voltage Drift Without
m
V C
External Trim
TCV
OS
n
With External Trim
R
P
e
20 kX (Note 4)
0 3
1 3
0 4
1 6
TCI
OS
Average Input Offset
(Note 3)
8
35
12
50
pA C
Current Drift
TCI
B
Average Input Bias
(Note 3)
13
35
18
50
pA C
Current Drift
3
Electrical Characteristics
Unless otherwise specified V
S
e
g
15V T
A
e
25 C Boldface type refers to limits over 0 C
s
T
A
s
a
70 C
Symbol
Parameter
Conditions
OP-07D
Units
Min
Typ
Max
V
OS
Input Offset Voltage
(Note 1)
60
150
m
V
85
250
V
OS t
Long-Term V
OS
Stability
(Note 2)
0 5
3 0
m
V Mo
I
OS
Input Offset Current
0 8
6 0
nA
1 6
8 0
I
B
Input Bias Current
g
2 0
g
12 0
nA
g
3 0
g
14 0
e
np-p
Input Noise Voltage
0 1 Hz to 10 Hz (Note 3)
0 38
0 65
m
Vp-p
e
n
Input Noise Voltage Density
f
O
e
10 Hz
10 5
20 0
f
O
e
100 Hz (Note 3)
10 3
13 5
nV
0
Hz
f
O
e
1000 Hz
9 8
11 5
i
np-p
Input Noise Current
0 1 Hz to 10 Hz (Note 3)
15
35
pAp-p
i
n
Input Noise Current Density
f
O
e
10 Hz
0 35
0 90
pA
0
Hz
f
O
e
100 Hz (Note 3)
0 15
0 27
f
O
e
1000 Hz
0 13
0 18
R
IN
Input Resistance Differential-Mode
(Note 4)
7
31
MX
R
INCM
Input Resistance Common-Mode
120
GX
IVR
Input Voltage Range
g
13
g
14
V
CMRR
Common-Mode
V
CM
e
g
13V
94
110
dB
Rejection Ratio
94
106
PSRR
Power Supply
V
S
e
g
3V to
g
18V
7
32
m
V V
Rejection Ratio
10
51
A
VO
Large Signal
R
L
s
2 kX V
O
e
g
10V
120
400
Voltage Gain
R
L
e
2 kX V
O
e
g
10V
100
400
V mV
R
L
t
500X V
O
e
g
0 5V
400
V
S
g
3V (Note 4)
V
O
Output Voltage Swing
R
L
t
10 kX
g
12 0
g
13 0
R
L
t
2 kX
g
11 5
g
12 8
V
R
L
t
2 kX
g
11 0
g
12 6
R
L
t
1 kX
g
12 0
SR
Slew Rate
R
L
t
2 kX (Note 3)
0 1
0 3
V ms
BW
Closed-Loop Bandwidth
A
VCL
e a
1 (Note 3)
0 4
0 6
MHz
RO
Output Resistance
V
O
e
0 I
O
e
0
60
X
P
d
Power Consumption
V
S
e
g
15V No Load
80
150
mW
V
S
e
g
3V No Load
4
8
Offset Adj Range
R
P
e
20 kX
g
4
mV
TCV
OS
Average Input Offset
(Note 4)
0 7
2 5
m
V C
Voltage Drift Without
External Trim
TCV
OS
n
With External Trim
R
P
e
20 kX (Note 4)
0 7
2 5
m
V C
TCI
OS
Average Input Offset Current Drift
(Note 3)
12
50
pA C
TCI
B
Average Input Bias Current Drift
(Note 3)
18
50
pA C
Note 1
V
OS
is measured approximately 0 5 second after application of power
Note 2
Long-Term Offset Voltage Stability refers to the averaged trend line of V
OS
vs Time over extended periods after the first 30 days of operation
Excluding the initial hour of operation changes in V
OS
during the first 30 operating days are typically 2 5 mV Parameter is sample tested
Note 3
Sample Tested
Note 4
Guaranteed by design
4
Test Circuits
Offset Voltage Test Circuit
TL H 10550 4
Low Frequency Noise Test Circuit
TL H 10550 5
Optional Offset Nulling Circuit
TL H 10550 6
5
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