OP07CSZ-REEL7 Datasheet OP07CSZ, OP07CPZ, OP07EPZ | P10-P12

Data Sheet OP07

Rev. G | Page 9 of 16

120

110

100

90

80

70

50

60

FREQUENCY (Hz)

PSRR (dB)

100.1 1 10k1k100

OP07C

T

A

= 25°C

00316-015

Figure 15. PSRR vs. Frequency

1000

800

600

400

200

0

POWER SUPPLY VOLTAGE (V)

OPEN-LOOP GAIN (V/mV)

±100 ±5 ±20±15

T

A

= 25°C

00316-016

Figure 16. Open-Loop Gain vs. Power Supply Voltage

120

100

80

60

40

20

0

–20

–40

FREQUENCY (Hz)

OPEN-LOOP GAIN (dB)

0.1 1 10 100 1k 10k 100k 1M 10M

V

S

= ±15V

T

A

= 25°C

00316-017

Figure 17. Open-Loop Frequency Response

100

80

60

40

20

0

–20

FREQUENCY (Hz)

CLOSED-LOOP GAIN (dB)

10 100 1k 10k 100k 1M 10M

V

S

= ±15V

T

A

= 25°C

00316-018

Figure 18. Closed-Loop Frequency Response for Various Gain Configurations

28

24

20

16

12

8

4

0

FREQUENCY (Hz)

PEAK-TO-PEAK AMPLITUDE (V)

1k 10k 100k 1M

V

S

= ±15V

T

A

= 25°C

00316-019

Figure 19. Maximum Output Swing vs. Frequency

20

15

10

5

0

LOAD RESISTANCE TO GROUND (Ω)

MAXIMUM OUTPUT (V)

100 1k 10k

V

S

= ±15V

V

IN

= ±10mV

T

A

= 25°C

POSITIVE SWING

NEGATIVE SWING

00316-020

Figure 20. Maximum Output Voltage vs. Load Resistance

OP07 Data Sheet

Rev. G | Page 10 of 16

1000

100

10

1

TOTAL SUPPLY VOLTAGE, V+ TO V– (V)

POWER CONSUMPTION (mW)

0 10 20 30 40 50 60

T

A

= 25°C

00316-021

Figure 21. Power Consumption vs. Power Supply

35

30

25

20

15

TIME FROM OUTPUT BEING SHORTED (Minutes)

OUTPUT SHORT-CIRCUIT CURRENT (mA)

0 4321

V

S

= ±15V

T

A

= 25°C

V

IN

(PIN 3) = +10mV, V

O

= –15V

V

IN

(PIN 3) = –10mV, V

O

= +15V

00316-022

Figure 22. Output Short-Circuit Current vs. Time

85.00

42.50

63.75

21.25

0

TEMPERATURE (°C)

ABSOLUTE VALUE OF OFFSET VOLTAGE (µV)

–75 1251007550250–25–50

V

S

= ±15V

R

S

= 100Ω

OP07C

OP07E

00316-023

Figure 23. Untrimmed Offset Voltage vs. Temperature

30.0

15.0

22.5

7.5

0

TEMPERATURE (°C)

ABSOLUTE VALUE OF OFFSET VOLTAGE (µV)

–100 –75 1007550250–25–50

OP07C

OP07E

OP07C

V

OS

TRIMMED TO < 5µV AT 25°C

NULLING POT = 20kΩ

00316-024

Figure 24. Trimmed Offset Voltage vs. Temperature

16

–16

–12

–8

–4

0

4

8

12

TIME (Months)

TOTAL DRIFT WITH TIME (µV)

0 121110987654321

0.3µV/MONTH

TREND LINE

0.3µV/MONTH

TREND LINE

0.3µV/MONTH

TREND LINE

0.2µV/MONTH

TREND LINE

0.2µV/MONTH

TREND LINE

0.2µV/MONTH

TREND LINE

00316-025

Figure 25. Offset Voltage Drift vs. Time

Data Sheet OP07

Rev. G | Page 11 of 16

TYPICAL APPLICATIONS

AD7115 OR

AD8510

+

–

6

E

O

E

IN

V+

V–

7

4

2

3

6

OP07C

A1

+

–

V–

V+

7

4

2

3

R3

3kΩ

R5

10kΩ

R2

100kΩ

RF

SUM MODE

BIAS

R1

E

O

= –E

IN

–I

B

RF

R1

00316-026

Figure 26. Typical Offset Voltage Test Circuit

6

OP07C

+

–

–15V

+15V

7

4

2

3

E

O

R5

2.5kΩ

E

3

R3

10kΩ

E

2

R2

10kΩ

E

1

R1

10kΩ

R4

10kΩ

00316-027

Figure 27. Typical Low Frequency Noise Circuit

6

OP07

+

–

V–

1

8

7

4

2

INPUT

3

–

+

OUT

V+

20kΩ

00316-028

Figure 28. Optional Offset Nulling Circuit

OP07

+

–

6

E

O

V+

V–

7

4

2

3

R5

10kΩ

R4

10kΩ

R3

10kΩ

E

IN

±10V

=

R1

R3

R2

R4

R2

10kΩ

6

OP07

+

–

V–

V+

7

4

2

3

FD333

D1

FD333

D2

R1

10kΩ

0V TO +10V

00316-029

Figure 29. Absolute Value Circuit

OP07C

A2

+

–

6

E

O

E

IN

V+

V–

7

4

2

3

6

OP07C

A1

+

–

V–

V+

7

4

2

3

R3

3kΩ

R1

10kΩ

R2

100kΩ

RF

SUM MODE

BIAS

R1

E

O

= –E

IN

+ I

B

RF

R1

NOTES

1. PINOUT SHOWN FOR P PACKAGE

00316-030

Figure 30. High Speed, Low V

OS

Composite Amplifier

6

OP07

+

–

–15V

+15V

7

4

2

3

E

O

R5

2.5kΩ

E

3

R3

10kΩ

E

2

R2

10kΩ

E

1

R1

10kΩ

R4

10kΩ

NOTES

1. PINOUT SHOWN FOR P PACKAGE

00316-031

Figure 31. Adjustment-Free Precision Summing Amplifier

OP07CSZ-REEL7

OP07CSZ-REEL7

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