OP162GSZ-REEL7 Datasheet OP262GSZ-REEL7, OP462HRUZ-REEL, OP462GSZ | P7-P9

Data Sheet OP162/OP262/OP462

Rev. H | Page 7 of 20

TYPICAL PERFORMANCE CHARACTERISTICS

Figure 4. OP462 Input Offset Voltage Distribution

Figure 5. OP462 Input Offset Voltage Drift (TCV

OS

)

Figure 6. OP462 Input Bias Current vs. Common-Mode Voltage

Figure 7. OP462 Input Offset Voltage vs. Temperature

Figure 8. OP462 Input Bias Current vs. Temperature

Figure 9. OP462 Input Offset Current vs. Temperature

V

S

= 5V

T

A

= 25°C

COUNT =

720 OP AMPS

INPUT OFFSET VOLTAGE (µV)

QUANTITY (Amplifiers)

250

200

150

50

100

0

–200 –140 –80 –20 10040 160

00288-007

V

S

= 5V

T

A

= 25°C

COUNT =

360 OP AMPS

INPUT OFFSET DRIFT, TCV

OS

(µV,°C)

QUANTITY (Amplifiers)

100

80

60

20

40

0

0.2 0.3 0.5 0.7 0.9 1.31.1 1.5

00288-008

COMMON-MODE VOLTAGE (V)

INPUT CURRENT (nA)

420

340

260

180

100

0 0.5 1.0 1.5 2.0 3.02.5 3.5

4.0

00288-009

V

S

= 5V

TEMPERATURE (°C)

INPUT OFFSET VOLTAGE (µV)

125

100

75

50

25

0

–75 –50 –25 0 25 50 10075 125 150

00288-010

V

S

= 5V

TEMPERATURE (°C)

INPUT BIAS CURRENT (nA)

0

–100

–200

–300

–400

–500

–50 –25 0 25 50 10075 125 150

00288−011

V

S

= 5V

TEMPERATURE (°C)

INPUT OFFSET CURRENT (nA)

15

10

5

0

–75 –50 –25 0 25 50 10075 125 150

00288−012

V

S

= 5V

OP162/OP262/OP462 Data Sheet

Rev. H | Page 8 of 20

Figure 10. OP462 Output High Voltage vs. Temperature

Figure 11. OP462 Output Low Voltage vs. Temperature

Figure 12. OP462 Open-Loop Gain vs. Temperature

Figure 13. Output Low Voltage to Supply Rail vs. Load Current

Figure 14. Supply Current/Amplifier vs. Temperature

Figure 15. OP462 Supply Current/Amplifier vs. Supply Voltage

TEMPERATURE (°C)

OUTPUT HIGH VOLTAGE (V)

5.12

5.06

5.00

4.94

4.88

4.82

–75 –50 –25 0 25 50 10075 125 150

00288-013

V

S

= 5V

I

OUT

= 250µA

I

OUT

= 5mA

TEMPERATURE (°C)

OUTPUT LOW VOLTAGE (mV)

0.100

0.080

0.060

0.040

0.020

0.000

–75 –50 –25 0 25 50 10075 125 150

00288-014

V

S

= 5V

I

OUT

= 250µA

I

OUT

= 5mA

TEMPERATURE (°C)

OPEN-LOOP GAIN (V/mV)

100

80

60

40

20

0

–75 –50 –25 0 25 50 10075 125 150

00288-015

V

S

= 5V

R

L

= 10kΩ

R

L

= 2kΩ

R

L

= 600Ω

LOAD CURRENT (mA)

OUTPUT LOW VOLTAGE (mV)

100

80

60

40

20

0

0 1

2

3 4 5 6 7

00288-016

V

S

= 3V

V

S

= 10V

TEMPERATURE (°C)

SUPPLY CURRENT (mA)

1.0

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

0

–75 –50 –25 0 25 10075 125 150

00288-017

V

S

= 5V

V

S

= 10V

V

S

= 3V

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

0.7

0.6

0.5

0.4

0 2 4 6 8 10

12

00288-018

T

A

= 25°C

Data Sheet OP162/OP262/OP462

Rev. H | Page 9 of 20

Figure 16. Open-Loop Gain and Phase vs. Frequency (No Load)

Figure 17. Closed-Loop Gain vs. Frequency

Figure 18. Maximum Output Swing vs. Frequency

Figure 19. Step Size vs. Settling Time

Figure 20. Small-Signal Overshoot vs. Capacitance

Figure 21. Voltage Noise Density vs. Frequency

FREQUENCY (Hz)

GAIN (dB)

50

40

30

20

10

0

–10

–20

–30

PHASE SHIFT (dB)

45

90

135

180

225

270

100k 1M 10M 100M

00288-019

V

S

= 5V

T

A

= 25°C

GAIN

PHASE

FREQUENCY (Hz)

CLOSED-LOOP GAIN (dB)

60

40

20

0

–20

–30

10k 100k 1M 10M 100M

00288-020

V

S

= 5V

T

A

= 25°C

R

L

= 830

Ω

C

L

= 5pF

FREQUENCY (Hz)

MAXIMUM OUTPUT SWING (V p-p)

5

4

3

2

1

0

10k 100k

1M 10M

00288-021

V

S

= 5V

A

VCL

= 1

R

L

= 10kΩ

C

L

= 15pF

T

A

= 25°C

DISTORTION<1%

SETTLING TIME (nS)

STEP SIZE (V)

3

1

–

1

–

3

2

4

0

–2

–

4

0 200 400 600 800

1000

00288-022

0.01%

0.1%

0.01%

0.1%

V

S

= 5V

T

A

= 25

°

C

CAPACITANCE (pF)

OVERSHOOT (%)

60

40

50

30

20

10

0

10 100 1000

00288-023

V

S

= 5V

T

A

= 25°C

T

A

= ±50mV

R

L

= 10kΩ

+OS

–OS

FREQUENCY (Hz)

NOISE DENSITY (nV/√Hz)

70

60

50

40

30

10

20

0

1 10 100 1k

00288-024

V

S

= 5V

T

A

= 25°C

OP162GSZ-REEL7

OP162GSZ-REEL7

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