OP113/OP213/OP413

–10–

REV. C

500

0

125

300

100

–50

200

400

100755025

0–25

TEMPERATURE – C

INPUT BIAS CURRENT – nA

–75

V

S

= 615V

V

S

= +5.0V

Figure 17. OP213 Input Bias Current vs. Temperature

15.0

–15.0

125

–13.5

–14.5

–50

–14.0

–75

13.0

12.5

13.5

14.0

14.5

1007550250–25

TEMPERATURE – 8C

POSITIVE OUTPUT SWING – Volts

V

S

= 615V

+SWING

R

L

= 2kV

+SWING

R

L

= 600V

–SWING

R

L

= 600V

–SWING

R

L

= 2kV

Figure 18. Output Swing vs. Temperature and R

L

@

±

15 V

20

0

125

6

2

–50

4

12

8

10

14

16

18

100755025

0–25

TEMPERATURE – 8C

OPEN-LOOP GAIN – V/mV

–75

V

S

= +5.0V

V

O

= 3.9V

R

L

= 2kV

R

L

= 600V

Figure 19. Open-Loop Gain vs. Temperature @ +5 V

1000

0

125

600

200

–50

400

800

1007550250–25

TEMPERATURE – 8C

INPUT BIAS CURRENT – nA

–75

V

S

= 615V

V

CM

= 0V

V

S

= 5.0V

V

CM

= 2.5V

V

CM

= 0V

Figure 14. OP113 Input Bias Current vs. Temperature

5.0

3.0

125

4.5

3.5

–50

4.0

75 10050250–25

TEMPERATURE – 8C

POSITIVE OUTPUT SWING – Volts

2.0

0

1.5

0.5

1.0

NEGATIVE OUTPUT SWING – mV

–75

+SWING

R

L

= 2kV

+SWING

R

L

= 600V

–SWING

R

L

= 2kV

–SWING

R

L

= 600V

V

S

= +5.0V

Figure 15. Output Swing vs. Temperature and R

L

@ +5 V

10 100 10M1M100k10k1k

FREQUENCY – Hz

105

60

40

20

0

–20

–40

–60

–80

–100

–120

CHANNEL SEPARATION – dB

V

S

= 615V

T

A

= +258C

Figure 16. Channel Separation

OP113/OP213/OP413

REV. C –11–

12.5

0

125–50

2.5

7.5

5.0

10.0

1007550250–25

TEMPERATURE – 8C

OPEN-LOOP GAIN – V/mV

–75

R

L

= 2kV

R

L

= 1kV

R

L

= 600V

V

S

= 615V

V

D

= 610V

Figure 20. OP413 Open-Loop Gain vs. Temperature

100

40

–20

10k 10M1M100k1k

20

0

60

80

FREQUENCY – Hz

OPEN-LOOP GAIN – dB

90

225

135

180

45

0

PHASE – Degrees

V+ = 5V

V– = 0V

T

A

= +258C

GAIN

PHASE

um = 578

Figure 21. Open-Loop Gain, Phase vs. Frequency @ +5 V

50

30

–20

10k 10M1M100k1k

40

10

20

–10

0

FREQUENCY – Hz

CLOSED-LOOP GAIN – dB

A

V

= +100

A

V

= +10

A

V

= +1

V+ = 5V

V– = 0V

T

A

= +258C

Figure 22. Closed-Loop Gain vs. Frequency @ +5 V

10

0

125

3

1

–50

2

6

4

5

7

8

9

100755025

0–25

TEMPERATURE – 8C

OPEN LOOP GAIN – V/mV

–75

R

L

= 2kV

R

L

= 600V

V

S

= 615V

V

O

= 610V

Figure 23. OP213 Open-Loop Gain vs. Temperature

100

40

–20

10k 10M1M100k1k

20

0

60

80

FREQUENCY – Hz

OPEN-LOOP GAIN – dB

90

225

135

180

45

0

PHASE – Degrees

T

A

= +258C

V

S

= 615V

GAIN

PHASE

um = 728

Figure 24. Open-Loop Gain, Phase vs. Frequency @

±

15 V

50

30

–20

10k 10M1M100k1k

40

10

20

–10

0

FREQUENCY – Hz

CLOSED-LOOP GAIN – dB

A

V

= +100

A

V

= +10

A

V

= +1

T

A

= +258C

V

S

= 615V

Figure 25. Closed-Loop Gain vs. Frequency @

±

15 V

OP113/OP213/OP413

–12–

REV. C

70

50

125

65

55

–50

60

75 10050250–25

TEMPERATURE – 8C

PHASE MARGIN – Degrees

5

1

4

2

3

GAIN-BANDWIDTH PRODUCT – MHz

–75

GBW

um

V+ = 5V

V– = 0V

Figure 26. Gain Bandwidth Product and Phase Margin vs.

Temperature @ +5 V

30

15

0

110 1k100

10

5

20

25

FREQUENCY – Hz

VOLTAGE NOISE DENSITY – nV/!Hz

T

A

= +258C

V

S

= 615V

Figure 27. Voltage Noise Density vs. Frequency

140

100

0

1k 1M100k10k100

120

60

80

20

40

FREQUENCY – Hz

COMMON-MODE REJECTION – dB

V+ = 5V

V– = 0V

T

A

= +258C

Figure 28. Common-Mode Rejection vs. Frequency @ +5 V

70

50

125

65

55

–50

60

75 10050250–25

TEMPERATURE – 8C

PHASE MARGIN – Degrees

5

1

4

2

3

GAIN-BANDWIDTH PRODUCT – MHz

–75

um

V

S

= 615V

GBW

Figure 29. Gain Bandwidth Product and Phase Margin vs.

Temperature @

±

15 V

3.0

1.5

0

110 1k100

1.0

0.5

2.0

2.5

FREQUENCY – Hz

CURRENT NOISE DENSITY – pA/!Hz

T

A

= +258C

V

S

= 615V

Figure 30. Current Noise Density vs. Frequency

140

100

0

1k 1M100k10k100

120

60

80

20

40

FREQUENCY – Hz

COMMON-MODE REJECTION – dB

T

A

= +258C

V

S

= 615V

Figure 31. Common-Mode Rejection vs. Frequency

@

±

15 V

Part #	OP213FS
Description	OP AMP DUAL GP 18V/36V 8SOICN - Rail/Tube
Category	IC
Availability	Out of Stock
Qty	0

OP213FS

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Technical Document