AD817ARZ

P1-P3 P4-P6 P7-P9 P10-P12 P13-P14

AD817

REV. B

–5–

7

1

4

2

3

6

5

140–40–60 120806040 100200–20

TEMPERATURE –

°

C

INPUT BIAS CURRENT – µA

Figure 7. Input Bias Current vs. Temperature

130

30

90

50

70

110

140–40–60 120100806040200–20

TEMPERATURE – °C

SHORT CIRCUIT CURRENT – mA

SOURCE CURRENT

SINK CURRENT

Figure 8. Short Circuit Current vs. Temperature

100

20

80

40

60

–60 140–40 100 120806040200–20

TEMPERATURE – °C

PHASE MARGIN – Degrees

PHASE MARGIN

GAIN BANDWIDTH

20

80

40

60

UNITY GAIN BANDWIDTH – MHz

Figure 9. Unity Gain Bandwidth and Phase Margin

vs. Temperature

100

–20

40

0

20

80

60

1G10k1k 100M10M1M100k

FREQUENCY – Hz

+100

+40

0

+20

+80

+60

PHASE MARGIN – Degrees

OPEN-LOOP GAIN – dB

GAIN ±15V SUPPLIES

GAIN ±5V SUPPLIES

PHASE ±5V OR

±15V SUPPLIES

R

L

= 1kΩ

Figure 10. Open-Loop Gain and Phase Margin

vs. Frequency

100 1k 10k

7

4

1

2

3

5

6

LOAD RESISTANCE – Ohms

OPEN-LOOP GAIN – V/mV

±15V

±5V

Figure 11. Open Loop Gain vs. Load Resistance

100

10

30

20

40

50

60

70

80

90

100M1k100 10M1M100k10k

FREQUENCY – Hz

PSR – dB

POSITIVE

SUPPLY

NEGATIVE

SUPPLY

Figure 12. Power Supply Rejection vs. Frequency

REV. B–6–

AD817–Typical Characteristics

120

40

100

60

80

1k 10M10k 100k 1M

FREQUENCY – Hz

CMR – dB

Figure 13. Common-Mode Rejection vs. Frequency

100k 1M 100M10M

FREQUENCY – Hz

OUTPUT VOLTAGE – Volts p-p

R

L

= 1kΩ

R

L

= 150Ω

30

10

0

20

Figure 14. Large Signal Frequency Response

10

–10

–4

–8

–6

2

–2

0

4

6

8

160200 140120100806040

SETTLING TIME – ns

OUTPUT SWING FROM 0 TO ±V

0.1%

1%

1%

0.01%

0.1%

0.01%

Figure 15. Output Swing and Error vs. Settling Time

–40

–100

–70

–90

–80

–50

–60

10M1k100 1M100k10k

FREQUENCY – Hz

HARMONIC DISTORTION – dB

V

IN

= 1V p-p

GAIN = +2

2nd HARMONIC

3rd HARMONIC

Figure 16. Harmonic Distortion vs. Frequency

50

0

30

10

20

40

10M1031M100k10k1k100

FREQUENCY – Hz

INPUT VOLTAGE NOISE – nV/ Hz

Figure 17. Input Voltage Noise Spectral Density

380

300

360

320

340

–60 140–40 100 120806040200–20

TEMPERATURE – °C

SLEW RATE – V/µs

Figure 18. Slew Rate vs. Temperature

AD817

REV. B

–7–

SUPPLY VOLTAGE – Volts

0.05

0.03

0.04

DIFFERENTIAL PHASE – Degrees

DIFFERENTIAL GAIN – Percent

0.04

0.1

0.06

0.08

±15±5 ±10

DIFF GAIN

DIFF PHASE

Figure 19. Differential Gain and Phase vs.

Supply Voltage

FREQUENCY – Hz

GAIN – dB

100k 1M 100M10M

5

0

–5

–1

–2

–3

–4

1

2

3

4

V

S

= ±5V

V

S

= +5V

V

S

= ±15V

V

S

±15V

±5V

+5V

C

C

3pF

4pF

6pF

0.1dB

FLATNESS

16MHz

14MHz

12MHz

V

OUT

V

IN

1kΩ

1kΩ

C

C

Figure 20. Closed-Loop Gain vs. Frequency,

Gain = –1

FREQUENCY – Hz

GAIN – dB

100k 1M 100M10M

5

0

–5

–1

–2

–3

–4

1

2

3

4

V

S

= ±5V

V

S

= +5V

V

S

= ±15V

V

S

±15V

±5V

+5V

0.1dB

FLATNESS

70MHz

26MHz

17MHz

V

OUT

V

IN

1kΩ

150Ω

Figure 21. Closed-Loop Gain vs. Frequency,

Gain = +1

+V

S

TEKTRONIX

P6201 FET

PROBE

HP

PULSE (LS)

OR FUNCTION

(SS)

GENERATOR

100Ω

50Ω

1kΩ

R

L

V

OUT

0.01µF

3.3µF

–V

S

V

IN

TEKTRONIX

7A24

PREAMP

AD817

7

6

3

2

4

0.01µF

3.3µF

Figure 22. Noninverting Amplifier Connection

10

90

100

0%

50ns

5V

5V

Figure 23. Noninverting Large Signal Pulse

Response, R

L

= 1 k

Ω

10

90

100

0%

20ns

200mV

200mV

Figure 24. Noninverting Small Signal Pulse

Response, R

L

= 1 k

Ω

P1-P3 P4-P6 P7-P9 P10-P12 P13-P14

AD817ARZ

Mfr. #:

Manufacturer:

Analog Devices Inc.

Description:

Precision Amplifiers High Spd Low Pwr Wide Supply Range

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

Payment:

T/T Paypal Visa MoneyGram Western Union

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