AD8582ARZ Datasheet AD8582ARZ, AD8582ANZ, AD8582AN | P7-P9

AD8582–Typical Performance Characteristics

REV. 0

–6–

80

–60

–80

1

–20

–40

0

20

40

60

32

OUTPUT VOLTAGE – Volts

OUTPUT CURRENT – mA

POSITIVE0

CURRENT0

LIMIT0

NEGATIVE

CURRENT

LIMIT

DATA = 800

H

R

L

TIED TO +2V

1

10 1000100

100

1

0.01

0.1

10

OUTPUT SINK CURRENT – µA

OUTPUT PULL-DOWN VOLTAGE – mV

V

DD

= +5V

DATA = 000

H

T

A

= +85

°

C

T

A

= –40

°

C

T

A

= +25

°

C

5

2

0

10

100 100k10k1k

1

3

4

OUTPUT VOLTAGE – Volts

R

L

TIED TO AGND

DATA = FFF

H

V

DD

= +5V

T

A

= +25°C

R

L

TIED TO +5V

DATA = 000

H

LOAD RESISTANCE – Ω

Figure 6. Pull-Down Voltage vs.

Output Sink Current Capability

Figure 7. I

OUT

vs. V

OUT

Figure 5. Output Swing vs. Load

5

0

5

1

0

3

2

4

3241

LOGIC VOLTAGE VALUE – Volts

SUPPLY CURRENT – mA

V

DD

= +4.75V

V

DD

= +5V

T

A

= +25°C

100

0

10

100 100k10k1k

60

80

20

40

POWER SUPPLY REJECTION – dB

FREQUENCY – Hz

V

DD

= +5V ±200mV AC

T

A

= +25°C

DATA = FFF

H

TIME = 100µs/DIV

OUTPUT NOISE VOLTAGE – 200µV/DIV

T

A

= +25°C

NBW = 630kHz

Figure 9. Supply Current vs. Logic

Input Voltage

Figure 10. Power Supply Rejection

vs. Frequency

Figure 8. Broadband Noise

2.028

2.018

2.048

2.038

0

5

TIME – 500ns/DIV

V

OUT

– Volts

LD

2048

10

TO 2047

10

2.008

0

5

V

DD

= +5V

T

A

= +25

°

C

OUTPUT VOLTAGE

1mV/DIV

DATA

TIME – 5µs/DIV

15µs

5

0

4

3

2

1

0

TIME = 20µs/DIV

INPUT

OUTPUT

10

90

100

LDB

V

DD

= +5V

T

A

= +25

°

C

1V

20µs

5V

0%

Figure 11. Midscale Transition

Performance

Figure 12. Large Signal Settling Time

Figure 13. Output Voltage Rise

Time Detail

–7–

REV. 0

AD8582

0

5

V

DD

= +5V

T

A

= +25

°

C

OUTPUT VOLTAGE

1mV/DIV

DATA

TIME – 5µs/DIV

15µs

3

–1

125

0

–25–50

1

2

1007550250

TEMPERATURE –

°

C

ZERO-SCALE OUTPUT – Volts

V

DD

= +4.75V

NO LOAD

SS = 298 UNITS

8

0

125

2

1

–25–50

4

3

5

6

7

1007550250

TEMPERATURE –

°

C

SUPPLY CURRENT – mA

V

DATA

= +2.4V

NO LOAD

V

DD

= +4.75V

V

DD

= +5.00V

V

DD

= +5.25V

0

10

30

20

40

–8 1–5 0–7 –6

TOTAL UNADJUSTED ERROR – mV

FREQUENCY

–4 –3 –2 –1

5

15

25

35

45

TUE =

Σ

INL+ZS+FS

SS = 297 UNITS

V

DD

= +4.75V

T

A

= +25°C

100

1.0

0.1

10

100 100k10k1k

10

FREQUENCY – Hz

V

DD

= +5V

T

A

= +25°C

DATA = FFF

H

OUTPUT NOISE DENSITY – µV/

Hz

4.115

4.075

125

4.085

4.080

–25–50

4.095

4.090

4.100

4.105

4.110

1007550250

TEMPERATURE –

°

C

FULL-SCALE OUTPUT – Volts

V

DD

= +4.75V

NO LOAD

SS = 298 UNITS

AVG

σAVG +1σ

σAVG –1σ

HOURS OF OPERATION AT +150°C

3

–3

600

0

–2

100

–1

0

2

1

500400300200

NOMINAL FULL-SCALE

VOLTAGE CHANGE – mV

V

DD

= +5V

SS = 135 UNITS

DATA = FFF

H

AVG

σ

AVG +2

σ

AVG –2

σ

V

DD

V

REF

0V

TIME – 1µs/DIV

10

90

100

0%

2V

1µs

∞T

A

= +25

°

C

R

L

= ∞

V

DD

= +5V

1

0

DATA

V

OUT

10mV/DIV

TIME – 5µs/DIV

10

90

100

0%

10mV

5V 5µs

CS = HIGH

Figure 16. Full-Scale Voltage vs.

Temperature

Figure 15. Total Unadjusted Error

Histogram

Figure 14. Output Voltage Fall

Time Detail

Figure 17. Zero-Scale Voltage vs.

Temperature

Figure 18. Output Voltage Noise

Density vs. Frequency

Figure 19. Long-Term Drift

Accelerated by Burn-In

Figure 21. Reference Startup vs.

Time

Figure 22. Digital Feedthrough vs.

Time

Figure 20. Supply Current vs.

Temperature

REV. 0

–8–

AD8582

10

–10

125

–4

–8

–25

–6

–50

2

–2

0

4

6

8

10050 75

0

25

TEMPERATURE –

°

C

REFERENCE ERROR – mV

V

DD

= +4.75V

σAVG +1σ

AVG

σAVG –1σ

0.10

0.00

125–25

0.02

–50

0.06

0.04

0.08

10050 75

0

25

TEMPERATURE –

°

C

REF LINE REGULATION – %/Volt

σAVG +1σ

AVG

σAVG – 1σ

∆ V

DD

= +4.75 TO +5.25V

0.000

–0.005

125–25

–0.004

–50

–0.002

–0.003

–0.001

10050 75

0

25

TEMPERATURE –

°

C

REF LOAD REGULATION – %/mA

σAVG +1σ

AVG

σAVG –1σ

∆V

DD

= +4.75V

∆I

L

= 5mA

PRINTED IN U.S.A.

C1869–18–12/93

Figure 23. Reference Error vs.

Temperature

Figure 24. Reference Load Regulation

vs. Temperature

Figure 25. Reference Line Regulation

vs. Temperature

OUTLINE DIMENSIONS

Dimensions shown in inches and (mm).

N-24

24-Pin Narrow Body Plastic DIP

SOL-24

24-Lead Wide Body SOIC

0.195 (4.95)

0.115 (2.93)

0.325 (8.25)

0.300 (7.62)

0.015 (0.381)

0.008 (0.204)

PIN 1

24

1

13

12

0.280 (7.11)

0.240 (6.10)

0.210

(5.33)

MAX

0.100 (2.54)

BSC

SEATING

PLANE

0.060 (1.52)

0.015 (0.38)

0.150

(3.81)

MIN

0.070 (1.77)

0.045 (1.15)

0.022 (0.558)

0.014 (0.356)

0.200 (5.05)

0.125 (3.18)

1.275 (32.30)

1.125 (28.60)

PIN 1

0.2992 (7.60)

0.2914 (7.40)

0.4193 (10.65)

0.3937 (10.00)

13

12

1

24

0.0192 (0.49)

0.0138 (0.35)

0.0500 (1.27)

BSC

0.1043 (2.65)

0.0926 (2.35)

0.6141 (15.60)

0.5985 (15.20)

0.0118 (0.30)

0.0040 (0.10)

0.0125 (0.32)

0.0091 (0.23)

0.0500 (1.27)

0.0157 (0.40)

0.0291 (0.74)

0.0098 (0.25)

x 45

°

8

°

0

°

AD8582ARZ

AD8582ARZ

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