AD8041ARZ-REEL

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18

REV. B–8–

AD8041

FREQUENCY (MHz)

5

4

–5

3

2

1

0

–1

–2

–3

–4

1 50010 100

V

S

= 5V

R

L

= 2k⍀ TO 2.5V

C

L

= 5pF

G = +1

T = +125ⴗC

T = +25ⴗC

T = –55ⴗC

CLOSED-LOOP GAIN (dB)

TPC 13. Closed-Loop Frequency Response

vs. Temperature

FREQUENCY

(

MHz

)

5

4

–5

3

2

1

0

–1

–2

–3

–4

1 50010 100

G = +1

R

L

= 2k⍀

C

L

= 5pF

V

S

= 3V

R

L

AND C

L

TO 1.5V

V

S

= ⴞ5V

CLOSED-LOOP GAIN (dB)

V

S

= 5V

R

L

AND C

L

TO 2.5V

TPC 14. Closed-Loop Frequency Response vs. Supply

FREQUENCY (MHz)

100

10

1

0.1

0.01

1 50010 1000.1

0.01

G = +1

V

S

= 5V

OUTPUT RESISTANCE (⍀)

TPC 15. Output Resistance vs. Frequency

INPUT STEP (V p-p)

TIME (ns)

50

40

10

0.5 21 1.5

30

20

V

S

= 3V, 0.1%

V

S

= ⴞ5V, 0.1%

V

S

= 3V, 1%

V

S

= ⴞ5V, 1%

G = –1

TPC 16. Settling Time vs. Input Step

FREQUENCY (MHz)

–10

–40

–60

–80

–100

–20

–30

–50

–70

–90

–110

1 50010 1000.1

0.01

CMRR (dB)

V

S

= +3V AND ⴞ5V

TPC 17. CMRR vs. Frequency

LOAD CURRENT (mA)

OUTPUT SATURATION VOLTAGE (mV)

1000

10

0

0.001 0.01

100

0.1 1 10 10

0

V

OL

, –55ⴗC

+5V – V

OH

,

+125ⴗC

V

OL

, +125ⴗC

V

S

=

5V

+5V – V

OH

,

–55ⴗC

TPC 18. Output Saturation Voltage vs. Load Current

REV. B

AD8041

–9–

TEMPERATURE (

ⴗ

C)

8

5

2

–60 –40 –20 0 20 40 60 80 100 120

SUPPLY CURRENT (mA)

7

6

4

3

V

S

=

5V

V

S

=

ⴞ5V

V

S

=

3V

TPC 19. Supply Current vs. Temperature

FREQUENCY (MHz)

40

–20

–60

–100

–140

20

0

–40

–80

–120

–160

1 50010 1000.1

0.01

PSRR (dB)

V

S

= 5V

–PSRR

+PSRR

TPC 20. PSRR vs. Frequency

10

9

0

6

3

2

1

8

7

4

5

V

OUT

p-p (V)

FREQUENCY (MHz)

V

S

= ⴞ5V

R

L

= 2k⍀

0.1 1000110100

TPC 21. Output Voltage Swing vs. Frequency

SERIES RESISTANCE (⍀)

90

10

80

50

40

30

20

70

60

0

06010

20 30 40 50

V

IN

100k⍀

R

SERIES

C

LOAD

1k⍀

20

ⴗ

PHASE

MARGIN

45

ⴗ

PHASE

MARGIN

V

S

= 5V

CAPACITIVE LOAD (pF)

TPC 22. Capacitive Load vs. Series Resistance

FREQUENCY (MHz)

5

4

–5

NORMALIZED OUTPUT (dB)

3

2

1

0

–1

–2

–3

–4

1 50010 100

G = +2

G = +10

G = +5

G = +2,

R

F

= 402⍀

V

S

= 5V

R

L

= 5k⍀ TO 2.5V

R

F

= 2k⍀

TPC 23. Frequency Response vs. Closed-Loop Gain

1.600V

1.550V

1.500V

1.450V

1.400V

1.425V

1.475V

1.525V

1.575V

10ns

50mV

V

I

N

= 0.1V p-p

R

L

=

2k⍀

V

S

= 3V

G = +1

TPC 24. Pulse Response, V

S

= 3 V

REV. B–10–

AD8041

5V

4V

3V

2V

1V

0V

200

␮

s

1V

0.111V MIN

R

L

= 150⍀ TO 2.5V

4.840V MAX

a.

5V

4V

3V

2V

1V

0V

200

␮

s

1V

R

L

= 150⍀ TO GND

4.741V MAX

0.043V MIN

b.

TPC 25. Output Swing vs. Load Reference Voltage,

V

S

= 5 V, G = –1

4.5V

3.5V

2.5V

1.5V

0.5V

40ns1V

V

S

= 5V

G = +2

R

L

= 2k⍀

V

IN

= 1V p-p

TPC 26. One Volt Step Response, V

S

= 5 V, G = +2

2.60V

2.55V

2.50V

2.45V

2.40V

V

S

= 5V

G = +1

R

L

= 2k⍀

V

L

= 5pF

40ns

50mV

TPC 27. 100 mV Step Response, V

S

= 5 V, G = +1

3.0V

2.5V

2.0V

1.5V

1.0V

0.5V

0V

2␮s

500mV

V

IN

= 3V p-p

f = 0.1MHz

R

L

= 2k⍀

V

S

= 3V

G = –1

TPC 28. Output Swing, V

S

= 3 V, V

IN

= 3 V p-p

3.0V

2.5V

2.0V

1.5V

1.0V

0.5V

0V

2␮s

500mV

V

IN

= 2.8V p-p

f = 0.8MHz

R

L

= 2k⍀

V

S

= 3V

G = –1

TPC 29. Output Swing, V

S

= 3 V, V

IN

= 2.8 V p-p

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18

AD8041ARZ-REEL

Mfr. #:

Buy AD8041ARZ-REEL

Manufacturer:

Analog Devices Inc.

Description:

High Speed Operational Amplifiers 160MHz RR w/ Disable

Lifecycle:

New from this manufacturer.

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