AD8051ARZ Datasheet AD8051ARTZ-REEL7, AD8052ARMZ-REEL7, AD8052ARZ-REEL7 | P10-P12

AD8051/AD8052/AD8054

Rev. J | Page 10 of 24

TYPICAL PERFORMANCE CHARACTERISTICS

FREQUENCY (MHz)

3

2

–7

–1

–4

–5

–6

1

0

–3

–2

500

NORMALIZED GAIN (dB)

0.1 1 10 100

G = +10

R

F

= 2kΩ

G = +2

R

F

= 2kΩ

G = +5

R

F

= 2kΩ

G = +1

R

F

= 0

V

S

= 5V

GAIN AS SHOWN

R

F

AS SHOWN

R

L

= 2kΩ

V

OUT

= 0.2V p-p

01062-007

Figure 7. AD8051/AD8052 Normalized Gain vs. Frequency; V

S

= 5 V

FREQUENCY (MHz)

3

2

–7

100

–1

–4

–5

–6

1

0

–3

–2

GAIN (dB)

V

S

= +3V

V

S

= +5V

V

S

= ±5V

V

S

AS SHOWN

G=+1

R

L

=2kΩ

V

OUT

=0.2Vp-p

0.1 1 10 500

01062-008

Figure 8. AD8051/AD8052 Gain vs. Frequency vs. Supply

FREQUENCY (MHz)

3

2

–7

0.1 500100

–1

–4

–5

–6

1

0

–3

–2

–40°C

+25°C

+85°C

GAIN (dB)

1

10

V

S

= 5V

G=+1

R

L

=2kΩ

V

OUT

=0.2Vp-p

TEMPERATURE AS SHOWN

01062-009

Figure 9. AD8051/AD8052 Gain vs. Frequency vs. Temperature

1M

FREQUENCY (Hz)

3

0

–3

–6

–7

100k

–5

–4

–2

–1

5

4

2

1

500M

NORMALIZED GAIN (dB)

10M 100M

G = +1

R

F

= 0

G = +2

R

F

= 2kΩ

G = +10

R

F

= 2kΩ

G = +5

R

F

= 2kΩ

V

S

= 5V

GAIN AS SHOWN

R

F

AS SHOWN

R

L

= 5kΩ

V

OUT

= 0.2V p-p

01062-010

Figure 10. AD8054 Normalized Gain vs. Frequency; V

S

= 5 V

+3V

+5V

±5V

+3V

+5V

6

2

–3

100k

5

4

3

1

0

–1

–2

–4

FREQUENCY (Hz)

500M

GAIN (dB)

G=+1

R

L

=2kΩ

C

L

= 5pF

V

OUT

=0.2Vp-p

±5V

1M 10M 100M

01062-011

Figure 11. AD8054 Gain vs. Frequency vs. Supply

4

0

–4

3

2

1

–1

–2

–3

–5

100

FREQUENCY (MHz)

–40°C

+25°C

+85°C

GAIN (dB)

500

101

V

S

= 5V

R

L

= 2kΩ TO 2.5V

C

L

= 5pF

G = +1

V

OUT

= 0.2V p-p

01062-012

Figure 12. AD8054 Gain vs. Frequency vs. Temperature

AD8051/AD8052/AD8054

Rev. J | Page 11 of 24

FREQUENCY (MHz)

6.3

6.2

5.3

0.1 100

5.9

5.6

5.5

5.4

6.1

6.0

5.7

5.8

GAIN FLATNESS (dB)

1 10

01062-013

V

S

= 5V

G = +2

R

L

= 150Ω

R

F

= 806Ω

V

OUT

= 0.2V p-p

Figure 13. AD8051/AD8052 0.1 dB Gain Flatness vs. Frequency; G = +2

FREQUENCY (MHz)

9

8

–1

5

2

1

0

7

6

3

4

GAIN (dB)

V

S

= +5V

V

OUT

= 2V p-p

V

S

AS SHOWN

G = +2

R

F

= 2kΩ

R

L

= 2kΩ

V

OUT

AS SHOWN

V

S

= ±5V

V

OUT

= 4V p-p

0.1 1 10 100 500

01062-014

Figure 14. AD8051/AD8052 Large Signal Frequency Response; G = +2

FREQUENCY (MHz)

80

70

–20

40

10

0

–10

60

50

20

30

0

–45

–90

–135

–180

GAIN

PHASE

OPEN-LOOP GAIN (dB)

PHASE MARGIN (Degrees)

50° PHASE

MARGIN

0.01 0.1 1 10 100 500

V

S

= 5V

R

L

= 2kΩ

01062-015

Figure 15. AD8051/AD8052 Open-Loop Gain and Phase vs. Frequency

6.3

5.9

5.4

6.2

6.1

6.0

5.8

5.7

5.6

5.5

110010

FREQUENCY (MHz)

GAIN FLATNESS (dB)

5.3

01062-016

V

S

= 5V

R

F

= 200Ω

R

L

= 150Ω

G = +2

V

OUT

= 0.2V p-p

Figure 16. AD8054 0.1 dB Gain Flatness vs. Frequency; G = +2

FREQUENCY (MHz)

9

8

–1

5

2

1

0

7

6

3

4

GAIN (dB)

0.1 1 10 100 500

01062-017

V

S

= ±5V

V

OUT

= 4V p-p

V

S

AS SHOWN

G = +2

R

F

= 2kΩ

R

L

= 2kΩ

V

OUT

AS SHOWN

V

S

= +5V

V

OUT

= 2V p-p

Figure 17. AD8054 Large Signal Frequency Response; G = +2

GAIN

PHASE

180

135

90

45

0

FREQUENCY (Hz)

80

70

–20

40

10

0

–10

60

50

20

30

OPEN-LOOP GAIN (dB)

PHASE MARGIN (Degrees)

45° PHASE

MARGIN

30k 100k 1M 10M 100M 500M

V

S

= 5V

R

L

= 2kΩ

C

L

= 5pF

01062-018

Figure 18. AD8054 Open-Loop Gain and Phase Margin vs. Frequency

AD8051/AD8052/AD8054

Rev. J | Page 12 of 24

FUNDAMENTAL FREQUENCY (MHz)

–

20

–30

–110

–70

–80

–90

–100

–50

–60

–40

TOTAL HARMONIC DISTORTION (dBc)

12345678910

V

OUT

= 2V p-p V

S

= 3V, G = –1

R

F

= 2kΩ, R

L

= 100Ω

V

S

= 5V, G = +2

R

F

= 2kΩ, R

L

= 100Ω

V

S

= 5V, G = +1

R

L

= 100Ω

V

S

= 5V, G = +1

R

L

= 2kΩ

V

S

= 5V, G = +2

R

F

= 2kΩ, R

L

= 2kΩ

01062-019

Figure 19. Total Harmonic Distortion

OUTPUT VOLTAGE (V p-p)

05.04.5

–

30

–40

–120

–80

–90

–100

–110

–60

–70

–50

–130

–140

WORST HARMONIC (dBc)

0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0

V

S

= 5V

R

L

= 2kΩ

G = +2

10MHz

5MHz

1MHz

01062-020

Figure 20. Worst Harmonic vs. Output Voltage

0.05

0.00

–0.05

–0.10

–0.15

–0.20

–0.25

0.10

MODULATING RAMP LEVEL (IRE)

0.10

–0.06

0.08

0.06

0.04

0.02

0.00

–0.02

–0.04

NTSC SUBSCRIBER (3.58MHz)

DIFFERENTIAL

GAIN ERROR (%)

DIFFERENTIAL

PHASE ERROR (Degrees)

0 102030405060708090100

R

L

= 150Ω

R

L

= 1kΩ

R

L

= 150Ω

R

L

= 1kΩ

V

S

= 5V, G = +2

R

F

= 2kΩ, R

L

AS SHOWN

V

S

= 5V, G = +2

R

F

= 2kΩ, R

L

AS SHOWN

01062-021

Figure 21. AD8051/AD8052 Differential Gain and Phase Errors

1000

100

1

10

10M100

VOLTAGE NOISE (nV/√Hz)

1k 10k 100k

1M

10

FREQUENCY (Hz)

V

S

= 5V

0

1062-022

Figure 22. Input Voltage Noise vs. Frequency

100

10

0.1

1

10

10M100

CURRENT NOISE (pA/

√

Hz)

1k 10k 100k

1M

FREQUENCY (Hz)

V

S

= 5V

01062-023

Figure 23. Input Current Noise vs. Frequency

0.10

–0.10

0.05

0.00

–0.05

0.2

0.1

0.0

–0.1

–0.2

–0.3

0.3

MODULATING RAMP LEVEL (IRE)

NTSC SUBSCRIBER (3.58MHz)

DIFFERENTIAL

GAIN ERROR (%)

DIFFERENTIAL

PHASE ERROR (Degrees)

R

L

= 150Ω

R

L

= 1kΩ

R

L

= 150Ω

R

L

= 1kΩ

V

S

= 5V, G = +2

R

F

= 2kΩ, R

L

AS SHOWN

V

S

= 5V, G = +2

R

F

= 2kΩ, R

L

AS SHOWN

1

ST

2

ND

3

RD

4

TH

5

TH

6

TH

7

TH

8

TH

9

TH

10

TH

11

TH

1

ST

2

ND

3

RD

4

TH

5

TH

6

TH

7

TH

8

TH

9

TH

10

TH

11

TH

01062-024

Figure 24. AD8054 Differential Gain and Phase Errors

AD8051ARZ

AD8051ARZ

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