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AD8013AR-14
P1-P3
P4-P6
P7-P9
P10-P12
P13-P13
AD8013
REV. A
–6–
FREQUENCY – Hz
10
100k
1G
1M
COMMON-MODE REJECTION – dB
10M
100M
70
60
20
50
40
30
V
CM
R
R
R
R
Figure 12.
Common-Mode Rejection vs. Frequency
FREQUENCY – Hz
80
0
100k
1G
1M
10M
100M
70
POWER SUPPLY REJECTION – dB
60
10
+PSR
20
30
40
50
–PSR
V
S
=
±
5V
Figure 13.
Power Supply Rejection Ratio vs. Frequency
FREQUENCY – Hz
120
40
100k
1G
1M
TRANSIMPEDANCE – dB
10M
100M
100
80
60
0
–45
–90
–135
–180
PHASE – Degrees
140
10k
V
S
=
±
5V
R
L
= 1k
Figure 14.
Open-Loop Transimpedance vs. Frequency
(Relative to 1
Ω
)
FREQUENCY – Hz
1k
100
0.01
100k
1G
1M
CLOSED-LOOP OUTPUT RESISTANCE –
Ω
10M
100M
10
1
0.1
V
S
=
±
5V
G = +2
Figure 9.
Closed-Loop Output Resistance vs.
Frequency
FREQUENCY – Hz
100k
10k
10
1M
1G
10M
OUTPUT RESISTANCE –
Ω
100M
1k
100
Figure 10.
Output Resistance vs. Frequency, Disabled
State
FREQUENCY – Hz
1k
100
1
100
1M
1k
VOLTAGE NOISE nV
/
√
Hz
10k
100k
10
1k
100
1
10
CURRENT NOISE pA/
√
Hz
NONINVERTING I
INVERTING I
V
NOISE
Figure 11.
Input Current and Voltage Noise vs.
Frequency
–7–
REV. A
AD8013
FREQUENCY – Hz
1k
100M
10k
HARMONIC DISTORTION – dBc
100k
1M
10M
–30
–40
–50
–60
–70
–80
–90
–100
–110
–120
G = +2
V
O
= 2V p-p
V
S
=
±
5V
2nd
R
L
= 150
Ω
2nd
R
L
= 1k
Ω
3rd
R
L
= 1k
Ω
3rd
R
L
= 150
Ω
Figure 15.
Harmonic Distortion vs. Frequency
OUTPUT STEP SIZE – V p-p
18
23
4567
1800
1600
SLEW RATE –
V/µs
800
600
400
200
1200
1000
1400
V
S
=
±
5V
R
L
= 500
Ω
G = +10
G = –1
G = +2
G = +1
Figure 16.
Slew Rate vs. Output Step Size
10
0%
100
90
20ns
2V
2V
V
IN
V
OUT
Figure 17.
Large Signal Pulse Response, Gain = +1,
(R
F
= 2 k
Ω
, R
L
= 150
Ω
, V
S
=
±
5 V)
FREQUENCY – Hz
1M
1G
10M
CLOSED-LOOP GAIN
(NORMALIZED) – dB
100M
–6
+1
0
–1
–2
–3
–4
–5
0
–90
–180
–270
PHASE SHIFT – Degrees
G = +1
R
L
= 150
Ω
V
S
=
±
5V
V
S
= +5V
V
S
= +5V
V
S
=
±
5V
GAIN
PHASE
Figure 18.
Closed-Loop Gain and Phase vs. Frequency,
G = +1, R
L
= 150
Ω
SUPPLY VOLTAGE –
±
Volts
2000
1.5
7.5
2.5
SLEW RATE –
V/µs
3.5
4.5
5.5
6.5
1800
1200
600
400
200
1600
1400
1000
800
G = +10
G = –1
G = +2
G = +1
Figure 19.
Maximum Slew Rate vs. Supply Voltage
10
0%
100
90
20ns
500mV
500mV
V
IN
V
OUT
Figure 20.
Small Signal Pulse Response, Gain = +1,
(R
F
= 2 k
Ω
, R
L
= 150
Ω
, V
S
=
±
5 V)
AD8013
REV. A
–8–
10
0%
100
90
20ns
50mV
500mV
V
IN
V
OUT
Figure 21.
Large Signal Pulse Response, Gain = +10,
R
F
= 301
Ω
, R
L
= 150
Ω
, V
S
=
±
5 V)
FREQUENCY – Hz
1M
1G
10M
CLOSED-LOOP GAIN
(NORMALIZED) – dB
100M
–6
+1
0
–1
–2
–3
–4
–5
0
–90
–180
–270
PHASE SHIFT – Degrees
G = +10
R
L
= 150
Ω
V
S
=
±
5V
V
S
= +5V
V
S
= +5V
V
S
=
±
5V
GAIN
PHASE
Figure 22.
Closed-Loop Gain and Phase vs. Frequency,
G = +10, R
L
= 150
Ω
10
0%
100
90
20ns
50mV
500mV
V
IN
V
OUT
Figure 23.
Small Signal Pulse Response, Gain = +10,
(R
F
= 301
Ω
, R
L
= 150
Ω
, V
S
=
±
5 V)
10
0%
100
90
20ns
2V
2V
V
IN
V
OUT
Figure 24.
Large Signal Pulse Response, Gain = –1,
(R
F
= 698
Ω
, R
L
= 150
Ω
, V
S
=
±
5 V)
FREQUENCY – Hz
1M
1G
10M
CLOSED-LOOP GAIN
(NORMALIZED) – dB
100M
–6
+1
0
–1
–2
–3
–4
–5
0
90
180
–90
PHASE SHIFT – Degrees
G = –1
R
L
= 150
Ω
V
S
=
±
5V
V
S
= +5V
V
S
= +5V
V
S
=
±
5V
GAIN
PHASE
Figure 25.
Closed-Loop Gain and Phase vs. Frequency,
G = –1, R
L
= 150
Ω
10
0%
100
90
20ns
500mV
500mV
V
IN
V
OUT
Figure 26.
Small Signal Pulse Response, Gain = –1,
(R
F
= 698
Ω
, R
L
= 150
Ω
, V
S
=
±
5 V)
P1-P3
P4-P6
P7-P9
P10-P12
P13-P13
AD8013AR-14
Mfr. #:
Buy AD8013AR-14
Manufacturer:
Description:
Video Amplifiers SGL Supply Low Power Triple
Lifecycle:
New from this manufacturer.
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