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AD8004ANZ
P1-P3
P4-P6
P7-P9
P10-P12
P13-P15
P16-P17
REV.
D
AD8004
–6–
FREQUENCY – MHz
9
–6
–21
1
500
10
OUTPUT LEVEL – dBV
40
100
–3
0
3
6
–9
–12
–15
–18
1V rms
G = +2
V
S
=
5V
R
F
= 604
TPC 7.
Large Signal Frequency Response; V
S
=
±
5.0 V,
G = +2, R
F
= 604
Ω
FREQUENCY – MHz
–50
–100
12
0
DISTORTION – dBc
10
–40
–60
–70
–80
–90
G = +2
V
O
= 2V p-p
R
F
= 698
2ND
R
L
= 150
3RD
R
L
= 150
2ND
R
L
= 1k
3RD
R
L
= 1k
TPC 8.
Distortion vs. Frequency; V
S
=
±
5 V
FREQUENCY – MHz
1
–4
–9
1
500
10
40
100
–3
–2
–1
0
–5
–6
–7
–8
NORMALIZED FREQUENCY RESPONSE – dB
NORMALIZED FLATNESS – dB
0.1
0
–0.1
–0.2
–0.3
–0.4
–0.5
G = +2
V
IN
= 50mV rms
R
L
= 100
R
F
= 1.10k
R PACKAGE
5V
S
+5V
S
+5V
S
5V
S
TPC 9.
Frequency Response and Flatness, G = +2
FREQUENCY – MHz
3
–12
–27
1
500
10
40
100
–9
–6
–3
0
–15
–18
–21
–24
1V rms
OUTPUT LEVEL – dBV
G = +2
V
S
= +5V
R
F
= 604
TPC 10.
Large Signal Frequency Response; V
S
= +5.0 V,
G = +2, R
F
= 604
Ω
FREQUENCY – MHz
–40
–70
–100
12
0
DISTORTION – dBc
10
–60
–50
–80
–90
G = +2
V
O
= 2V p-p
R
F
= 698
2ND
R
L
= 150
3RD
R
L
= 150
2ND
R
L
= 1k
3RD
R
L
= 1k
TPC 11.
Distortion vs. Frequency; V
S
= +5 V
CMRR – dB
604
604
50
V
OUT
154
154
57.6
V
IN
FREQUENCY – MHz
–10
–35
–60
0.1
500
11
0
100
–30
–25
–20
–15
–40
–45
–50
–55
+5V
S
5V
S
+5V
S
5V
S
0.03
TPC 12.
CMRR vs. Frequency; V
S
=
±
5 V or +5 V,
V
IN
= 200 mV rms, Other Sides Are Equal, RTO
REV.
D
AD8004
–7–
INPUT CURRENT NOISE –
p
A/
Hz
10
100
1k
10k
100k
1M
FREQUENCY – Hz
1000
500
200
100
300
10
1
70
50
40
30
20
+ OR – INPUT
CURRENT NOISE
VOLTAGE NOISE
INPUT VOLTAGE NOISE – nV/
Hz
100
10
TPC 13.
Noise vs. Frequency, V
S
= +5 V or
±
5 V
S
FREQUENCY – MHz
1
0.1
500
1
IMPEDANCE –
10
100
10
100
0.1
0.01
0.03
+5V
S
5V
S
R
BT
= 50
5V
S
OR +5V
S
R
BT
= 0
G = +2
R
F
= 698
POWER = 0dBm
(224mV rms)
TPC 14.
Output Impedance vs. Frequency
FREQUENCY – MHz
–180
0.1
500
11
0
100
90
0
–240
–360
0.03
60
50
40
30
20
10
PHASE – Degrees
0
–10
GAIN – dB
V
IN
= –40dBm
V
S
=
5V
GAIN
PHASE
TPC 15.
Open-Loop Voltage Gain and Phase
PSRR – dB
FREQUENCY – Hz
0
–50
10k
500M
100k
1M
10M
–40
–30
–20
–10
–60
–70
–80
100M
+PSRR
–PSRR
G = +2
5V
S
OR
2.5V
S
R
F
= 1k
100mV rms ON TOP
OF dc BIAS
TPC 16.
PSRR vs. Frequency
FREQUENCY – MHz
CROSSTALK – dB
–20
–70
–120
0.1
500
11
0
100
–60
–50
–40
–30
–80
–90
–100
–110
0.03
OUTPUT =
SIDE 2
OUTPUT =
SIDE 4
OUTPUT =
SIDE 3
G = +2
R
F
= 1.10k
5V
S
V
IN
= 200mV rms
INPUT TO SIDE 1
R
L1
= 1k
R PACKAGE
TPC 17.
Crosstalk (Output to Output) vs. Frequency
FREQUENCY – Hz
GAIN – dB
110
60
10
1M
1G
10M
100M
70
80
90
100
50
40
30
20
100k
PHASE
GAIN
0
–50
–100
–150
–200
PHASE – Degrees
TPC 18.
Open-Loop Transimpedance Gain
REV.
D
AD8004
–8–
TPC 19.
Short-Term Settling Time
TPC 20.
Long-Term Settling Time
0.04
0.03
0.02
0.01
0.00
–0.01
–0.02
–0.03
–0.04
1
ST
DIFF GAIN – %
0.12
0.10
0.08
0.06
0.04
0.02
0.00
–0.02
–0.04
DIFF PHASE – Degrees
2
ND
3
RD
4
TH
5
TH
6
TH
7
TH
8
TH
9
TH
10
TH
11
TH
80 IRE
R
L
= 150
V
S
=
5V
R
F
= 1.21k
80 IRE
R
L
= 150
V
S
=
5V
R
F
= 1.21k
1
ST
2
ND
3
RD
4
TH
5
TH
6
TH
7
TH
8
TH
9
TH
10
TH
11
TH
TPC 21.
Differential Gain/Differential Phase
9
8
7
6
5
3
2
10
100
1000
10000
LOAD RESISTANCE –
4
1
0
SWING – V p
-p
+5V
S
5V
S
G = +2
R
F
= 1.21k
TPC 22.
Output Voltage Swing vs. Load
9
8
7
6
5
4
3
2
1
0
R
L
= 100
R
L
= 1k
TOTAL SUPPLY VOLTAGE – V
G = +2
R
F
= 1.21k
f = 100kHz
10
34567
8
9
1
0
1
1
1
2
PEAK-TO-PEAK OUTPUT
AT CLIPPING POINT – V
TPC 23.
Output Swing vs. Supply
0.03
0.02
0.01
0.00
–0.01
–0.02
–0.03
DIFF GAIN – %
DIFF PHASE – Degrees
80 IRE
R
L
= 1k
V
S
=
5V
R
F
= 1.21k
0.04
0.03
0.02
0.01
0.00
–0.01
–0.02
–0.03
–0.04
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
80 IRE
R
L
= 1k
V
S
=
5V
R
F
= 1.21k
TPC 24.
Differential Gain/Phase, R
L
= 1 k
Ω
P1-P3
P4-P6
P7-P9
P10-P12
P13-P15
P16-P17
AD8004ANZ
Mfr. #:
Buy AD8004ANZ
Manufacturer:
Analog Devices Inc.
Description:
High Speed Operational Amplifiers Quad 3000V/uS 35mW Current Feedback
Lifecycle:
New from this manufacturer.
Delivery:
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TNT
EMS
Payment:
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