AD8079AR-REEL Analog Devices Inc, AD8079AR-REEL Datasheet - Page 7
AD8079AR-REEL
Manufacturer Part Number
AD8079AR-REEL
Description
IC AMP BUF DUAL LP LDIST 8SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD8079ARZ.pdf
(12 pages)
Specifications of AD8079AR-REEL
Rohs Status
RoHS non-compliant
Amplifier Type
Buffer
Number Of Circuits
2
Slew Rate
800 V/µs
-3db Bandwidth
260MHz
Current - Input Bias
3µA
Voltage - Input Offset
10000µV
Current - Supply
10mA
Current - Output / Channel
70mA
Voltage - Supply, Single/dual (±)
6 V ~ 12 V, ±3 V ~ 6 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Output Type
-
Gain Bandwidth Product
-
REV. A
–44.0
–46.5
–49.0
–51.5
–54.0
–56.5
–59.0
–61.5
–64.0
–66.5
–69.0
Figure 21. Output Resistance vs. Frequency
0.01
–84
100
–14
–24
–34
–44
–54
–64
–74
0.1
10
–4
–55
1
0
10k
30k
V
POWER = 0dBm
(223.6mV rms)
V
Figure 22. PSRR vs. Temperature
S
IN
Figure 23. PSRR vs. Frequency
= 5.0V
–35
= 200mV
100k
100k
–15
JUNCTION TEMPERATURE – C
–PSRR
5
1M
FREQUENCY – Hz
FREQUENCY – Hz
1M
–PSRR
25
R
bT
+PSRR
+PSRR
= 50
2V SPAN
CURVES ARE FOR WORST
CASE CONDITION WHERE
ONE SUPPLY IS VARIED
WHILE THE OTHER IS
HELD CONSTANT.
45
10M
10M
R
bT
65
= 0
100M
100M
85
105
500M
1G
125
–7–
THEORY OF OPERATION
The AD8079, a dual current feedback amplifier, is internally
configured for a gain of either +2 (AD8079A) or +2.2
(AD8079B). The internal gain-setting resistors effectively elimi-
nate any parasitic capacitance associated with the inverting in-
put pin, accounting for the AD8079’s excellent gain flatness
response. The carefully chosen pinout greatly reduces the cross-
talk between each amplifier. Up to four back-terminated 75
video loads can be driven by each amplifier, with a typical dif-
ferential gain and phase performance of 0.01%/0.17 , respec-
tively. The AD8079B, with a gain of +2.2, can be employed as a
single gain-trimming element in a video signal chain. Finally,
the AD8079A/B used in conjunction with our AD8116 cross-
point matrix, provides a complete turn-key solution to video
distribution.
Printed Circuit Board Layout Considerations
As to be expected for a wideband amplifier, PC board parasitics
can affect the overall closed-loop performance. If a ground
plane is to be used on the same side of the board as the signal
traces, a space (5 mm min) should be left around the signal lines
to minimize coupling. Line lengths on the order of less than
5 mm are recommended. If long runs of coaxial cable are being
driven, dispersion and loss must be considered.
Power Supply Bypassing
Adequate power supply bypassing can be critical when optimiz-
ing the performance of a high frequency circuit. Inductance in
the power supply leads can form resonant circuits that produce
peaking in the amplifier’s response. In addition, if large current
transients must be delivered to the load, then bypass capacitors
(typically greater than 1 F) will be required to provide the best
settling time and lowest distortion. A parallel combination of
4.7 F and 0.1 F is recommended. Some brands of electrolytic
capacitors will require a small series damping resistor 4.7
for optimum results.
DC Errors and Noise
There are three major noise and offset terms to consider in a
current feedback amplifier. For offset errors refer to the equa-
tion below. For noise error the terms are root-sum-squared to
give a net output error. In the circuit below (Figure 24) they are
input offset (V
noise gain of the circuit (1 + R
(I
input current, which when divided between R
sequently multiplied by the noise gain always appears at the out-
put as I
2 nV/ Hz. At low gains though the inverting input current noise
times R
vice matching contribute to better offset and drift specifications
for the AD8079 compared to many other current feedback am-
plifiers. The typical performance curves in conjunction with the
equations below can be used to predict the performance of the
AD8079 in any application.
where:
R
R
BN
F
F
= R
= 750 , R
V
R
I
BN
F
OUT
= 750
N
is the dominant noise source. Careful layout and de-
) also multiplied by the noise gain, and the inverting
R
F
V
I
IO
. The input voltage noise of the AD8079 is a low
= 625
IO
) which appears at the output multiplied by the
for AD8079A
1
R
R
for AD8079B
F
I
I
BN
F
/R
I
), noninverting input current
R
N
1
R
R
F
F
I
and R
AD8079
I
BI
I
and sub-
R
F
9
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