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AD8350-EVAL датащи(PDF) 8 Page - Analog Devices

номер детали AD8350-EVAL
подробное описание детали  Low Distortion 1.0 GHz Differential Amplifier
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производитель  AD [Analog Devices]
домашняя страница  http://www.analog.com
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REV. A
AD8350
–8–
APPLICATIONS
Using the AD8350
Figure 1 shows the basic connections for operating the AD8350.
A single supply in the range 5 V to 10 V is required. The power
supply pin should be decoupled using a 0.1
µF capacitor. The
ENBL pin is tied to the positive supply or to 5 V (when VCC =
10 V) for normal operation and should be pulled to ground to
put the device in sleep mode. Both the inputs and the outputs
have dc bias levels at midsupply and should be ac-coupled.
Also shown in Figure 1 are the impedance balancing requirements,
either resistive or reactive, of the input and output. With an
input and output impedance of 200
Ω, the AD8350 should be
driven by a 200
Ω source and loaded by a 200 Ω impedance. A
reactive match can also be implemented.
8
7
6
5
1
2
3
4
AD8350
ENBL (5V)
+VS (5V TO 10V)
C5
0.1 F
C4
0.001 F
C3
0.001 F
LOAD
Z = 200
C2
0.001 F
C1
0.001 F
SOURCE
Z = 100
Z = 100
Figure 1. Basic Connections for Differential Drive
Figure 2 shows how the AD8350 can be driven by a single-
ended source. The unused input should be ac-coupled to ground.
When driven single-endedly, there will be a slight imbalance in
the differential output voltages. This will cause an increase in
the second order harmonic distortion (at 50 MHz, with VCC =
10 V and VOUT = 1 V p-p, –59 dBc was measured for the second
harmonic on AD8350-15).
8
7
6
5
1
2
3
4
AD8350
ENBL (5V)
+VS (5V TO 10V)
C5
0.1 F
C4
0.001 F
C3
0.001 F
LOAD
Z = 200
C2
0.001 F
SOURCE
Z = 200
C1
0.001 F
Figure 2. Basic Connections for Single-Ended Drive
Reactive Matching
In practical applications, the AD8350 will most likely be matched
using reactive matching components as shown in Figure 3.
Matching components can be calculated using a Smith Chart or
by using a resonant approach to determine the matching network
that results in a complex conjugate match. In either situation,
the circuit can be analyzed as a single-ended equivalent circuit
to ease calculations as shown in Figure 4.
VS
87
6
5
12
34
AD8350
ENBL (5V)
+VS (5V TO 10V)
0.1 F
RLOAD
CAC
CAC
CP
LS/2
LS/2
RS/2
RS/2
CAC
CAC
CP
LS/2
LS/2
Figure 3. Reactively Matching the Input and Output
VS
87
6
5
12
34
AD8350
ENBL (5V)
+VS (5V TO 10V)
0.1 F
RLOAD
CAC
CP
LS
RS
CAC
CP
LS
CAC
CAC
Figure 4. Single-Ended Equivalent Circuit
When the source impedance is smaller than the load impedance,
a step-up matching network is required. A typical step-up network
is shown on the input of the AD8350 in Figure 3. For purely
resistive source and load impedances the resonant approach may
be used. The input and output impedance of the AD8350 can be
modeled as a real 200
Ω resistance for operating frequencies less
than 100 MHz. For signal frequencies exceeding 100 MHz, classi-
cal Smith Chart matching techniques should be invoked in order
to deal with the complex impedance relationships. Detailed S
parameter data measured differentially in a 200
Ω system can be
found in Tables II and III.
For the input matching network the source resistance is less
than the input resistance of the AD8350. The AD8350 has a
nominal 200
Ω input resistance from Pins 1 to 8. The reactance
of the ac-coupling capacitors, CAC, should be negligible if 100 nF
capacitors are used and the lowest signal frequency is greater
than 1 MHz. If the series reactance of the matching network
inductor is defined to be XS = 2
π f LS, and the shunt reactance
of the matching capacitor to be XP = (2
π f CP)–1, then:
X
RR
X
XR
R
RR
S
S
LOAD
P
PLOAD
S
LOAD
S
=
×
where
(1)
For a 70 MHz application with a 50
Ω source resistance, and
assuming the input impedance is 200
Ω, or RLOAD = RIN = 200 Ω,
then XP = 115.5
Ω and X
S = 86.6
Ω, which results in the follow-
ing component values:
CP = (2
π × 70 × 106 × 115.5)–1 = 19.7 pF and
LS = 86.6
× (2 π × 70 × 106)–1 = 197 nH


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