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AD835AN датащи(PDF) 7 Page - Analog Devices

номер детали AD835AN
подробное описание детали  250 MHz, Voltage Output 4-Quadrant Multiplier
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производитель  AD [Analog Devices]
домашняя страница  http://www.analog.com
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AD835AN датащи(HTML) 7 Page - Analog Devices

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AD835
REV. A
–7–
APPLICATIONS
The AD835 is both easy to use and versatile. The capability for
adding another signal to the output at the Z input is frequently
valuable. Three applications of this feature are presented here: a
wideband voltage controlled amplifier, an amplitude modulator
and a frequency doubler. Of course, the AD835 may also be
used as a square law detector (with its X- and Y-inputs con-
nected in parallel) in which mode it is useful at input frequen-
cies to well over 250 MHz, since that is the bandwidth
limitation only of the output amplifier.
Multiplier Connections
Figure 18 shows the basic connections for multiplication. The
inputs will often be single sided, in which case the X2 and Y2
inputs will normally be grounded. Note that by assigning Pins 7
and 2 to these (inverting) inputs, respectively, an extra measure
of isolation between inputs and output is provided. The X and
Y inputs may, of course, be reversed to achieve some desired
overall sign with inputs of a particular polarity, or they may be
driven fully differentially.
Power supply decoupling and careful board layout are always
important in applying wideband circuits. The decoupling rec-
ommendations shown in Figure 18 should be followed closely.
In remaining figures in this data sheet, these power supply
decoupling components have been omitted for clarity, but
should be used wherever optimal performance with high speed
inputs is required. However, they may be omitted if the full high
frequency capabilities of AD835 are not being exploited.
A Wideband Voltage Controlled Amplifier
Figure 19 shows the AD835 configured to provide a gain of
nominally 0 to 12 dB. (In fact, the control range extends from
well under –12 dB to about +14 dB.) R1 and R2 set the gain to
be nominally
×4. The attendant bandwidth reduction that
comes with this increased gain can be partially offset by the ad-
dition of the peaking capacitor C1. Although this circuit shows
the use of dual supplies, the AD835 can operate from a single
9 V supply with slight revision.
Figure 19. Voltage Controlled 50 MHz Amplifier Using the
AD835
The ac response of this amplifier for gains of 0 dB (V
G =
0.25 V), 6 dB (V
G = 0.5 V) and 12 dB (VG = 1 V) is shown in
Figure 20. In this application, the resistor values have been
slightly adjusted to reflect the nominal value of U = 1.05 V. The
overall sign of the gain may be controlled by the sign of V
G.
V
IN
(SIGNAL)
R2
301
VOLTAGE
OUTPUT
X1
X2
VP
W
Z
VN
Y2
Y1
X1
AD835
+5V
–5V
R1
97.6
3
4
2
1
5
6
7
8
C1
33pF
V
G
(GAIN CONTROL)
Figure 20. AC Response of VCA
An Amplitude Modulator
Figure 21 shows a simple modulator. The carrier is applied both
to the Y-input and the Z-input, while the modulating signal is
applied to the X-input. For zero modulation, there is no product
term, so the carrier input is simply replicated at unity gain by
the voltage follower action from the Z-input. At X = 1 V, the
RF output is doubled, while for X = –1 V, it is fully suppressed.
That is, an X-input of approximately
±1 V (actually ±U, or
about 1.05 V) corresponds to a modulation index of 100%. Car-
rier and modulation frequencies can be up to 300 MHz, some-
what beyond the nominal –3 dB bandwidth.
Of course, a suppressed carrier modulator can be implemented
by omitting the feedforward to the Z-input, grounding that pin
instead.
Figure 21. Simple Amplitude Modulator Using the AD835
Squaring and Frequency Doubling
Amplitude domain squaring of an input signal, E, is achieved
simply by connecting the X- and Y-inputs in parallel to pro-
duce an output of E
2/U. The input may have either polarity, but
the output in this case will always be positive. The output polar-
ity may be reversed by interchanging either the X or Y inputs.
When the input is a sine wave E sin
ωt, a signal squarer behaves
as a frequency doubler, since
(6)
While useful, Equation 6 shows a dc term at the output which
will vary strongly with the amplitude of the input, E.
MODULATED
CARRIER
OUTPUT
MODULATION
INPUT
CARRIER
OUTPUT
X1
X2
VP
W
Z
VN
Y2
Y1
X1
AD835
+5V
–5V
3
4
2
1
5
6
7
8
E sin
ωt
()2
U
= E
2
2U
(1 – cos 2
ωt)
100k
100M
10M
1M
10k
12dB
(VG = 1V)
0dB
(VG = 0.25V)
6dB
(VG = 0.5V)
START 10 000.000Hz
STOP 100 000 000.000Hz


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