AD834JR-REEL Analog Devices Inc, AD834JR-REEL Datasheet - Page 16
AD834JR-REEL
Manufacturer Part Number
AD834JR-REEL
Description
IC MULTIPLIER 4-QUADRANT 8-SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD834JRZ.pdf
(20 pages)
Specifications of AD834JR-REEL
Rohs Status
RoHS non-compliant
Function
Analog Multiplier
Number Of Bits/stages
4-Quadrant
Package / Case
8-SOIC (3.9mm Width)
Number Of Elements
1
Output Type
Differential
Power Supply Requirement
Dual
Single Supply Voltage (typ)
Not RequiredV
Single Supply Voltage (min)
Not RequiredV
Single Supply Voltage (max)
Not RequiredV
Dual Supply Voltage (typ)
±5V
Dual Supply Voltage (min)
±4V
Dual Supply Voltage (max)
±9V
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
8
Package Type
SOIC
Lead Free Status / RoHS Status
Not Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
AD834JR-REEL7
Manufacturer:
ANALOGDEVICES
Quantity:
6 020
AD834
FREQUENCY DOUBLER
Figure 21 shows another squaring application. In this case, the
output filter has been removed and the wideband differential
output is converted to a single-sided signal using a balun, which
consists of a length of 50 Ω coaxial cable fed through a ferrite
core (Fair-Rite Type 2677006301). No attempt is made to reverse
terminate the output. Higher load power can be achieved by
replacing the 50 Ω load resistors with ferrite bead inductors.
The same precautions should be observed with regard to printed
circuit board (PCB) layout as recommended in the Power
Measurement (Mean-Square and RMS) section. The output
spectrum shown in Figure 22 is for an input power of +10 dBm
at a frequency of 200 MHz. The second harmonic component at
400 MHz has an output power of −15 dBm. Some feedthrough
of the fundamental occurs; it is 15 dB below the main output. A
spurious output at 600 MHz is also present, but it is 30 dB
below the main output. At an input frequency of 100 MHz,
the measured power level at 200 MHz is −16 dBm, while the
fundamental feedthrough is reduced to 25 dB below the main
output; at an output of 600 MHz the power is −11 dBm and the
third harmonic at 900 MHz is 32 dB below the main output.
GENERATOR
SMA FROM
HP8656A
–100
–10
–20
–30
–40
–50
–60
–70
–80
–90
Figure 22. Output Spectrum for Configuration of Figure 21
0
150
25Ω
25Ω
Figure 21. Frequency Doubler Connections
200
X2
Y1
125Ω
125Ω
8
1
250
0.1µF
0.1µF
AD834
Y2 –V
X1 +V
7
2
300
6
3
S
S
10Ω
75Ω
W1
W2
FREQUENCY (MHz)
5
4
350
49.9Ω
49.9Ω
400
450
0.1µF
0.1µF
560pF
560pF
500
BALUN
550
+5V
–5V
600
SPECTRUM
ANALYZER
HP8656A
SMA TO
650
Rev. E | Page 16 of 20
WIDEBAND THREE-SIGNAL MULTIPLIER/DIVIDER
Two AD834 devices and a wideband op amp can be connected
to make a versatile multiplier/divider having the transfer
function
with a denominator range of about 100:1. The denominator
input U = U1 − U2 must be positive and in the range 100 mV
to 10 V; X, Y, and Z inputs may have either polarity. Figure 23
shows a general configuration that may be simplified to suit a
particular application. This circuit accepts full-scale input voltages
of 10 V, and delivers a full-scale output voltage of 10 V. The optional
offset trim at the output of the AD834 improves the accuracy for
small denominator values. It is adjusted by nulling the output
voltage when the X and Y inputs are zero and U = 100 mV.
The op amp is internally compensated to be stable without the
use of any additional HF compensation. As Input U is reduced,
the bandwidth falls because the feedback around the op amp is
proportional to Input U. Note that, this circuit was originally
characterized using the AD840 op amp; some alternative op
amps include the AD818 and the AD8021.
This circuit can be modified in several ways. For example, if the
differential input feature is not needed, the unused input can be
connected to ground through a single resistor, equal to the parallel
sum of the resistors in the attenuator section. The full-scale input
levels on X, Y, and U can be adapted to any full-scale voltage
down to ±1 V by altering the attenuator ratios. Note, however,
that precautions must be taken if the attenuator ratio from the
output of A3 back to the second AD834 (A2) is lowered. First,
the HF compensation limit of the op amp may be exceeded if
the negative feedback factor is too high. Second, if the attenuated
output at the AD834 exceeds its clipping level of ±1.3 V, feedback
control is lost and the output suddenly jumps to the supply rails.
However, with these limitations understood, it is possible to adapt
the circuit to smaller full-scale inputs and/or outputs, for use
with lower supply voltages.
W
=
(
X1
−
(
U1
X2
−
)(
Y1
U2
)
−
Y2
)
+
Z
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