AD600JR Analog Devices Inc, AD600JR Datasheet - Page 23
AD600JR
Manufacturer Part Number
AD600JR
Description
IC AMP VGA DUAL LN 50MA 16SOIC
Manufacturer
Analog Devices Inc
Series
X-AMP®r
Datasheet
1.AD600JNZ.pdf
(28 pages)
Specifications of AD600JR
Rohs Status
RoHS non-compliant
Amplifier Type
Variable Gain
Number Of Circuits
2
Slew Rate
275 V/µs
-3db Bandwidth
35MHz
Current - Input Bias
350nA
Current - Supply
11mA
Current - Output / Channel
50mA
Voltage - Supply, Single/dual (±)
±4.75 V ~ 5.25 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
16-SOIC (0.300", 7.5mm Width)
Output Type
-
Gain Bandwidth Product
-
Voltage - Input Offset
-
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The maximum gain of this circuit is 120 dB. If no filtering was
used, the noise spectral density of the AD600 (1.4 nV/√Hz)
would amount to an input noise of 8.28 μV rms in the full
bandwidth (35 MHz). At a gain of one million, the output noise
would dominate. Consequently, some reduction of bandwidth is
mandatory, and in the circuit of Figure 47, it is due mostly to a
single-pole, low-pass filter R5/C3, which provides a −3 dB
frequency of 458 kHz, which reduces the worst-case output
noise (at V
course, the bandwidth (and therefore the output noise) could be
further reduced, for example, in audio applications, merely by
increasing C3. The value chosen for this application is optimal
in minimizing the error in the V
The AD600 is dc-coupled, but even miniscule offset voltages at
the input would overload the output at high gains; thus, high-
pass filtering is also needed. To provide operation at low
frequencies, two simple 0s at about 12 Hz are provided by
R1/C1 and R4/C2; op amp sections U3A and U3B (AD713)
are used to provide impedance buffering, because the input
resistance of the AD600 is only 100 Ω. A further 0 at 12 Hz is
provided by C4 and the 6.7 kΩ input resistance of the AD636
rms converter.
Figure 49. Gain Error for Figure 41 Without the 2 dB Offset Modification
–0.1
–0.5
–1.0
–1.5
–2.0
–0.1
–0.5
–1.0
–1.5
–2.0
Figure 50. Adding the 2 dB Offsets Improves the Linearization
2.0
1.5
1.0
0.5
0.1
2.0
1.5
1.0
0.5
0.1
0
0
1µ
1µ
AGC
) to about 100 mV rms at a gain of 100 dB. Of
10µ
10µ
100µ
100µ
INPUT SIGNAL (V rms)
INPUT SIGNAL (V rms)
1m
1m
LOG
output for small input signals.
10m
10m
100m
100m
1
1
10
10
Rev. E | Page 23 of 28
The rms value of V
averaging time for this process is determined by C5, and the
value shown results in less than 1% rms error at 20 Hz. The
slowly varying V rms is compared with a fixed reference of
316 mV, derived from the positive supply by R10/R11. Any
difference between these two voltages is integrated in C6, in
conjunction with Op Amp U3C, the output of which is V
fraction of this voltage, determined by R12 and R13, is returned
to the gain control inputs of all AD600 sections. An increase in
V
inverting polarity control inputs.
In this case, the gains of all three VCA sections are being varied
simultaneously, so the scaling is not 32 dB/V but 96 dB/V or
10.42 mV/dB. The fraction of V
50 mV/dB is therefore 10.42/50 or 0.208. The resulting full-
scale range of V
circuit to operate from ±5 V supplies.
Optionally, the scaling can be altered to 100 mV/dB, which
would be more easily interpreted when V
DVM by increasing R12 to 25.5 kΩ. The full-scale output of
±5 V then requires the use of supply voltages of at least ±7.5 V.
A simple attenuator of 16.6 ± 1.25 dB is formed by R2/R3
and the 100 Ω input resistance of the AD600. This allows the
reference level of the decibel output to be precisely set to 0 for
an input of 3.16 mV rms, and thus center the 100 dB range
between 10 μV and 1 V. In many applications, R2/R3 can be
replaced by a fixed resistor of 590 Ω. For example, in AGC
applications, neither the slope nor the intercept of the
logarithmic output is important.
A few additional components (R14 to R16 and Q1) improve the
accuracy of V
small gains). The gain starts rolling off when the input to the
first amplifier, U1A, reaches 0 dB. To compensate for this
nonlinearity, Q1 turns on at V
feedback to the control inputs of the AD600s, thereby needing a
smaller voltage at V
the setpoint of 316 mV rms.
A 120 dB RMS/AGC SYSTEM WITH OPTIMAL SNR
(SEQUENTIAL GAIN)
In the last case, all gains were adjusted simultaneously, resulting
in an output SNR that is always less than optimal. The use of
sequential gain control results in a major improvement in SNR,
with only a slight penalty in the accuracy of V
penalty in the stabilization accuracy of V
increase the gain of the earlier stages first (as the signal level
decreases) and maintain the highest SNR throughout the
amplifier chain. This can be easily achieved with the AD600
because its gain is accurate even when the control input is
overdriven. That is, each gain control window of 1.25 V is
used fully before moving to the next amplifier to the right.
LOG
lowers the gain because this voltage is connected to the
LOG
LOG
at the top end of the signal range (that is, for
LOG
is nominally ±2.5 V. This scaling allows the
LOG
is generated at Pin 8 of the AD636; the
to maintain the input to the AD636 to
LOG
LOG
~ 1.5 V and increases the
required to set its scaling to
AGC
LOG
AD600/AD602
. The idea is to
is displayed on a
LOG
, and no
LOG
. A
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