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AD640JP датащи(PDF) 7 Page - Analog Devices

номер детали AD640JP
подробное описание детали  DC-Coupled Demodulating 120 MHz Logarithmic Amplifier
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производитель  AD [Analog Devices]
домашняя страница  http://www.analog.com
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AD640JP датащи(HTML) 7 Page - Analog Devices

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AD640
REV. C
–7–
CIRCUIT DESCRIPTION
The AD640 uses five cascaded limiting amplifiers to approxi-
mate a logarithmic response to an input signal of wide dynamic
range and wide bandwidth. This type of logarithmic amplifier
has traditionally been assembled from several small scale ICs
and numerous external components. The performance of these
semidiscrete circuits is often unsatisfactory. In particular, the
logarithmic slope and intercept (see FUNDAMENTALS OF
LOGARITHMIC CONVERSION) are usually not very stable
in the presence of supply and temperature variations even after
laborious and expensive individual calibration. The AD640
employs high precision analog circuit techniques to ensure sta-
bility of scaling over wide variations in supply voltage and tem-
perature. Laser trimming, using ac stimuli and operating
conditions similar to those encountered in practice, provides fully
calibrated logarithmic conversion.
Each of the amplifier/limiter stages in the AD640 has a small
signal voltage gain of 10 dB (
×3.162) and a –3 dB bandwidth of
350 MHz. Fully differential direct coupling is used throughout.
This eliminates the many interstage coupling capacitors usually
required in ac applications, and simplifies low frequency signal
processing, for example, in audio and sonar systems. The
AD640 is intended for use in demodulating applications. Each
stage incorporates a detector (a full wave transconductance
rectifier) whose output current depends on the absolute value of
its input voltage.
Figure 16 is a simplified schematic of one stage of the AD640.
All transistors in the basic cell operate at near zero collector to
base voltage and low bias currents, resulting in low levels of ther-
mally induced distortion. These arise when power shifts from one
set of transistors to another during large input signals. Rapid
recovery is essential when a small signal immediately follows a
large one. This low power operation also contributes signifi-
cantly to the excellent long-term calibration stability of the AD640.
The complete AD640, shown in Figure 17, includes two bias
regulators. One determines the small signal gain of the amplifier
stages; the other determines the logarithmic slope. These bias
regulators maintain a high degree of stability in the resulting
function by compensating for potentially large uncertainties
in transistor parameters, temperature and supply voltages. A
third biasing block is used to accurately control the logarithmic
intercept.
By summing the signals at the output of the detectors, a good
approximation to a logarithmic transfer function can be achieved.
The lower the stage gain, the more accurate the approximation,
but more stages are then needed to cover a given dynamic
range. The choice of 10 dB results in a theoretical periodic
Q3
Q4
Q5
Q6
Q7
Q8
1.09mA
PTAT
1.09mA
PTAT
R2
85
565 A
Q2
R1
85
Q1
Q9
LOG OUT
565 A
Q10
LOG COM
2.18mA
PTAT
R4
75
R3
75
SIG OUT
SIG IN
COMMON
–VS
Figure 16. Simplified Schematic of a Single AD640 Stage
deviation or ripple in the transfer function of
±0.15 dB from the
ideal response when the input is either a dc voltage or a square
wave. The slope of the transfer function is unaffected by the
input waveform; however, the intercept and ripple are waveform
dependent (see EFFECT OF WAVEFORM ON INTERCEPT).
The input will usually be an amplitude modulated sinusoidal
carrier. In these circumstances the output is a fluctuating current at
twice the carrier frequency (because of the full wave detection)
whose average value is extracted by an external low-pass filter,
which recovers a logarithmic measure of the baseband signal.
Circuit Operation
With reference to Figure 16, the transconductance pair Q7, Q8
and load resistors R3 and R4 form a limiting amplifier having a
small signal gain of 10 dB, set by the tail current of nominally
2.18 mA at 27
°C. This current is basically proportional to abso-
lute temperature (PTAT) but includes additional current to
compensate for finite beta and junction resistance. The limiting
output voltage is
±180 mV at 27°C and is PTAT. Emitter fol-
lowers Q1 and Q2 raise the input resistance of the stage, provide
level shifting to introduce collector bias for the gain stage and
detectors, reduce offset drift by forming a thermally balanced
quad with Q7 and Q8 and generate the detector biasing across
resistors R1 and R2.
Transistors Q3 through Q6 form the full wave detector, whose
output is buffered by the cascodes Q9 and Q10. For zero input
Q3 and Q5 conduct only a small amount (a total of about
32
µA) of the 565 µA tail currents supplied to pairs Q3–Q4 and
Q5–Q6. This “pedestal” current flows in output cascode Q9 to
the LOG OUT node (Pin 14). When driven to the peak output
of the preceding stage, Q3 or Q5 (depending on signal polarity)
conducts lost of the tail current, and the output rises to 532
µA.
The LOG OUT current has thus changed by 500
µA as the
input has changed from zero to its maximum value. Since the
detectors are spaced at 10 dB intervals, the output increases by
ATN OUT
AMPLIFIER/LIMITER
FULL-WAVE
DETECTOR
ATN LO
ATN COM
SIG +IN
SIG –IN
ATN COM
COM
27
30
270
ATN IN
1k
RG1
RG0
RG2
–VS
BL1
+VS
LOG OUT
LOG COM
SIG +OUT
SIG –OUT
BL2
ITC
20
1
INTERCEPT POSITIONING BIAS
19
3
2
4
18
5
6
GAIN BIAS REGULATOR
AMPLIFIER/LIMITER
FULL-WAVE
DETECTOR
AMPLIFIER/LIMITER
FULL-WAVE
DETECTOR
10dB
AMPLIFIER/LIMITER
FULL-WAVE
DETECTOR
10dB
10dB
AMPLIFIER/LIMITER
FULL-WAVE
DETECTOR
17
16
14
13
1k
7
11
10
9
8
12
SLOPE BIAS REGULATOR
15
10dB
10dB
Figure 17. Block Diagram of the Complete AD640


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