AD736ARZ Analog Devices Inc, AD736ARZ Datasheet - Page 10
AD736ARZ
Manufacturer Part Number
AD736ARZ
Description
IC TRUE RMS/DC CONV LP 8-SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD736ARZ.pdf
(20 pages)
Specifications of AD736ARZ
Current - Supply
160µA
Voltage - Supply
±5.0V
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Accuracy %
0.3%
Bandwidth
33kHz
Supply Current
200mA
Power Dissipation Pd
200mW
Supply Voltage Range
2.8V
Digital Ic Case Style
SOIC
No. Of Pins
8
Operating Temperature (max)
85C
Operating Temperature (min)
-40C
Pin Count
8
Mounting
Surface Mount
Package Type
SOIC N
Case Length
5(Max)mm
Case Height
1.5(Max)mm
Screening Level
Industrial
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
AD736-EVALZ - BOARD EVALUATION FOR AD736
Lead Free Status / Rohs Status
Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
AD736ARZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Part Number:
AD736ARZ-REEL
Manufacturer:
ADI/亚德诺
Quantity:
20 000
AD736
THEORY OF OPERATION
As shown by Figure 18, the AD736 has five functional
subsections: the input amplifier, full-wave rectifier (FWR), rms
core, output amplifier, and bias section. The FET input amplifier
allows both a high impedance, buffered input (Pin 2) and a
low impedance, wide dynamic range input (Pin 1). The high
impedance input, with its low input bias current, is well suited
for use with high impedance input attenuators.
The output of the input amplifier drives a full-wave precision
rectifier that, in turn, drives the rms core. The essential rms
operations of squaring, averaging, and square rooting are
performed in the core using an external averaging capacitor,
C
core unprocessed, as is done with the average responding
connection (see Figure 19).
A final subsection, an output amplifier, buffers the output from
the core and allows optional low-pass filtering to be performed
via the external capacitor, C
feedback path of the amplifier. In the average responding
connection, this is where all of the averaging is carried out.
In the rms circuit, this additional filtering stage helps reduce any
output ripple that was not removed by the averaging capacitor, C
AV
. Without C
AV
, the rectified input signal travels through the
F
, which is connected across the
–V
S
V
IN
C
V
C
IN
OPTIONAL RETURN PATH
1
2
3
4
0.1µF
ABSOLUTE
AMPLIFIER
CURRENT
I
TRANSLINEAR
VALUE
B
MODE
INPUT
8kΩ
FWR
<10pA
SECTION
CORE
BIAS
rms
TO
COM
PIN
Figure 18. AD736 True RMS Circuit
Rev. H | Page 10 of 20
C
DC
AV
C =
33µF
10µF (OPTIONAL)
C
C
AC
.
F
10µF
A
+
+
+
TYPES OF AC MEASUREMENT
The AD736 is capable of measuring ac signals by operating as
either an average responding converter or a true rms-to-dc
converter. As its name implies, an average responding converter
computes the average absolute value of an ac (or ac and dc)
voltage or current by full-wave rectifying and low-pass filtering
the input signal; this approximates the average. The resulting
output, a dc average level, is scaled by adding (or reducing)
gain; this scale factor converts the dc average reading to an rms
equivalent value for the waveform being measured. For example,
the average absolute value of a sine wave voltage is 0.636 times
V
sine wave voltages, the required scale factor is 1.11 (0.707/0.636).
In contrast to measuring the average value, true rms measurement
is a universal language among waveforms, allowing the magnitudes
of all types of voltage (or current) waveforms to be compared to
one another and to dc. RMS is a direct measure of the power or
heating value of an ac voltage compared to that of a dc voltage;
an ac signal of 1 V rms produces the same amount of heat in a
resistor as a 1 V dc signal.
AD736
PEAK
AMPLIFIER
OUTPUT
; the corresponding rms value is 0.707 × V
8kΩ
8
7
6
5
COM
C
AV
0.1µF
+V
rms
OUTPUT
S
PEAK
. Therefore, for
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