AD623ARZ Analog Devices Inc, AD623ARZ Datasheet - Page 14
AD623ARZ
Manufacturer Part Number
AD623ARZ
Description
IC AMP INST R-R LP 8SOIC
Manufacturer
Analog Devices Inc
Type
Low Powerr
Specifications of AD623ARZ
Slew Rate
0.3 V/µs
Amplifier Type
Instrumentation
Number Of Circuits
1
Output Type
Rail-to-Rail
-3db Bandwidth
800kHz
Current - Input Bias
17nA
Voltage - Input Offset
25µV
Current - Supply
375µA
Voltage - Supply, Single/dual (±)
2.7 V ~ 12 V, ± 2.5 V ~ 6 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
No. Of Amplifiers
1
Input Offset Voltage
200µV
Gain Db Min
1dB
Gain Db Max
1000dB
Bandwidth
800kHz
Amplifier Output
Single Ended
Cmrr
110dB
Supply Voltage Range
2.7V To
Common Mode Rejection Ratio
110
Current, Input Bias
17 nA
Current, Input Offset
0.25 nA
Current, Supply
550 μA
Impedance, Thermal
155 °C/W
Package Type
SOIC-N
Power Dissipation
650 mW
Temperature, Operating, Range
-40 to +85 °C
Voltage, Gain
1-1000 V/V
Voltage, Input
-4.85 to +3.5 V
Voltage, Input Offset
25 μV
Voltage, Noise
35 nV/sqrt Hz (Input), 50 nV/sqrt Hz (Output)
Voltage, Output Swing
0.01 to 4.5 V
Voltage, Supply
2.7 to 12 V
Rohs Compliant
Yes
Number Of Channels
1
Number Of Elements
1
Power Supply Requirement
Single/Dual
Input Resistance
2000@5VMohm
Input Bias Current
0.025@5VnA
Single Supply Voltage (typ)
3/5/9V
Dual Supply Voltage (typ)
±3/±5V
Power Supply Rejection Ratio
80dB
Rail/rail I/o Type
Rail to Rail Output
Single Supply Voltage (min)
2.7V
Single Supply Voltage (max)
12V
Dual Supply Voltage (min)
±2.5V
Dual Supply Voltage (max)
±6V
Operating Temp Range
-40C to 85C
Operating Temperature Classification
Industrial
Mounting
Surface Mount
Pin Count
8
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Output / Channel
-
Gain Bandwidth Product
-
Lead Free Status / Rohs Status
RoHS Compliant part
Electrostatic Device
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AD623
plane. Maximum isolation between analog and digital is achieved
by connecting the ground planes back at the supplies. The digi-
tal return currents from the ADC, which flow in the analog ground
plane will, in general, have a negligible effect on noise performance.
If there is only a single power supply available, it must be shared
by both digital and analog circuitry. Figure 46 shows how to
minimize interference between the digital and analog circuitry.
As in the previous case, separate analog and digital ground
planes should be used (reasonably thick traces can be used as an
alternative to a digital ground plane). These ground planes
should be connected at the power supply’s ground pin. Separate
traces should be run from the power supply to the supply pins of
the digital and analog circuits. Ideally, each device should have
its own power supply trace, but these can be shared by a num-
ber of devices as long as a single trace is not used to route cur-
rent to both digital and analog circuitry.
Ground Returns for Input Bias Currents
Input bias currents are those dc currents that must flow in order
to bias the input transistors of an amplifier. These are usually
transistor base currents. When amplifying “floating” input sources
such as transformers or ac-coupled sources, there must be a
direct dc path into each input in order that the bias current can
flow. Figure 47 shows how a bias current path can be provided
for the cases of transformer coupling, capacitive ac-coupling and
for a thermocouple application. In dc-coupled resistive bridge
Figure 47b. Ground Returns for Bias Currents with
Thermocouple Inputs
Figure 47c. Ground Returns for Bias Currents with AC
Coupled Inputs
Transformer Coupled Inputs
Figure 47a. Ground Returns for Bias Currents with
100k
–INPUT
+INPUT
–INPUT
+INPUT
100k
–INPUT
+INPUT
R
R
G
G
R
G
AD623
AD623
–V
–V
AD623
+V
+V
S
S
–V
S
S
+V
S
REFERENCE
REFERENCE
S
REFERENCE
LOAD
LOAD
LOAD
V
TO POWER
SUPPLY
GROUND
V
TO POWER
SUPPLY
GROUND
OUT
OUT
V
TO POWER
SUPPLY
GROUND
OUT
–14–
applications, providing this path is generally not necessary as the
bias current simply flows from the bridge supply through the
bridge and into the amplifier. However, if the impedances that
the two inputs see are large and differ by a large amount (>10 k ),
the offset current of the input stage will cause dc errors propor-
tional with the input offset voltage of the amplifier.
Output Buffering
The AD623 is designed to drive loads of 10 k or greater. If the
load is less that this value, the AD623’s output should be buff-
ered with a precision single supply op amp such as the OP113.
This op amp can swing from 0 V to 4 V on its output while
driving a load as small as 600 . Table III summarizes the per-
formance of some other buffer op amps.
Op Amp
OP113
OP191
OP150
A Single Supply Data Acquisition System
Interfacing bipolar signals to single supply analog to digital
converters (ADCs) presents a challenge. The bipolar signal
must be “mapped” into the input range of the ADC. Figure 49
shows how this translation can be achieved.
The bridge circuit is excited by a +5 V supply. The full-scale
output voltage from the bridge ( 10 mV) therefore has a
common-mode level of 2.5 V. The AD623 removes the common-
mode component and amplifies the input signal by a factor of
100 (R
In order to prevent this signal from running into the AD623’s
ground rail, the voltage on the REF pin has to be raised to at
least 1 V. In this example, the 2 V reference voltage from the
AD7776 ADC is used to bias the AD623’s output voltage to 2 V
1 V. This corresponds to the input range of the ADC.
Figure 49. A Single Supply Data Acquisition System
GAIN
V
IN
+5V
= 1.02 k ). This results in an output signal of 1 V.
Comments
Single Supply, High Output Current
Rail-to-Rail Input and Output, Low Supply Current
Rail-to-Rail Input and Output, High Output Current
R
G
10mV
Figure 48. Output Buffering
Table III. Buffering Options
AD623
+5V
0.1 F
1.02k
R
REF
G
AD623
+5V
0.1 F
OP113
+5V
REF
0.1 F
A
REF
REF
AD7776
IN
V
+5V
OUT
OUT
IN
0.1 F
REV. C
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