AD627AR-REEL Analog Devices Inc, AD627AR-REEL Datasheet - Page 22
AD627AR-REEL
Manufacturer Part Number
AD627AR-REEL
Description
IC,Instrumentation Amplifier,SINGLE,SOP,8PIN,PLASTIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD627ANZ.pdf
(24 pages)
Specifications of AD627AR-REEL
Rohs Status
RoHS non-compliant
Amplifier Type
Instrumentation
Number Of Circuits
1
Output Type
Rail-to-Rail
Slew Rate
0.06 V/µs
-3db Bandwidth
80kHz
Current - Input Bias
2nA
Voltage - Input Offset
25µV
Current - Supply
60µA
Current - Output / Channel
25mA
Voltage - Supply, Single/dual (±)
2.2 V ~ 36 V, ±1.1 V ~ 18 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Gain Bandwidth Product
-
Lead Free Status / RoHS Status
AD627
APPLICATIONS CIRCUITS
CLASSIC BRIDGE CIRCUIT
Figure 50 shows the AD627 configured to amplify the signal
from a classic resistive bridge. This circuit works in dual-supply
mode or single-supply mode. Typically, the same voltage that
powers the instrumentation amplifiers excites the bridge.
Connecting the bottom of the bridge to the negative supply of
the instrumentation amplifiers (usually 0 V, −5 V, −12 V, or
−15 V), sets up an input common-mode voltage that is
optimally located midway between the supply voltages. It is
also appropriate to set the voltage on the REF pin to midway
between the supplies, especially if the input signal is bipolar.
However, the voltage on the REF pin can be varied to suit the
application. For example, the REF pin is tied to the V
an analog-to-digital converter (ADC) whose input range is
(V
(−V
gain is simply this output range divided by the input range.
REF
S
+ 100 mV) to (+V
± V
IN
). With an available output swing on the AD627 of
V
DIFF
Figure 50. Classic Bridge Circuit
R
+V
–V
S
G =
− 150 mV), the maximum programmable
S
S
GAIN–5
200kΩ
AD627
THERMOCOUPLE
Figure 51. Amplifying Bipolar Signals with Low Common-Mode Voltage
0.1µF
0.1µF
J-TYPE
V
V
REF
OUT
REF
pin of
Rev. D | Page 22 of 24
2.1kΩ
R
G
4 TO 20 mA SINGLE-SUPPLY RECEIVER
Figure 51 shows how a signal from a 4 to 20 mA transducer can
be interfaced to the ADuC812, a 12-bit ADC with an embedded
microcontroller. The signal from a 4 to 20 mA transducer is
single-ended, which initially suggests the need for a simple
shunt resistor to convert the current to a voltage at the high
impedance analog input of the converter. However, any line
resistance in the return path (to the transducer) adds a current
dependent offset error; therefore, the current must be sensed
differentially.
In this example, a 24.9 Ω shunt resistor generates a maximum
differential input voltage to the AD627 of between 100 mV
(for 4 mA in) and 500 mV (for 20 mA in). With no gain resistor
present, the AD627 amplifies the 500 mV input voltage by a
factor of 5, to 2.5 V, the full-scale input voltage of the ADC. The
zero current of 4 mA corresponds to a code of 819 and the LSB
size is 610 μA.
THERMOCOUPLE AMPLIFIER
Because the common-mode input range of the AD627 extends
0.1 V below ground, it is possible to measure small differential
signals that have a low, or no, common-mode component.
Figure 51 shows a thermocouple application where one side of
the J-type thermocouple is grounded.
Over a temperature range from −200°C to +200°C, the J-type
thermocouple delivers a voltage ranging from −7.890 mV to
+10.777 mV. A programmed gain on the AD627 of 100 (R
2.1 kΩ) and a voltage on the AD627 REF pin of 2 V result in the
output voltage of the AD627 ranging from 1.110 V to 3.077 V
relative to ground. For a different input range or different
voltage on the REF pin, it is important to verify that the voltage
on Internal Node A1 (see Figure 37) is not driven below
ground. This can be checked using the equations in the Input
Range Limitations in Single-Supply Applications section.
AD627
5V
0.1µF
REF
V
V
OUT
REF
G
=
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