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AD8276BRMZ Datasheet PDF : 20 Pages
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AD8276/AD8277
resistor is determined by the characteristics of the coupler or
transformer and desired input voltage ranges to the AD8276.
On the voltage monitoring side, potential transformers (PTs)
are used to provide coupling and galvanic isolation. The PTs
present a load to the power line and step down the voltage to a
measureable level. The AD8276 helps to build a robust system
because it allows input voltages that are almost double its supply
voltage, while providing additional input protection in the form
of the integrated ESD diodes.
Not only does the AD8276 monitor the voltage and currents on
the power lines, it is able to reject very high common-mode
voltages that may appear at the inputs. The AD8276 also
performs the differential-to-single-ended conversion on the
input voltages. The 80 kΩ differential input impedance that the
AD8276 presents is high enough that it should not load the
input signals.
ISH
RSH
AD8276
VOUT = ISH × RSH
Figure 51. AD8276 Monitoring Current Through a Shunt Resistor
Figure 51 shows how the AD8276 can be used to monitor the
current through a small shunt resistor. This is useful in power
critical applications such as motor control (current sense) and
battery monitoring.
INSTRUMENTATION AMPLIFIER
The AD8276/AD8277 can be used as building blocks for a low
power, low cost instrumentation amplifier. An instrumentation
amplifier provides high impedance inputs and delivers high
common-mode rejection. Combining the AD8276 with an
Analog Devices, Inc., low power amplifier (see Table 8) creates a
precise, power efficient voltage measurement solution suitable
for power critical systems.
–IN
RG
A1
RF
40kΩ
40kΩ
40kΩ
VOUT
RF
40kΩ AD8276
A2
+IN
REF
VOUT = (1 + 2RF/RG) (VIN+ – VIN–)
Figure 52. Low Power Precision Instrumentation Amplifier
Data Sheet
Table 8. Low Power Op Amps
Op Amp (A1, A2) Features
AD8506
Dual micropower op amp
AD8607
Precision dual micropower op amp
AD8617
Low cost CMOS micropower op amp
AD8667
Dual precision CMOS micropower op amp
It is preferable to use dual op amps for the high impedance inputs
because they have better matched performance and track each
other over temperature. The AD8276 difference amplifiers
cancel out common-mode errors from the input op amps, if
they track each other. The differential gain accuracy of the in-
amp is proportional to how well the input feedback resistors
(RF) match each other. The CMRR of the in-amp increases as
the differential gain is increased (1 + 2RF/RG), but a higher gain
also reduces the common-mode voltage range. Note that dual
supplies must be used for proper operation of this configuration.
Refer to A Designer’s Guide to Instrumentation Amplifiers for
more design ideas and considerations.
RTD
Resistive temperature detectors (RTDs) are often measured
remotely in industrial control systems. The wire lengths
needed to connect the RTD to a controller add significant
cost and resistance errors to the measurement. The AD8276
difference amplifier is effective in measuring errors caused by
wire resistance in remote 3-wire RTD systems, allowing the
user to cancel out the errors introduced by the wires. Its
excellent gain drift provides accurate measurements and stable
performance over a wide temperature range.
IEX
RL1
40kΩ
40kΩ
RT
RL2
RL3
40kΩ
40kΩ
AD8276
VOUT
Σ-Δ
ADC
Figure 53. 3-Wire RTD Cable Resistance Error Measurement
Rev. C | Page 18 of 20
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