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AD629AR-REEL 数据表(PDF) 9 Page - Analog Devices

部件名 AD629AR-REEL
功能描述  High Common-Mode Voltage Difference Amplifier
Download  12 Pages
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制造商  AD [Analog Devices]
网页  http://www.analog.com
标志 AD - Analog Devices

AD629AR-REEL 数据表(HTML) 9 Page - Analog Devices

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REV. A
AD629
–9–
PROCESSOR
0.1 F
AD7892-2
ANALOG POWER
SUPPLY
+5V
GND
–5V
+5V
DIGITAL
POWER SUPPLY
VDD AGND DGND
VIN1
VIN2
VOUT
12
VDD
GND
0.1 F
GND
REF(–)
–IN
+IN
–VS
+VS
REF(+)
AD629
0.1 F 0.1 F
Figure 31. Optimal Grounding Practice for a Bipolar Supply
Environment with Separate Analog and Digital Supplies
PROCESSOR
0.1 F
POWER SUPPLY
+5V
GND
VDD
AGND DGND
VIN
VREF
VOUT
VDD GND
0.1 F
REF(–)
–IN
+IN
–VS
+VS
REF(+)
AD629
0.1 F
ADC
Figure 32. Optimal Ground Practice in a Single Supply
Environment
If there is only a single power supply available, it must be shared
by both digital and analog circuitry. Figure 32 shows how to
minimize interference between the digital and analog circuitry.
In this example, the ADC’s reference is used to drive the
AD629’s REF(+) and REF(–) pins. This means that the reference
must be capable of sourcing and sinking a current equal to VCM/
200 k
Ω. 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 (or power planes) 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 number of devices as long as a single trace is
not used to route current to both digital and analog circuitry.
Using a Large Sense Resistor
Insertion of a large shunt resistance across the input Pins 2 and 3
will imbalance the input resistor network, introducing a common-
mode error. The magnitude of the error will depend on the
common-mode voltage and the magnitude of RSHUNT. Table I
Table II. Recommended Values for 2-Pole Butterworth Filter
Corner Frequency
R1
R2
C1
C2
Output Noise (p-p)
No Filter
3.2 mV
50 kHz
2.94 k
Ω ± 1%
1.58 k
Ω ± 1%
2.2 nF
± 10%
1 nF
± 10%
1 mV
5 kHz
2.94 k
Ω ± 1%
1.58 k
Ω ± 1%
22 nF
± 10%
10 nF
± 10%
0.32 mV
500 Hz
2.94 k
Ω ± 1%
1.58 k
Ω ± 1%
220 nF
± 10%
0.1
µF ± 10%
100
µV
50 Hz
2.7 k
Ω ± 10%
1.5 k
Ω ± 10%
2.2
µF ± 20%
1
µF ± 20%
32
µV
shows some sample error voltages generated by a common-mode
voltage of 200 V dc with shunt resistors from 20
Ω to 2000 Ω.
Assuming that the shunt resistor has been selected to utilize the
full
±10 V output swing of the AD629, the error voltage becomes
quite significant as RSHUNT increases.
Table I. Error Resulting from Large Values of RSHUNT
(Uncompensated Circuit)
RS ( )
Error VOUT (V)
Error Indicated (mA)
20
0.01
0.5
1000
0.498
0.498
2000
1
0.5
If it is desired to measure low current or current near zero in a
high common-mode environment, an external resistor equal to
the shunt resistor value may be added to the low impedance side
of the shunt resistor as shown in Figure 33.
VOUT
REF(–)
–IN
+IN
–VS
NC
+VS
REF(+)
AD629
380k
380k
380k
20k
NC = NO CONNECT
0.1 F
+VS
RSHUNT
8
7
6
5
1
2
3
4
RCOMP
–VS
0.1 F
ISHUNT
21.1k
Figure 33. Compensating for Large Sense Resistors
Output Filtering
A simple 2-pole low-pass Butterworth filter can be implemented
using the OP177 at the output of the AD629 to limit noise at
the output, as shown in Figure 34. Table II gives recommended
component values for various corner frequencies, along with the
peak-to-peak output noise for each case.
VOUT
REF(–)
–IN
+IN
–VS
NC
+VS
REF(+)
AD629
380k
380k
380k
20k
NC = NO CONNECT
0.1 F
+VS
8
7
6
5
1
2
3
4
–VS
0.1 F
0.1 F
0.1 F
+VS
–VS
C2
R2
C1
R1
OP177
21.1k
Figure 34. Filtering of Output Noise Using a 2-Pole
Butterworth Filter


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