AD8009ART View Datasheet(PDF) - Analog Devices
Part Name
Description
Manufacturer
AD8009ART Datasheet PDF : 12 Pages
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AD8009
Driving a Capacitive Load
A capacitive load, like that presented by some A/D converters,
can sometimes be a challenge for an op amp to drive depending
on the architecture of the op amp. Most of the problem is
caused by the pole created by the output impedance of the op
amp and the capacitor that is driven. This creates extra phase
shift that can eventually cause the op amp to become unstable.
One way to prevent instability and improve settling time when
driving a capacitor is to insert a resistor in series between the op
amp output and the capacitor. The feedback resistor is still
connected directly to the output of the op amp, while the series
resistor provides some isolation of the capacitive load from the
op amp output.
+5V
G = + 2: RF = 301⍀ = RG
G = + 10: RF = 200⍀, RG = 22.1⍀
+
0.001F 0.1F 10F
RT 49.9⍀
3
7
AD8009
2
4
6 2VSTEP
RS
CL
50pF
Figure 39 shows such a circuit with an AD8009 driving a 50 pF
load. With RS = 0, the AD8009 circuit will be unstable. For a
gain of +2 and +10, it was found experimentally that setting RS
to 42.2 Ω will minimize the 0.1% settling time with a 2 V step at
the output. The 0.1% settling time was measured to be 40 ns with
this circuit.
For smaller capacitive loads, a smaller RS will yield optimal
settling time, while a larger RS will be required for larger
capacitive loads. Of course, a larger capacitance will always
require more time for settling to a given accuracy than a smaller
one, and this will be lengthened by the increase in RS required.
At best, a given RC combination will require about 7 time
constants by itself to settle to 0.1%, so a limit will be reached
where too large a capacitance cannot be driven by a given
op amp and still meet the system’s required settling time
specification.
RG
RF
0.001F
0.1F
10F
+
–5V
Figure 39. Capacitive Load Drive Circuit
REV. B
–11–
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