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AD8295 Datasheet, PDF (24/28 Pages) Analog Devices – Precision Instrumentation Amplifier with Signal Processing Amplifiers
AD8295
2-POLE SALLEN-KEY FILTER
Figure 63 shows the in-amp output section of the AD8295 being
low-pass filtered using a 2-pole Sallen-Key filter. The filter section
consists of Op Amp A2, External Resistors R1 and R2, as well as
Capacitors C1 and C2. Resistor R3 compensates for input offset
current errors and is equal to the parallel combination of R1 and
R2. The ratio of capacitance between C1 and C2 sets the filter
quality factor, Q. For most applications, a filter Q of 0.5 to 0.7
provides a good trade-off between performance and stability.
High Q, non-polarized capacitors, such as NPO ceramic, should
be used. The exact pole frequencies are dependent on the
tolerance of the resistors and capacitors used.
The design equations for a Sallen-Key filter can be greatly
simplified if the resistors and capacitors are made equal.
When C1 = C2 and R1 = R2, Q is 0.5 and the design equation
simplifies to
f = 1/(2πRC)
where R is in ohms and C is in farads.
For example, with R1 = R2 = 10 kΩ, and C1 = C2 = 2.2 nF,
f = 7.2 kHz
When C1 is not equal to C2 and R1 is not equal to R2, the
values of Q and the cutoff frequency are calculated as follows:
R1R2 C1C2
Q=
C2(R1+ R2)
f=
1
2π R1 R2 C1C2
R2
+VS
0.1µF
+VS
16
R1
OUT
15
–IN AD8295
–INPUT
1
RG
2
C2
A2
+IN
14
A2
C1
R3
A2
–IN
13
A2
OUT
12
A1
+IN
11
LP FILTERED
OUTPUT
RG
3
+IN
+INPUT
4
IA
10
A1
R1
R1
A1
20kΩ
A1
R2
20kΩ
–IN
9
5
–VS
0.1µF
6
REF
7
A1
OUT
8
A1
R2
–VS
Figure 63. 2-Pole Sallen-Key Filter
AC-COUPLED INSTRUMENTATION AMPLIFIER
The circuit in Figure 64 provides a one-pole high-pass filter,
using only one external capacitor.
At low frequencies, Capacitor C1 has a high impedance, thus
operating Op Amp A1 at high gain (G = XC/20 kΩ). Because of
its high gain, Op Amp A1 is able to drive the in-amp reference
pin until it forces the output of the in-amp to 0 V. Therefore, no
signal appears at the circuit output.
At higher frequencies, the gain of Op Amp A1 drops and the
op amp is no longer able to maintain the in-amp output at 0 V.
Therefore, at frequencies above the RC filter bandwidth, the
in-amp operates in a normal manner, and the signal appears at
the output.
The 3 dB corner frequency is set by Internal Resistor R1 and
External Capacitor C1 as follows:
f = 1/((2π × 20 kΩ) × C1)
The precision of R1 (better than 0.2%) means that the filter
bandwidth depends mainly on the tolerance of Capacitor C1.
At low frequencies, Op Amp A1 drives the appropriate voltage
on the reference pin to null out the original signal. Voltage
supplies should be chosen so that Op Amp A1 has enough
output headroom to produce the nulling voltage.
OUTPUT
+VS OUT
16
15
–IN AD8295
–INPUT
1
A2 +IN A2 –IN
14
13
12
A2
A2 OUT
RG
2
A1 +IN
11
IA
RG
3
A1
+IN
+INPUT
4
5
6
7
–VS REF A1 OUT
R1
20kΩ
R2
20kΩ
A1 R1
10
A1 –IN
9
8
A1 R2 C1
Figure 64. AC-Coupled Connection
Rev. 0 | Page 24 of 28