OP4177 Analog Devices, OP4177 Datasheet - Page 21
OP4177
Manufacturer Part Number
OP4177
Description
Precision Low Noise, Low Input Bias Current Quad Op Amp
Manufacturer
Analog Devices
Datasheet
1.OP4177.pdf
(24 pages)
Specifications of OP4177
-3db Bandwidth
1.3MHz
Slew Rate
700mV/µs
Vos
15µV
Ib
500pA
# Opamps Per Pkg
4
Input Noise (nv/rthz)
7.9nV/rtHz
Vcc-vee
5V to 36V
Isy Per Amplifier
500µA
Packages
SOIC,SOP
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REALIZATION OF ACTIVE FILTERS
BAND-PASS KRC OR SALLEN-KEY FILTER
The low offset voltage and the high CMRR of the OPx177 make
it an excellent choice for precision filters, such as the band-pass
KRC filter shown in Figure 67. This filter type offers the capability
to tune the gain and the cutoff frequency independently.
Because the common-mode voltage into the amplifier varies with
the input signal in the KRC filter circuit, a high CMRR is required
to minimize distortion. Also, the low offset voltage of the OPx177
allows a wider dynamic range when the circuit gain is chosen to
be high.
The circuit of Figure 67 consists of two stages. The first stage is
a simple high-pass filter where the corner frequency (f
and
where K is the dc gain.
Choosing equal capacitor values minimizes the sensitivity and
simplifies Equation 2 to
The value of Q determines the peaking of the gain vs. frequency
(ringing in transient response). Commonly chosen values for Q
are generally near unity.
Setting
ringing. Determine values for R1 and R2 by using Equation 3.
For
and R2 = 10 kΩ for simplicity.
The second stage is a low-pass filter where the corner frequency
can be determined in a similar fashion. For R3 = R4 = R
Q =
Q =
2
2
f
π
π
C
C
Q =
=
C1C2R1R2
K
1
1
2
2
R1R2
1
πR
,
1
R2
R1
2
R1/R2 = 2 in the circuit example. Select R1 = 5 kΩ
1
yields minimum gain peaking and minimum
C3
C4
and
Q
=
1
2
C4
C3
C
) is
Rev. G | Page 21 of 24
(2)
(3)
CHANNEL SEPARATION
Multiple amplifiers on a single die are often required to reject
any signals originating from the inputs or outputs of adjacent
channels. OP2177 input and bias circuitry is designed to prevent
feedthrough of signals from one amplifier channel to the other.
As a result, the OP2177 has an impressive channel separation of
greater than −120 dB for frequencies up to 100 kHz and greater
than −115 dB for signals up to 1 MHz.
REFERENCES ON NOISE DYNAMICS
AND FLICKER NOISE
S. Franco, Design with Operational Amplifiers and Analog
Integrated Circuits. McGraw-Hill, 1998.
Analog Devices, Inc., The Best of Analog Dialogue, 1967 to
1991. Analog Devices, Inc., 1991.
10nF
+
–
C2
V1
50mV
V1
10nF
20kΩ
C1
R1
+
–
6
5
Figure 67. Two-Stage, Band-Pass KRC Filter
Figure 68. Channel Separation Test Circuit
10kΩ
6
5
OP2177
R2
OP2177
1/2
8
1/2
V+
V–
8
4
V+
V–
4
OP1177/OP2177/OP4177
7
7
33kΩ
R3
1
10kΩ
330pF
OP2177
33kΩ
R4
C4
1/2
680pF
C3
2
3
2
3
OP2177
1/2
100Ω
1
V
OUT
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