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OP275 Datasheet(PDF) 10 Page - Analog Devices

No. de pieza OP275
Descripción Electrónicos  Dual Bipolar/JFET, Audio Operational Amplifier
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OP275 Datasheet(HTML) 10 Page - Analog Devices

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OP275
–10–
OP275
–11–
and dc offset errors. If the parallel combination of RF and RG is
larger than 2 k, then an additional resistor, RS, should be used
in series with the noninverting input.The value of RS is deter-
mined by the parallel combination of RF and RG to maintain the
low distortion performance of the OP275.
Driving Capacitive Loads
The OP275 was designed to drive both resistive loads to 600
and capacitive loads of over 1000 pF and maintain stability.While
there is a degradation in bandwidth when driving capacitive loads,
the designer need not worry about device stability.The graph in
Figure 16 shows the 0 dB bandwidth of the OP275 with capaci-
tive loads from 10 pF to 1000 pF.
10
9
8
7
6
5
4
3
2
1
0
0
200
400
600
800
1000
C
LOAD – pF
Figure 16. Bandwidth vs. CLOAD
High Speed, Low Noise Differential Line Driver
The circuit in Figure 17 is a unique line driver widely used in
industrial applications. With ±18 V supplies, the line driver can
deliver a differential signal of 30 V p-p into a 2.5 kload. The
high slew rate and wide bandwidth of the OP275 combine to
yield a full power bandwidth of 130 kHz while the low noise
front end produces a referred-to-input noise voltage spectral
density of 10 nV/Hz.
1
2
3 A2
1
3
2 A1
5
6
7
A3
VIN
VO1
VO2
R3
2k
R9
50
R11
1k
P1
10k
R12
1k
R10
50
R8
2k
R2
2k
R5
2k
R4
2k
R1
2k
R7
2k
VO2 – VO1 = VIN
A1 = 1/2 OP275
A2, A3 = 1/2 OP275
GAIN =
SET R2, R4, R5 = R1 AND R6, R7, R8 = R3
R3
R1
R6
2k
+
+
Figure 17. High Speed, Low Noise Differential Line Driver
The design is a transformerless, balanced transmission system
where output common-mode rejection of noise is of paramount
importance. Like the transformer based design, either output can
be shorted to ground for unbalanced line driver applications
without changing the circuit gain of 1. Other circuit gains can be
set according to the equation in the diagram. This allows the
design to be easily set to noninverting, inverting, or differential
operation.
A 3-Pole, 40 kHz Low-Pass Filter
The closely matched and uniform ac characteristics of the OP275
make it ideal for use in GIC (Generalized Impedance Converter)
and FDNR (Frequency-Dependent Negative Resistor) filter
applications. The circuit in Figure 18 illustrates a linear-phase,
3-pole, 40 kHz low-pass filter using an OP275 as an inductance
simulator (gyrator). The circuit uses one OP275 (A2 and A3) for
the FDNR and one OP275 (A1 and A4) as an input buffer and
bias current source for A3. Amplifier A4 is configured in a gain
of 2 to set the pass band magnitude response to 0 dB. The ben-
efits of this filter topology over classical approaches are that the
op amp used in the FDNR is not in the signal path and that the
filter’s performance is relatively insensitive to component varia-
tions. Also, the configuration is such that large signal levels can
be handled without overloading any of the filter’s internal nodes.
As shown in Figure 19, the OP275’s symmetric slew rate and low
distortion produce a clean, well behaved transient response.
VIN
3
2
1
A1
R1
95.3k
R2
787
C1
2200pF
C2
2200pF
R3
1.82k
C3
2200pF
R4
1.87k
R5
1.82k
A2
1
2
3
5
6
7
A3
R6
4.12k
C4
2200pF
R7
100k
5
6
7
A4
R8
1k
R9
1k
VOUT
A1, A4 = 1/2 OP275
A2, A3 = 1/2 OP275
+
+
Figure 18. A 3-Pole, 40 kHz Low-Pass Filter
VOUT
10V p-p
10kHz
SCALE: VERTICAL–2V/ DIV
HORIZONTAL–10s/ DIV
10
0%
100
90
Figure 19. Low-Pass FilterTransient Response
REV. C
REV. C


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