OP471 Analog Devices, OP471 Datasheet - Page 10
OP471
Manufacturer Part Number
OP471
Description
High Speed, Low Noise Quad Operational Amplifier
Manufacturer
Analog Devices
Datasheet
1.OP471.pdf
(16 pages)
Specifications of OP471
Vcc-vee
9V to 36V
Isy Per Amplifier
2.75mA
Packages
LCC,SOIC
-3db Bandwidth
6.5MHz
Slew Rate
8V/µs
Vos
1mV
Ib
25nA
# Opamps Per Pkg
4
Input Noise (nv/rthz)
6.5nV/rtHz
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OP471
Noise Measurement - Current Noise Density
The test circuit shown in Figure 10 can be used to measure current
noise density. The formula relating the voltage output to current
noise density is:
where:
Capacative Load Driving and Power Supply Considerations
The OP471 is unity-gain stable and is capable of driving large
capacitive loads without oscillating. Nonetheless, good supply
bypassing is highly recommended. Proper supply bypassing
reduces problems caused by supply line noise and improves the
capacitive load driving capability of the OP471.
In the standard feedback amplifier, the op amp’s output resistance
combines with the load capacitance to form a lowpass filter that
R1
5
Figure 10. Current Noise Density Test Circuit
Figure 11. Driving Large Capacitive Loads
V
100k
IN
R2
*SEE TEXT
i
G = gain of 10,000
R
100 *
n
R1
S
=
OP471
DUT
= 100 kW source resistance
1.24k
R3
Ê
Á
Ë
e
nOUT
200
OP471
G
*
R4
V+
V–
ˆ
˜ -
¯
200pF
0.1 F
0.1 F
2
C3
C5
C1
OP27E
PLACE SUPPLY DECOUPLING
CAPACITORS AT OP471
R
(
10 F
10 F
+
40nV / Hz
S
C2
C4
8.06k
+
R5
50
R2
R3
GAIN = 10,000
V
S
=
15V
V
1000pF
C
)
e
SPECTRUM ANALYZER
OUT
2
n
L
OUT TO
–10–
adds phase shift in the feedback network and reduces stability. A
simple circuit to eliminate this effect is shown in Figure 11. The
added components, C1 and R3, decouple the amplifier from the
load capacitance and provide additional stability. The values of
C1 and R3 shown in Figure 11 are for load capacitances of up
to 1,000 pF when used with the OP471.
In applications where the OP471’s inverting or noninverting inputs
are driven by a low source impedance (under 100 W) or connected
to ground, if V+ is applied before V–, or when V– is disconnected,
excessive parasitic currents will flow.
Most applications use dual tracking supplies and with the device
supply pins properly bypassed, power-up will not present a
problem. A source resistance of at least 100 W in series with all
inputs (Figure 11) will limit the parasitic currents to a safe level
if V– is disconnected. It should be noted that any source resistance,
even 100 W, adds noise to the circuit. Where noise is required to
be kept at a minimum, a germanium or Schottky diode can be
used to clamp the V– pin and eliminate the parasitic current
flow instead of using series limiting resistors. For most applica-
tions, only one diode clamp is required per board or system.
Unity-Gain Buffer Applications
When R
pulse (>1 V), the output waveform will look as shown in Figure 12.
During the fast feedthrough-like portion of the output, the input
protection diodes effectively short the output to the input, and a
current, limited only by the output short-circuit protection, will
be drawn by the signal generator. With R
is capable of handling the current requirements (I
10 V); the amplifier will stay in its active mode and a smooth
transition will occur.
When R
capacitance (2.6 pF) creates additional phase shift and reduces
phase margin. A small capacitor (20 pF to 50 pF) in parallel with
R
APPLICATIONS
Low Noise Amplifier
A simple method of reducing amplifier noise by paralleling
amplifiers is shown in Figure 13. Amplifier noise, depicted in
Figure 14, is around 5 nV/÷Hz @ 1 kHz (R.T.I.). Gain for each
paralleled amplifier and the entire circuit is 100. The 200 W
resistors limit circulating currents and provide an effective output
resistance of 50 W. The amplifier is stable with a 10 nF capacitive
load and can supply up to 30 mA of output drive.
f
helps eliminate this problem.
f
f
£ 100 W and the input is driven with a fast, large signal
> 3 kW, a pole created by R
Figure 12. Pulsed Operation
R
OP471
f
f
and the amplifier’s input
f
≥ 500 W, the output
8V/ s
L
£ 20 mA at
REV. A
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