op471gpz Analog Devices, Inc., op471gpz Datasheet - Page 7
op471gpz
Manufacturer Part Number
op471gpz
Description
High Speed, Low Noise Quad Operational Amplifier
Manufacturer
Analog Devices, Inc.
Datasheet
1.OP471GPZ.pdf
(16 pages)
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APPLICATIONS INFORMATION
Voltage and Current Noise
The OP471 is a very low-noise quad op amp, exhibiting a typical
voltage noise of only 6.5 Hz @ 1 kHz. The low noise character-
istic of the OP471 is, in part, achieved by operating the input
transistors at high collector currents since the voltage noise is
inversely proportional to the square root of the collector current.
Current noise, however, is directly proportional to the square
root of the collector current. As a result, the outstanding voltage
noise performance of the OP471 is gained at the expense of current
noise performance which is typical for low noise amplifiers.
To obtain the best noise performance in a circuit, it is vital to
understand the relationship between voltage noise (e
noise (i
Total Noise and Source Resistance
The total noise of an op amp can be calculated by:
where:
The total noise is referred to the input and at the output would
be amplified by the circuit gain.
REV. A
E
e
i
e
R
n
n
t
n
S
= op amp current noise
= source resistance thermal noise
= op amp voltage noise
n
= total input referred noise
= source resistance
+1V
–1V
), and resistor noise (e
Figure 2. Channel Separation Test Circuit
500
50
E
CHANNEL SEPARATION = 20 LOG
10
Figure 3. Burn-In Circuit
2
3
9
n
=
–18V
+18V
A
C
4
11
( )
e
1/4
OP471
1/4
OP471
n
50k
5k
1
8
2
+
t
).
(
i R
+1V
–1V
n
S
)
2
+
V
V
( )
1
2
e
20V p-p
13
12
t
V
6
5
2
2
/ 1000
V
1
D
B
n
14
), current
7
–7–
Figure 4. Total Noise vs. Source Resistance (Including
Resistor Noise) at 1 kHz
Figure 5. Total Noise vs. Source Resistance (Including
Resistor Noise) at 10 Hz
Figure 4 shows the relationship between total noise at 1 kHz
and source resistance. For R
nated by the voltage noise of the OP471. As R
total noise increases and is dominated by resistor noise rather
than by voltage or current noise of the OP471. When R
20 kW, current noise of the OP471 becomes the major contributor
to total noise.
Figure 5 also shows the relationship between total noise and source
resistance, but at 10 Hz. Total noise increases more quickly
than shown in Figure 4 because current noise is inversely pro-
portional to the square root of frequency. In Figure 5, current
noise of the OP471 dominates the total noise when R
From Figures 4 and 5, it can be seen that to reduce total noise,
source resistance must be kept to a minimum. In applications
with a high source resistance, the OP400, with lower current
noise than the OP471, will provide lower total noise.
100
100
10
10
1
1
100
100
OP470
OP400
OP471
OP400
OP471
OP470
OP11
OP11
RESISTOR
NOISE ONLY
RESISTOR
NOISE ONLY
RS – SOURCE RESISTANCE –
RS – SOURCE RESISTANCE –
1k
1k
S
< 1 kW the total noise is domi-
10k
10k
S
rises above 1 kW,
OP471
S
S
> 5 kW.
100k
100k
exceeds
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