AD8421 AD [Analog Devices], AD8421 Datasheet - Page 23
AD8421
Manufacturer Part Number
AD8421
Description
3 nV/?Hz, Low Power
Manufacturer
AD [Analog Devices]
Datasheet
1.AD8421.pdf
(28 pages)
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Data Sheet
Overvoltage performance is shown in Figure 14, Figure 15,
Figure 16, and Figure 17. The
a current of 40 mA at room temperature for at least a day. This
time is cumulative over the life of the device. If long periods of
overvoltage are expected, the use of an external protection method
is recommended. Under extreme input conditions, the output
of the amplifier may invert.
RADIO FREQUENCY INTERFERENCE (RFI)
RF rectification is often a problem when amplifiers are used in
applications that have strong RF signals. The problem is intensified
if long leads or PCB traces are required to connect the amplifier
to the signal source. The disturbance can appear as a dc offset
voltage or a train of pulses.
High frequency signals can be filtered with a low-pass filter
network at the input of the instrumentation amplifier, as shown
in Figure 68.
The choice of resistor and capacitor values depends on the
desired trade-off between noise, input impedance at high
frequencies, CMRR, signal bandwidth, and RFI immunity. An
RC network limits both the differential and common-mode
bandwidth, as shown in the following equations:
where C
C
mode signal. A mismatch between R × C
and R × C
AD8421. By using a value of C
larger than C
performance is improved near the cutoff frequencies.
D
affects the differential signal, and C
FilterFreq
FilterFreq
*CHIP FERRITE BEAD.
D
≥ 10 C
C
L*
L*
at the negative input degrades the CMRR of the
C
, the effect of the mismatch is reduced and CMRR
uency
uency
33Ω
33Ω
C
R
R
.
CM
DIFF
Figure 68. RFI Suppression
C
1nF
C
1nF
=
C
C
=
π 2
π 2
RC
C
10nF
1
AD8421
D
R
D
0.1µF
0.1µF
2 (
C
that is one order of magnitude
+IN
–IN
C
1
D
+
AD8421
C
inputs can withstand
+V
–V
C
affects the common-
C
C
S
S
)
at the positive input
REF
10µF
10µF
V
OUT
Rev. 0 | Page 23 of 28
To achieve low noise and sufficient RFI filtering, the use of chip
ferrite beads is recommended. Ferrite beads increase their impe-
dance with frequency, thus leaving the signal of interest unaffected
while preventing RF interference to reach the amplifier. They also
help to eliminate the need for large resistor values in the filter,
thus minimizing the system’s input-referred noise. The selection
of the appropriate ferrite bead and capacitor values is a function
of the interference frequency, input lead length, and RF power.
For best results, place the RFI filter network as close as possible
to the amplifier. Layout is critical to ensure that RF signals are
not picked up on the traces after the filter. If RF interference is
too strong to be filtered sufficiently, shielding is recommended.
The resistors used for the RFI filter can be the same as those used
for input protection.
CALCULATING THE NOISE OF THE INPUT STAGE
The total noise of the amplifier front end depends on much more
than the 3.2 nV/√Hz specification of this data sheet. The three
main contributors to noise are: the source resistance, the voltage
noise of the instrumentation amplifier, and the current noise of
the instrumentation amplifier.
In the following calculations, noise is referred to the input (RTI).
In other words, all sources of noise are calculated as if the source
appeared at the amplifier input. To calculate the noise referred
to the amplifier output (RTO), multiply the RTI noise by the
gain of the instru-mentation amplifier.
Source Resistance Noise
Any sensor connected to the
There may also be resistance placed in series with inputs for pro-
tection from either overvoltage or radio frequency interference.
This combined resistance is labeled R1 and R2 in Figure 69. Any
resistor, no matter how well made, has an intrinsic level of noise.
This noise is proportional to the square root of the resistor value.
At room temperature, the value is approximately equal to
4 nV/√Hz × √(resistor value in kΩ).
For example, assume that the combined sensor and protection
resistance is 4 kΩ on the positive input and 1 kΩ on the negative
input. Then the total noise from the input resistance is
Figure 69. Source Resistance from Sensor and Protection Resistors
(
4
×
SENSOR
4
) (
2
+
4
×
1
)
R1
R2
2
=
AD8421
R
64
G
+
16
has some output resistance.
AD8421
=
8.9 nV/√Hz
AD8421
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