MAX4195 Maxim, MAX4195 Datasheet - Page 12
MAX4195
Manufacturer Part Number
MAX4195
Description
The MAX4194 is a variable-gain precision instrumentation amplifier that combines Rail-to-Rail; single-supply operation, outstanding precision specifications, and a high gain bandwidth
Manufacturer
Maxim
Datasheet
1.MAX4194.pdf
(13 pages)
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Good layout technique optimizes performance by
decreasing the amount of stray capacitance at the
instrumentation amplifier’s gain-setting pins. Excess
capacitance will produce peaking in the amplifier’s fre-
quency response. To decrease stray capacitance, min-
imize trace lengths by placing external components as
close to the instrumentation amplifier as possible. For
best performance, bypass each power supply to
ground with a separate 0.1µF capacitor.
The MAX4194–MAX4197 instrumentation amplifiers can
be used in various signal-conditioning circuits for ther-
mocouples, PT100s, strain gauges (displacement sen-
sors), piezoresistive transducers (PRTs), flow sensors,
and bioelectrical applications. Figure 7 shows a simpli-
fied example of how to attach four strain gauges (two
Micropower, Single-Supply, Rail-to-Rail,
Precision Instrumentation Amplifiers
Figure 7. Strain Gauge Connection to the MAX4194
12
______________________________________________________________________________________
V
BRIDGE
Power-Supply Bypassing and Layout
A
Transducer Applications
R
R
R = 120Ω - 350Ω
R
R
V
AB
= V
B
IN+
- V
IN-
IN+
IN-
V
identical two-element strain gauges) to the inputs of the
MAX4194. The bridge contains four resistors, two of
which increase and two of which decrease by the same
ratio.
With a fully balanced bridge, points A (IN+) and B (IN-)
see half the excitation voltage (V
impedance (120Ω to 350Ω) of the strain gauges, how-
ever, could cause significant voltage drop contributions
by the wires leading to the bridge, which would cause
excitation variations. Output voltage V
culated as follows:
where G = (1 + 50kΩ / R
tation amplifier.
Since V
errors may occur.
TRANSISTOR COUNT: 432
CC
___________________Chip Information
RG+
R
G
V
EE
AB
RG-
OUT
is directly proportional to the excitation, gain
REF
REFERENCE
MAX144
V
ADC
OUT
G
= V
) is the gain of the instrumen-
AB
· G
µP
BRIDGE
OUT
can be cal-
). The low
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