LTC2410CGN Linear Technology, LTC2410CGN Datasheet - Page 38
LTC2410CGN
Manufacturer Part Number
LTC2410CGN
Description
IC ADC 24BIT DIFF INP/REF 16SSOP
Manufacturer
Linear Technology
Datasheet
1.LTC2410CGNPBF.pdf
(48 pages)
Specifications of LTC2410CGN
Number Of Bits
24
Sampling Rate (per Second)
7.5
Data Interface
MICROWIRE™, Serial, SPI™
Number Of Converters
2
Power Dissipation (max)
1mW
Voltage Supply Source
Single Supply
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
16-SSOP (0.150", 3.90mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Other names
Q894257
Available stocks
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Quantity
Price
Part Number:
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Manufacturer:
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Quantity:
20 000
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LTC2410CGN#PBF
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Quantity:
20 000
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Quantity:
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APPLICATIO S I FOR ATIO
LTC2410
mentation amplifier is used at low gain. If this amplifier is
used at a gain of 10, the gain error is only 10ppm and input
referred noise is reduced to 0.1 V
can also be configured to provide gain of up to 50 with high
gain stability and linearity.
Figure 49 shows an example of a single amplifier used to
produce single-ended gain. This topology is best used in
applications where the gain setting resistor can be made
to match the temperature coefficient of the strain gauges.
If the bridge is composed of precision resistors, with only
one or two variable elements, the reference arm of the
bridge can be made to act in conjunction with the feedback
resistor to determine the gain. If the feedback resistor is
incorporated into the design of the load cell, using resis-
tors which match the temperature coefficient of the load-
cell elements, good results can be achieved without the
need for resistors with a high degree of absolute accuracy.
The common mode voltage in this case, is again a function
of the bridge output. Differential gain as used with a 350
bridge is A
is half the differential gain. The maximum differential
signal that can be used is 1/4 V
in the 2-amplifier topology above.
38
BRIDGE
350
V
= (R1+ R2)/(R1+175 ). Common mode gain
U
U
RN1
RN1 = 5k 8 RESISTOR ARRAY
U1A, U1B, U2A, U2B = 1/2 LTC1051
16
Figure 48. Using Autozero Amplifiers to Reduce Input Referred Noise
1
REF
6
, as opposed to 1/2 V
RMS
W
3
2
6
5
11
+
–
–
+
. The buffer stages
15
2
U1A
U1B
5V
4
7
8
10
14
U
0.1 F
3
1
7
8
REF
9
13
4
5
Remote Half Bridge Interface
As opposed to full bridge applications, typical half bridge
applications must contend with nonlinearity in the bridge
output, as signal swing is often much greater. Applications
include RTD’s, thermistors and other resistive elements
that undergo significant changes over their span. For
single variable element bridges, the nonlinearity of the half
bridge output can be eliminated completely; if the refer-
ence arm of the bridge is used as the reference to the ADC,
as shown in Figure 50. The LTC2410 can accept inputs up
to 1/2 V
least 2x the highest value of the variable resistor.
In the case of 100 platinum RTD’s, this would suggest a
value of 800
advisable due to self-heating effects. A value of 25.5k is
shown for R1, reducing self-heating effects to acceptable
levels for most sensors.
The basic circuit shown in Figure 50 shows connections
for a full 4-wire connection to the sensor, which may be
located remotely. The differential input connections will
reject induced or coupled 60Hz interference, however, the
1
0.048 V
Input referred noise for A
12
RMS
.
REF
2
3
6
5
. Hence, the reference resistor R1 must be at
–
+
–
+
U2A
U2B
V
5V
for R1. Such a low value for R1 is not
= 34 for approximately 0.05 V
4
8
0.1 F
1
7
2410 F48
3
4
5
6
REF
REF
IN
IN
+
–
LTC2410
+
–
RMS
GND
V
CC
, whereas at a gain of 50, it would be
1, 7, 8, 9,
10, 15, 16
2
SDO
SCK
CS
F
0.1 F
5V
O
REF
11
14
12
13
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