LTC2418CGN#PBF Linear Technology, LTC2418CGN#PBF Datasheet - Page 37
LTC2418CGN#PBF
Manufacturer Part Number
LTC2418CGN#PBF
Description
IC ADC 24BIT DIFF INPUT 28SSOP
Manufacturer
Linear Technology
Datasheet
1.LTC2418CGNPBF.pdf
(48 pages)
Specifications of LTC2418CGN#PBF
Number Of Bits
24
Sampling Rate (per Second)
7.5
Data Interface
MICROWIRE™, Serial, SPI™
Number Of Converters
1
Power Dissipation (max)
1mW
Voltage Supply Source
Single Supply
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
28-SSOP (0.150", 3.95mm Width)
Number Of Elements
1
Resolution
24Bit
Architecture
Delta-Sigma
Sample Rate
0.008KSPS
Input Polarity
Bipolar
Input Type
Voltage
Rated Input Volt
±2.75V
Differential Input
Yes
Power Supply Requirement
Single
Single Supply Voltage (typ)
3.3/5V
Single Supply Voltage (min)
2.7V
Single Supply Voltage (max)
5.5V
Dual Supply Voltage (typ)
Not RequiredV
Dual Supply Voltage (min)
Not RequiredV
Dual Supply Voltage (max)
Not RequiredV
Integral Nonlinearity Error
14ppm of Vref
Operating Temp Range
0C to 70C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
28
Package Type
SSOP N
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
APPLICATIO S I FOR ATIO
The circuit in Figure 42 shows an example of a simple
amplification scheme. This example produces a differen-
tial output with a common mode voltage of 2.5V, as
determined by the bridge. The use of a true three amplifier
instrumentation amplifier is not necessary, as the LTC2414/
LTC2418 has common mode rejection far beyond that of
most amplifiers. The LTC1051 is a dual autozero amplifier
that can be used to produce a gain of 15 before its input
referred noise dominates the LTC2414/LTC2418 noise.
This example shows a gain of 34, that is determined by a
feedback network built using a resistor array containing 8
individual resistors. The resistors are organized to opti-
mize temperature tracking in the presence of thermal
gradients. The second LTC1051 buffers the low noise
input stage from the transient load steps produced during
conversion.
The gain stability and accuracy of this approach is very
good, due to a statistical improvement in resistor match-
ing. A gain of 34 may seem low, when compared to
common practice in earlier generations of load-cell inter-
faces, however the accuracy of the LTC2414/LTC2418
BRIDGE
350Ω
U
U
RN1
RN1 = 5k × 8 RESISTOR ARRAY
U1A, U1B, U2A, U2B = 1/2 LTC1051
16
Figure 42. Using Autozero Amplifiers to Reduce Input Referred Noise
1
6
W
3
2
6
5
11
+
–
–
+
15
2
U1A
U1B
5V
4
7
8
10
U
14
0.1µF
3
1
7
8
9
13
4
5
changes the rationale. Achieving high gain accuracy and
linearity at higher gains may prove difficult, while provid-
ing little benefit in terms of noise reduction.
At a gain of 100, the gain error that could result from
typical open-loop gain of 160dB is –1ppm, however,
worst-case is at the minimum gain of 116dB, giving a gain
error of –158ppm. Worst-case gain error at a gain of 34,
is –54ppm. The use of the LTC1051A reduces the worst-
case gain error to –33ppm. The advantage of gain higher
than 34, then becomes dubious, as the input referred
noise sees little improvement and gain accuracy is poten-
tially compromised.
Note that this 4-amplifier topology has advantages over
the typical integrated 3-amplifier instrumentation ampli-
fier in that it does not have the high noise level common in
the output stage that usually dominates when and instru-
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 0.1µV
can also be configured to provide gain of up to 50 with high
gain stability and linearity.
12
2
3
6
5
–
+
–
+
U2A
U2B
5V
4
8
0.1µF
LTC2414/LTC2418
1
7
2414/18 F42
11
12
21
22
REF
REF
CH0
CH1
LTC2414/
LTC2418
+
–
GND
RMS
V
CC
15
2
SCK
SD0
SDI
. The buffer stages
CS
F
0.1µF
5V
O
REF
19
20
18
17
16
37
241418fa
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