MAX111ACPE+ Maxim Integrated, MAX111ACPE+ Datasheet - Page 20
MAX111ACPE+
Manufacturer Part Number
MAX111ACPE+
Description
Analog to Digital Converters - ADC
Manufacturer
Maxim Integrated
Datasheet
1.MAX111AEAP-T.pdf
(24 pages)
Specifications of MAX111ACPE+
Number Of Channels
2
Architecture
Sigma-Delta
Conversion Rate
0.05 KSPs
Resolution
14 bit
Input Type
Single-Ended/Differential
Snr
No
Interface Type
Microwire, QSPI, Serial, SPI
Operating Supply Voltage
5 V
Maximum Operating Temperature
+ 70 C
Mounting Style
Through Hole
Package / Case
PDIP-16
Maximum Power Dissipation
842 mW
Minimum Operating Temperature
0 C
Number Of Converters
1
Voltage Reference
External
Figure 11. Weigh Scale Application
Low-Cost, 2-Channel, ±14-Bit Serial ADCs
When using the internal RC oscillator, capacitive load-
ing effects on the XCLK pin must be minimized. Stray
capacitance causes the V
increase by an amount p =
capacitance, V is the supply voltage, and f is the fre-
quency of the internal RC oscillator.
The reference inputs to the ADC are high impedance,
allowing both an external voltage reference and ratio-
metric applications without loading effects. The fully dif-
ferential analog signal and reference inputs are
advantageous for performing ratiometric conversions
(Figures 11 and 12). For example, when measuring
load cells, the bridge excitation and the ADC reference
input both share the same voltage source. As the exci-
tation changes with temperature or voltage, the output
of the load cell will change. But since the differential
reference voltage also changes, the conversion results
remain constant, all else remaining equal.
20
______________________________________________________________________________________
FULL-SCALE
Capacitive Loading Effects of XCLK in
30mV
+5V
+5V
Internal RC-Oscillator Mode
DD
1
External Reference
⁄
2
power consumption to
121k
CV
121k
2
f, where C = stray
2k
49.9k
49.9k
1/2 MAX492
+5V
+5V
1/2 MAX492
1k
1k
The fully differential analog signal and reference inputs
make the MAX111 easy to interface to transducers with
differential outputs, such as the load cell in Figure 11.
Because the ADC input is differential, the load cell only
requires differential gain, eliminating the need for the
difference amplifier (differential to single-ended con-
verter) of the standard three op-amp instrumentation-
amplifier realization.
The 30mV full-scale bridge output is amplified to 2V
full-scale and applied to the MAX111 channel-one
input. The reference voltage to the ADC is created by a
voltage divider connected to the +5V rail. The same 5V
provides excitation for the bridge; therefore, as the
excitation voltage varies, the reference voltage to the
ADC also varies, providing an ADC output that does
not depend on the supply voltage.
The two 121kΩ resistors connected to the +5V supplies
shift the common-mode voltage from 2.5V (5V/2) to
1.5V to ensure linearity. Match these two resistors to
avoid introducing differential offset, or trim the resistor
mismatch with a potentiometer. In practice, the scale is
“zeroed” or “tared” by storing the average of several
conversions in a memory location while the scale is
1µF
1µF
22k
10k
1k
Weigh Scale Application
REF+
REF-
IN1+
IN1-
AGND
MAX111
+5V
V
DD
GND
DOUT
SCLK
DIN
0.1µF
CS
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