MCP4021T-202E/MS Microchip Technology, MCP4021T-202E/MS Datasheet - Page 50
MCP4021T-202E/MS
Manufacturer Part Number
MCP4021T-202E/MS
Description
IC DGTL POT 2.1K 1CH 8MSOP
Manufacturer
Microchip Technology
Specifications of MCP4021T-202E/MS
Package / Case
8-MSOP, Micro8™, 8-uMAX, 8-uSOP,
Taps
64
Resistance (ohms)
2.1K
Number Of Circuits
1
Temperature Coefficient
150 ppm/°C Typical
Memory Type
Non-Volatile
Interface
Up/Down
Voltage - Supply
2.7 V ~ 5.5 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Resistance In Ohms
2.10K
Number Of Pots
Single
Taps Per Pot
64
Resistance
2.1 KOhms
Wiper Memory
Non Volatile
Digital Interface
Serial (2-Wire)
Operating Supply Voltage
3.3 V, 5 V
Supply Current
45 uA
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Supply Voltage (max)
5.5 V
Supply Voltage (min)
2.7 V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
MCP4XXXDM-DB - BOARD DAUGHTER DIGIPOT MCP4XXXMCP402XEV - BOARD EVAL FOR MCP402X
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
MCP4021/2/3/4
8.3
Thermistors are resistors with very predictable
variation with temperature. Thermistors are a popular
sensor choice when a low-cost, temperature-sensing
solution is desired. Unfortunately, thermistors have
non-linear characteristics that are undesirable, typically
requiring trimming in an application to achieve greater
accuracy. There are several common solutions to trim
and linearize thermistors.
are simple methods for linearizing a 3-terminal NTC
thermistor. Both are simple voltage dividers using a
Positive Temperature Coefficient (PTC) resistor (R
with a transfer function capable of compensating for the
lineararity
Coefficient (NTC) thermistor.
The circuit, illustrated by
rheostat for trimming the offset error caused by the
thermistor’s part-to-part variation. This solution puts the
digital potentiometer’s R
calculation. The MCP4021/2/3/4’s R
coefficient is 50 ppm (-20°C to +70°C). R
substantially greater than R
varies with V
50 kΩ devices, the error introduced by R
cases, insignificant as long as the wiper setting is > 6.
For the 2 kΩ devices, the error introduced by R
significant because it is a higher percentage of R
For these reasons, the circuit illustrated in
not the most optimum method for “exciting” and
linearizing a thermistor.
FIGURE 8-6:
a Digital Potentiometer in a Rheostat
Configuration.
The circuit illustrated by
potentiometer for trimming the offset error. This
solution removes R
with the error associated with R
but can be utilized to reduce the trimming “window” and
reduce variation due to the digital potentiometer’s R
part-to-part variability.
DS21945E-page 50
Temperature Sensor Applications
error
R
DD
1
, wiper setting and temperature. For the
W
in
from the trimming equation along
Thermistor Calibration using
V
the
DD
A
W
W
Figure
Figure 8-7
Figure 8-6
R
NTC
Thermistor
2
into the voltage divider
AB
V
Negative
MCP4022
OUT
’s error because R
W
8-6, utilizes a digital
. R
2
utilizes a digital
AB
is not required,
and
W
Temperature
Figure 8-6
temperature
W
is, in most
Figure 8-7
’s error is
W
WB
AB
1
W
is
is
)
.
FIGURE 8-7:
a Digital Potentiometer in a Potentiometer
Configuration.
8.4
Another common configuration to “excite” a sensor
(such as a strain gauge, pressure sensor or thermistor)
is the wheatstone bridge configuration. The wheat-
stone bridge provides a differential output instead of a
single-ended
wheatstone bridge utilizing one to three digital
potentiometers. The digital potentiometers in this
example are used to trim the offset and gain of the
wheatstone bridge.
FIGURE 8-8:
Trimming.
MCP4022
Wheatstone Bridge Trimming
50 kΩ
R
MCP4022
1
output.
Thermistor Calibration using
Wheatstone Bridge
V
© 2006 Microchip Technology Inc.
DD
V
V
OUT
Figure 8-8
DD
R
NTC
Thermistor
2
MCP4021
2.1 kΩ
V
OUT
MCP4022
50 kΩ
illustrates
a
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