MCP4021T-502E/SN Microchip Technology, MCP4021T-502E/SN Datasheet - Page 48
MCP4021T-502E/SN
Manufacturer Part Number
MCP4021T-502E/SN
Description
IC DGTL POT 5K 1CH 8SOIC
Manufacturer
Microchip Technology
Datasheets
1.MCP4022T-202ECH.pdf
(2 pages)
2.MCP4022T-202ECH.pdf
(64 pages)
3.MCP4021T-502ESN.pdf
(62 pages)
Specifications of MCP4021T-502E/SN
Memory Type
Non-Volatile
Taps
64
Resistance (ohms)
5K
Number Of Circuits
1
Temperature Coefficient
150 ppm/°C Typical
Interface
Up/Down
Voltage - Supply
2.7 V ~ 5.5 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Resistance In Ohms
5K
End To End Resistance
5kohm
Resistance Tolerance
± 20%
No. Of Steps
64
Supply Voltage Range
2.7V To 5.5V
Control Interface
2 Wire, Serial
No. Of Pots
Single
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
8.0
Non-volatile digital potentiometers have a multitude of
practical uses in modern electronic circuits. The most
popular uses include precision calibration of set point
thresholds, sensor trimming, LCD bias trimming, audio
attenuation, adjustable power supplies, motor control
overcurrent trip setting, adjustable gain amplifiers and
offset trimming. The MCP4021/2/3/4 devices can be
used to replace the common mechanical trim pot in
applications where the operating and terminal voltages
are within CMOS process limitations (V
5.5V).
8.1
Applications that need accurate detection of an input
threshold event often need several sources of error
eliminated. Use of comparators and operational
amplifiers (op amps) with low offset and gain error can
help achieve the desired accuracy, but in many applica-
tions, the input source variation is beyond the
designer’s control. If the entire system can be
calibrated after assembly in a controlled environment
(like factory test), these sources of error are minimized,
if not entirely eliminated.
Figure 8-1
configuration. This configuration is often referred to as
a “windowed voltage divider”. Note that R
not necessary to create the voltage divider, but their
presence is useful when the desired threshold has
limited range. It is “windowed” because R
narrow the adjustable range of V
less than V
magnitude of each output step is reduced. This
effectively increases the trimming resolution for a fixed
digital potentiometer resolution. This technique may
allow a lower-cost digital potentiometer to be utilized
(64 steps instead of 256 steps).
The
performance is critical to meeting calibration accuracy
in production without having to use a higher precision
digital potentiometer.
EQUATION 8-1:
DS21945E-page 48
Where:
D
D = Digital Potentiometer Wiper Setting (0-63)
MCP4021’s
=
APPLICATIONS EXAMPLES
Set Point Threshold Trimming
⎛
⎝
DD
illustrates a common digital potentiometer
⎛
⎝
V
V
--------------
V
– V
TRIP
TRIP
DD
SS
R
⎞
⎠
R
=
WB
. If the output range is reduced, the
•
and
AB
(
V
(
CALCULATING THE
WIPER SETTING FROM
THE DESIRED V
DD
=
R
=
1
R
⎛
⎝
+
R
---------------------------------- -
R
AB
Nominal
R
1
R
MCP4023’s
AB
+
•
2
⎛
⎝
R
+
+
----- -
63
D
TRIP
AB
R
R
⎞
⎠
WB
2
+
) R
to a value much
R
–
2
⎞
⎠
DD
2
1
1
TRIP
)
and R
⎞
⎠
and R
low
= 2.7V to
•
63
2
2
DNL
can
are
FIGURE 8-1:
Potentiometer to Set a Precise Output Voltage.
8.1.1
If the application has to calibrate the threshold of a
diode, transistor or resistor, a variation range of 0.1V is
common. Often, the desired resolution of 2 mV or
better is adequate to accurately detect the presence of
a precise signal. A “windowed” voltage divider, utilizing
the MCP4021 or
solution as shown in
FIGURE 8-2:
Calibration.
U/D
CS
MCP4021
R
U/D
R
CS
2
1
TRIMMING A THRESHOLD FOR AN
OPTICAL SENSOR
V
DD
MCP4021
B
A
W
V
0.1 µF
MCP4023, would be a potential
DD
Figure
Using the Digital
Set Point or Threshold
R
V
© 2006 Microchip Technology Inc.
sense
DD
V
B
A
TRIP
R
R
8-2.
1
2
W
Comparator
V
V
CC+
CC–
V
OUT
MCP6021
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