MCP4013 Microchip Technology, MCP4013 Datasheet - Page 41
MCP4013
Manufacturer Part Number
MCP4013
Description
Low-Cost 64-Step Volatile Digital POT
Manufacturer
Microchip Technology
Datasheet
1.MCP4013.pdf
(60 pages)
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6.3
Understanding the operational characteristics of the
device’s resistor components is important to the system
design.
6.3.1
6.3.1.1
INL error for these devices is the maximum deviation
between an actual code transition point and its
corresponding ideal transition point after offset and
gain errors have been removed. These endpoints are
from 0x00 to 0x3F. Refer to
Positive INL means higher resistance than ideal.
Negative INL means lower resistance than ideal.
FIGURE 6-5:
© 2006 Microchip Technology Inc.
Digital
Input
Code
Operational Characteristics
ACCURACY
111
110
101
100
011
010
001
000
Integral Non-Linearity (INL)
Actual
Rransfer
Function
INL Accuracy.
Digital Pot Output
Figure
INL < 0
INL < 0
6-5.
Ideal Transfer
Function
6.3.1.2
DNL error is the measure of variations in code widths
from the ideal code width. A DNL error of zero would
imply that every code is exactly 1 LSb wide.
FIGURE 6-6:
6.3.1.3
The ratiometric temperature coefficient quantifies the
error in the ratio R
This is typically the critical error when using a
potentiometer device (MCP4011 and MCP4013) in a
voltage divider configuration.
6.3.1.4
The absolute temperature coefficient quantifies the
error in the end-to-end resistance (nominal resistance
R
critical error when using a rheostat device (MCP4012
and MCP4014) in an adjustable resistor configuration.
Digital
Input
Code
AB
) due to temperature drift. This is typically the
111
110
101
100
011
010
001
000
Differential Non-Linearity (DNL)
Ratiometric Temperature Coefficient
Absolute Temperature Coefficient
MCP4011/2/3/4
Actual
Transfer
Function
AW
Digital Pot Output
DNL Accuracy.
/R
WB
due to temperature drift.
Narrow Code < 1 LSb
Wide Code, > 1 LSb
DS21978C-page 41
Ideal Transfer
Function
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