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Applications information, Chip information, Package information – Rainbow Electronics DS3903 User Manual

Page 11

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DS3903

Triple 128-Position Nonvolatile

Digital Potentiometer

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the appropriate device address bit, and the read/write
bit, the slave device outputs an acknowledge signal on
the SDA line.

Applications Information

Power-Supply Decoupling

To achieve the best results when using the DS3903,
decouple the power supply with a 0.01µF or 0.1µF
capacitor. Use a high-quality ceramic surface-mount
capacitor if possible. Surface-mount components mini-
mize lead inductance, which improves performance,
and ceramic capacitors tend to have adequate high-
frequency response for decoupling applications.

Write Protection

The write-protect pin has an internal pullup resistor. To
be able to adjust the potentiometers’ position, this pin
must be grounded. This pin can be left floating or con-
nected to V

CC

to write protect the potentiometer posi-

tions.

Wiper Resistance and Wiper Current Limit

Two substantial differences between digital poten-
tiometers and mechanical potentiometers are the wiper
resistance and the wiper current limit. The wiper resis-
tance (R

W

) is a result of the interconnecting materials

on the IC between the internal resistive elements and
the wiper pin. This can be modelled by using an ideal
potentiometer, with a resistance of R

W

connected

between the ideal wiper and wiper terminal of the digi-
tal potentiometer. One final note about the wiper resis-
tance is that it has a high temperature coefficient
(approximately +3000PPM), which can be noticeable in
certain circuit configurations.

The wiper current limit (I

W

) is also due to the intercon-

necting materials between the internal resistive ele-
ments and the wiper terminal. While it may be possible
to exceed this value for a short period without prob-
lems, exceeding the wiper current limit is a long-term
reliability problem.

Both characteristics can be minimized in designs by
connecting the wiper terminal to high-impedance
loads. This reduces both the current through the wiper
and the voltage drop across the wiper resistance.

Using a Potentiometer as a

Variable Resistor

There are two ways to make a digital potentiometer into
a variable resistor. The first is to short the wiper terminal
to the high- or low-side terminal. This places wiper
resistance in parallel with the resistance from the wiper
to the high or low side of the potentiometer. The advan-
tage of this method is that it reduces the current
through the wiper, which is advantageous if the current
is approaching the wiper current limit. The disadvan-
tage is that the wiper resistance makes the resistance
versus position nonlinear, particularly for low-resistance
values.

The second way is to attach the wiper terminal, and
either the low- or high-side terminal. The unattached
terminal is connected to the wiper by the resistance
internal to the part, and stays at the same voltage as
the wiper. This method provides a linear resistance ver-
sus position function, but it limits the current through
the resistance to I

W

since there is no current load shar-

ing between the wiper resistance and the paralleled
resistive elements.

Both configurations are heavily influenced by the wiper
resistance, particularly over temperature, where its tem-
perature coefficient noticeably affects the resistor’s value.

Chip Information

TRANSISTOR COUNT: 10,793

SUBSTRATE CONNECTED TO GROUND

Package Information

For the latest package outline information, go to www.maxim-ic.
com/packages
.