MCP41050-ISN Datasheet, PDF(14/32 Page) Microchip Technology – Single/Dual Digital Potentiometer with SPI™ Interface

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MCP41050-ISN Datasheet, PDF (14/32 Pages) Microchip Technology – Single/Dual Digital Potentiometer with SPI™ Interface

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MCP41XXX/42XXX

4.1 Modes of Operation

Digital potentiometer applications can be divided into

two categories: rheostat mode and potentiometer, or

voltage divider, mode.

4.1.1 RHEOSTAT MODE

In the rheostat mode, the potentiometer is used as a

two-terminal resistive element. The unused terminal

should be tied to the wiper, as shown in Figure 4-2.

Note that reversing the polarity of the A and B terminals

will not affect operation.

A

W

B

MCP4XXXX

Resistor

FIGURE 4-2:

Two-terminal or rheostat

configuration for the digital potentiometer. Acting

as a resistive element in the circuit, resistance is

controlled by changing the wiper setting.

Using the device in this mode allows control of the total

resistance between the two nodes. The total measured

resistance would be the least at code 00h, where the

wiper is tied to the B terminal. The resistance at this

code is equal to the wiper resistance, typically 52â¦ for

the 10 kâ¦ MCP4X010 devices, 125â¦ for the 50 kâ¦

(MCP4X050), and 100 kâ¦ (MCP4X100) devices. For

the 10 kâ¦ device, the LSB size would be 39.0625â¦

(assuming 10 kâ¦ total resistance). The resistance

would then increase with this LSB size until the total

measured resistance at code FFh would be 9985.94â¦.

The wiper will never directly connect to the A terminal

of the resistor stack.

In the 00h state, the total resistance is the wiper resis-

tance. To avoid damage to the internal wiper circuitry in

this configuration, care should be taken to ensure the

current flow never exceeds 1 mA.

For dual devices, the variation of channel-to-channel

matching of the total resistance from A to B is less than

1%. The device-to-device matching, however, can vary

up to 30%. In the rheostat mode, the resistance has a

positive temperature coefficient. The change in wiper-

to-end terminal resistance over temperature is shown

in Figure 2-8. The most variation over temperature will

occur in the first 6% of codes (code 00h to 0Fh) due to

the wiper resistance coefficient affecting the total resis-

tance. The remaining codes are dominated by the total

resistance tempco RAB, typically 800 ppm/Â°C.

4.1.2 POTENTIOMETER MODE

In the potentiometer mode, all three terminals of the

device are tied to different nodes in the circuit. This

allows the potentiometer to output a voltage propor-

tional to the input voltage. This mode is sometimes

called voltage divider mode. The potentiometer is used

to provide a variable voltage by adjusting the wiper

position between the two endpoints as shown in

Figure 4-3. Note that reversing the polarity of the A and

B terminals will not affect operation.

V1

A

W

V2

B

MCP4XXXX

FIGURE 4-3:

divider mode.

Three terminal or voltage

In this configuration, the ratio of the internal resistance

defines the temperature coefficient of the device. The

resistor matching of the RWB resistor to the RAB resistor

performs with a typical temperature coefficient of

1 ppm/Â°C (measured at code 80h). At lower codes, the

wiper resistance temperature coefficient will dominate.

Figure 2-3 shows the effect of the wiper. Above the

lower codes, this figure shows that 70% of the states

will typically have a temperature coefficient of less than

5 ppm/Â°C. 30% of the states will typically have a

ppm/Â°C of less than 1.

DS11195C-page 14

ï£© 2003 Microchip Technology Inc.

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