DS1802 Datasheet, PDF(8/17 Page) Dallas Semiconductor – Dual Audio Taper Potentiometer With Pushbutton Control

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DS1802 Datasheet, PDF (8/17 Pages) Dallas Semiconductor – Dual Audio Taper Potentiometer With Pushbutton Control

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DS1802

All contact closure control inputs, UC0, UC1, DC0, DC1, VU, VD, B0 and B1 are internally pulled up by

a 50 kO resistance. The UC0, UC1, DC0 DC1, VU, VD, B0, and B1 inputs are internally debounced and

require no external components for input signal conditioning.

3-WIRE SERIAL INTERFACE CONTROL

One method of communication and control of the DS1802 is accomplished through a 3-wire serial port

interface that drives an internal control logic unit. The 3-wire serial interface is designed for

microprocessor or microcontroller applications. The interface consists of three input signals which

include RST , CLK and D.

The RST control signal is used to enable 3-wire serial port write operations. The CLK terminal is a clock

signal input that provides synchronization for data I/O while the D signal input serves to transfer

potentiometer wiper position settings to the device.

As shown in Figure 5, a 3-wire serial port operation begins with a transition of the RST signal input to a

high state. Once the 3-wire port has been activated, data is clocked into the part on the low to high

transition of the CLK signal input. Data input via the D line is transferred in order of the desired

potentiometer-0 value followed by the potentiometer-1 value.

The DS1802 contains two 65-position potentiometers whose wiper positions are set by an 8-bit value.

These two 8-bit values are written to the 16-bit I/O shift register which is used to store wiper position

during powered conditions. Because the potentiometer has 65-positions, only seven bits of data are

needed to set wiper position. A detailed diagram of the 16-bit I/O shift register is shown in Figure 5. Bits

0 through 7 are reserved for the potentiometer-0 control while bits 8 through 15 are reserved for control

of potentiometer-1.

Bits 0 through 5 are used for actual wiper positioning for potentiometer-0. Bit 6 is used to mute

potentiometer-0. If this bit has value 1, the potentiometer-0 wiper will be connected to the low end of the

resistive array. The mute feature of the DS1802 will be discussed in the section entitled âMute Operation

of DS1802.â The value of bit 7 is a "donât care" and will not affect operation of the DS1802 or

potentiometer-0.

Bits 8 through 13 are used for wiper positioning of potentiometer-1. Bit 14 is used for muting of the

potentiometer-1 wiper output. Bit 15, like bit 7, is a "donât care" and will not affect operation of the

DS1802.

Data for the DS1802 is transmitted LSB first starting with bit 0. A complete transmission of 16 bits of

data is required to insure proper setting of each potentiometerâs wiper. An incomplete transmission may

result in undesired wiper settings.

Once the complete 16 bits of information has been transmitted and the RST signal input transitions to a

low state, the new wiper positions are loaded into the part.

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