X9221A_14 Datasheet, PDF(3/15 Page) Intersil Corporation – Dual Digitally Controlled Potentiometer

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X9221A_14 Datasheet, PDF (3/15 Pages) Intersil Corporation – Dual Digitally Controlled Potentiometer

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X9221A

PIN NAMES

Symbol

SCL

SDA

A0âA3

VH0/RH0-VH1/RH1,

VL0/RH0-VL1/RL0

VW0/RW0-VW1/RW1

RES

Description

Serial Clock

Serial Data

Address

Potentiometers

(terminal equivalent)

Potentiometers

(wiper equivalent)

Reserved (Do not connect)

PRINCIPLES OF OPERATION

The X9221A is a highly integrated microcircuit incor-

porating two resistor arrays, their associated registers

and counters and the serial interface logic providing

direct communication between the host and the XDCP

potentiometers.

Serial Interface

The X9221A supports a bidirectional bus oriented pro-

tocol. The protocol defines any device that sends data

onto the bus as a transmitter and the receiving device

as the receiver. The device controlling the transfer is a

master and the device being controlled is the slave.

The master will always initiate data transfers and pro-

vide the clock for both transmit and receive operations.

Therefore, the X9221A will be considered a slave

device in all applications.

Clock and Data Conventions

Data states on the SDA line can change only during

SCL LOW periods (tLOW). SDA state changes during

SCL HIGH are reserved for indicating start and stop

conditions.

Start Condition

All commands to the X9221A are preceded by the

start condition, which is a HIGH to LOW transition of

SDA while SCL is HIGH (tHIGH). The X9221A continu-

ously monitors the SDA and SCL lines for the start

condition, and will not respond to any command until

this condition is met.

Stop Condition

All communications must be terminated by a stop con-

dition, which is a LOW to HIGH transition of SDA while

SCL is HIGH.

Acknowledge

Acknowledge is a software convention used to provide

a positive handshake between the master and slave

devices on the bus to indicate the successful receipt of

data. The transmitting device, either the master or the

slave, will release the SDA bus after transmitting eight

bits. The master generates a ninth clock cycle and

during this period the receiver pulls the SDA line LOW

to acknowledge that it successfully received the eight

bits of data. See Figure 7.

The X9221A will respond with an acknowledge after

recognition of a start condition and its slave address

and once again after successful receipt of the com-

mand byte. If the command is followed by a data byte

the X9221A will respond with a final acknowledge.

Array Description

The X9221A is comprised of two resistor arrays. Each

array contains 63 discrete resistive segments that are

connected in series. The physical ends of each array

are equivalent to the fixed terminals of a mechanical

potentiometer (VH/RH and VL/RL inputs).

At both ends of each array and between each resistor

segment is a FET switch connected to the wiper

(VW/RW) output. Within each individual array only one

switch may be turned on at a time. These switches are

controlled by the Wiper Counter Register (WCR). The

six least significant bits of the WCR are decoded to

select, and enable, one of sixty-four switches.

The WCR may be written directly, or it can be changed

by transferring the contents of one of four associated

data registers into the WCR. These data registers and

the WCR can be read and written by the host system.

Device Addressing

Following a start condition the master must output the

address of the slave it is accessing. The most signifi-

cant four bits of the slave address are the device type

identifier (refer to Figure 1 below). For the X9221A this

is fixed as 0101[B].

Figure 1. Slave Address

Device Type

Identifier

0 1 0 1 A3 A2 A1 A0

Device Address

FN8163.2

August 30, 2006

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