X9418_06 Datasheet, PDF(4/20 Page) Intersil Corporation – Dual Digitally Controlled Potentiometers

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X9418_06 Datasheet, PDF (4/20 Pages) Intersil Corporation – Dual Digitally Controlled Potentiometers

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X9418

The X9418 will respond with an acknowledge after

recognition of a start condition and its slave address

and once again after successful receipt of the

command byte. If the command is followed by a data

byte the X9418 will respond with a final acknowledge.

Array Description

The X9418 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 CMOS 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 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

significant four bits of the slave address are the device

type identifier (refer to Figure 1 below). For the X9418

this is fixed as 0101[B].

Figure 1. Slave Address

Device Type

Identifier

0 1 0 1 A3 A2 A1 A0

Acknowledge Polling

The disabling of the inputs, during the internal

nonvolatile write operation, can be used to take

advantage of the typical 5ms EEPROM write cycle

time. Once the stop condition is issued to indicate the

end of the nonvolatile write command the X9418

initiates the internal write cycle. ACK polling can be

initiated immediately. This involves issuing the start

condition followed by the device slave address. If the

X9418 is still busy with the write operation no ACK will

be returned. If the X9418 has completed the write

operation an ACK will be returned, and the master can

then proceed with the next operation.

Flow 1. ACK Polling Sequence

Nonvolatile Write

Command Completed

Enter ACK Polling

Issue

START

Issue Slave

Address

Issue STOP

ACK

Returned?

YES

Further

Operation?

YES

Issue

Instruction

Issue STOP

Device Address

The next four bits of the slave address are the device

address. The physical device address is defined by

the state of the A0 - A3 inputs. The X9418 compares

the serial data stream with the address input state; a

successful compare of all four address bits is required

for the X9418 to respond with an acknowledge. The

A0 - A3 inputs can be actively driven by CMOS input

signals or tied to VCC or VSS.

Proceed

Instruction Structure

The next byte sent to the X9418 contains the instruction

and register pointer information. The four most

significant bits are the instruction. The next four bits

point to one of the two pots and when applicable they

point to one of four associated registers. The format is

shown Figure 2.

FN8194.3

October 12, 2006

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