X9269 Datasheet, PDF(7/25 Page) Xicor Inc. – Dual Digitally-Controlled Potentiometers

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X9269 Datasheet, PDF (7/25 Pages) Xicor Inc. – Dual Digitally-Controlled Potentiometers

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X9269

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 X9269

initiates the internal write cycle. ACK polling, Flow 1,

can be initiated immediately. This involves issuing the

start condition followed by the device slave address. If

the X9269 is still busy with the write operation no ACK

will be returned. If the X9269 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

EnterACK Polling

Issue

START

Issue Slave

Address

Issue STOP

ACK

Returned?

Yes

Further

Operation?

Yes

Issue

Instruction

Issue STOP

Proceed

INSTRUCTION AND REGISTER DESCRIPTION

Instructions

DEVICE ADDRESSING: IDENTIFICATION BYTE (ID AND A)

The ï¬rst byte sent to the X9269 from the host is called

the Identiï¬cation Byte. The most signiï¬cant four bits of

the slave address are a device type identiï¬er. The

ID[3:0] bits is the device id for the X9269; this is ï¬xed

as 0101[B] (refer to Table 1).

The A[3:0] bits in the ID byte is the internal slave

address. The physical device address is deï¬ned by

the state of the A3-A0 input pins. The slave address is

externally speciï¬ed by the user. The X9269 compares

the serial data stream with the address input state; a

successful compare of both address bits is required

for the X9269 to successfully continue the command

sequence. Only the device which slave address

matches the incoming device address sent by the

master executes the instruction. The A3-A0 inputs

can be actively driven by CMOS input signals or tied

to VCC or VSS.

INSTRUCTION BYTE (I)

The next byte sent to the X9269 contains the

instruction and register pointer information. The three

most signiï¬cant bits are used provide the instruction

opcode I [3:0]. The RB and RA bits point to one of the

four Data Registers of each associated XDCP. The

least signiï¬cant bit points to one of two Wiper Counter

Registers or Pots. The format is shown in Table 2.

DR0

DR1

DR2

DR3

REV 1.1.11 2/17/03

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Characteristics subject to change without notice. 7 of 25

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