x9525vzi Intersil Corporation, x9525vzi Datasheet - Page 7

x9525vzi

Manufacturer Part Number

x9525vzi

Description

Dual Dcp, Eeprom Memory

Manufacturer

Intersil Corporation

Datasheet

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the associated NVM register remains unchanged. There-

fore, when Vcc to the device is powered down then back

up, the “wiper position” reverts to that last written to the

DCP using a nonvolatile write operation.

DCP Write Operation

A write to DCPx (x = 1,2) can be performed using the

three byte command sequence shown in Figure 9.

In order to perform a write operation on a particular DCP,

the Write Enable Latch (WEL) bit of the CONSTAT Reg-

ister must first be set (See “BL1, BL0: Block Lock protec-

tion bits - (Nonvolatile)” on page 12.)

The Slave Address Byte 1010A

Write to a DCP is to be conducted. An ACKNOWLEDGE

is returned by the X9525 after the Slave Address, if it has

been received correctly.

Next, an Instruction Byte is issued on SDA. Bits P1 and

P0 of the Instruction Byte determine which WCR is to

be written, while the WT bit determines if the Write is to

†

This bit has no effect when a Read operation is being performed.

WRITE TYPE

†

Figure 8.

Select a Volatile Write operation to be performed

on the DCP pointed to by bits P1 and P0

Select a Nonvolatile Write operation to be per-

formed on the DCP pointed to by bits P1 and P0

SLAVE ADDRESS BYTE

Instruction Byte Format

Description

110 specifies that a

Figure 9.

DCP SELECT

INSTRUCTION BYTE

DCP Write Command Sequence

X9525

be volatile or nonvolatile. If the Instruction Byte format is

valid, another ACKNOWLEDGE is then returned by the

X9525.

Following the Instruction Byte, a Data Byte is issued to

the X9525 over SDA. The Data Byte contents is latched

into the WCR of the DCP on the first rising edge of the

clock signal, after the LSB of the Data Byte (D0) has

been issued on SDA (See Figure 27).

The Data Byte determines the “wiper position” (which

FET switch of the DCP resistive array is switched ON) of

the DCP. The maximum value for the Data Byte depends

upon which DCP is being addressed (see Table below).

Using a Data Byte larger than the values specified above

results in the “wiper terminal” being set to the highest tap

position. The “wiper position” does NOT roll-over to the

lowest tap position.

For DCP2 (256 Tap), the Data Byte maps one to one to

the “wiper position” of the DCP “wiper terminal”. There-

fore, the Data Byte 00001111 (15 10 ) corresponds to set-

ting the “wiper terminal” to tap position 15. Similarly, the

Data Byte 00011100 (28 10 ) corresponds to setting the

“wiper terminal” to tap position 28. The mapping of the

Data Byte to “wiper position” data for DCP1 (100 Tap), is

shown in “APPENDIX 1” . An example of a simple C lan-

guage function which “translates” between the tap posi-

tion (decimal) and the Data Byte (binary) for DCP1, is

given in “APPENDIX 2” .

P1 P0

P1-P0

DCPx

D7 D6 D5 D4 D3 D2 D1 D0

x = 1

x = 2

DATA BYTE

# Taps

100

256

Reserved

Refer to APPENDIX 1

Max. Data Byte

FFh

January 3, 2006

FN8210.1

x9525vzi Intersil Corporation, x9525vzi Datasheet - Page 7

x9525vzi

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