x9523v20iz-bt1 Intersil Corporation, x9523v20iz-bt1 Datasheet - Page 7

x9523v20iz-bt1

Manufacturer Part Number

x9523v20iz-bt1

Description

Dual Dcp, Por, Dual Voltage Monitors

Manufacturer

Intersil Corporation

Datasheet

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The data in the WCR is then decoded to select and

enable one of the respective FET switches. A “make

before break” sequence is used internally for the FET

switches when the wiper is moved from one tap position

to another.

Hot Pluggability

Figure 7 shows a typical waveform that the X9523 might

experience in a Hot Pluggable situation. On power-up,

V1 / Vcc applied to the X9523 may exhibit some amount

of ringing, before it settles to the required value.

The device is designed such that the wiper terminal

stored in the DCP NVM), when the voltage applied to

V1/Vcc exceeds V

Power-on Reset time, set in the CONSTAT Register -

See “CONTROL AND STATUS REGISTER” on

page 10.).

Therefore, if

Vcc to settle above V

wiper terminal position is recalled by (a maximum) time:

by system hot plug conditions.

DCP Operations

In total there are three operations that can be performed

on any internal DCP structure:

—DCP Nonvolatile Write

—DCP Volatile Write

—DCP Read

A nonvolatile write to a DCP will change the “wiper

position” by simultaneously writing new data to the

associated WCR and NVM. Therefore, the new “wiper

position” setting is recalled into the WCR after V1/Vcc of

the X9523 is powered down and then powered back up.

trans

) is recalled to the correct position (as per the last

purst

. It should be noted that

trans

TRIP1

is defined as the time taken for V1 /

V1/Vcc

TRIP1

trans

for a time exceeding t

(Figure 7): then the desired

trans

is determined

Figure 7.

purst

(the

purst

X9523

DCP Power-up

A volatile write operation to a DCP however, changes the

“wiper position” by writing new data to the associated

WCR only. The contents of the associated NVM register

remains unchanged. Therefore, when V1/Vcc to the

device is powered down then back up, the “wiper

position” reverts to that last position written to the DCP

using a nonvolatile write operation.

Both volatile and nonvolatile write operations are

executed using a three byte command sequence: (DCP)

Slave Address Byte, Instruction Byte, followed by a Data

Byte (See Figure 9)

A DCP Read operation allows the user to “read out” the

current “wiper position” of the DCP, as stored in the

associated WCR. This operation is executed using the

Random Address Read command sequence, consisting

of the (DCP) Slave Address Byte followed by an

Instruction Byte and the Slave Address Byte again (Refer

to Figure 10.).

Instruction Byte

While the Slave Address Byte is used to select the DCP

devices, an Instruction Byte is used to determine which

DCP is being addressed.

The Instruction Byte (Figure 8) is valid only when the

Device Type Identifier and the Internal Device Address

bits of the Slave Address are set to 1010111. In this

case, the two Least Significant Bit’s (I1 - I0) of the

Instruction Byte are used to select the particular DCP (0

- 2). In the case of a Write to any of the DCPs (i.e. the

LSB of the Slave Address is 0), the Most Significant Bit of

the Instruction Byte (I7), determines the Write Type (WT)

performed.

If WT is “1”, then a Nonvolatile Write to the DCP occurs.

In this case, the “wiper position” of the DCP is changed

by simultaneously writing new data to the associated

Maximum Wiper Recall time

V1/Vcc (Max.)

TRIP1

January 3, 2006

FN8209.1

x9523v20iz-bt1 Intersil Corporation, x9523v20iz-bt1 Datasheet - Page 7

x9523v20iz-bt1

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