X5043S8ZT1 Datasheet, PDF(9/21 Page) Intersil Corporation

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X5043S8ZT1 Datasheet, PDF (9/21 Pages) Intersil Corporation – CPU Supervisor with 4K SPI EEPROM

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X5043, X5045

Write Enable Latch

The device contains a Write Enable Latch. This latch must be

SET before a Write Operation is initiated. The WREN

instruction will set the latch and the WRDI instruction will reset

the latch (Figure 5). This latch is automatically reset upon a

power-up condition and after the completion of a valid byte,

page, or status register write cycle. The latch is also reset if WP

is brought LOW.

When issuing a WREN, WRDI or RDSR commands, it is not

necessary to send a byte address or data.

the array that is block lock protected can be read but not

written. It will remain protected until the BL bits are altered to

disable block lock protection of that portion of memory.

STATUS REG BITS

BL1

BL0

ARRAY ADDRESSES PROTECTED

X5043, X5045

None

$180â$1FF

$100â$1FF

$000â$1FF

SCK

01234567

High Impedance

FIGURE 5. WRITE ENABLE/DISABLE LATCH SEQUENCE

(WREN/WRDI INSTRUCTION)

Status Register

The Status Register contains four nonvolatile control bits and

two volatile status bits. The control bits set the operation of

the watchdog timer and the memory block lock protection.

The Status Register is formatted as shown in âStatus

Registerâ.

Status Register: (Default = 30H)

0 WD1 WD0 BL1 BL0 WEL WIP

The Write-In-Progress (WIP) bit is a volatile, read only bit

and indicates whether the device is busy with an internal

nonvolatile write operation. The WIP bit is read using the

RDSR instruction. When set to a â1â, a nonvolatile write

operation is in progress. When set to a â0â, no write is in

progress.

The Write Enable Latch (WEL) bit indicates the status of the

âwrite enableâ latch. When WEL = 1, the latch is set and

when WEL = 0 the latch is reset. The WEL bit is a volatile,

read only bit. The WREN instruction sets the WEL bit and the

WRDS instruction resets the WEL bit.

The block lock bits, BL0 and BL1, set the level of block lock

protection. These nonvolatile bits are programmed using the

WRSR instruction and allow the user to protect one quarter,

one half, all or none of the EEPROM array. Any portion of

The Watchdog Timer bits, WD0 and WD1, select the

Watchdog Time-out Period. These nonvolatile bits are

programmed with the WRSR instruction.

STATUS REGISTER BITS

WD1

WD0

WATCHDOG TIME OUT

(TYPICAL)

1.4 seconds

600 milliseconds

200 milliseconds

disabled (factory default)

Read Status Register

To read the Status Register, pull CS low to select the device,

then send the 8-bit RDSR instruction. Then the contents of

the Status Register are shifted out on the SO line, clocked by

CLK. Refer to the Read Status Register Sequence (Figure

6). The Status Register may be read at any time, even during

a Write Cycle.

Write Status Register

Prior to any attempt to write data into the status register, the

âWrite Enableâ Latch (WEL) must be set by issuing the

WREN instruction (Figure 5). First pull CS LOW, then clock

the WREN instruction into the device and pull CS HIGH.

Then bring CS LOW again and enter the WRSR instruction

followed by 8 bits of data. These 8 bits of data correspond to

the contents of the status register. The operation ends with

CS going HIGH. If CS does not go HIGH between WREN

and WRSR, the WRSR instruction is ignored.

FN8126.2

March 16, 2006

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