X4043-45 Datasheet, PDF(9/24 Page) Intersil Corporation – 2.7V to 5.5V power supply operation

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X4043-45 Datasheet, PDF (9/24 Pages) Intersil Corporation – 2.7V to 5.5V power supply operation

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X4043, X4045

The state of the control register can be read at any time

by performing a random read at address 1FFh, using

the special preamble. Only one byte is read by each

the first byte is read. The master should supply a stop

condition to be consistent with the bus protocol, but a

stop is not required to end this operation.

0 WD1 WD0 BP1 BP0 RWEL WEL BP2

RWEL: Register Write Enable Latch (Volatile)

The RWEL bit must be set to â1â prior to a write to the

Control Register.

WEL: Write Enable Latch (Volatile)

The WEL bit controls the access to the memory and to

the Register during a write operation. This bit is a vola-

tile latch that powers up in the LOW (disabled) state.

While the WEL bit is LOW, writes to any address,

including any control registers will be ignored (no

acknowledge will be issued after the Data Byte). The

WEL bit is set by writing a â1â to the WEL bit and

zeroes to the other bits of the control register. Once

set, WEL remains set until either it is reset to 0 (by

writing a â0â to the WEL bit and zeroes to the other bits

of the control register) or until the part powers up

again. Writes to the WEL bit do not cause a nonvolatile

write cycle, so the device is ready for the next opera-

tion immediately after the stop condition.

BP2, BP1, BP0: Block Protect Bits (Nonvolatile)

The block protect bits, BP2, BP1 and BP0, determine

which blocks of the array are write protected. A write to

a protected block of memory is ignored. The block pro-

tect bits will prevent write operations to one of eight

segments of the array.

Protected Addresses

(Size)

Array Lock

0 0 0 None (factory setting)

None

0 0 1 180h - 1FFh (128 bytes) Upper 1/4 (Q4)

0 1 0 100h - 1FFh (256 bytes) Upper 1/2 (Q3,Q4)

0 1 1 000h - 1FFh (512 bytes) Full Array (All)

1 0 0 000h - 00Fh (16 bytes) First Page (P1)

1 0 1 000h - 01Fh (32 bytes) First 2 pgs (P2)

1 1 0 000h - 03Fh (64 bytes) First 4 pgs (P4)

1 1 1 000h - 07Fh (128 bytes) First 8 pgs (P8)

WD1, WD0: Watchdog Timer Bits

The bits WD1 and WD0 control the period of the

watchdog timer. The options are shown below.

WD1

WD0

Watchdog Time Out Period

1.4 seconds

600 milliseconds

200 milliseconds

Disabled (factory setting)

Writing to the Control Register

Changing any of the nonvolatile bits of the control reg-

ister requires the following steps:

â Write a 02H to the control register to set the write

enable latch (WEL). This is a volatile operation, so

there is no delay after the write. (Operation pre-

ceeded by a start and ended with a stop).

â Write a 06H to the control register to set both the

This is also a volatile cycle. The zeros in the data

byte are required. (Operation preceeded by a start

and ended with a stop).

â Write a value to the control register that has all the

control bits set to the desired state. This can be rep-

resented as 0xys t01r in binary, where xy are the

WD bits, and rst are the BP bits. (Operation pre-

ceeded by a start and ended with a stop). Since this

is a nonvolatile write cycle it will take up to 10ms to

complete. The RWEL bit is reset by this cycle and

the sequence must be repeated to change the non-

volatile bits again. If bit 2 is set to â1â in this third step

(0xys t11r) then the RWEL bit is set, but the WD1,

WD0, BP2, BP1 and BP0 bits remain unchanged.

Writing a second byte to the control register is not

allowed. Doing so aborts the write operation and

returns a NACK.

â A read operation occurring between any of the previ-

ous operations will not interrupt the register write

operation.

â The RWEL bit cannot be reset without writing to the

nonvolatile control bits in the control register, power

cycling the device or attempting a write to a write

protected block.

To illustrate, a sequence of writes to the device con-

sisting of [02H, 06H, 02H] will reset all of the nonvola-

tile bits in the control register to 0. A sequence of [02H,

06H, 06H] will leave the nonvolatile bits unchanged

and the RWEL bit remains set.

FN8118.3

December 9, 2015

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