x9521v20iz-b Intersil Corporation, x9521v20iz-b Datasheet - Page 13

x9521v20iz-b

Manufacturer Part Number

x9521v20iz-b

Description

Dual Dcp, Eeprom Memory

Manufacturer

Intersil Corporation

Datasheet

1.X9521V20IZ-B.pdf (24 pages)

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The region of EEPROM memory which is protected /

locked is determined by the combination of the BL1 and

BL0 bits written to the CONSTAT register. It is possible

to lock the regions of EEPROM memory shown in the

table below:

If the user attempts to perform a write operation on a pro-

tected region of EEPROM memory, the operation is

aborted without changing any data in the array.

When the Block Lock bits of the CONSTAT register are

set to something other than BL1 = 0 and BL0 = 0, then

the “wiper position” of the DCPs cannot be changed - i.e.

DCP write operations cannot be conducted:

The factory default setting for these bits are BL1 = 0,

BL0 = 0.

IMPORTANT NOTE: If the Write Protect (WP) pin of the

X9521 is active (HIGH), then all nonvolatile write opera-

tions to both the EEPROM memory and DCPs are inhib-

ited, irrespective of the Block Lock bit settings (See "WP:

Write Protection Pin").

CONSTAT Register Write Operation

The CONSTAT register is accessed using the Slave

Address set to 1010010 (Refer to Figure 4.). Following

the Slave Address Byte, access to the CONSTAT regis-

ter requires an Address Byte which must be set to FFh.

BL1 BL0

SCL

SDA

BL1

BL0

Protected Addresses

80h - FFh

00h - FFh

C0h - FFh

SLAVE ADDRESS BYTE

None (Default)

DCP Write Operation Permissible

(Size)

(128 bytes

(256 bytes)

(64 bytes

Figure 18. CONSTAT Register Write Command Sequence

YES (Default)

)

R/W A

Partition of array

None (Default)

Upper 1/4

Upper 1/2

locked

All

ADDRESS BYTE

X9521

Only one data byte is allowed to be written for each

CONSTAT register Write operation. The user must issue

a STOP, after sending this byte to the register, to initiate

the nonvolatile cycle that stores the BP1and BP0 bits.

The X9521 will not ACKNOWLEDGE any data bytes

written after the first byte is entered (Refer to Figure 18.).

When writing to the CONSTAT register, the bits CS7-

CS5 and CS0 must all be set to “0”. Writing any other bit

sequence to bits CS7-CS5 and CS0 of the CONSTAT

Prior to writing to the CONSTAT register, the WEL and

RWEL bits must be set using a two step process, with

the whole sequence requiring 3 steps

—Write a 02H to the CONSTAT Register to set the Write

—Write a 06H to the CONSTAT Register to set the Reg-

—Write a one byte value to the CONSTAT Register that

Enable Latch (WEL). This is a volatile operation, so

there is no delay after the write. (Operation preceded

by a START and ended with a STOP).

ister Write Enable Latch (RWEL) AND the WEL bit.

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

are required. (Operation preceded by a START and

ended with a STOP).

has all the bits set to the desired state. The CONSTAT

where st are the Block Lock Protection (BL1 and BL0)

bits. This operation is proceeded by a START and

ended with a STOP bit. Since this is a nonvolatile write

cycle, it will typically take 5ms to complete. The RWEL

bit is reset by this cycle and the sequence must be

repeated to change the nonvolatile bits again. If bit 2 is

set to ‘1’ in this third step (000s t110) then the RWEL

bit is set, but the BL1 and BL0 bits remain unchanged.

Writing a second byte to the control register is not

allowed. Doing so aborts the write operation and the

X9521 does not return an ACKNOWLEDGE.

CS7 CS6 CS5 CS4 CS3 CS2 CS1 CS0

CONSTAT REGISTER DATA IN

January 3, 2006

FN8207.1

x9521v20iz-b Intersil Corporation, x9521v20iz-b Datasheet - Page 13

x9521v20iz-b

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