AM29LV641DH120REF Spansion Inc., AM29LV641DH120REF Datasheet - Page 22

AM29LV641DH120REF

Manufacturer Part Number

AM29LV641DH120REF

Description

Flash Memory IC

Manufacturer

Spansion Inc.

Datasheet

1.AM29LV641DH90REI.pdf (57 pages)

Specifications of AM29LV641DH120REF

Memory Size

64Mbit

Memory Configuration

4M X 16

Ic Interface Type

Parallel

Access Time

120ns

Memory Case Style

TSOP

No. Of Pins

Operating Temperature Range

-40Â°C To +85Â°C

Termination Type

SMD

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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SecSi (Secured Silicon) Sector Flash

Memory Region

The SecSi (Secured Silicon) Sector feature provides a

Flash memory region that enables permanent part

identification through an Electronic Serial Number

(ESN). The SecSi Sector is 128 words in length, and

uses a SecSi Sector Indicator Bit (DQ7) to indicate

whether or not the SecSi Sector is locked when

shipped from the factory. This bit is permanently set at

the factory and cannot be changed, which prevents

cloning of a factory locked part. This ensures the secu-

rity of the ESN once the product is shipped to the field.

AMD offers the device with the SecSi Sector either

factor y locke d or custom er lockable. The fac-

tory-locked version is always protected when shipped

from the factory, and has the SecSi (Secured Silicon)

Sector Indicator Bit permanently set to a “1.” The cus-

tomer-lockable version is shipped with the SecSi Sec-

tor unprotected, allowing customers to utilize that

sector in any manner they choose. The customer-lock-

able version also has the SecSi Sector Indicator Bit

permanently set to a “0.” Thus, the SecSi Sector Indi-

cator Bit prevents customer-lockable devices from

being used to replace devices that are factory locked.

The SecSi sector address space in this device is allo-

cated as shown in

The system accesses the SecSi Sector through a

command sequence (see

SecSi Sector Command Sequence” on page

the system writes the Enter SecSi Sector command

sequence, it may read the SecSi Sector by using the

addresses normally occupied by the first sector (SA0).

This mode of operation continues until the system is-

sues the Exit SecSi Sector command sequence, or

until power is removed from the device. On power-up,

or following a hardware reset, the device reverts to

sending commands to sector SA0.

Factory Locked: SecSi Sector Programmed and

Protected At the Factory

In devices with an ESN, the SecSi Sector is protected

when the device is shipped from the factory. The SecSi

Sector cannot be modified in any way. A factory locked

device has an 8-word random ESN at addresses

000000h–000007h.

Customers may opt to have their code programmed by

AMD through the AMD ExpressFlash service. The de-

vices are then shipped from AMD’s factory with the

000008h–00007Fh

000000h–000007h

Address Range

SecSi Sector

Table 5. SecSi Sector Contents

Factory Locked

Unavailable

Table

Standard

ESN

“Enter SecSi Sector/Exit

Factory Locked

ExpressFlash

Determined by

determined by

customer

ESN or

Am29LV640D/Am29LV641D

Determined by

Customer

Lockable

customer

24). After

D A T A

S H E E T

SecSi Sector permanently locked. Contact an AMD

representative for details on using AMD’s Express-

Flash service.

Customer Lockable: SecSi Sector NOT

Programmed or Protected At the Factory

As an alternative to the factory-locked version, the de-

vice can be ordered such that the customer may pro-

gra m an d p rote c t the 12 8 -wo rd S e c S i s e cto r.

Programming and protecting the SecSi Sector must be

used with caution since, once protected, there is no

procedure available for unprotecting the SecSi Sector

area and none of the bits in the SecSi Sector memory

space can be modified in any way.

You can protect the SecSi Sector area using one of the

following procedures:

■ Write the three-cycle Enter SecSi Sector Region

Once the SecSi Sector is programmed, locked, and

verified, the system must write the Exit SecSi Sector

Region command sequence to return to reading and

writing within the remainder of the array.

Hardware Data Protection

The command sequence requirement of unlock cycles

for programming or erasing provides data protection

against inadver tent writes (refer to

page 28

lowing hardware data protection measures prevent ac-

cidental erasure or programming, which might

otherwise be caused by spurious system level signals

during V

from system noise.

Low V

When V

cept any write cycles. This protects data during V

power-up and power-down. The command register

and all internal program/erase circuits are disabled,

and the device resets to the read mode. Subsequent

writes are ignored until V

system must provide the proper signals to the control

pins to prevent unintentional writes when V

greater than V

command sequence, and then follow the in-system

sector protect algorithm as shown in

page

or V

Sector without raising any device pin to a high volt-

age. Note that this method is only applicable to the

SecSi Sector.

command sequence, then use the alternate method

of sector protection described in the

Protection and Unprotection” on page

. This allows in-system protection of the SecSi

19, except that RESET# may be at either V

for command definitions). In addition, the fol-

Write Inhibit

is less than V

power-up and power-down transitions, or

LKO

, the device does not ac-

is greater than V

22366C6 January 22, 2007

“Sector Group

Table 10 on

17.

Figure 2, on

LKO

. The

AM29LV641DH120REF Spansion Inc., AM29LV641DH120REF Datasheet - Page 22

AM29LV641DH120REF

Specifications of AM29LV641DH120REF

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