S29JL032H90TAI210 Spansion Inc., S29JL032H90TAI210 Datasheet - Page 26

S29JL032H90TAI210

Manufacturer Part Number

S29JL032H90TAI210

Description

Manufacturer

Spansion Inc.

Datasheet

1.S29JL032H90TAI210.pdf (61 pages)

Specifications of S29JL032H90TAI210

Cell Type

NOR

Density

32Mb

Access Time (max)

90ns

Interface Type

Parallel

Boot Type

Top

Address Bus

22/21Bit

Operating Supply Voltage (typ)

3/3.3V

Operating Temp Range

-40C to 85C

Package Type

TSOP

Program/erase Volt (typ)

3/8.5 to 9.5V

Sync/async

Asynchronous

Operating Temperature Classification

Industrial

Operating Supply Voltage (min)

2.7V

Operating Supply Voltage (max)

3.6V

Word Size

8/16Bit

Number Of Words

4M/2M

Supply Current

16mA

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Not Compliant

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8.13

8.13.1

8.13.2

Secured Silicon Sector Flash Memory Region

Factory Locked: Secured Silicon Sector Programmed and Protected At the

Factory

Customer Lockable: Secured Silicon Sector NOT Programmed or Protected

At the Factory

The Secured Silicon Sector feature provides a Flash memory region that enables permanent part

identification through an Electronic Serial Number (ESN). The Secured Silicon Sector is 256 bytes in length,

and is shipped unprotected, allowing customers to utilize that sector in any manner they choose. The

Secured Silicon Customer Indicator Bit (DQ6) is permanently set to 1 if the part has been customer locked

and is 0 if customer lockable. DQ7, alternatively, is set to 0 if the part has been customer locked, and is 1 if

customer-lockable.

Some current and most future Spansion devices (including future revisions of this device) will offer an option

for programming and permanently locking the Secured Silicon Sector at the factory. DQ7 will become the

Secured Silicon Factory Indicator bit, and as such the Secured Silicon Indicator Bit data will change to 82h for

factory locked, 42h for customer locked, and 02h (no longer 82h) for not factory/customer locked.

The system accesses the Secured Silicon through a command sequence (see

Exit Secured Silicon Sector Command Sequence on page

Secured Silicon Sector command sequence, it may read the Secured Silicon Sector by using the addresses

normally occupied by the boot sectors. This mode of operation continues until the system issues the Exit

Secured Silicon 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 the first 256 bytes of Sector 0. Note

that the ACC function and unlock bypass modes are not available when the Secured Silicon Sector is

enabled.

In a factory locked device, the Secured Silicon Sector is protected when the device is shipped from the

factory. The Secured Silicon Sector cannot be modified in any way. The device is preprogrammed with both a

random number and a secure ESN. The 8-word random number is at addresses 000000h–000007h in word

mode (or 000000h–00000Fh in byte mode). The secure ESN is programmed in the next 8 words at addresses

000008h–00000Fh (or 000010h–00001Fh in byte mode). The device is available preprogrammed with one of

the following:

Contact an your local sales office for details on using Spansion programming services.

If the security feature is not required, the Secured Silicon Sector can be treated as an additional Flash

memory space. The Secured Silicon Sector can be read any number of times, but can be programmed and

locked only once. Note that the accelerated programming (ACC) and unlock bypass functions are not

available when programming the Secured Silicon Sector.

The Secured Silicon Sector area can be protected using one of the following procedures:

Once the Secured Silicon Sector is locked and verified, the system must write the Exit Secured Silicon Sector

Region command sequence to return to reading and writing the remainder of the array.

The Secured Silicon Sector lock must be used with caution since, once locked, there is no procedure

available for unlocking the Secured Silicon Sector area and none of the bits in the Secured Silicon Sector

memory space can be modified in any way.

A random, secure ESN only

Customer code through Spansion programming services

Both a random, secure ESN and customer code through Spansion programming services

Write the three-cycle Enter Secured Silicon Sector Region command sequence, and then follow the in-

system sector protect algorithm as shown in

pin to a high voltage. Note that this method is only applicable to the Secured Silicon Sector.

To verify the protect/unprotect status of the Secured Silicon Sector, follow the algorithm shown in

Figure 8.3 on page

or V

. This allows in-system protection of the Secured Silicon Sector Region without raising any device

27.

S29JL032H

D a t a

Figure 8.2 on page

S h e e t

32). After the system has written the Enter

25, except that RESET# may be at either

S29JL032H_00_B8 August 31, 2009

Enter Secured Silicon Sector/

S29JL032H90TAI210 Spansion Inc., S29JL032H90TAI210 Datasheet - Page 26

S29JL032H90TAI210

Specifications of S29JL032H90TAI210

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