M25PX64-VME6G NUMONYX, M25PX64-VME6G Datasheet - Page 16

M25PX64-VME6G

Manufacturer Part Number

M25PX64-VME6G

Description

NEW 64MB T9HX SECTOR ERASE

Manufacturer

NUMONYX

Datasheet

1.M25PX64-VME6G.pdf (70 pages)

Specifications of M25PX64-VME6G

Cell Type

NOR

Density

64Mb

Access Time (max)

8ns

Interface Type

Serial (SPI)

Boot Type

Not Required

Address Bus

24b

Operating Supply Voltage (typ)

3.3V

Operating Temp Range

-40C to 85C

Package Type

VDFPN

Program/erase Volt (typ)

2.7 to 3.6V

Sync/async

Synchronous

Operating Temperature Classification

Industrial

Operating Supply Voltage (min)

2.7V

Operating Supply Voltage (max)

3.6V

Word Size

Number Of Words

Supply Current

12mA

Mounting

Surface Mount

Pin Count

Lead Free Status / Rohs Status

Compliant

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Specific hardware and software protection

There are two software protected modes, SPM1 and SPM2, that can be combined to protect

the memory array as required. The SPM2 can be locked by hardware with the help of the W

input pin.

SPM1 and SPM2

Table 2.

Sector lock register

down bit

Lock

The first software protected mode (SPM1) is managed by specific lock registers

assigned to each 64-Kbyte sector.

The lock registers can be read and written using the read lock register (RDLR) and

write to lock register (WRLR) instructions.

In each lock register two bits control the protection of each sector: the write lock bit and

the lock down bit.

–

The definition of the lock register bits is given in

the second software protected mode (SPM2) uses the block protect bits (see

Section 6.4.3: BP2, BP1, BP0

Top/bottom

Write lock bit:

The write lock bit determines whether the contents of the sector can be modified

(using the write, program or erase instructions). When the write lock bit is set to ‘1’,

the sector is write protected – any operations that attempt to change the data in

the sector will fail. When the write lock bit is reset to ‘0’, the sector is not write

protected by the lock register, and may be modified.

Lock down bit:

The lock down bit provides a mechanism for protecting software data from simple

hacking and malicious attack. When the lock down bit is set to ‘1’, further

modification to the write lock and lock down bits cannot be performed. A power-up

is required before changes to these bits can be made. When the lock down bit is

reset to ‘0’, the write lock and lock down bits can be changed.

Software protection truth table (sectors 0 to 127, 64-Kbyte granularity)

lock bit

Write

bit) to allow part of the memory to be configured as read-only.

Sector unprotected from program/erase/write operations, protection status

reversible

Sector protected from program/erase/write operations, protection status

reversible

Sector unprotected from program/erase/write operations,

Sector protection status cannot be changed except by a power-up.

Sector protected from program/erase/write operations,

Sector protection status cannot be changed except by a power-up.

bits) and the top/bottom bit (see

Protection status

Table 9: Lock register

Section 6.4.4:

out.

M25PX64-VME6G NUMONYX, M25PX64-VME6G Datasheet - Page 16

M25PX64-VME6G

Specifications of M25PX64-VME6G

Available stocks

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