A25L040O-F AMIC, A25L040O-F Datasheet - Page 6

A25L040O-F

Manufacturer Part Number

A25L040O-F

Description

58T1309

Manufacturer

AMIC

Datasheet

1.A25L040-F.pdf (39 pages)

Specifications of A25L040O-F

Memory Type

Flash

Memory Size

4Mbit

Memory Configuration

4M X 1

Interface Type

Serial, SPI

Clock Frequency

100MHz

Supply Voltage Range

2.7V To 3.6V

Memory Case Style

SOIC

No. Of Pins

Rohs Compliant

Yes

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

A25L040O-F

Manufacturer:

AMIC

Quantity:

20 000

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OPERATING FEATURES

Page Programming

To program one data byte, two instructions are required: Write

Enable (WREN), which is one byte, and a Page Program (PP)

sequence, which consists of four bytes plus data. This is

followed by the internal Program cycle (of duration t

To spread this overhead, the Page Program (PP) instruction

allows up to 256 bytes to be programmed at a time (changing

bits from 1 to 0), provided that they lie in consecutive

addresses on the same page of memory.

Sector Erase, Block Erase, and Chip Erase

The Page Program (PP) instruction allows bits to be reset

from 1 to 0. Before this can be applied, the bytes of memory

need to have been erased to all 1s (FFh). This can be

achieved, a sector at a time, using the Sector Erase (SE)

instruction, a block at a time, using the Block Erase (BE)

instruction, or throughout the entire memory, using the Chip

Erase (CE) instruction. This starts an internal Erase cycle (of

duration t

The Erase instruction must be preceded by a Write Enable

(WREN) instruction.

Polling During a Write, Program or Erase Cycle

A further improvement in the time to Write Status Register

(WRSR), Program (PP) or Erase (SE, BE, or CE) can be

achieved by not waiting for the worst case delay (t

Status Register so that the application program can monitor

its value, polling it to establish when the previous Write cycle,

Program cycle or Erase cycle is complete.

Active Power, Stand-by Power and Deep

Power-Down Modes

When Chip Select (

the Active Power mode.

When Chip Select (

could remain in the Active Power mode until all internal cycles

have completed (Program, Erase, Write Status Register). The

device then goes in to the Stand-by Power mode. The device

consumption drops to I

The Deep Power-down mode is entered when the specific

instruction (the Deep Power-down Mode (DP) instruction) is

executed. The device consumption drops further to I

device remains in this mode until another specific instruction

(the Release from Deep Power-down Mode and Read

Electronic Signature (RES) instruction) is executed.

All other instructions are ignored while the device is in the

Deep Power-down mode. This can be used as an extra

software protection mechanism, when the device is not in

active use, to protect the device from inadvertent Write,

Program or Erase instructions.

(October, 2010, Version 1.2)

, t

). The Write In Progress (WIP) bit is provided in the

SE,

BE,

or t

) is Low, the device is enabled, and in

CC1

) is High, the device is disabled, but

, t

CC2

. The

, t

Status Register

The Status Register contains a number of status and control

bits that can be read or set (as appropriate) by specific

instructions.

WIP bit. The Write In Progress (WIP) bit indicates whether

the memory is busy with a Write Status Register, Program or

Erase cycle.

WEL bit. The Write Enable Latch (WEL) bit indicates the

status of the internal Write Enable Latch.

BP2, BP1, BP0 bits. The Block Protect (BP2, BP1, BP0) bits

are non-volatile. They define the size of the area to be

software protected against Program and Erase instructions.

SRWD bit. The Status Register Write Disable (SRWD) bit is

operated in conjunction with the Write Protect (

The Status Register Write Disable (SRWD) bit and Write

Protect (

Protected mode. In this mode, the non-volatile bits of the

Status Register (SRWD, BP2, BP1, BP0) become read-only

bits.

Protection Modes

The environments where non-volatile memory devices are

used can be very noisy. No SPI device can operate correctly

in the presence of excessive noise. To help combat this, the

A25L040 boasts the following data protection mechanisms:

- Power-up

- Write Disable (WRDI) instruction completion

- Write Status Register (WRSR) instruction completion

- Page Program (PP) instruction completion

- Sector Erase (SE) instruction completion

- Block Erase (BE) instruction completion

- Chip Erase (CE) instruction completion

Power-On Reset and an internal timer (t

protection against inadvertent changes while the power

supply is outside the operating specification.

Program, Erase and Write Status Register instructions are

checked that they consist of a number of clock pulses that

is a multiple of eight, before they are accepted for

execution.

All instructions that modify data must be preceded by a

Write Enable (WREN) instruction to set the Write Enable

Latch (WEL) bit. This bit is returned to its reset state by

the following events:

The Block Protect (BP2, BP1, BP0) bits allow part of the

memory to be configured as read-only. This is the

Software Protected Mode (SPM).

The Write Protect (

(BP2, BP1, BP0) bits and Status Register Write Disable

(SRWD) bit to be protected. This is the Hardware

Protected Mode (HPM).

In addition to the low power consumption feature, the

Deep Power-down mode offers extra software protection

from inadvertent Write, Program and Erase instructions,

as all instructions are ignored except one particular

instruction

instruction).

) signal allow the device to be put in the Hardware

(the

Release

AMIC Technology Corp.

) signal allows the Block Protect

from

A25L040 Series

Deep

PUW

) can provide

Power-down

) signal.

A25L040O-F AMIC, A25L040O-F Datasheet - Page 6

A25L040O-F

Specifications of A25L040O-F

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