EN29GL064 Datasheet, PDF(29/66 Page) Eon Silicon Solution Inc. – 64 Megabit (8192K x 8-bit / 4096K x 16-bit) Flash Memory

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EN29GL064 Datasheet, PDF (29/66 Pages) Eon Silicon Solution Inc. – 64 Megabit (8192K x 8-bit / 4096K x 16-bit) Flash Memory

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Preliminary EN29GL064

DQ3: Sector Erase Timeout State Indicator

After writing a sector erase command sequence, the output on DQ3 can be checked to determine

whether or not an erase operation has begun. (The sector erase timer does not apply to the chip erase

command.) When sector erase starts, DQ3 switches from â0â to â1â. This device does not support

multiple sector erase (continuous sector erase) command sequences so it is not very meaningful since

it immediately shows as a â1â after the first 30h command. Future devices may support this feature.

DQ1: Write to Buffer Abort

DQ1 indicates whether a Write to Buffer operation was aborted. Under these conditions DQ1 produces

a â1â. The system must issue the âWrite to Buffer Abort Resetâ command sequence to return the device

to reading array data.

Table 6. Write Operation Status

Standard

Mode

Program

Suspend

Mode

Erase

Suspend

Mode

Write to

Buffer

Status

Embedded Program Algorithm

Embedded Erase Algorithm

Program

Suspend

Read

Erase

Suspend

Read

Program Suspended

Sector

Non-Program

Suspended Sector

Erase Suspended

Sector

Non-Erase

Suspended Sector

Erase Suspend Program

(Embedded Program)

Busy(note 3)

Abort(note 4)

DQ7

(note 2)

DQ7#

DQ6

Toggle

DQ5

(note 1)

DQ3

N/A

DQ2

(note 2)

Toggle

Invalid (Not allowed)

Toggle

Data

N/A

Data

Toggle

N/A

Toggle

N/A

Toggle

N/A

DQ1 RY/BY#

N/A

Notes

1. DQ5 switches to 1 when an Embedded Program, Embedded Erase, or Write-to-Buffer operation has

exceeded the maximum timing limits.

2. DQ7 and DQ2 require a valid address when reading status information. Refer to the appropriate

subsection for further details.

3. The Data# Polling algorithm should be used to monitor the last loaded write-buffer address location.

4. DQ1 switches to 1 when the device has aborted the write-to-buffer operation

Writing Commands/Command Sequences

During a write operation, the system must drive CE# and WE# to VIL and OE# to VIH when providing an

address, command, and data. Addresses are latched on the last falling edge of WE# or CE#, while data

is latched on the 1st rising edge of WE# or CE#. An erase operation can erase one sector or the entire

device. Table 3 indicate the address space that each sector occupies. The device address space is

divided into uniform 32KW/64KB sectors. A sector address is the set of address bits required to uniquely

select a sector. ICC2 in âDC Characteristicsâ represents the active current specification for the write

mode. âAC Characteristicsâ contains timing specification tables and timing diagrams for write operations.

This Data Sheet may be revised by subsequent versions

or modifications due to changes in technical specifications.

Rev. A, Issue Date: 2009/3/20

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