Unlock Bypass Reset Command
tor address (any address location within the desired
sector) is latched on the falling edge of WE# or CE#
(whichever occurs last) while the command (30h) is
latched on the rising edge of WE# or CE# (whichever
occurs first).
The Unlock Bypass Reset command places the device
in standard read/reset operating mode. Once exe-
cuted, normal read operations and user command se-
quences are available for execution.
Specifying multiple sectors for erase is accomplished
by writing the six bus cycle operation, as described
above, and then following it by additional writes of only
the last cycle of the Sector Erase command to ad-
dresses or other sectors to be erased. The time be-
tween Sector Erase command writes must be less
than 80 µs, otherwise the command is rejected. It is
recommended that processor interrupts be disabled
during this time to guarantee this critical timing condi-
tion. The interrupts can be re-enabled after the last
Sector Erase command is written. A time-out of 80 µs
from the rising edge of the last WE# (or CE#) will ini-
tiate the execution of the Sector Erase command(s). If
another falling edge of the WE# (or CE#) occurs within
the 80 µs time-out window, the timer is reset. Once the
80 µs window has timed out and erasure has begun,
only the Erase Suspend command is recognized (see
Sector Erase and Program Suspend Command and
Sector Erase and Program Resume Command sec-
tions). If that occurs, the sector erase command se-
quence should be reinitiated once that bank has
returned to reading array data, to ensure data integrity.
Loading the sector erase registers may be done in any
sequence and with any number of sectors.
The Unlock Bypass Program Command is ignored if
the SecSi sector is enabled.
Chip Erase Command
The Chip Erase command is used to erase the entire
flash memory contents of the chip by issuing a single
command. Chip erase is a six-bus cycle operation.
There are two “unlock” write cycles, followed by writing
the erase “set up” command. Two more “unlock” write
cycles are followed by the chip erase command. Chip
erase does not erase protected sectors.
The chip erase operation initiates the Embedded
Erase algorithm, which automatically preprograms and
verifies the entire memory to an all zero pattern prior
to electrical erase. The system is not required to pro-
vide any controls or timings during these operations.
Note that a hardware reset immediately terminates
the programming operation. The command sequence
should be reinitiated once that bank has returned to
reading array data, to ensure data integrity.
The Embedded Erase algorithm erase begins on the
rising edge of the last WE# or CE# pulse (whichever
occurs first) in the command sequence. The status of
the erase operation is determined three ways:
Sector erase does not require the user to program the
device prior to erase. The device automatically prepro-
grams all memory locations, within sectors to be
erased, prior to electrical erase. When erasing a sec-
tor or sectors, the remaining unselected sectors or the
write protected sectors are unaffected. The system is
not required to provide any controls or timings during
sector erase operations. The Erase Suspend and
Erase Resume commands may be written as often as
required during a sector erase operation.
■ Data# polling of the DQ7 pin (see DQ7: Data# Poll-
ing)
■ Checking the status of the toggle bit DQ6 (see DQ6:
Toggle Bit I)
■ Checking the status of the RY/BY# pin (see
RY/BY#: Ready/Busy#)
Once erasure has begun, only the Erase Suspend
command is valid. All other commands are ignored.
Automatic sector erase operations begin on the rising
edge of the WE# or CE# pulse of the last sector erase
command issued, and once the 80 µs time-out window
has expired. The status of the sector erase operation
is determined three ways:
When the Embedded Erase algorithm is complete, the
device returns to reading array data, and addresses
are no longer latched. Note that an address change is
required to begin read valid array data.
Figure 5 illustrates the Embedded Erase Algorithm.
See the Erase/Program Operations tables in AC Char-
acteristics for parameters, and to Figure 22 for timing
diagrams.
■ Data# polling of the DQ7 pin
■ Checking the status of the toggle bit DQ6
■ Checking the status of the RY/BY# pin
Further status of device activity during the sector
erase operation is determined using toggle bit DQ2
(refer to DQ2: Toggle Bit II).
Sector Erase Command
The Sector Erase command is used to erase individ-
ual sectors or the entire flash memory contents. Sec-
tor erase is a six-bus cycle operation. There are two
“unlock” write cycles, followed by writing the erase “set
up” command. Two more “unlock” write cycles are
then followed by the erase command (30h). The sec-
When the Embedded Erase algorithm is complete, the
device returns to reading array data, and addresses
are no longer latched. Note that an address change is
required to begin read valid array data.
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