DT28F160S3-75 데이터 시트보기 (PDF) - Intel
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DT28F160S3-75 Datasheet PDF : 52 Pages
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28F160S3, 28F320S3
E
Following a program, block erase, set block lock-bit,
or clear block lock-bits command sequence, only
SR.7 is valid until the Write State Machine
completes or suspends the operation. Device I/O
pins DQ0-6 and DQ8-15 are invalid. When the
operation completes or suspends (SR.7 = 1), all
contents of the Status Register are valid when read.
The eXtended Status Register (XSR) may be read
to determine Write Buffer availability (see Table 16).
The XSR may be read at any time by writing the
Write to Buffer command. After writing this
command, all subsequent read operations output
data from the XSR, until another valid command is
written. The contents of the XSR are latched on the
falling edge of OE# or CEX# whichever occurs last
in the read cycle. Write to buffer command must be
re-issued to update the XSR latch.
4.5 Clear Status Register
Command
Status Register bits SR.5, SR.4, SR.3, and SR.1
are set to “1”s by the WSM and can only be reset
by the Clear Status Register command. These bits
indicate various failure conditions (see Table 15).
By allowing system software to reset these bits,
several operations (such as cumulatively erasing or
locking multiple blocks or programming several
bytes/words in sequence) may be performed. The
Status Register may be polled to determine if an
error occurred during the sequence.
To clear the Status Register, the Clear Status
Register command is written. It functions
independently of the applied VPP voltage. This
command is not functional during block erase or
program suspend modes.
4.6 Block Erase Command
Block Erase is executed one block at a time and
initiated by a two-cycle command. A Block Erase
Setup command is written first, followed by a
Confirm command. This command sequence
requires appropriate sequencing and an address
within the block to be erased (erase changes all
block data to FFH). Block preconditioning, erase,
and verify are handled internally by the WSM
(invisible to the system). After the two-cycle block
erase sequence is written, the device automatically
outputs Status Register data when read (see Figure
10). The CPU can detect block erase completion by
26
analyzing STS in level RY/BY# mode or Status
Register bit SR.7. Toggle OE#, CE0#, or CE1# to
update the Status Register.
When the block erase is complete, Status Register
bit SR.5 should be checked. If a block erase error is
detected, the Status Register should be cleared
before system software attempts corrective actions.
The CUI remains in read Status Register mode until
a new command is issued.
This two-step command sequence of set-up
followed by execution ensures that block contents
are not accidentally erased. An invalid Block Erase
command sequence will result in both Status
Register bits SR.4 and SR.5 being set to “1.” Also,
reliable block erasure can only occur when
VCC = VCC1/2 and VPP = VPPH1/2. In the absence of
these voltages, block contents are protected
against erasure. If block erase is attempted while
VPP ≤ VPPLK, SR.3 and SR.5 will be set to “1.”
Successful block erase requires that the
corresponding block lock-bit be cleared, or WP# =
VIH. If block erase is attempted when the
corresponding block lock-bit is set and WP# = VIL,
the block erase will fail and SR.1 and SR.5 will be
set to “1.”
4.7 Full Chip Erase Command
The Full Chip Erase command followed by a
Confirm command erases all unlocked blocks. After
the Confirm command is written, the device erases
all unlocked blocks from block 0 to block 31 (or 63)
sequentially. Block preconditioning, erase, and
verify are handled internally by the WSM. After the
Full Chip Erase command sequence is written to
the CUI, the device automatically outputs the Status
Register data when read. The CPU can detect full
chip erase completion by polling the STS pin in
level RY/BY# mode or Status Register bit SR.7.
When the full chip erase is complete, Status
Register bit SR.5 should be checked to see if the
operation completed successfully. If an erase error
occurred, the Status Register should be cleared
before issuing the next command. The CUI remains
in read Status Register mode until a new command
is issued. If an error is detected while erasing a
block during a full chip erase operation, the WSM
skips the remaining cells in that block and proceeds
to erase the next block. Reading the block valid
status code by issuing the Read Identifier Codes
command or Query command informs the user of
which block(s) failed to erase.
ADVANCE INFORMATION
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