HY29F002T
Successive read cycles at any address during an
Automatic Program algorithm operation (including
programming while in Erase Suspend mode)
cause DQ[6] to toggle. DQ[6] stops toggling when
the operation is complete. If a program address
falls within a protected sector, DQ[6] toggles for
approximately 2 µs after the program command
sequence is written, then returns to reading array
data.
approximately 100 µs, then returns to reading ar-
ray data. If at least one selected sector is not
protected, the Automatic Erase algorithm erases
the unprotected sectors, and ignores the selected
sectors that are protected.
DQ[2] - Toggle Bit II
Toggle Bit II, DQ[2], when used with DQ[6], indi-
cates whether a particular sector is actively eras-
ing or whether that sector is erase-suspended.
Toggle Bit II is valid after the rising edge of the
final WE# pulse in the command sequence. The
device toggles DQ[2] with each OE# or CE# read
cycle.
While the Automatic Erase algorithm is operating,
successive read cycles at any address cause
DQ[6] to toggle. DQ[6] stops toggling when the
erase operation is complete or when the device is
placed in the Erase Suspend mode. The host may
use DQ[2] to determine which sectors are erasing
or erase-suspended (see below). After an Erase
command sequence is written, if all sectors se-
lected for erasing are protected, DQ[6] toggles for
DQ[2] toggles when the host reads at addresses
within sectors that have been selected for erasure,
but cannot distinguish whether the sector is ac-
tively erasing or is erase-suspended. DQ[6], by
comparison, indicates whether the device is ac-
tively erasing or is in Erase Suspend, but cannot
distinguish which sectors are selected for erasure.
Thus, both status bits are required for sector and
mode information.
START
Read DQ[7:0]
at Valid Address (Note 1)
Figure 8 illustrates the operation of Toggle Bits I
and II.
Test for DQ[7] = 1?
for Erase Operation
DQ[7] = Data?
YES
DQ[5] - Exceeded Timing Limits
NO
DQ[5] is set to a ‘1’ when the program or erase
time has exceeded a specified internal pulse count
limit. This is a failure condition that indicates that
the program or erase cycle was not successfully
completed. DQ[5] status is valid only while DQ[7]
or DQ[6] indicate that an Automatic Algorithm is
in progress.
NO
DQ[5] = 1?
YES
Read DQ[7:0]
at Valid Address (Note 1)
The DQ[5] failure condition will also be signaled if
the host tries to program a ‘1’ to a location that is
previously programmed to ‘0’, since only an erase
operation can change a ‘0’ to a ‘1’.
Test for DQ[7] = 1?
for Erase Operation
DQ[7] = Data?
(Note 2)
YES
For both of these conditions, the host must issue
a Read/Reset command to return the device to
the Read mode.
NO
PROGRAM/ERASE
EXCEEDED TIME ERROR
PROGRAM/ERASE
COMPLETE
Notes:
1. During programming, the program address.
DQ[3] - Sector Erase Timer
During sector erase, an address within any non-protected sector
scheduled for erasure.
During chip erase, an address within any non-protected sector.
2. Recheck DQ[7] since it may change asynchronously at the same time
as DQ[5].
After writing a Sector Erase command sequence,
the host may read DQ[3] to determine whether or
not an erase operation has begun. When the
sector erase time-out expires and the sector erase
operation commences, DQ[3] switches from a ‘0’
Figure 7. Data# Polling Test Algorithm
Rev. 4.1/May 01
16
HYNIX [ HYNIX SEMICONDUCTOR ]
