a29800tm-90i AMIC Technology Corporation, a29800tm-90i Datasheet - Page 16
a29800tm-90i
Manufacturer Part Number
a29800tm-90i
Description
1024k X 8 Bit / 512k X 16 Bit Cmos 5.0 Volt-only, Boot Sector Flash Memory
Manufacturer
AMIC Technology Corporation
Datasheet
1.A29800TM-90I.pdf
(37 pages)
RY/
The RY/
indicates whether an Embedded algorithm is in progress or
complete. The RY/
the final
RY/
tied together in parallel with a pull-up resistor to VCC.
If the output is low (Busy), the device is actively erasing or
programming. (This includes programming in the Erase
Suspend mode.) If the output is high (Ready), the device is
ready to read array data (including during the Erase Suspend
mode), or is in the standby mode.
Table 6 shows the outputs for RY/
Timings”, “Timing Waveforms for Program Operation” and
“Timing Waveforms for Chip/Sector Erase Operation” for
more information.
I/O
Toggle Bit I on I/O
or Erase algorithm is in progress or complete, or whether the
device has entered the Erase Suspend mode. Toggle Bit I
may be read at any address, and is valid after the rising edge
of the final
the program or erase operation), and during the sector erase
time-out.
During an Embedded Program or Erase algorithm operation,
successive read cycles to any address cause I/O
(The system may use either
cycles.) When the operation is complete, I/O
After an erase command sequence is written, if all sectors
selected for erasing are protected, I/O
approximately 100μs, then returns to reading array data. If
not all selected sectors are protected, the Embedded Erase
algorithm erases the unprotected sectors, and ignores the
selected sectors that are protected.
The system can use I/O
whether a sector is actively erasing or is erase-suspended.
When the device is actively erasing (that is, the Embedded
Erase algorithm is in progress), I/O
device enters the Erase Suspend mode, I/O
However, the system must also use I/O
sectors are erasing or erase-suspended. Alternatively, the
system can use I/O
Polling").
If a program address falls within a protected sector, I/O
toggles for approximately 2μs after the program command
sequence is written, then returns to reading array data.
I/O
and stops toggling once the Embedded Program algorithm is
complete.
The Write Operation Status table shows the outputs for
Toggle Bit I on I/O
algorithm, and to the Toggle Bit Timings figure in the "AC
Characteristics" section for the timing diagram. The I/O
I/O
graphical form. See also the subsection on " I/O
II".
(November, 2007, Version 1.3)
6
6
6
BY : Read/ Busy
BY
: Toggle Bit I
also toggles during the erase-suspend-program mode,
figure shows the differences between I/O
is an open-drain output, several RY/
BY
WE
WE
is a dedicated, open-drain output pin that
pulse in the command sequence. Since
pulse in the command sequence (prior to
6
BY
indicates whether an Embedded Program
7
6
. Refer to Figure 5 for the toggle bit
(see the subsection on " I/O
status is valid after the rising edge of
6
and I/O
OE
or
2
BY
CE
together to determine
6
2
. Refer to “
toggles. When the
to determine which
to control the read
6
6
BY
stops toggling.
6
stops toggling.
2
2
toggles for
pins can be
: Toggle Bit
and I/O
6
to toggle.
RESET
7
:
Data
2
6
vs.
in
6
15
I/O
The "Toggle Bit II" on I/O
whether a particular sector is actively erasing (that is, the
Embedded Erase algorithm is in progress), or whether that
sector is erase-suspended. Toggle Bit II is valid after the
rising edge of the final
sequence.
I/O
those sectors that have been selected for erasure. (The
system may use either
cycles.) But I/O
actively erasing or is erase-suspended. I/O
indicates whether the device is actively 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. Refer to Table 6 to compare
outputs for I/O
Figure 5 shows the toggle bit algorithm in flowchart form, and
the section " I/O
also the " I/O
Bit Timings figure for the toggle bit timing diagram. The I/O
vs. I/O
graphical form.
Reading Toggle Bits I/O
Refer to Figure 5 for the following discussion. Whenever the
system initially begins reading toggle bit status, it must read
I/O
toggle bit is toggling. Typically, a system would note and
store the value of the toggle bit after the first read. After the
second read, the system would compare the new value of
the toggle bit with the first. If the toggle bit is not toggling, the
device has completed the program or erase operation. The
system can read array data on I/O
read cycle.
However, if after the initial two read cycles, the system
determines that the toggle bit is still toggling, the system also
should note whether the value of I/O
on I/O
whether the toggle bit is toggling, since the toggle bit may
have stopped toggling just as I/O
is no longer toggling, the device has successfully completed
the program or erase operation. If it is still toggling, the
device did not complete the operation successfully, and the
system must write the reset command to return to reading
array data.
The remaining scenario is that the system initially determines
that the toggle bit is toggling and I/O
system may continue to monitor the toggle bit and I/O
through successive read cycles, determining the status as
described in the previous paragraph. Alternatively, it may
choose to perform other system tasks. In this case, the
system must start at the beginning of the algorithm when it
returns to determine the status of the operation (top of Figure
5).
2
7
2
: Toggle Bit II
- I/O
toggles when the system reads at addresses within
6
5
). If it is, the system should then determine again
figure shows the differences between I/O
0
at least twice in a row to determine whether a
6
2
: Toggle Bit I" subsection. Refer to the Toggle
and I/O
2
2
: Toggle Bit II" explains the algorithm. See
cannot distinguish whether the sector is
6
.
AMIC Technology, Corp.
OE
2
, when used with I/O
6
WE
, I/O
or
5
2
went high. If the toggle bit
pulse in the command
CE
7
5
5
A29800 Series
has not gone high. The
is high (see the section
- I/O
to control the read
0
6
, by comparison,
on the following
2
6
and I/O
, indicates
6
in
2
5
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