M29W160FB70N3F NUMONYX, M29W160FB70N3F Datasheet - Page 50
M29W160FB70N3F
Manufacturer Part Number
M29W160FB70N3F
Description
IC FLASH 16MBIT 70NS 48TSOP
Manufacturer
NUMONYX
Series
Axcell™r
Datasheet
1.M29W320FT70N3E.pdf
(57 pages)
Specifications of M29W160FB70N3F
Format - Memory
FLASH
Memory Type
FLASH - Nor
Memory Size
16M (2M x 8 or 1M x 16)
Speed
70ns
Interface
Parallel
Voltage - Supply
2.7 V ~ 3.6 V
Operating Temperature
-40°C ~ 125°C
Package / Case
48-TSOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
M29W160FB70N3FCT
Appendix C
9.1
9.2
50/57
Block protection can be used to prevent any operation from modifying the data stored in the
Flash memory. Each Block can be protected individually. Once protected, Program and
Erase operations on the block fail to change the data.
There are three techniques that can be used to control Block Protection, these are the
Programmer technique, the In-System technique and Temporary Unprotection. Temporary
Unprotection is controlled by the Reset/Block Temporary Unprotection pin, RP; this is
described in the signal descriptions section.
Unlike the command interface of the Program/Erase controller, the techniques for protecting
and unprotecting blocks could change between different Flash memory suppliers.
Programmer technique
The Programmer technique uses high (V
cannot be achieved using a standard microprocessor bus, therefore the technique is
recommended only for use in Programming Equipment.
To protect a block follow the flowchart in
flowchart. During the Block Protect algorithm, the Amax-A12 address inputs indicate the
address of the block to be protected. The block will be correctly protected only if Amax-A12
remain valid and stable, and if Chip Enable is kept Low, V
phases.
The Chip Unprotect algorithm is used to unprotect all the memory blocks at the same time.
This algorithm can only be used if all of the blocks are protected first. To unprotect the chip
follow
technique bus operations, BYTE = V
The timing on these flowcharts is critical. Care should be taken to ensure that, where a
pause is specified, it is followed as closely as possible. Do not abort the procedure before
reaching the end. Chip Unprotect can take several seconds and a user message should be
provided to show that the operation is progressing.
In-system technique
The in-system technique requires a high voltage level on the Reset/Blocks Temporary
Unprotect pin, RP. This can be achieved without violating the maximum ratings of the
components on the microprocessor bus, therefore this technique is suitable for use after the
Flash memory has been fitted to the system.
To protect a block follow the flowchart in
flowchart. To unprotect the whole chip it is necessary to protect all of the blocks first, then all
the blocks can be unprotected at the same time. To unprotect the chip follow
system equipment chip unprotect
The timing on these flowcharts is critical. Care should be taken to ensure that, where a
pause is specified, it is followed as closely as possible. Do not allow the microprocessor to
service interrupts that will upset the timing and do not abort the procedure before reaching
the end. Chip Unprotect can take several seconds and a user message should be provided
to show that the operation is progressing.
Figure 20: Programmer equipment chip unprotect
Block protection
flowchart.
IH
or V
Figure 19: Programmer equipment block protect
Figure 21: In-system equipment block protect
ID
) voltage levels on some of the bus pins. These
IL
, gives a summary of each operation.
flowchart.
IL
, all along the Protect and Verify
Table 29: Programmer
Figure 22: In-
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