M29W128GH70ZA6E NUMONYX, M29W128GH70ZA6E Datasheet - Page 24
M29W128GH70ZA6E
Manufacturer Part Number
M29W128GH70ZA6E
Description
Flash Mem Parallel 3V/3.3V 128M-Bit 16M x 8/8M x 16 70ns 64-Pin TBGA Tray
Manufacturer
NUMONYX
Datasheet
1.M29W128GH70N6E.pdf
(94 pages)
Specifications of M29W128GH70ZA6E
Package
64TBGA
Cell Type
NOR
Density
128 Mb
Architecture
Sectored
Block Organization
Symmetrical
Typical Operating Supply Voltage
3|3.3 V
Sector Size
128KByte x 128
Timing Type
Asynchronous
Operating Temperature
-40 to 85 °C
Interface Type
Parallel
Available stocks
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Quantity
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Part Number:
M29W128GH70ZA6E
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Quantity:
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5.1
5.2
5.2.1
Note:
24/94
1
2
Volatile protection mode
The volatile protection allows the software application to easily protect blocks against
inadvertent change. However, the protection can be easily disabled when changes are
needed. Volatile protection bits, VPBs, are volatile and unique for each block and can be
individually modified. VPBs only control the protection scheme for unprotected blocks that
have their non-volatile protection bits, NVPBs, cleared (erased to ‘1’) (see
volatile protection mode
By issuing the VPB Program or VPB Clear commands, the VPBs are set (programmed to
‘0’) or cleared (erased to ‘1’), thus placing each block in the protected or unprotected state
respectively. The VPBs can be set (programmed to ‘0’) or cleared (erased to ‘1’) as often as
needed.
When the parts are first shipped, or after a power-up or hardware reset, the VPBs can be set
or cleared depending upon the ordering option chosen:
Refer to
Non-volatile protection mode
Non-volatile protection bits
A non-volatile protection bit (NVPB) is assigned to each block.
When a NVPB is set to ‘0’, the associated block is protected, preventing any program or
erase operations in this block.
The NVPB bits are set individually by issuing a NVPB Program command. They are non-
volatile and will remain set through a hardware reset or a power-down/power-up sequence.
The NVPBs cannot be cleared individually, they can only be cleared all at the same time by
issuing a Clear all Non-volatile Protection bits command.
The NVPBs can be protected all at a time by setting a volatile bit, the NVPB lock bit (see
Section 5.2.2: Non-volatile protection bit lock
If one of the non-volatile protected blocks needs to be unprotected (corresponding NVPB
set to ‘1’), a few more steps are required:
1.
2.
3.
To achieve the best protection, it is recommended to execute the NVPB Lock Bit Program
command early in the boot code and to protect the boot code by holding V
The NVPBs and VPBs have the same function when V
when V
If the option to clear the VPBs after power-up is selected, then the blocks can be
programmed or erased depending on the NVPBs state (see
status)
If the option to set the VPBs after power-up is selected, the blocks default to be
protected.
First, the NVPB lock bit must be cleared by either putting the device through a power
cycle, or hardware reset
The NVPBs can then be changed to reflect the desired settings
The NVPB lock bit must be set once again to lock the NVPBs. The device operates
normally again.
PP
Section 6.3.7
/WP pin is at the voltage for program acceleration (V
for a description of the volatile protection mode command set.
and
Section 6.3.5: Non-volatile protection mode command
bit).
PP
/WP pin is High, V
PPH
Table 19: Block protection
).
Section 5.2: Non-
PP
IH
/WP Low, V
, as they do
set).
IL
.
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