M28W160ECB70ZB6E NUMONYX, M28W160ECB70ZB6E Datasheet - Page 13
M28W160ECB70ZB6E
Manufacturer Part Number
M28W160ECB70ZB6E
Description
IC FLASH 16MBIT 70NS 46TFBGA
Manufacturer
NUMONYX
Datasheet
1.M28W160ECT70ZB6E.pdf
(50 pages)
Specifications of M28W160ECB70ZB6E
Format - Memory
FLASH
Memory Type
FLASH - Nor
Memory Size
16M (1M x 16)
Speed
70ns
Interface
Parallel
Voltage - Supply
2.7 V ~ 3.6 V
Operating Temperature
-40°C ~ 85°C
Package / Case
46-TFBGA
Package
46TFBGA
Cell Type
NOR
Density
16 Mb
Architecture
Sectored
Block Organization
Asymmetrical
Location Of Boot Block
Bottom
Typical Operating Supply Voltage
3|3.3 V
Sector Size
8KByte x 8|64KByte x 31
Timing Type
Asynchronous
Interface Type
Parallel
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
M28W160ECB70ZB6E
Manufacturer:
Micron Technology Inc
Quantity:
10 000
Register error. The protection of the Protection
Register and/or the Security Block is not revers-
ible.
The Protection Register Program cannot be sus-
pended.
23., Protection Register Program Flowchart and
Pseudo
tection Register Program command.
Block Lock Command
The Block Lock command is used to lock a block
and prevent Program or Erase operations from
changing the data in it. All blocks are locked at
power-up or reset.
Two Bus Write cycles are required to issue the
Block Lock command.
■
■
The lock status can be monitored for each block
using the Read Electronic Signature command.
Table 9.
a Block Lock command.
The Block Lock bits are volatile, once set they re-
main set until a hardware reset or power-down/
power-up. They are cleared by a Blocks Unlock
command. Refer to the section, Block Locking, for
a detailed explanation.
Block Unlock Command
The Blocks Unlock command is used to unlock a
block, allowing the block to be programmed or
The first bus cycle sets up the Block Lock
command.
The second Bus Write cycle latches the block
address.
Code, for the flowchart for using the Pro-
shows the protection status after issuing
See
APPENDIX
C.,
Figure
erased. Two Bus Write cycles are required to is-
sue the Blocks Unlock command.
■
■
The lock status can be monitored for each block
using the Read Electronic Signature command.
Table 9.
a Block Unlock command. Refer to the section,
Block Locking, for a detailed explanation.
Block Lock-Down Command
A locked block cannot be Programmed or Erased,
or have its protection status changed when WP is
low, V
function is disabled and the locked blocks can be
individually unlocked by the Block Unlock com-
mand.
Two Bus Write cycles are required to issue the
Block Lock-Down command.
■
■
The lock status can be monitored for each block
using the Read Electronic Signature command.
Locked-Down blocks revert to the locked (and not
locked-down) state when the device is reset on
power-down.
after issuing a Block Lock-Down command. Refer
to the section, Block Locking, for a detailed expla-
nation.
The first bus cycle sets up the Block Unlock
command.
The second Bus Write cycle latches the block
address.
The first bus cycle sets up the Block Lock
command.
The second Bus Write cycle latches the block
address.
IL
. When WP is high, V
shows the protection status after issuing
Table 9.
M28W160ECT, M28W160ECB
shows the protection status
IH,
the Lock-Down
13/50
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