m95256-dr STMicroelectronics, m95256-dr Datasheet - Page 25
m95256-dr
Manufacturer Part Number
m95256-dr
Description
256 Kbit Serial Spi Bus Eeprom With High-speed Clock
Manufacturer
STMicroelectronics
Datasheet
1.M95256-DR.pdf
(48 pages)
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M95256-DR, M95256, M95256-W, M95256-R
5.9
Figure 15. Read Lock Status sequence
5.10
Read Lock Status (available only in M95256-DR devices)
The Read Lock Status instruction (see
locked (or not) in read-only mode. The Read Lock Status sequence is defined with the Chip
Select (S) first driven low. The bits of the instruction byte and address bytes are then shifted
in on Serial Data input (D). Address bit A10 must be 1, all other address bits are Don't Care.
The Lock bit is the LSB (least significant bit) of the byte read on Serial Data output (Q). It is
at ‘1’ when the lock is active and at ‘0’ when the lock is not active. If Chip Select (S)
continues to be driven low, the same data byte is shifted out. The read cycle is terminated by
driving Chip Select (S) high.
The instruction sequence is shown in
Lock ID (available only in M95256-DR devices)
The Lock ID instruction permanently locks the Identification Page in read-only mode. Before
this instruction can be accepted, a Write Enable (WREN) instruction must have been
executed. The Lock ID instruction is issued by driving Chip Select (S) low, sending the
instruction code, the address and a data byte on Serial Data input (D), and driving Chip
Select (S) high. In the address sent, A10 must be equal to 1, all other address bits are Don't
Care. The data byte sent must be equal to the binary value xxxx xx1x, where x = Don't Care.
Chip Select (S) must be driven high after the rising edge of Serial Clock (C) that latches in
the eighth bit of the data byte, and before the next rising edge of Serial Clock (C). Otherwise,
the Lock ID instruction is not executed.
Driving Chip Select (S) high at a byte boundary of the input data triggers the self-timed write
cycle whose duration is t
Figure
16.
W
(specified in
Doc ID 12276 Rev 11
Figure
Table
Table
15.
4) allows to check if the Identification Page is
20). The instruction sequence is shown in
Instructions
25/48
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