M95128-W STMICROELECTRONICS [STMicroelectronics], M95128-W Datasheet - Page 22

M95128-W

Manufacturer Part Number

M95128-W

Description

128 Kbit serial SPI bus EEPROM with high speed clock

Manufacturer

STMICROELECTRONICS [STMicroelectronics]

Datasheet

1.M95128-W.pdf (44 pages)

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Instructions

5.6

22/44

Write to Memory Array (WRITE)

As shown in

Low. The bits of the instruction byte, address byte, and at least one data byte are then

shifted in, on Serial Data Input (D). The instruction is terminated by driving Chip Select (S)

High at a byte boundary of the input data. The self-timed Write cycle, triggered by the rising

edge of Chip Select (S), continues for a period t

the end of which the Write in Progress (WIP) bit is reset to 0.

In the case of

has been latched in, indicating that the instruction is being used to write a single byte. If,

though, Chip Select (S) continues to be driven Low, as shown in

input data is shifted in, so that more than a single byte, starting from the given address

towards the end of the same page, can be written in a single internal Write cycle.

Each time a new data byte is shifted in, the least significant bits of the internal address

counter are incremented. If the number of data bytes sent to the device exceeds the page

boundary, the internal address counter rolls over to the beginning of the page, and the

previous data there are overwritten with the incoming data. (The page size of these devices

is 64 bytes).

The instruction is not accepted, and is not executed, under the following conditions:

Figure 10. Byte Write (WRITE) sequence

1. The most significant address bits (b15, b14) are Don’t Care.

if the Write Enable Latch (WEL) bit has not been set to 1 (by executing a Write Enable

instruction just before)

if a Write cycle is already in progress

if the device has not been deselected, by Chip Select (S) being driven High, at a byte

boundary (after the eighth bit, b0, of the last data byte that has been latched in)

if the addressed page is in the region protected by the Block Protect (BP1 and BP0)

bits.

Figure

High Impedance

10, to send this instruction to the device, Chip Select (S) is first driven

10, Chip Select (S) is driven high after the eighth bit of the data byte

Instruction

14 13

9 10

16-Bit Address

20 21 22 23 24 25 26 27

(as specified in

M95128, M95128-W, M95128-R

Figure

Table 16

Data Byte

11., the next byte of

28 29 30

Table

AI01795D

19.), at

M95128-W STMICROELECTRONICS [STMicroelectronics], M95128-W Datasheet - Page 22

M95128-W

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