N25Q128A13ESE40G Datasheet, PDF(29/81 Page) Micron Technology – Micron Serial NOR Flash Memory 3V, Multiple I/O, 4KB Sector Erase N25Q128A

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N25Q128A13ESE40G Datasheet, PDF (29/81 Pages) Micron Technology – Micron Serial NOR Flash Memory 3V, Multiple I/O, 4KB Sector Erase N25Q128A

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128Mb, 3V, Multiple I/O Serial Flash Memory

READ REGISTER and WRITE REGISTER Operations

DQ[1:0]. For quad SPI protocol, the command code is input on DQ[3:0], and is output

on DQ[3:0]. The operation is terminated by driving S# HIGH at any time during data

output.

The nonvolatile configuration register can be read continuously. After all 16 bits of the

READ VOLATILE or ENHANCED VOLATILE CONFIGURATION REGISTER Command

To execute a READ VOLATILE CONFIGURATION REGISTER command or a READ EN-

HANCED VOLATILE CONFIGURATION REGISTER command, S# is driven LOW. For ex-

tended SPI protocol, the command code is input on DQ0, and output on DQ1. For dual

SPI protocol, the command code is input on DQ[1:0], and output on DQ[1:0]. For quad

SPI protocol, the command code is input on DQ[3:0], and is output on DQ[3:0]. The op-

eration is terminated by driving S# HIGH at any time during data output.

When the register is read continuously, the same byte is output repeatedly.

WRITE STATUS REGISTER Command

To issue a WRITE STATUS REGISTER command, the WRITE ENABLE command must be

executed to set the write enable latch bit to 1. S# is driven LOW and held LOW until the

eighth bit of the last data byte has been latched in, after which it must be driven HIGH.

For extended SPI protocol, the command code is input on DQ0, followed by the data

bytes. For dual SPI protocol, the command code is input on DQ[1:0], followed by the da-

ta bytes. For quad SPI protocol, the command code is input on DQ[3:0], followed by the

data bytes. When S# is driven HIGH, the operation, which is self-timed, is initiated; its

duration is tW.

This command is used to write new values to status register bits 7:2, enabling software

data protection. The status register can also be combined with the W#/VPP signal to

provide hardware data protection. The WRITE STATUS REGISTER command has no ef-

fect on status register bits 1:0.

When the operation is in progress, the write in progress bit is set to 1. The write enable

latch bit is cleared to 0, whether the operation is successful or not. The status register

and flag status register can be polled for the operation status. When the operation com-

pletes, the write in progress bit is cleared to 0, whether the operation is successful or

not.

PDF: 09005aef845665fe

n25q_128mb_3v_65nm.pdf - Rev. P 06/13 EN

Micron Technology, Inc. reserves the right to change products or specifications without notice.

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