N25Q00AA11GSF40F Datasheet, PDF(35/89 Page) Micron Technology – Micron Serial NOR Flash Memory 3V, Multiple I/O, 4KB Sector Erase

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

N25Q00AA11GSF40F Datasheet, PDF (35/89 Pages) Micron Technology – Micron Serial NOR Flash Memory 3V, Multiple I/O, 4KB Sector Erase

◁

1Gb, 3V, Multiple I/O Serial NOR Flash Memory

READ REGISTER and WRITE REGISTER Operations

followed by the data bytes. For dual SPI protocol, the command code is input on

DQ[1:0], followed by the data bytes. For quad SPI protocol, the command code is input

on DQ[3:0], followed by the data bytes.

Because register bits are volatile, change to the bits is immediate. After the data is latch-

ed in, S# must be driven HIGH. Reserved bits are not affected by this command.

WRITE EXTENDED ADDRESS REGISTER Command

To initiate a WRITE EXTENDED ADDRESS 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. 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 data

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

data bytes.

Because register bits are volatile, change to the bits is immediate. After the data is latch-

ed in, S# must be driven HIGH. Reserved bits are not affected by this command.

READ LOCK REGISTER Command

To execute the READ LOCK REGISTER command, S# is driven LOW. For extended SPI

protocol, the command code is input on DQ0, followed by address bytes that point to a

location in the sector. For dual SPI protocol, the command code is input on DQ[1:0]. For

quad SPI protocol, the command code is input on DQ[3:0]. Each address bit is latched

in during the rising edge of the clock. For extended SPI protocol, data is shifted out on

DQ1 at a maximum frequency fC during the falling edge of the clock. For dual SPI proto-

col, data is shifted out on DQ[1:0], and for qual SPI protocol, data is shifted out on

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

put.

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

LOCK REGISTER command that is executed while an ERASE, PROGRAM, or WRITE cy-

cle is in progress is rejected with no affect on the cycle in progress.

PDF: 09005aef8480cede

n25q_1gb_3V_65nm.pdf - Rev. M 03/14 EN

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

▷