N25Q064A13ESF40G Datasheet, PDF(6/81 Page) Micron Technology – Micron Serial NOR Flash Memory 3V, Multiple I/O, 4KB Sector Erase

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N25Q064A13ESF40G Datasheet, PDF (6/81 Pages) Micron Technology – Micron Serial NOR Flash Memory 3V, Multiple I/O, 4KB Sector Erase

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64Mb, 3V, Multiple I/O Serial Flash Memory

Device Description

The N25Q is the first high-performance multiple input/output serial Flash memory de-

vice manufactured on 65nm NOR technology. It features execute-in-place (XIP) func-

tionality, advanced write protection mechanisms, and a high-speed SPI-compatible bus

interface. The innovative, high-performance, dual and quad input/output instructions

enable double or quadruple the transfer bandwidth for READ and PROGRAM opera-

tions.

Features

The memory is organized as 128 (64KB) main sectors that are further divided into 16

subsectors each (2048 subsectors in total). The memory can be erased one 4KB subsec-

tor at a time, 64KB sectors at a time, or as a whole.

The memory can be write protected by software through volatile and nonvolatile pro-

tection features, depending on the application needs. The protection granularity is of

64KB (sector granularity) for volatile protections

The device has 64 one-time programmable (OTP) bytes that can be read and program-

med with the READ OTP and PROGRAM OTP commands. These 64 bytes can also be

permanently locked with a PROGRAM OTP command.

The device also has the ability to pause and resume PROGRAM and ERASE cycles by us-

ing dedicated PROGRAM/ERASE SUSPEND and RESUME instructions.

Operating Protocols

The memory can be operated with three different protocols:

â¢ Extended SPI (standard SPI protocol upgraded with dual and quad operations)

â¢ Dual I/O SPI

â¢ Quad I/O SPI

The standard SPI protocol is extended and enhanced by dual and quad operations. In

addition, the dual SPI and quad SPI protocols improve the data access time and

throughput of a single I/O device by transmitting commands, addresses, and data

across two or four data lines.

XIP Mode

XIP mode requires only an address (no instruction) to output data, improving random

access time and eliminating the need to shadow code onto RAM for fast execution.

All protocols support XIP operation. For flexibility, multiple XIP entry and exit methods

are available. For applications that must enter XIP mode immediately after powering

up, XIP mode can be set as the default mode through the nonvolatile configuration reg-

ister bits.

PDF: 09005aef845665f4

n25q_64mb_3v_65nm.pdf - Rev. K 08/13 EN

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

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