N25Q032A13E1241F Datasheet, PDF(29/153 Page) Micron Technology – 32-Mbit 3 V, multiple I/O, 4-Kbyte subsector erase, XiP enabled, serial flash memory with 108 MHz SPI bus interface

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N25Q032A13E1241F Datasheet, PDF (29/153 Pages) Micron Technology – 32-Mbit 3 V, multiple I/O, 4-Kbyte subsector erase, XiP enabled, serial flash memory with 108 MHz SPI bus interface

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N25Q032 - 3 V

Operating features

5.3.4

5.3.5

5.3.6

This is followed by the internal Program cycle (of duration tPP).

To spread this overhead, the Quad Command Page Program (QCPP) instruction allows up

to 256 bytes to be programmed at a time (changing bits from 1 to 0), provided that they are

in consecutive addresses on the same page of memory.

For optimized timings, it is recommended to use the QCPP instruction to program all

consecutive targeted bytes in a single sequence versus using several QCPP sequences

with each containing only a few bytes. See Table 31.: AC Characteristics.

The QCPP instruction is transmitted across 4 data lines except when VPP is raised to

VPPH.

The VPP can be raised to VPPH to decrease programming time (provided that the bit 3 of

the VECR has been set to 0 in advance). When bit 3 of VECR is set to 0 after the Quad

Command Page Program instruction sequence has been received, the memory temporarily

goes in Extended SPI protocol, and is possible to perform polling instructions (checking the

WIP bit of the Status Register or the Program/Erase Controller bit of the Flag Status

functionality. The memory automatically comes back in QIO-SPI protocol as soon as the

VPP pin goes Low.

Subsector Erase, Sector Erase and Bulk Erase

Similar to the Extended SPI protocol, Subsector Erase (SSE), the Sector Erase (SE) and

the Bulk Erase (BE) instructions are used to erase the memory in the QIO-SPI protocol.

These instructions start an internal Erase cycle (of duration tSSE, tSE or tBE).

The Erase instruction must be preceded by a Write Enable (WREN) instruction.

The erase instructions are transmitted across 4 data lines unless the VPP is raised to

VPPH.

The VPP can be raised to VPPH to decrease erasing time, provided that the bit 3 of the

VECR has been set to 0 in advance. In this case, after the erase instruction sequence has

been received, the memory temporarily goes in extended SPI protocol, and it is possible to

perform polling instructions (checking the WIP bit of the Status Register or the

Program/Erase Controller bit of the Flag Status Register) or Program/Erase Suspend

instruction even if DQ2 is temporarily used in this VPP functionality. The memory

automatically comes back in QIO-SPI protocol as soon as the VPP pin goes Low.

Polling during a Write, Program or Erase cycle

It is possible to check if the internal write, program or erase operation is completed, by

polling the dedicated register bits of the Read Status Register (RDSR) or Read Flag Status

When the Program or Erase cycle is performed with the VPP, the device temporarily goes in

single I/O SPI mode. The protocol became again QIO-SPI as soon as the VPP pin voltage

goes low.

Read and Modify registers

The read and modify register instructions are available and behave in QIO-SPI protocol

exactly as they do in Extended SPI protocol, the only difference is that instruction codes,

addresses and output data are transmitted across 4 data lines.

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

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