N25Q128A11B1241F Datasheet, PDF(28/185 Page) Micron Technology – 128-Mbit, 1.8 V, multiple I/O, 4-Kbyte subsector erase on boot sectors, XiP enabled, serial flash memory with 108 MHz SPI bus interface

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N25Q128A11B1241F Datasheet, PDF (28/185 Pages) Micron Technology – 128-Mbit, 1.8 V, multiple I/O, 4-Kbyte subsector erase on boot sectors, XiP enabled, serial flash memory with 108 MHz SPI bus interface

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Operating features

N25Q128 - 1.8 V

5.2.4

5.2.5

5.2.6

5.2.7

5.2.8

The DIO-SPI protocol is similar to the Extended SPI protocol i.e., to program one data byte

two instructions are required:

Â Write Enable (WREN), which is one byte, and a

Â Dual Command Page Program (DCPP) sequence, which consists of four bytes plus

data.

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

To spread this overhead, the Dual Command Page Program (DCPP) instruction allows up to

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

consecutive addresses on the same page of memory.

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

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

with each containing only a few bytes. See Table 33.: AC Characteristics.

Subsector Erase, Sector Erase and Bulk Erase

Similar to the Extended SPI protocol, in the DIO-SPI protocol to erase the memory bytes to

all 1s (FFh) the Subsector Erase (SSE), the Sector Erase (SE) and the Bulk Erase (BE)

instructions are available. 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.

Subsector Erase is only available on the 8 Bottom (Top) boot sectors, and is not available in

uniform architecture parts

Polling during a Write, Program or Erase cycle

Similar to the Extended SPI protocol, in the DIO-SPI protocol it is possible to monitor if the

internal write, program or erase operation is completed, by polling the dedicated register bits

by using the Read Status Register (RDSR) or Read Flag Status Register (RFSR)

instructions, the only obvious difference is that instruction codes, addresses and output data

are transmitted across two data lines.

Read and Modify registers

Similar to the Extended SPI protocol, the only obvious difference is that instruction codes,

addresses and output data are transmitted across two data lines

Active Power and Standby Power modes

Similar to the Extended SPI protocol, when Chip Select (S) is Low, the device is selected,

and in the Active Power mode. When Chip Select (S) is High, the device is deselected, but

could remain in the Active Power mode until all internal cycles have completed (Program,

Erase, Write Cycles). The device then goes in to the Standby Power mode. The device

consumption drops to ICC1.

HOLD (or Reset) condition

The HOLD (or Reset i.e. for parts having the reset functionality instead of hold pin) signal

has exactly the same behavior in DIO-SPI protocol as do in Extended SPI protocol, so

please refer to section 5.1.10, Hold (or Reset) conditionâ in the Extend SPI protocol section

for further details.

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