N25Q032A13E1241F Datasheet, PDF(37/153 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

English

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

N25Q032A13E1241F Datasheet, PDF (37/153 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

◁

N25Q032 - 3 V

Volatile and Non Volatile Registers

6.2.2

6.2.3

6.2.4

Note:

6.2.5

6.2.6

XIP NV configuration bits (NVCR bits from 11 to 9)

The bits from 11 to 9 of the Non Volatile Configuration register store the default settings for

the XIP operation, allowing the memory to start working directly on the required XIP mode

after successive POR sequence: the device then accepts only address on one, two, or four

wires (skipping the instruction) depending on the NVCR XIP bits settings.

The default settings for the XIP bits of the NVCR enable the memory to start working in

Extended SPI mode after the POR sequence (XIP directly after POR is disabled).

Output Driver Strength NV configuration bits (NVCR bits from 8 to 6)

The bits from 8 to 6 of the Non Volatile Configuration register store the default settings for

the output driver strength, enabling to optimize the impedance at Vcc/2 output voltage for

the specific application.

The default values of Output Driver Strength bits of the NVCR set the output impedance at

Vcc/2 equal to 30 Ohms.

Hold (Reset) disable NV configuration bit (NVCR bit 4)

The Hold (RESET) disable bit can be used to disable the Hold (Reset) functionality of the

Hold (Reset) / DQ3 pin as described in Table 3.: Non-Volatile Configuration Register. This

feature can be useful to avoid accidental Hold or Reset condition entries in applications that

never require the Hold (Reset) functionality.

The default values of Hold (Reset) bit of the NVCR is set to enable the Hold (Reset)

functionality.

Reset functionality is available instead of Hold in devices with a dedicated part number. See

Section 16: Ordering information.

Quad Input NV configuration bit (NVCR bit 3)

The Quad Input NV configuration bit can be used to make the memory start working in QIO-

SPI protocol directly after the power on sequence. The products are delivered with this set

to 1, making the memory default in Extended SPI protocol. If the application sets this bit to

0, the device will enter in DIO-SPI protocol right after the next power on.

Please note that in case both QIO-SPI and DIO-SPI are enabled (both bit 3 and bit 2 of the

Non Volatile Configuration Register set to 0), the memory will work in QIO-SPI.

Dual Input NV configuration bit (NVCR bit 2)

The Dual Input NV configuration bit can be used to make the memory start working in DIO-

SPI protocol directly after the power on sequence. The products are delivered with this set

to 1, making the memory default in Extended SPI protocol, if the application sets this bit to 0

the device will enter in QIO-SPI protocol right after the next power on.

Please note that in case both QIO-SPI and DIO-SPI are enabled (both bit 3 and bit 2 of the

Non Volatile Configuration Register set to 0), the memory will work in QIO-SPI.

37/153

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

▷