W25Q64DWSFIG WINBOND [Winbond], W25Q64DWSFIG Datasheet - Page 11

W25Q64DWSFIG

Manufacturer Part Number

W25Q64DWSFIG

Description

1.8V 64M-BIT SERIAL FLASH MEMORY WITH DUAL/QUAD SPI & QPI

Manufacturer

WINBOND [Winbond]

Datasheet

1.W25Q64DWSFIG.pdf (82 pages)

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9.1.3

The W25Q64DW supports Quad SPI operation when using instructions such as “Fast Read Quad Output

(6Bh)”, “Fast Read Quad I/O (EBh)”, “Word Read Quad I/O (E7h)” and “Octal Word Read Quad I/O

(E3h)”. These instructions allow data to be transferred to or from the device four to six times the rate of

ordinary Serial Flash. The Quad Read instructions offer a significant improvement in continuous and

random access transfer rates allowing fast code-shadowing to RAM or execution directly from the SPI

bus (XIP). When using Quad SPI instructions the DI and DO pins become bidirectional IO0 and IO1, and

the /WP and /HOLD pins become IO2 and IO3 respectively. Quad SPI instructions require the non-

volatile Quad Enable bit (QE) in Status Register-2 to be set.

9.1.4

The W25Q64DW supports Quad Peripheral Interface (QPI) operations only when the device is switched

from Standard/Dual/Quad SPI mode to QPI mode using the “Enable QPI (38h)” instruction. The typical

SPI protocol requires that the byte-long instruction code being shifted into the device only via DI pin in

eight serial clocks. The QPI mode utilizes all four IO pins to input the instruction code, thus only two serial

clocks are required. This can significantly reduce the SPI instruction overhead and improve system

performance in an XIP environment. Standard/Dual/Quad SPI mode and QPI mode are exclusive. Only

one mode can be active at any given time. “Enable QPI (38h)” and “Disable QPI (FFh)” instructions are

used to switch between these two modes. Upon power-up or after a software reset using “Reset (99h)”

instruction, the default state of the device is Standard/Dual/Quad SPI mode. To enable QPI mode, the

non-volatile Quad Enable bit (QE) in Status Register-2 is required to be set. When using QPI instructions,

the DI and DO pins become bidirectional IO0 and IO1, and the /WP and /HOLD pins become IO2 and IO3

respectively. See Figure 3 for the device operation modes.

9.1.5

For Standard SPI and Dual SPI operations, the /HOLD signal allows the W25Q64DW operation to be

paused while it is actively selected (when /CS is low). The /HOLD function may be useful in cases where

the SPI data and clock signals are shared with other devices. For example, consider if the page buffer

was only partially written when a priority interrupt requires use of the SPI bus. In this case the /HOLD

function can save the state of the instruction and the data in the buffer so programming can resume

where it left off once the bus is available again. The /HOLD function is only available for standard SPI and

Dual SPI operation, not during Quad SPI or QPI.

To initiate a /HOLD condition, the device must be selected with /CS low. A /HOLD condition will activate

on the falling edge of the /HOLD signal if the CLK signal is already low. If the CLK is not already low the

/HOLD condition will activate after the next falling edge of CLK. The /HOLD condition will terminate on the

rising edge of the /HOLD signal if the CLK signal is already low. If the CLK is not already low the /HOLD

condition will terminate after the next falling edge of CLK. During a /HOLD condition, the Serial Data

Output (DO) is high impedance, and Serial Data Input (DI) and Serial Clock (CLK) are ignored. The Chip

Select (/CS) signal should be kept active (low) for the full duration of the /HOLD operation to avoid

resetting the internal logic state of the device.

Quad SPI Instructions

QPI Instructions

Hold Function

- 11 -

Publication Release Date: January 13, 2011

Preliminary - Revision C

W25Q64DW

W25Q64DWSFIG WINBOND [Winbond], W25Q64DWSFIG Datasheet - Page 11

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