GD25Q80 Datasheet, PDF(7/49 Page) ELM Electronics – 3.3V Uniform Sector Dual and Quad Serial Flash

English

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

GD25Q80 Datasheet, PDF (7/49 Pages) ELM Electronics – 3.3V Uniform Sector Dual and Quad Serial Flash

◁

GD25Q80CxIGx 3.3V Uniform Sector Dual and Quad Serial Flash

4. DEVICE OPERATION

http://www.elm-tech.com

SPI Mode

Standard SPI

The GD25Q80C feature a serial peripheral interface on 4 signals bus: Serial Clock (SCLK), Chip Select (CS#),

Serial Data Input (SI) and Serial Data Output (SO). Both SPI bus mode 0 and 3 are supported. Input data is

latched on the rising edge of SCLK and data shifts out on the falling edge of SCLK.

Dual SPI

The GD25Q80C supports Dual SPI operation when using the âDual Output Fast Readâ and âDual I/O Fast

Readâ(3BH and BBH) commands. These commands allow data to be transferred to or from the device at two

times the rate of the standard SPI. When using the Dual SPI command the SI and SO pins become bidirectional

I/O pins: IO0 and IO1.

Quad SPI

The GD25Q80C supports Quad SPI operation when using the âQuad Output Fast Readâ(6BH), âQuad I/O Fast

Readâ(EBH), âQuad I/O Word Fast Readâ(E7H) and âQuad Page Programâ (32H) commands. These commands

allow data to be transferred to or from the device at four times the rate of the standard SPI. When using the

Quad SPI command the SI and SO pins become bidirectional I/O pins: IO0 and IO1, and WP# and HOLD# pins

become IO2 and IO3. Quad SPI commands require the non-volatile Quad Enable bit (QE) in Status Register to

be set.

Hold

The HOLD# function is only available when QE=0, If QE=1, The HOLD# function is disabled, the pin acts as

dedicated data I/O pin.

The HOLD# signal goes low to stop any serial communications with the device, but doesnât stop the operation

of write status register, programming, or erasing in progress.

The operation of HOLD, need CS# keep low, and starts on falling edge of the HOLD# signal, with SCLK

signal being low (if SCLK is not being low, HOLD operation will not start until SCLK being low). The HOLD

condition ends on rising edge of HOLD# signal with SCLK being low (If SCLK is not being low, HOLD

operation will not end until SCLK being low).

The SO is high impedance, both SI and SCLK donât care during the HOLD operation, if CS# drives high

during HOLD operation, it will reset the internal logic of the device. To re-start communication with chip, the

HOLD# must be at high and then CS# must be at low.

Figure 1. Hold Condition

CS#

SCLK

HOLD#

HOLD

49 - 7

Rev.1.0

▷