28F640W30 Datasheet, PDF(82/102 Page) Intel Corporation – 1.8 Volt Intel Wireless Flash Memory with 3 Volt I/O and SRAM (W30)

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28F640W30 Datasheet, PDF (82/102 Pages) Intel Corporation – 1.8 Volt Intel Wireless Flash Memory with 3 Volt I/O and SRAM (W30)

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Numonyxâ¢ Wireless Flash Memory (W30)

14.4

In either case, if WAIT is deasserted, then data is ready and valid. WAIT is asserted

during asynchronous page mode reads.

WAIT Signal Function

The WAIT signal indicates data valid when the flash device is operating in synchronous

mode (RCR[15]=0), and when addressing a partition that is currently in read-array

mode. The WAIT signal is deasserted only when data is valid on the bus.

â¢ When the flash device is operating in synchronous non-read-array mode, such as

read status, read ID, or read query, WAIT is set to an asserted state, as determined

by RCR[10]. See Figure 14, âWAIT Signal in Synchronous Non-Read Array

Operation Waveformâ on page 37.

â¢ When the flash device is operating in asynchronous page mode or asynchronous

single word read mode, WAIT is set to an asserted state, as determined by

RCR[10]. See Figure 10, âPage-Mode Read Operation Waveformâ on page 33, and

Figure 8, âAsynchronous Read Operation Waveformâ on page 31.

From a system perspective, the WAIT signal is in the asserted state (based on

RCR[10]) when the flash device is operating in synchronous non-read-array mode

(such as Read ID, Read Query, or Read Status), or if the flash device is operating in

asynchronous mode (RCR[15]=1). In these cases, the system software must ignore

(mask) the WAIT signal, because WAIT does not convey any useful information about

the validity of what is appearing on the data bus.

CONDITION

CE# = VIH

CE# = VIL

OE#

Synchronous Array Read

Synchronous Non-Array Read

All Asynchronous Read and all Write

Tri-State

Active

No-Effect

Active

Asserted

WAIT

14.5

Data Hold (RCR[9])

The Data Output Configuration (DOC) bit (RCR[9]) determines whether a data word

remains valid on the data bus for one or two clock cycles. The minimum data set-up

time on the processor, and the flash memory clock-to-data output delay, determine

whether one or two clocks are needed.

â¢ A DOC set at 1-clock data hold corresponds to a 1-clock data cycle.

â¢ A DOC set at 2-clock data hold corresponds to a 2-clock data cycle.

The setting of this configuration bit depends on the system and CPU characteristics. For

clarification, see Figure 41. The following is a method for determining this configuration

setting.

To set the flash device at 1-clock data hold for subsequent reads, the following

condition must be satisfied:

tCHQV (ns) + tDATA (ns) < One CLK Period (ns)

As an example, use a clock frequency of 54 MHz and a clock period of 25 ns. Assume

the data output hold time is one clock. Apply this data to the formula above for the

subsequent reads:

Datasheet

November 2007

Order Number: 290702-13

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