28F640W30 NUMONYX [Numonyx B.V], 28F640W30 Datasheet - Page 61

28F640W30

Manufacturer Part Number

28F640W30

Description

Numonyx Wireless Flash Memory (W30)

Manufacturer

NUMONYX [Numonyx B.V]

Datasheet

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Numonyx™ Wireless Flash Memory (W30)

11.3

11.3.1

Table 24: EFP Requirements and Considerations

November 2007

Order Number: 290702-13

Ambient temperature: T

Target block unlocked

within specified V

within specified operating range

Recommended for optimum performance. Some degradation in performance might occur if this limit is exceeded, but the

internal algorithm will continue to work properly.

Code or data cannot be read from another partition during EFP.

Figure 37, “Examples of VPP Power Supply Configurations” on page 78

of flash device power supply usage in various configurations.

The 12-V V

typically found in manufacturing processes. However, this mode is not intended for

extended use.12 V can be applied to V

specified in

12 V for a total of t

might cause permanent damage.

Enhanced Factory Program (EFP)

EFP substantially improves flash device programming performance through a number

of enhancements to the conventional 12-Volt word program algorithm. The more

efficient WSM algorithm in EFP eliminates the traditional overhead delays of the

conventional word program mode in both the host programming system and the flash

device. Changes to the conventional word programming flowchart and internal WSM

routine were developed because of today's beat-rate-sensitive manufacturing

environments; a balance between programming speed and cycling performance was

attained.

The host programmer writes data to the flash device and checks the Status Register to

determine when the data has completed programming. This modification cuts write bus

cycles approximately in half.

In combination, these enhancements reduce much of the host programmer overhead,

enabling more of a data streaming approach to flash device programming.

EFP further speeds up programming by performing internal code verification. With this

feature, PROM programmers can rely on the flash device to verify that it has been

programmed properly. From the flash device side, EFP streamlines internal overhead by

eliminating the delays previously associated with switching voltages between

programming and verify levels at each memory-word location.

EFP consists of four phases: setup, program, verify, and exit. Refer to

“Enhanced Factory Program Flowchart” on page 64

representation of how to implement EFP.

EFP Requirements and Considerations

• Following each internal program pulse, the WSM increments the flash device

• Programming equipment can then sequentially stream program data throughout an

PPH

EFP Requirements

address to the next physical location.

entire block without having to setup and present each new address.

range

= 25 °C ±5 °C

Section 5.2, “Operating Conditions” on page

mode enhances programming performance during the short time period

PPH

hours maximum. Stressing the flash device beyond these limits

Block cycling below 100 erase cycles

RWW not supported

EFP programs one block at a time

EFP cannot be suspended

during program and erase operations as

for a detailed graphical

EFP Considerations

24. VPP can be connected to

shows examples

Figure 29,

Datasheet

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