JS28F128P30BF65 View Datasheet(PDF) - Numonyx -> Micron

Part Name

Description

Manufacturer

JS28F128P30BF65

Numonyx® Axcell™ P30-65nm Flash Memory 128-Mbit, 64-Mbit Single Bit per Cell (SBC)

Numonyx -> Micron 

P30-65nm SBC

Figure 15: Reset Operation Waveforms

(A) Reset during

read mode

(B) Reset during

program or block erase

P1 ≤ P2

(C) Reset during

program or block erase

P1 ≥ P2

(D) VCC Power-up to

RST# high

VIH

RST# [P]

VIL

VIH

RST# [P]

VIL

VIH

RST# [P]

VIL

VCC

VCC

0V

P1

R5

Abort

P2

Complete

R5

Abort

P2 Complete

R5

P3

12.3

Power Supply Decoupling

Flash memory devices require careful power supply de-coupling. Three basic power

supply current considerations are: 1) standby current levels; 2) active current levels;

and 3) transient peaks produced when CE# and OE# are asserted and deasserted.

When the device is accessed, many internal conditions change. Circuits within the

device enable charge-pumps, and internal logic states change at high speed. All of

these internal activities produce transient signals. Transient current magnitudes depend

on the device outputs’ capacitive and inductive loading. Two-line control and correct

de-coupling capacitor selection suppress transient voltage peaks.

Because flash memory devices draw their power from VCC, VPP, and VCCQ, each power

connection should have a 0.1 µF ceramic capacitor to ground. High-frequency,

inherently low-inductance capacitors should be placed as close as possible to package

leads.

Additionally, for every eight devices used in the system, a 4.7 µF electrolytic capacitor

should be placed between power and ground close to the devices. The bulk capacitor is

meant to overcome voltage droop caused by PCB trace inductance.

Datasheet

44

Apr 2010

Order Number: 208033-02

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