PA28F016SC-95 Intel, PA28F016SC-95 Datasheet - Page 28

PA28F016SC-95

Manufacturer Part Number

PA28F016SC-95

Description

Manufacturer

Intel

Datasheet

1.PA28F016SC-95.pdf (42 pages)

Specifications of PA28F016SC-95

Density

16Mb

Interface Type

Parallel

Boot Type

Not Required

Address Bus

21b

Operating Supply Voltage (typ)

3.3/5V

Operating Temp Range

0C to 70C

Package Type

SOP

Program/erase Volt (typ)

3.3/5/12V

Sync/async

Asynchronous

Operating Temperature Classification

Commercial

Operating Supply Voltage (min)

2.7V

Operating Supply Voltage (max)

5.5V

Word Size

Number Of Words

Supply Current

50mA

Mounting

Surface Mount

Pin Count

Lead Free Status / Rohs Status

Not Compliant

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BYTE-WIDE SmartVoltage FlashFile™ MEMORY FAMILY

5.0

5.1

Intel provides three control inputs to accommodate

multiple memory connections: CE#, OE#, and RP#.

Three-line control provides for:

To use these control inputs efficiently, an address

decoder should enable CE# while OE# should be

connected to all memory devices and the system’s

READ# control line. This assures that only selected

memory devices have active outputs while de-

selected memory devices are in standby mode.

RP#

POWERGOOD signal to prevent unintended writes

during system power transitions. POWERGOOD

should also toggle during system reset.

5.2

RY/BY# is a full CMOS output that provides a

hardware method of detecting block erase, program

and lock-bit configuration completion. This output

can be directly connected to an interrupt input of

the system CPU. RY/BY# transitions low when the

WSM is busy and returns to V

executing the internal algorithm. During suspend

and deep power-down modes, RY/BY# remains at

5.3

Flash memory power switching characteristics

require

designers are interested in three supply current

issues: standby current levels, active current levels

and transient peaks produced by falling and rising

edges of CE# and OE#. Two-line control and proper

decoupling

transient voltage peaks. Each device should have a

0.1 µF ceramic capacitor connected between its

These high-frequency, low-inductance capacitors

should be placed as close as possible to package

leads. Additionally, for every eight devices, a 4.7 µF

electrolytic capacitor should be placed at the array’s

power supply connection between V

The bulk capacitor will overcome voltage slumps

caused by PC board trace inductance.

a. Lowest possible memory power dissipation.

b. Data bus contention avoidance.

and GND and between its V

should

DESIGN CONSIDERATIONS

Three-Line Output Control

RY/BY# Hardware Detection

Power Supply Decoupling

careful

capacitor

device

connected

selection

decoupling.

when it is finished

will

the

and GND.

suppress

System

system

5.4

Updating flash memories that reside in the target

system requires that the printed circuit board

designer pay attention to the V

trace. The V

for byte writing and block erasing. Use similar trace

widths and layout considerations given to the V

power bus. Adequate V

decoupling will decrease V

overshoots.

5.5

Block erase, program and lock-bit configuration are

not guaranteed if V

voltage range (V

SR.3 is set to “1” along with SR.4 or SR.5,

depending on the attempted operation. If RP#

transitions to V

lock-bit configuration, RY/BY# will remain low until

the reset operation is complete. Then, the operation

will abort and the device will enter deep power-

down. The aborted operation may leave data

partially altered. Therefore, the command sequence

must be repeated after normal operation is

restored.

5.6

The device is designed to offer protection against

accidental block erasure, byte writing, or lock-bit

configuration during power transitions. Upon power-

up, the device is indifferent as to which power

supply (V

circuitry resets the CUI to read array mode at

power-up.

A system designer must guard against spurious

writes for V

active. Since both WE# and CE# must be low for a

command write, driving either input signal to V

inhibit writes. The CUI’s

sequence architecture provides an added level of

protection against data alteration.

In-system block lock and unlock renders additional

protection during power-up by prohibiting block

erase and program operations. The device is

disabled while RP# = V

inputs state.

. If V

Boards

Power-Up/Down Protection

error is detected, status register bit

, V

or V

Trace on Printed Circuit

pin supplies the memory cell current

voltages above V

CC2/3

during block erase, program, or

, RP# Transitions

and V

or V

) powers-up first. Internal

PRELIMINARY

regardless of its control

PPH1/2/3

fall outside of a valid

two-step command

supply traces and

voltage spikes and

LKO

) or RP#

power supply

when V

will

PA28F016SC-95 Intel, PA28F016SC-95 Datasheet - Page 28

PA28F016SC-95

Specifications of PA28F016SC-95

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