IS61SF6432 Datasheet, PDF(1/16 Page) Integrated Circuit Solution Inc – 64K x 32 SYNCHRONOUS FLOW-THROUGH STATIC RAM

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IS61SF6432 Datasheet, PDF (1/16 Pages) Integrated Circuit Solution Inc – 64K x 32 SYNCHRONOUS FLOW-THROUGH STATIC RAM

IISS616S1F6S43F2 6432

64K x 32 SYNCHRONOUS

FLOW-THROUGH STATIC RAM

FEATURES

â¢ Fast access time: 9 ns, 10 ns

â¢ Internal self-timed write cycle

â¢ Individual Byte Write Control and Global Write

â¢ Clock controlled, registered address, data and

control

â¢ Pentiumâ¢ or linear burst sequence control

using MODE input

â¢ Three chip enables for simple depth expansion

and address pipelining

â¢ Common data inputs and data outputs

â¢ Power-down control by ZZ input

â¢ JEDEC 100-Pin LQFP and PQFP package

â¢ Single +3.3V power supply

â¢ Two Clock enables and one Clock disable to

eliminate multiple bank bus contention.

â¢ Control pins mode upon power-up:

â FT in pipeline mode

â MODE in interleave burst mode

â ZZ in normal operation mode

These control pins can be connected to GNDQ

or VCCQ to alter their power-up state

â¢ Industrial temperature available

DESCRIPTION

The ICSI IS61SF6432 is a high-speed, low-power synchro-

nous static RAM designed to provide a burstable, high-perfor-

mance, secondary cache for the Pentiumâ¢, 680X0â¢, and

PowerPCâ¢ microprocessors. It is organized as 65,536 words

by 32 bits, fabricated with ICSI's advanced CMOS technology.

The device integrates a 2-bit burst counter, high-speed SRAM

core, and high-drive capability outputs into a single monolithic

circuit. All synchronous inputs pass through registers con-

trolled by a positive-edge-triggered single clock input.

Write cycles are internally self-timed and are initiated by the

rising edge of the clock input. Write cycles can be from one to

four bytes wide as controlled by the write control inputs.

Separate byte enables allow individual bytes to be written.

BW1 controls DQ1-DQ8, BW2 controls DQ9-DQ16, BW3

controls DQ17-DQ24, BW4 controls DQ25-DQ32, conditioned

by BWE being LOW. A LOW on GW input would cause all bytes

to be written.

Bursts can be initiated with either ADSP (Address Status

Processor) or ADSC (Address Status Cache Controller) input

pins. Subsequent burst addresses can be generated internally

by the IS61SF6432 and controlled by the ADV (burst address

advance) input pin.

Asynchronous signals include output enable (OE), sleep mode

input (ZZ), clock (CLK) and burst mode input (MODE). A HIGH

input on the ZZ pin puts the SRAM in the power-down state.

When ZZ is pulled LOW (or no connect), the SRAM normally

operates after three cycles of the wake-up period. A LOW

input, i.e., GNDQ, on MODE pin selects LINEAR Burst. A VCCQ

(or no connect) on MODE pin selects INTERLEAVED Burst.

ICSI reserves the right to make changes to its products at any time without notice in order to improve design and supply the best possible product. We assume no responsibility for any errors

Integrated Circuit Solution Inc.

SSR004-0B

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