CYD04S72V_06 Datasheet, PDF(1/25 Page) Cypress Semiconductor – FLEx72™ 3.3V 64K/128K/256K x 72 Synchronous Dual-Port RAM

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CYD04S72V_06 Datasheet, PDF (1/25 Pages) Cypress Semiconductor – FLEx72™ 3.3V 64K/128K/256K x 72 Synchronous Dual-Port RAM

CYD04S72V

CYD09S72V

CYD18S72V

FLEx72â¢ 3.3V 64K/128K/256K x 72

Synchronous Dual-Port RAM

Features

Functional Description

â¢ True dual-ported memory cells that allow simultaneous

access of the same memory location

â¢ Synchronous pipelined operation

â¢ Family of 4-Mbit, 9-Mbit, and 18-Mbit devices

â¢ Pipelined output mode allows fast operation

â¢ 0.18-micron CMOS for optimum speed and power

â¢ High-speed clock to data access

â¢ 3.3V low power

â Active as low as 225 mA (typ)

â Standby as low as 55 mA (typ)

â¢ Mailbox function for message passing

â¢ Global master reset

â¢ Separate byte enables on both ports

â¢ Commercial and industrial temperature ranges

â¢ IEEE 1149.1-compatible JTAG boundary scan

â¢ 484-ball FBGA (1-mm pitch)

â¢ Pb-Free packaging available

â¢ Counter wrap around control

â Internal mask register controls counter wrap-around

â Counter-interrupt flags to indicate wrap-around

â Memory block retransmit operation

â¢ Counter readback on address lines

â¢ Mask register readback on address lines

â¢ Dual Chip Enables on both ports for easy depth

expansion

â¢ Seamless Migration to Next Generation Dual-Port

Family

The FLEx72 family includes 4-Mbit, 9-Mbit and 18-Mbit

pipelined, synchronous, true dual-port static RAMs that are

high-speed, low-power 3.3V CMOS. Two ports are provided,

permitting independent, simultaneous access to any location

in memory. The result of writing to the same location by more

than one port at the same time is undefined. Registers on

control, address, and data lines allow for minimal set-up and

hold time.

During a Read operation, data is registered for decreased

cycle time. Each port contains a burst counter on the input

address register. After externally loading the counter with the

initial address, the counter will increment the address inter-

nally (more details to follow). The internal write pulse width is

independent of the duration of the R/W input signal. The

internal write pulse is self-timed to allow the shortest possible

cycle times.

A HIGH on CE0 or LOW on CE1 for one clock cycle will power

down the internal circuitry to reduce the static power

consumption. One cycle with chip enables asserted is required

to reactivate the outputs.

Additional features include: readback of burst-counter internal

address value on address lines, counter-mask registers to

control the counter wrap-around, counter interrupt (CNTINT)

flags, readback of mask register value on address lines,

retransmit functionality, interrupt flags for message passing,

JTAG for boundary scan, and asynchronous Master Reset

(MRST).

The CYD18S72V device have limited features. Please see

âAddress Counter and Mask Register Operations[17]â on

page 6â for details.

Seamless Migration to Next-Generation Dual-Port Family

Cypress offers a migration path for all devices to the

next-generation devices in the Dual-Port family with a

compatible footprint. Please contact Cypress Sales for more

details.

Table 1. Product Selection Guide

Density

Part Number

Max. Speed (MHz)

Max. Access TimeâClock to Data (ns)

Typical operating current (mA)

Package

4-Mbit

(64K x 72)

CYD04S72V

167

4.0

225

484-ball FBGA

23 mm x 23 mm

9-Mbit

(128K x 72)

CYD09S72V

167

4.0

270

484-ball FBGA

23 mm x 23 mm

18-Mbit

(256K x 72)

CYD18S72V

133

5.0

410

484-ball FBGA

23 mm x 23 mm

Cypress Semiconductor Corporation â¢ 198 Champion Court â¢ San Jose, CA 95134-1709 â¢ 408-943-2600

Document #: 38-06069 Rev. *I

Revised May 2, 2006

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