CY7C1460AV33 Datasheet, PDF(1/27 Page) Cypress Semiconductor – 36-Mbit (1M x 36/2M x 18/512K x 72) Pipelined SRAM with NoBL™ Architecture

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CY7C1460AV33 Datasheet, PDF (1/27 Pages) Cypress Semiconductor – 36-Mbit (1M x 36/2M x 18/512K x 72) Pipelined SRAM with NoBL™ Architecture

PRELIMINARY

CY7C1460AV33

CY7C1462AV33

CY7C1464AV33

36-Mbit (1M x 36/2M x 18/512K x 72) Pipelined

SRAM with NoBLâ¢ Architecture

Features

â¢ Pin-compatible and functionally equivalent to ZBTâ¢

â¢ Supports 250-MHz bus operations with zero wait states

â Available speed grades are 250, 200 and 167 MHz

â¢ Internally self-timed output buffer control to eliminate the

need to use asynchronous OE

â¢ Fully registered (inputs and outputs) for pipelined

operation

â¢ Byte Write capability

â¢ Single 3.3V power supply

â¢ 3.3V/2.5V I/O power supply

â¢ Fast clock-to-output times

â 2.6 ns (for 250-MHz device)

â 3.2 ns (for 200-MHz device)

â 3.4 ns (for 167-MHz device)

â¢ Clock Enable (CEN) pin to suspend operation

â¢ Synchronous self-timed writes

â¢ CY7C1460AV33 and CY7C1462AV33 are available in

lead-free 100-pin TQFP and 165-Ball fBGA packages;

CY7C1464AV33 available in 209-Ball fBGA package

â¢ IEEE 1149.1 JTAG Boundary Scan

â¢ Burst capabilityâlinear or interleaved burst order

â¢ âZZâ Sleep Mode option and Stop Clock option

Functional Description

The CY7C1460AV33/CY7C1462AV33/CY7C1464AV33 are 3.3V,

1 Mbit x 36 / 2 Mbit x 18 / 512K x72 Synchronous pipelined burst

SRAMs with No Bus Latencyâ¢ (NoBLâ¢) logic, respectively. They

are designed to support unlimited true back-to-back Read/Write

operations with no wait states. The CY7C1460AV33/

CY7C1462AV33/CY7C1464AV33 are equipped with the

advanced (NoBL) logic required to enable consecutive

Read/Write operations with data being transferred on every clock

cycle. This feature dramatically improves the throughput of data

in systems that require frequent Write/Read transitions.The

CY7C1460AV33/CY7C1462AV33/CY7C1464AV33 are pin

compatible and functionally equivalent to ZBT devices.

All synchronous inputs pass through input registers controlled by

the rising edge of the clock. All data outputs pass through output

registers controlled by the rising edge of the clock. The clock input

is qualified by the Clock Enable (CEN) signal, which when

deasserted suspends operation and extends the previous clock

cycle.

Write operations are controlled by the Byte Write Selects

(BWaâBWh for CY7C1464AV33, BWaâBWd for CY7C1460AV33

and BWaâBWb for CY7C1462AV33) and a Write Enable (WE)

input. All writes are conducted with on-chip synchronous

self-timed write circuitry.

Three synchronous Chip Enables (CE1, CE2, CE3) and an

asynchronous Output Enable (OE) provide for easy bank

selection and output tri-state control. In order to avoid bus

contention, the output drivers are synchronously tri-stated during

the data portion of a write sequence.

Logic Block Diagram-CY7C1460AV33 (1 Mbit x 36)

A0, A1, A

MODE

CLK

CEN

ADDRESS

WRITE ADDRESS

A1 D1

Q1 A1'

A0 D0 BURST Q0 A0'

LOGIC

ADV/LD

WRITE ADDRESS

ADV/LD

BWa

BWb

BWc

BWd

WRITE REGISTRY

AND DATA COHERENCY

CONTROL LOGIC

WRITE

DRIVERS

MEMORY

ARRAY

INPUT

DQs

DQPa

DQPb

DQPc

DQPd

CE1

READ LOGIC

CE2

CE3

SLEEP

CONTROL

Cypress Semiconductor Corporation â¢ 3901 North First Street â¢ San Jose, CA 95134 â¢ 408-943-2600

Document #: 38-05353 Rev. *A

Revised November 19, 2004

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