CY7C1473V25-100BZC datasheet, PDF

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CY7C1473V25-100BZC: Description72-mbit (2M x 36/4M x 18/1M x 72) flow-through sram with nobl architecture; File Size371KB，30 Pages; ManufacturerCypress Semiconductor

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CY7C1473V25-100BZC Overview

72-mbit (2M x 36/4M x 18/1M x 72) flow-through sram with nobl architecture

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PRELIMINARY

CY7C1471V25

CY7C1473V25

CY7C1475V25

72-Mbit (2M x 36/4M x 18/1M x 72) Flow-Through SRAM

with NoBL™ Architecture

Features

• No Bus Latency™ (NoBL™) architecture eliminates

dead cycles between write and read cycles.

• Can support up to 133-MHz bus operations with zero

wait states

• Data is transferred on every clock

• Pin compatible and functionally equivalent to ZBT™

devices

• Internally self-timed output buffer control to eliminate

the need to use OE

• Registered inputs for flow-through operation

• Byte Write capability

• 2.5V/1.8V I/O power supply

• Fast clock-to-output times

— 6.5 ns (for 133-MHz device)

— 8.5 ns (for 100-MHz device)

• Clock Enable (CEN) pin to enable clock and suspend

operation

• Synchronous self-timed writes

• Asynchronous Output Enable

• Offered in JEDEC-standard lead-free 100 TQFP, and

165-ball fBGA packages for CY7C1471V25 and

CY7C1473V25. 209-ball fBGA package for

CY7C1475V25.

• Three chip enables for simple depth expansion.

• Automatic Power-down feature available using ZZ

mode or CE deselect.

• JTAG boundary scan for BGA and fBGA packages

• Burst Capability—linear or interleaved burst order

• Low standby power

Functional Description

[1]

The CY7C1471V25, CY7C1473V25 and CY7C1475V25 are

2.5V, 2M x 36/4M x 18/1M x 72 Synchronous Flow-through

Burst SRAMs designed specifically to support unlimited true

back-to-back Read/Write operations without the insertion of

wait states. The CY7C1471V25, CY7C1473V25 and

CY7C1475V25 are equipped with the advanced No Bus

Latency (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 through the SRAM, especially in systems that require

frequent Write-Read transitions.

All synchronous inputs pass through input 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.

Maximum access delay from the clock rise is 6.5 ns (133-MHz

device).

Write operations are controlled by the two or four Byte Write

Select (BW

) and a Write Enable (WE) input. All writes are

conducted with on-chip synchronous self-timed write circuitry.

Three synchronous Chip Enables (CE

, CE

) 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.

Selection Guide

133 MHz

Maximum Access Time

Maximum Operating Current

Maximum CMOS Standby Current

6.5

305

120

100 MHz

8.5

275

120

Unit

Note:

1. For best-practices recommendations, please refer to the Cypress application note

System Design Guidelines

on www.cypress.com.

Cypress Semiconductor Corporation

Document #: 38-05287 Rev. *E

•

3901 North First Street

•

San Jose

CA 95134

•

408-943-2600

Revised December 5, 2004

CY7C1473V25-100BZC Related Products

	CY7C1473V25-100BZC	CY7C1471V25-100BZC	CY7C1473V25-133BZXC
Description	72-mbit (2M x 36/4M x 18/1M x 72) flow-through sram with nobl architecture	72-mbit (2M x 36/4M x 18/1M x 72) flow-through sram with nobl architecture	72-mbit (2M x 36/4M x 18/1M x 72) flow-through sram with nobl architecture

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