GS8180DV18D Datasheet, PDF(1/28 Page) GSI Technology

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GS8180DV18D Datasheet, PDF (1/28 Pages) GSI Technology – 18Mb Burst of 4 SigmaQuad SRAM

GS8180DV18D-250/200/167/133/100

165-Bump BGA

Commercial Temp

Industrial Temp

18Mb Burst of 4

SigmaQuad SRAM

250 MHzâ100 MHz

2.5 V VDD

1.8 V or 1.5 V I/O

Features

â¢ Simultaneous Read and Write SigmaQuadâ¢ Interface

â¢ JEDEC-standard pinout and package

â¢ Dual DoubleData Rate interface

â¢ Byte Write controls sampled at data-in time

â¢ Burst of 4 Read and Write

â¢ 2.5 V +100/â100 mV core power supply

â¢ 1.5 V or 1.8 V HSTL Interface

â¢ Pipelined read operation

â¢ Fully coherent read and write pipelines

â¢ ZQ mode pin for programmable output drive strength

â¢ IEEE 1149.1 JTAG-compliant Boundary Scan

â¢ 165-bump, 13 mm x 15 mm, 1 mm bump pitch BGA package

â¢ Pin-compatible with future 36Mb, 72Mb, and 144Mb devices

â¢ Pb-Free 165-bump BGA package available

SigmaRAMâ¢ Family Overview

GS8180DV18 are built in compliance with the SigmaQuad

SRAM pinout standard for Separate I/O synchronous SRAMs.

They are18,874,368-bit (18Mb) SRAMs. These are the first in

a family of wide, very low voltage HSTL I/O SRAMs designed

to operate at the speeds needed to implement economical high

performance networking systems.

SigmaQuad SRAMs are offered in a number of configurations.

Some emulate and enhance other synchronous separate I/O

SRAMs. A higher performance SDR (Single Data Rate) Burst

of 2 version is also offered. The logical differences between

the protocols employed by these RAMs hinge mainly on

various combinations of address bursting, output data

registering, and write cueing. Along with the Common I/O

family of SigmaRAMs, the SigmaQuad family of SRAMs

allows a user to implement the interface protocol best suited to

the task at hand.

Clocking and Addressing Schemes

A Burst of 4 SigmaQuad SRAM is a synchronous device. It

employs two input register clock inputs, K and K. K and K are

independent single-ended clock inputs, not differential inputs

to a single differential clock input buffer. The device also

allows the user to manipulate the output register clock inputs

quasi independently with the C and C clock inputs. C and C are

also independent single-ended clock inputs, not differential

inputs. If the C clocks are tied high, the K clocks are routed

internally to fire the output registers instead.

Because Separate I/O Burst of 4 RAMs always transfer data in

four packets, A0 and A1 are internally set to 0 for the first read

tKHKH

tKHQV

Parameter Synopsis

-250

4.0 ns

2.1 ns

-200

5.0 ns

2.3 ns

-167

6.0 ns

2.5 ns

-133

7.5 ns

3.0 ns

-100

10 ns

3.0 ns

Rev: 2.04 4/2005

1/28

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

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