Memory

Cypress Introduces Wider SRAMs To Enable Greater System Performance

29th July 2011
ES Admin
0

Cypress Semiconductor Corp. (has introduced 128-Mbit, 64-Mbit and 32-Mbit MoBL(r) (More Battery Life) Asynchronous SRAMs with 32-bit bus widths. The new devices add to Cypress's industry-leading SRAM portfolio, which include high-performance synchronous, asynchronous and micropower devices. The new MoBL SRAMs cater to applications in telecommunications, computers, peripherals, and consumer, medical and military domains to enhance system performance in concert with 32-bit DSPs, FPGAs and processors.

Cypress Introduces World's First 128-Mbit, 64-Mbit and 32-Mbit Low-Power Asynchronous SRAMs with 32-bit Bus Widths.

New Wider SRAMs Enable Higher System Performance When Interfacing with DSPs, FPGAs or Microcontrollers/Microprocessors of Identical Bus Width

Cypress is the industry leader in low-power SRAMs, with portfolios that range from 4-Kbit to 128-Mbit densities. The new 128-Mbit (CY62192ESL), 64-Mbit (CY62182ESL) and 32-Mbit (CY62172ESL) MoBL devices offer 32-bit I/O configuration with 55-ns access time (TAA) and a wide voltage range of 1.7V to 5.5V. These low-power asynchronous SRAMs are available in a RoHS-compliant 119-BGA package with a footprint of 14.0 x 22.0 x 2.4 mm and are fabricated using Cypress's high-performance, 90-nanometer R95(tm) CMOS technology.

In applications that require large amount of data transfer between an SRAM and a controller, including image, audio, video and gaming applications, throughput is a major performance factor, said Sunil Thamaran, Senior Director of the Asynchronous Memory Business Unit at Cypress. By introducing these new 32-bit wide SRAM devices, Cypress demonstrates its strong commitment to address advanced performance requirements in this market space. We have also started development of our next generation of high-performance asynchronous memory products in 65-nm technology that will further reduce power consumption and add advanced features including ECC.

Product Spotlight

Upcoming Events

View all events
Newsletter
Latest global electronics news
© Copyright 2024 Electronic Specifier