SRAM Deliver Higher Density Than 6T Solutions

Feb. 1, 2002
Toted as the industry's highest density SRAM devices, the 72 Mb no bus latency (NoBL) burst SRAM family employ a patented one-transistor enhanced SRAM technology to achieve the same speed, four times higher density, and four times lower power than

Toted as the industry's highest density SRAM devices, the 72 Mb no bus latency (NoBL) burst SRAM family employ a patented one-transistor enhanced SRAM technology to achieve the same speed, four times higher density, and four times lower power than traditional six-transistor (6T) SRAM. The devices are organized as 2 Mb x 36 and operate at up to 166 MHz. They promise 100% bus bandwidth during four-word read/write transactions. Operating voltages of 2.5V or 3.3V are available and package options are a 100-pin TQFP and a 119-pin PBGA. Production quantities will be available in the second quarter of 2002. RAMTRON INTERNATIONAL CORP., San Jose, CA. (719) 481-7004.

Company: RAMTRON INTERNATIONAL CORP.

Product URL: Click here for more information

Sponsored Recommendations

Board-Mount DC/DC Converters in Medical Applications

March 27, 2024
AC/DC or board-mount DC/DC converters provide power for medical devices. This article explains why isolation might be needed and which safety standards apply.

Use Rugged Multiband Antennas to Solve the Mobile Connectivity Challenge

March 27, 2024
Selecting and using antennas for mobile applications requires attention to electrical, mechanical, and environmental characteristics: TE modules can help.

Out-of-the-box Cellular and Wi-Fi connectivity with AWS IoT ExpressLink

March 27, 2024
This demo shows how to enroll LTE-M and Wi-Fi evaluation boards with AWS IoT Core, set up a Connected Health Solution as well as AWS AT commands and AWS IoT ExpressLink security...

How to Quickly Leverage Bluetooth AoA and AoD for Indoor Logistics Tracking

March 27, 2024
Real-time asset tracking is an important aspect of Industry 4.0. Various technologies are available for deploying Real-Time Location.

Comments

To join the conversation, and become an exclusive member of Electronic Design, create an account today!