STMicroelectronics NV plans to introduce phase-change memory as an embedded non-volatile memory option for use with its microcontrollers.

The technology is being prototyped at the 90-nm manufacturing node during 2013, said Jean-Marc Chery, chief technology officer of ST, speaking at a one-day conference for analysts held here Thursday (May 16). Although the embedded PCM technology will be offered to customers in 2014 ST's main motivation is to prepare for the introduction of a 28-nm phase-change memory process that will prototype in 2016 or 2017, Chery said. PCM would replace NOR flash memory for MCUs, which is not expected to scale beyond the 40-nm node, Chery said.

ST is currently ready for production with a 55-nm embedded flash process for MCUs based on a one-transistor NOR memory element. The company is also developing a 40-nm NOR-based embedded flash process for automotive applications, Chery said.

"We continue to invest in PCM because it is fully compatible with the 28-nm HKMG CMOS process," Chery told analysts. Chery told EE Times that while the initial embedded PCM introduction would be subject to thermal limitations the company is making progress on finding ternary mixes of elements that would have improved performance at high temperature.

In a chart Chery showed analysts that the 90-nm PCM MCUs would be offered for general-purpose and secure applications but not automotive applications. The chart showed that the 28-nm PCM embedded non-volatile memory would serve all three application sectors.

Phase-change memory is non-volatile and based on changing the material phase and electrical resistance of a chalcogenide layer by the use of electrical heating. It has been touted as possible replacement for both flash memory and DRAM, but the technology has been in research for decades and now faces numerous competitor technologies.

For phase-change memory the typical germanium, antimony, tellurium element ratio is 2:2:5, but this has the disadvantage of a relatively low melting point. This manifests itself in the problem that preprogrammed memories could be erased during soldering onto a printed circuit board. Although in-system programming can get around this problem the temperature limitation it can also impact the ability to guarantee 10-year retention at elevated temperatures.

ST began work on phase-change memory in 2000 and joined forces on research with Intel. In 2005, ST and Intel and agreed to codevelop a 90-nm PCM technology. In 2008, ST and Intel combined their discrete memory businesses to form the Numonyx NV joint venture which was subsequently bought by Micron Technology Inc. (Boise, Idaho). Micron is offering stand-alone 128-Mbit phase-change memory at 90-nm and a 1-Gbit device at 45-nm.

By: Docmemory
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