Element Six acquires Group4 Labs GaN-on-diamond technology

May 30, 2013
Santa Clara, CA--Synthetic diamond materials company Element Six acquired the assets and intellectual property of Group4 Labs and its GaN-on-diamond semiconductor technology.

Santa Clara, CA--Synthetic diamond materials company Element Six acquired the assets and intellectual property of Group4 Labs (Menlo Park, CA), a semiconductor wafer materials company that manufactured gallium nitride (GaN)-on-diamond semiconductor technology for RF and high-power optoelectronic devices. The asset acquisition will expand Element Six's semiconductor portfolio (http://www.laserfocusworld.com/topics/m/video/73996343/photonics-west-2013-interview-with-peter-santini-element-six.htm?q=%22Element+Six%22) for defense and commercial applications.

Group4 developed the first commercially available composite semiconductor wafer that includes GaN and diamond. Designed for manufacturers of transistor-based circuits with high power, temperature and frequency characteristics, the first-ever GaN-on-diamond system enables rapid, efficient and cost-effective heat extraction (http://www.laserfocusworld.com/articles/2011/05/diamond-thermal-material-from-element-six-ideal-for-high-power-devices.html). This process reduces the operating temperatures of packaged devices, addressing heat issues that account for more than 50% of all optoelectronic failures. Synthetic diamond dissipates heat up to five times better than existing materials such as copper and silicon carbide, enabling device manufacturers to produce smaller, faster, and higher power optoelectronic devices, with longer lifespans and improved reliability.

When implemented within power amplifiers, microwave, and millimeter-wave circuits, GaN-on-diamond systems pose numerous benefits and applications within the defense and commercial sectors. This includes deployment in cellular base stations, radar sensing equipment, weather and communications satellite equipment, and inverters and converters typically used in hybrid and electronic vehicles.

The Group4 GaN-on-diamond technology was a critical element of TriQuint Semiconductor's device that won the Compound Semiconductor Industry Award in March. TriQuint demonstrated its new GaN-on-diamond, high electron mobility transistors (HEMT) in conjunction with partners at the University of Bristol, Group4, and Lockheed Martin under the Defense Advanced Research Projects Agency's (DARPA) Near Junction Thermal Transport (NJTT) program. TriQuint has designed devices using this technology to achieve up to a three-fold improvement in heat dissipation, the primary NJTT goal, while preserving RF functionality. This would translate into a potential reduction of the power amplifier size or increasing output power by a factor of three.

"GaN-on-diamond wafers are poised to take a center seat in many of our customers technology roadmaps, as new developments demonstrate its ability to dramatically reduce device temperatures, while maintaining output performance," said Adrian Wilson, head of technologies for Element Six. "With the acquisition of the GaN-on-diamond process developed by Group4, we plan to continue to support the market's growth trajectory, ramping up manufacturing capabilities to deliver innovative synthetic diamond solutions to meet emerging market demands."

Founded as a startup in 2003, Group4 has partnered with Element Six since 2008. "The scaling up of GaN-on-diamond wafer manufacturing volumes will need the unique heft, skill, and synergy of Element Six to make it possible," said Felix Ejeckam, chairman and CEO of Group4. "We believe that our customers will benefit enormously from this GaN-on-diamond process acquisition."

Element Six's Technologies division continues to experience strong market success, growing 20% per annum.

SOURCE: Element Six; http://www.e6.com/wps/wcm/connect/e6_content_en/home/about+us/news/news_2013/element+six+acquires+the+assets+and+intellectual+property+of+group4+labs+inc+to+expand+portfolio+of+synthetic+diamond+materials+for+the+semiconductor+industry

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