Friday, June 2, 2017

Diafilm™ ETC700 delivers exceptional heat dissipation combined with minimal resistive and RF losses, enabling smaller and more reliable high power density devices without impeding electrical performance 

SANTA CLARA (June 2, 2017)—Element Six, a world leader in synthetic diamond supermaterials and member of The De Beers Group of Companies, announced today the development of a new thermal grade of synthetic diamond grown by chemical vapor deposition (CVD), Diafilm™ ETC700. The material is both thermally and electrically conductive and is uniquely suited to effectively manage heat in high frequency, high power density devices. 
With a thermal conductivity up to 700 W/mK, Diafilm ETC700 CVD diamond heat spreaders are three times more effective in spreading heat than alternative ceramic solutions. This electrically conductive all-diamond solution does not require the metal coatings typical of other heat management materials, resulting in reduced frequency dependent conductive losses.  Diafilm ETC700 outperforms all other commercially available metallized, non-diamond heat spreader materials or common metal solutions.  A larger conduction cross-section enables better RF performance by improving the ground-plane isolation. Diafilm ETC700 maintains a high bulk thermal conductivity, whilst the bulk electrical conductivity reduces capacitive coupling between ground planes at low frequencies, and reduces conductive losses at higher frequencies.

Element Six’s range of Diafilm TM heat spreaders have the highest known thermal conductivity of any solid material at room temperature and are available in a range of sizes, thicknesses and metallization. With the addition of Diafilm ETC700, Element Six expands its portfolio to a total of six material grades spanning several levels of thermal, electrical performance and cost points, ranging from 700 W/mK to 2000 W/mK.
“For more than two decades, Element Six’s CVD diamond has proven to be the most effective heat management material, far surpassing the performance of competing materials such as copper or ceramics,” said Thomas Obeloer, business development manager at Element Six. “Our team of developers is committed to continually improving upon our already industry-leading technology to meet new demands in advanced electronics and high frequency devices—making possible the next generation of consumer and commercial devices.”

CVD diamond is a superior material for high power density/high frequency devices due to a unique combination of exceptional properties including high thermal conductivity, mechanical strength, electrical insulation, low weight and chemical inertness. Diafilm ETC700 offers better electrical device operation, lower operating temperatures and improved reliability and longer lifespans of high frequency active semiconductors. 

If interested in learning more about Element Six’s advanced thermal management materials including the newly launched Diafilm ETC700, please visit www.e6.com/thermal

Press interested in speaking with an Element Six spokesperson can contact e6@havasformula.com. 

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