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February 22, 2006...Exciting news for the compound semi wide bandgap (WBG) community is that Northrop
Grumman's famed silicon carbide (SiC) device technology will finally move into the commercial
arena. The giant USA defense contractor, Northrop Grumman, recently entered
into an exclusive foundry supplier license agreement with Advanced Power Technology,
Inc. (APT) of Bend, Oregon USA. APT will soon be formally acquired by Microsemi
of Irvine, California USA. (Ref:
our Nov. 15, 2005 coverage). The Microsemi/APT licensing agreement is with
the Electronic Systems' sector of Northrop Grumman (NG). In addition to the exclusivity
relationship with NG, which includes the licensing of relevant SiC patents and
manufacturing methods that will enable APT to manufacture proprietary high performance
SiC microelectronic devices, the agreement also allows APT to use the licensed
technology to manufacture and sell other high performance SiC devices for commercial
purposes. APT
news release.
In a mirror release, Microsemi is the company soon to be at the helm of the
rollout of commercial SiC products using the NG technology. James J. Peterson,
president and CEO of Microsemi said, "We congratulate both APT and Northrop
Grumman in finalizing this agreement that anticipates significant benefits to
the customers of both companies. We are impressed by APT's existing efforts
in silicon carbide, and with the combination of Northrop Grumman's extensive
know-how in SiC technology, we expect to accelerate APT's progress towards becoming
the leading supplier of SiC power semiconductor products."
In conversation this morning with Steve Litchfield, Microsemi's VP of business
development, he and I discussed the historical perspective and far-reaching
implications of this news. Steve, a longtime supporter of CS Online's events
and activities and a former financial analyst, is spearheading Microsemi's acquisition
of APT and seeing it through the US Securities and Exchange Commision (SEC) approval process. Both APT and Microsemi
trade on the USA's Nasdaq exchange. For those unfamiliar with Northrop Grumman's
role in the WBG community, the company has historically kept their outstanding
SiC technology very much in reserve for USA military applications, while the
commercial apps have long had to take a backseat to defense. (For historic perspective,
ref:
Oct. 2001 coverage). The licensing deal between NG and Microsemi/APT equates
to an exciting opportunity to finally exploit commercial applications for advanced SiC technology. Some have have claimed it is the most advanced SiC technology, and it is certainly competitive
with Cree's. Military applications include radar, hybrid power systems,
electric power control and distribution, electronic jamming, and wideband communications
systems. Potential nonmilitary applications of this caliber include hybrid vehicles,
electric power transmission, computer/servers, medical systems, and alternative
energy. The synergy of adding to Microsemi's existing strength in power devices
with APT's (which includes John Torvak's work as originally developed at
Austraulux), makes the quickly growing WBG team at Microsemi a team well
worth watching... JMcD
Emcore Awarded Subcontract to Develop More Efficient Solar Cells for DARPAFebruary 21, 2006...Emcore Corporation, located in Somerset, New Jersey USA, a maker of compound
semiconductor-based components and subsystems for communications, has signed
a subcontract to participate in the Defense Advanced Research Projects Agency
(DARPA) Very High Efficiency Solar Cell (VHESC) program. The goal of the program
is to more than double the efficiency of terrestrial solar cells to 50% efficiency
within the next several years.
The University of Delaware, the prime contractor of the project, selected Emcore
to develop advanced compound semiconductor-based multi-junction solar cells
for Phase I of the effort. The work would obviously be a continuing effort on Emcore's part as that company has long been working on the leading edge of high efficience multijunction cells, primarily for space applications. On this latest alliance, Emcore said it also expects to develop a technology roadmap
for lowering fabrication costs for compound semi-based multijunction solar cells. The company has reportedly joined
a consortium formed by the University of Delaware to meet the goals of the VHESC
project.
Emcore explained that in total DARPA will provide $53 million in funding to
participants over the next several years. According to Rhone Resch, president
of the Washington D.C.-based Solar Industries Association, the VHESC project
is the largest in terms of funding in the history of solar energy research.
He stated, "I applaud DARPA for recognizing the tremendous potential
of solar energy to provide reliable electricity to our troops in the field and
to improve our energy security here at home." Company
News Release Los Alamos Scientists Report Lower Temperature GaN Growth MethodFebruary 21, 2006...Scientists at Los Alamos National Laboratory have reported developing a method
for growing crystalline gallium nitride films at lower temperatures than industry
standards. The team described the use of neutral atom-beam lithography/epitaxy
to grow crystalline and polycrystalline gallium nitride films on bare c-axis-oriented
sapphire. The method discussed in Applied
Physics Letters requires heating to between 100 and 500 degrees Celsius,
and using low kinetic energy nitrogen atoms and a simultaneous flux of gallium
metal.
Los Alamos Scientists used a system they developed called Energetic Neutral
Atom-Beam Lithography, or ENABLE to produces a beam of neutral atoms with low
kinetic energies at near room temperatures. According to Mark Hoffbauer, the
principal investigator for the GaN ENABLE project, "the beauty of using
ENABLE for growing crystalline gallium nitride films is that normally the process
requires substrate temperatures of 900 to 1,100 degrees Celsius and extremely
harsh, reactive environments. Those conditions eliminate a lot of useful materials
as substrates because they would melt or be degraded at the higher temperatures.
Our lower temperature technique has the potential to allow gallium nitride films
to be grown on many more types of inexpensive substrate materials, including
glass and certain polymers."
Another researcher on the team, Alex Mueller added, "The low temperatures
employed by ENABLE allow for the incorporation of electronic and magnetic dopants
into the films while simultaneously avoiding phase segregation and clustering
problems that are limiting the widespread use of these materials in other applications.
The fact that there are no impurities inherent in the ENABLE process make defect
and impurity free films possible, thereby simplifying device fabrication."
Company
News Release Endwave Ships First RoHS Compliant RF TransceiverFebruary 21, 2006...Endwave Corporation of Sunnyvale, California USA, has delivered their first
radio frequency (RF) transceiver designed to be fully compliant with the RoHS
regulations. The Restriction on Hazardous Substances Directive 2002/95/EC (the
"RoHS Directive") does not go into effect until July 1, 2006. The
transceiver was integrated for Nokia’s FlexiHopper Plus microwave radios.
Endwave says it has been working toward full RoHS compliance well ahead of the
July 1 deadline. Company
News Release Gordon Liu Outlines China's Key Factors Driving SSL at Strategies in Light Conference
Scott McMahanFebruary 20, 2006...In one of the most informative talks at the recent Strategies in Light conference in San Francisco, Gordon Liu, Ph.D., president and CEO of Powstar Optoelectronics Corp., outlined China’s solid state lighting strategy and opportunities along with the challenges faced by the industry there. Dr. Liu stated that one of the strong motivators for increasing the adoption of solid state lighting in China is the possible energy savings. He indicated that 50% of the provinces in the country have power shortages, and the estimated total electricity consumption for 2004 was about 2 trillion kwhr. About 220 billion kwhrs/yr or 10-12% went into lighting. This amount is expected to grow to $300 billion kwhrs/yr by 2010. So by a relatively conservative estimate, he said that the country could save about 150 billion kwhrs/yr. To put this in perspective, he said that the enormous Three Gorges Dam project is expected to generate 8.3 billion kwhrs/yr.
Content continues for LIGHTimes SecondPage members... JDSU Divests in Ottawa Facility (Update)
CompoundSemi News StaffFebruary 20, 2006...As expected, JDS Uniphase (JDSU) has reportedly divested in its Ottawa, Canada manufacturing facility. The company reduced its head count by 300 employees. Fabrinet has agreed to take control of the company’s optical communications manufacturing operations. JDSU hopes to take advantage of Fabrinet’s lower cost manufacturing in Thailand. JDSU expects to complete the divestiture by April 1, 2006. Company News Release Anadigics Debuts High Performance PA for 4G WiBro Apps at 3GSM Meet in SpainFebruary 16, 2006...Anadigics of Warren, New Jersey USA has taken center stage at the 3GSM World
Congress in Barcelona, Spain this week by introducing a new linear power amplifier
(PA) for Wireless Broadband (WiBro) applications. WiBro is a 4G wireless technology
related to the WiMAX IEEE 802.16e standard. Called the AWT6235, the PA has been
optimized for WiBro applications, which enable high-speed data services and
in mobile environments. Commenting on the introduction, Dr. Ali Khatibzadeh,
Sr. VP and GM of Wireless Products at Anadigics said, "Anadigics is
at the forefront of RF technology with a comprehensive portfolio of high performance
power amplifiers optimized for 2G, 2.5G, 3G, and emerging 4G applications. WiBro
is expanding the possibilities for wireless access beyond WiFi, enabling users
to have broadband internet access with some degree of mobility. WiBro and WiMAX
solutions significantly expand Anadigics' market opportunities in the wireless
space." Priced at $4.50 in quanties of 1,000 units, samples are now
available and more details are in the company
news release. JDS Uniphase to Sell Ottawa Operations to FabrinetFebruary 15, 2006...In a move that completes JDS Uniphase's plan to shift all their assembly manufacturing
to Asia, JDSU of San Jose, California USA announced its intent to sell its manufacturing
operations in Ottawa, Canada to their contract manufacturing partner, Fabrinet.
JDSU's original headquarters were in Ottowa prior to their consolidation to
their San Jose plant, which itself was originally the compound semi industry
laser pioneering company, SDL. In May of 2005, Fabrinet announced
the closing of its acquisition of three other of JDSU's facilities, located
in Mountain Lakes and Ewing, New Jersey in the USA and Fuzhou, China. Commenting
on this latest sale to Fabrinet was Debbie Shoquist, VP of global operations
for JDSU who stated, "We believe that with additional resources from
Fabrinet and a cohesive transfer team, we will ensure a smooth transition for
our employees and our customers." The transaction is expected to close
in the third quarter of FY06. Upon close, Fabrinet will manage ongoing production
and the Asian transfer activities currently performed by the Ottawa site. Non-manufacturing
activities at the Ottawa site are evidently unaffected by this agreement. No
financial terms were revealed. Company
news release. Our news features are reported
by the CompoundSemi News staff writers.
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