GE's Quartz Business to Offer Custom Wafer Heater Assemblies for Semiconductor Equipment Manufacturers.SAN FRANCISCO San Francisco (săn frănsĭs`kō), city (1990 pop. 723,959), coextensive with San Francisco co., W Calif., on the tip of a peninsula between the Pacific Ocean and San Francisco Bay, which are connected by the strait known as the Golden -- To help optimize the performance of heaters and electrostatic chucks in chip-making equipment, GE's Quartz business today announced an integrated heater assembly platform based at the company's new laboratory in Kobe, Japan. These custom assemblies - a critical subsystem of semiconductor equipment manufacturers' wafer chambers - combine customer-specific mechanical, electrical, and thermal engineering with GE's advanced chemical vapor deposited (CVD CVD Cardiovascular disease, see there ) ceramic heaters and e-chucks. By considering thermal, plasma, mechanical, and electrical boundary conditions of the OEM's chamber, GE's new integrated design The introduction to this article provides insufficient context for those unfamiliar with the subject matter. Please help [ improve the introduction] to meet Wikipedia's layout standards. You can discuss the issue on the talk page. process helps optimize the performance of the entire system. According to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. Chris Intihar, GE product manager, Wafer Processing, "GE has designed a new heater assembly platform with the customer's needs in mind. GE's Quartz business is the only known supplier to provide forward integration that will help semiconductor equipment firms improve the performance of the entire wafer chamber, while helping to maximize their internal engineering resources. Our Kobe lab offers sophisticated design and testing capabilities and a dedicated technology team to help customers expedite their projects. To accelerate this iterative design Iterative design is a design methodology based on a cyclic process of prototyping, testing, analyzing, and refining a work in progress. In iterative design, interaction with the designed system is used as a form of research for informing and evolving a project, as successive process, we are leveraging our ceramics materials expertise from GE's Global Research Center in Niskayuna, N.Y., and our advanced predictive engineering The use of computer-generated models and software simulations that are continually verified against hard empirical data. The benefits are better product designs and a smoother, faster product development process. Finite element analysis (FEA) has a closely integrated role in predictive engineering. and modeling capabilities from our team at GE's John F. Welch Technology Center in Bangalore, India. Our U.S. plant at our Strongsville, Ohio Strongsville is a city in Cuyahoga County, Ohio, United States. The population was 43,858 as of the 2000 Census. The current mayor, Thomas Perciak, was elected in November 2003 following the death of longtime mayor Walter F. Ehrnfelt in May. , world headquarters and our Japan plant near Himeji City, also play an integral part of the design and manufacturing process." The GE technology team at Kobe will deliver complete heater assemblies featuring custom heaters, e-chucks, and its industry-standard quartz materials. GE heaters and e-chucks are mechanically and thermally more robust than sintered sin·ter n. 1. Geology A chemical sediment or crust, as of porous silica, deposited by a mineral spring. 2. A mass formed by sintering. v. sin·tered, sin·ter·ing, sin·ters v. ceramic alternatives. They enable temperature ramp rates exceeding 10 C/second with maximum temperatures up to 1,300 C, and precise temperature control, generally within +/- 1 percent. These material performance advantages translate into increased throughput, greater process flexibility, and improved wafer yields for semiconductor equipment OEMs. The Kobe facility, located in the Kobe International Business Center, is equipped with a Class 1000 (measured at 0.3 micron particulate level) or Class 100 (measured at 0.5 micron particulate level) clean room, thermal modeling capability, two test chambers capable of generating plasma and measuring electrostatic clamping force, multiple heater power supplies, and infrared cameras. The new lab was officially opened on July 1, 2005. About GE's Quartz Business GE's Quartz business is a world leader in the development and manufacture of fused quartz fused quartz n. See quartz glass. materials and products for the semi-conductor, fiber optic, and lighting industries. The business is also a leading global supplier of advanced ceramics, boron nitride and titanium diboride powders, hot-pressed boron nitride and composite shapes, boron nitride coatings, and pyrolytic py·rol·y·sis n. Decomposition or transformation of a compound caused by heat. py  ro·lyt boron nitride and graphite products for use in semiconductor, electronic materials, personal care, materials processing, and other advanced technology applications. About GE Advanced Materials GE Advanced Materials (www.geadvancedmaterials.com) is a world leader in providing high-technology material solutions. Headquartered in Pittsfield, Mass., its businesses include Plastics, Silicones, Quartz, Automotive, Specialty Film & Sheet, Polymershapes, and Sealants and Adhesives. GE (NYSE NYSE See: New York Stock Exchange : GE) is Imagination at Work - a diversified technology, media and financial services company focused on solving some of the world's toughest problems. With products and services ranging from aircraft engines, power generation, water processing and security technology to medical imaging, business and consumer financing, media content and advanced materials, GE serves customers in more than 100 countries and employs more than 300,000 people worldwide. For more information, visit the company's Web site at www.ge.com. |
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