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BorgWarner Introduces Innovation in Variable Cam Timing Technology for 2009 Ford Escape


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BorgWarner's Industry-First Technology Improves Performance and Fuel Economy, Reduces Emissions

AUBURN HILLS, Mich., Sept. 3, 2008 - BorgWarner will supply Cam Torque Actuated (CTA) variable cam timing technology for the upgraded Ford Duratec 3.0-liter V-6 engine, debuting in the 2009 Ford Escape. BorgWarner's industry-first, patented technology improves engine performance and fuel economy while reducing emissions.

"As car makers strive to meet drivers' demands for performance and fuel economy while complying with increasingly stringent emissions regulations, the new BorgWarner CTA technology for variable cam timing has emerged as an important option for optimizing the method of achieving variable cam timing. The CTA technology is a great growth opportunity for BorgWarner," said Alfred Weber, President and General Manager, BorgWarner Morse TEC. "We are pleased to introduce it on Ford's Duratec engine."

Unlike traditional cam phasing methods which typically use engine oil pressure to rotate the camshaft, BorgWarner's CTA technology captures the existing torsional energy in the valve train to accomplish this event, similar to a hydraulic ratchet. CTA cam phasers operate more quickly and under a wider range of engine speeds and temperatures than traditional oil pressure actuated cam phasers. These factors allow CTA variable cam timing to more efficiently improve fuel economy, increase horsepower and reduce emissions.

BorgWarner Morse TEC manufactures complete engine timing systems that are quiet, durable, precise and cost effective. Engines equipped with BorgWarner CTA technology operate independently of oil pressure to deliver more horsepower, better performance and improved fuel economy. Morse TEC HY-VO(R) chain systems, which are available for both front wheel drive transmissions and 4WD transfer cases, transmit power between shafts efficiently, quietly and economically with considerable weight savings over gear technology.