ITT will introduce a next-generation, ultra-fast DC charging solution
OREANDA-NEWS. ITT Inc., (NYSE: ITT) through its Cannon brand, will introduce a next-generation, ultra-fast DC charging solution that dramatically reduces electric vehicle charging time at eCarTec 2016 in Munich, booth 212, hall A5, Oct. 18-20.
At the world's largest business-to-business trade show for electric and hybrid mobility, ITT will debut its high-performance, cooled ultra-fast charging DC solution as well as an improved contact system for its global portfolio of AC charging solutions. The company's extensive custom design and engineering capabilities will also be on display.
"One of the main obstacles to widespread adoption of electric vehicles is lengthy charging times,” said Gary Ashurst, vice president and general manager of the ITT Interconnect Solutions transportation and industrial business unit. "Our new cooled ultra-fast DC charging system delivers the charge required for 60 miles/100km within 3 to 5 minutes – a charging speed that will help accelerate public adoption of electric vehicles.”
Among the products ITT will showcase at the 2016 eCarTec are the following:
- Cooled Ultra-Fast Charging DC Solution – This breakthrough, liquid-cooled connector and cable design enables ultra-fast EV charge cycles with tested amperages of 400A at 1000V. The high power density is facilitated by a dielectric cooling liquid that runs from the cable throughout the connector's contact system. The solution has a weight optimized cable design and minimized cable diameter – delivering a highly flexible, ergonomic and easy-to-use solution for the global e-mobility market.
- Improved AC Contact System – This state-of-the-art contact system for ITT's AC charging solutions features multiple enhancements over the previous generation. Precision-engineered canted coil spring power contacts allow for minimal mechanical stress of contact partners, minimal resistance of charge current and increased resistance to misalignment. The design changes lead to significantly minimized power losses during the charging process and an extended lifetime.
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