The company premiers an extended line of Circuit Breaker Wall and Roof-top Solar Re-Combiners. Bentek Solar Wall and Roof Mount Re-Combiners provide the final interface to the inverter for small and large commercial systems.
SAN JOSE, CA ― February 2011 ― Bentek Solar, a leader in the design and manufacture of Optimized Configure-To-Order (CTO) commercial and utility scale solar products, including combiners, re-combiners, safety systems and accessories, introduces an extended line of Circuit Breaker Wall and Roof-top Solar Re-Combiners.
"There are no fuses with these 100 percent circuit breaker re-combiners that provide maximum performance and maximum safety with UL 489 breakers. The circuit breaker serves as a load break disconnect, in addition to providing circuit protection for our customers. Not only is it a more convenient and easier solution to maintain since there are no fuses to ever replace, but it is a very cost competitive alternative to fuses with an integrated load break disconnect," said John H. Buckley, leading sales and marketing at Bentek Solar.
Bentek Solar Wall and Roof Mount Re-Combiners provide the final interface to the inverter for small and large commercial systems. Additionally, the re-combiners feature a flexible design for customization and ease of installation, as well as an enhanced level of user safety.
For more information about Bentek Solar Circuit Breaker Re-Combiners or to view online data sheets, visit www.BentekSolar.com.
About Bentek Solar
Founded in 1985, Bentek is a leader in manufacturing and engineering solutions for complex electro-mechanical and power distribution systems for the semiconductor and solar industries. Bentek has applied these extensive capabilities and knowledge into a comprehensive family of standard and configure-to-order (CTO) solar combiner products. These solar combiners provide quality, ease of installation and safety to the solar industry. For more information, contact Bentek Solar at 866-505-0303, e-mail JohnB@bentek.com or visit www.BentekSolar.com.