Cut time to market for street lighting control projects
TE Connectivity’s new LUMAWISE Endurance N enhanced base helps cut time to market for street lighting control projects and reduces costs of design changes.
January 11, 2018
HARRISBURG, Pa., USA – TE Connectivity (TE), a world leader in connectivity and sensors, introduces the LUMAWISE Endurance N Enhanced base, creating a platform for customers’ rapid development and manufacture of NEMA/ANSI C136.41 compliant street and outdoor lighting control solutions.
“With this new development, we are helping designers reduce risk in project schedules and cut the cost of design changes by providing a complete base that enables complex control node solutions, so designers can focus their efforts on value-adding innovations,” says Ben Nelson, TE business development manager.
TE’s LUMAWISE Endurance N Enhanced base takes the existing LUMAWISE base assembly to the next level of performance required for smart street light controls by integrating a switch mode AC-DC power supply, 16A switching relay, and metal-oxide varistor (MOV) surge protector onto the C136.41 compliant base. The enhanced base provides commonly used DC voltages to a customer’s control
PCB, which then stacks on top of the assembly using the integral standoffs and standard cable jumpers.
The LUMAWISE Endurance N Enhanced Base provides a standard mechanical and electrical platform that supports design reuse, modularity and end-of-line customization across designers’ outdoor lighting control products.
TE Connectivity Ltd. (NYSE: TEL) is a $14 billion global technology and manufacturing leader creating a safer, sustainable, productive, and connected future. For more than 75 years, our connectivity and sensor solutions, proven in the harshest environments, have enabled advancements in transportation, industrial applications, medical technology, energy, data communications, and the home. With 80,000 employees, including more than 8,000 engineers, working alongside customers in approximately 140 countries, TE ensures that EVERY CONNECTION COUNTS.