Matthew Leach
Vice President of Innovation Essex Furukawa Magnet Wire
Matthew Leach is the Vice President of Innovation for Essex Furukawa Magnet Wire. In this role, Matt is responsible for research and development of break through improvements in products and technology. Prior to this role, Matt held a variety of progressive engineering and operations roles at Essex Furukawa, including Vice President of Operations for Essex North America, Director of Engineering for Essex North America, and Director of Project Development. Matt earned a Bachelor of Science in Mechanical Engineering from Rose-Hulman Institute of Technology and a MBA from Indiana University. He has been with Essex Furukawa for 29 years.
2024 Agenda Sessions
The Optimal Choice For 800V+ xEV Applications Where High Performance, Durability and Carbon Neutrali
This session will review HVWW® technologies for use in critical motor applications. This innovative wiring solution is engineered to meet the rigorous demands of advanced electric vehicle technologies, ensuring optimal efficiency, reliability, and sustainability.
The speakers will have specific discussion on the key performance differentiators and benefits of HVWW® products:
- Optimise efficiency and durability of motors while reducing the carbon footprint
- Meet rigorous industry standards and regulatory requirements
- Customised option to offer flexibility
Wednesday 15 May 14:00 - 14:30 E- Mobility Stage
Component Innovations: Performance, Design & Sustainability
This session will review HVWW® technologies for use in critical motor applications. This innovative wiring solution is engineered to meet the rigorous demands of advanced electric vehicle technologies, ensuring optimal efficiency, reliability, and sustainability.
The speakers will have specific discussion on the key performance differentiators and benefits of HVWW® products:
- Optimise efficiency and durability of motors while reducing the carbon footprint
- Meet rigorous industry standards and regulatory requirements
- Customised option to offer flexibility
