Electric Vehicle

STMicroelectronics to provide power electronic system for electric and hybrid vehicles to Renault Group

Renault Group and STMicroelectronics announced a strategic cooperation on the design, development, manufacturing, and supply to Renault Group of STMicroelectronics’ products and related packaging solutions for the power electronics systems of battery-operated and hybrid vehicles. These technologies will have significant impacts on electric vehicles’ driving range and charging by reducing power losses and improving efficiency, which will result in lower battery costs, more kilometres per charge, shorter charging time and reduced user-cost. 

Renault Group and STMicroelectronics will work together with the objective of improving the power performance of Renault’s Group’s applications for electric and hybrid vehicles, based on STMicroelectronics’ wide bandgap semiconductor technologies and products. The companies will collaborate on the development of efficient, rightsized, and modular components based on the understanding of Renault Group’s technology needs for Silicon Carbide (SiC) devices, Gallium Nitride (GaN) transistors, along with related packages and modules. As Renault’s key innovation partner, STMicroelectronics will benefit from significant volumes guaranteed for the annual usage of these power modules and transistors from 2026-2030.

Sustainability and sustainable technology are at the heart of both Renault Group’s and STMicroelectronics’ vision and solutions. For ST, this strategic cooperation is further evidence of how its technologies and products enable more sustainable mobility as well as advanced power and energy management across all type of systems and devices. The transition to more energy-efficient technologies and improved power performance for the operation of full electric and hybrid vehicles will enable Renault Group to continue making concrete improvements to carbon emissions reduction, in line with its objective of achieving carbon neutrality in Europe by 2040 and worldwide by 2050. 

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