Semiconductor solutions provider, Onsemi has entered a new strategic agreement with Kempower wherein it will provide Kempower with onsemi EliteSiC MOSFETs and diodes for scalable electric vehicle (EV) chargers.
The ongoing collaboration between the two companies enables Kempower’s suite of EV charging solutions with a variety of power semiconductor technologies, including onsemi’s EliteSiC.
These devices will be used in the Active AC-DC front-end and the primary and secondary DC-DC converters.
With low ON resistance and minimal gate and output capacitance, EliteSiC power devices exhibit lower power losses at high operating frequencies, leading to increased system efficiency and reduced end system size.
These advantages translate into higher power density and greater overall reliability for Kempower’s EV charging solutions.
“onsemi EliteSiC power devices improve the efficiency and lower the size and weight of our EV charging solutions,” said Petri Korhonen, Chief Engineer, Kempower. “In addition, onsemi’s vertically integrated supply chain and broad portfolio of intelligent power solutions give us the stability needed to continue delivering world-class EV charging solutions to the market.”
“Our strength in manufacturing and resilient SiC supply chain assures Kempower that we will deliver high-quality products in the agreed-upon volumes today and in the future,” said Asif Jakwani, Senior Vice president and general manager, Advanced Power Division, onsemi. “Incorporating highly reliable power devices leads to the dependable and durable EVCs that Kempower and its customers expect every time.”
Under the strategic agreement, Kempower will incorporate the latest EliteSiC D3 diode and M3S MOSFETs into its EV charging solutions.
These chargers allow for dynamic load balancing, ensuring maximum power distribution and the best possible charging experience for drivers.
Kempower charging solutions are cloud-connected and scalable, giving the modularity that allows fleet and charging point operators to scale their systems in line with demand.