Reducing EV Charger Deviation - UNO MINDA Uses Altair SimLab to Maintain Deviation in On-board EV Chargers

UNO MINDA, a prominent player in global automobile component manufacturing, has shifted its focus towards electric vehicles (EVs), particularly prioritizing components such as on-board chargers, DC-DC converters, and vehicle management systems. The intricacy of these products lies in their thermal management, compounded by the challenge of maintaining compact size and low wattage. Overcoming these constraints demands meticulous design to ensure optimal thermal and mechanical performance. Designing printed circuit board (PCB) models introduces further challenges, including component layouts, thermal management, and cooling requirements. UNO MINDA addresses these hurdles through innovation in materials, simulations, and methodologies, aligning with industry standards to deliver high-performance products. Utilizing Altair SimLab , they conduct design experiments and sensitivity analyses for thermal management, examining temperature distribution and gradients across various components and assembly levels. Additionally, Altair PollEx aids in accurate electromechanical analysis through precise capture and utilization of trace information in PCB-level simulations. This comprehensive approach ensures durable, low-maintenance products aligned with evolving industry demands.