Light Electric Vehicles (LEVs) rely on specialized traction inverters to manage the conversion of DC battery energy into the precise AC waveforms required for vehicle propulsion. This webinar explores the comprehensive design of low-voltage (24V–96V) traction inverters, examining the system as a cohesive unit where hardware choices directly enable control efficiency.
Join this webinar where we will dissect the traction inverter architecture, detailing how power stage components, sensing circuits, and thermal designs are engineered to handle high currents. Additionally, we will discuss how these hardware foundations facilitate advanced control techniques, ensuring the motor runs smoothly and efficiently under varying load conditions.
Emad Hamdy is currently working as a Senior Technical Lead at eInfochips (an Arrow Company), where he leads the Hardware Engineering Team in Egypt. He possesses extensive expertise in power electronics and has successfully delivered a diverse range of projects including Inverters, Rectifiers, and Battery Management Systems (BMS). Emad specializes in the architectural design and implementation of robust hardware solutions for high-power applications.
Bichoy Essam serves as a Senior Software Engineer specializing in Model-Based Design (MBD) and Control Law at eInfochips (an Arrow Company). He currently leads the Model-Based Design and Control Team in Egypt. His technical background covers a wide spectrum of automotive and power electronics projects, including the development of advanced control algorithms for Inverters, Rectifiers, and BMS.
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