Advanced BLDC Motor Technology: Revolutionizing Efficiency and Power Density

This session delves into the evolution and innovation of brushless DC (BLDC) motor technology, from its inception in 1962 by TG Wilson and PH Trickey to cutting-edge advancements. Traditional star-wound BLDC motors, while integral to modern life, face inherent inefficiencies, such as transient current during commutation and in-slot winding current cancellation, which hinder their performance and reliability.

Explore the transformative potential of closed-loop Delta winding BLDC technology with advanced commutation topology. This innovation eliminates transient currents through driving electronics, enhancing system reliability, and significantly increasing power density and motor efficiency. By reducing waste heat in motor windings and improving power electronics stability, this technology enables the creation of high-power BLDC motors that are more efficient and compact than ever before. Join us for an in-depth discussion of motor winding advancements and their role in shaping the future of high-torque electric motors. The presentation will cover:

Historical Context:

• Origin of BLDC motors in 1962 by TG Wilson and PH Trickey.

• Widespread adoption due to solid-state electronics.

Key Limitations of Traditional BLDC Motors:

• Transient currents during commutation stress power electronics.

• In-slot winding current cancellation generates waste heat and lowers efficiency.

Breakthrough Innovations:

• Elimination of transient currents for improved reliability.

• Reduction in waste heat, enhancing power density and efficiency.

• Advanced commutation topology enabling compact and high-power motors.

Applications and Benefits:

• Industries: Automotive, data centers, and renewable energy.

• Improved performance, scalability, and energy efficiency in electric motor

solutions.

Join us to explore how these advancements revolutionize high-torque electric motor designs for a sustainable future.