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"Why 48V is Revolutionizing Robotics"

Powering the Future

The rapid evolution of the automotive industry, driven by vehicle electrification, necessitates significant advancements in power electronics to enhance efficiency and reduce system size and weight. A critical challenge in this transition is maximizing the power density of automotive DC/DC converters, which are essential for integrating high-voltage battery systems with the vehicle's low-voltage electronics. This white paper explores how the strategic implementation of two key technologies—advanced current sensors and high-performance isolated gate drivers—is enabling a new generation of compact, efficient, and reliable DC/DC converters.

We delve into the role of advanced, lossless current-sensing techniques that provide the high accuracy and fast response times required for precise control loop feedback and overcurrent protection. These sensors are crucial for optimizing the performance of converters that use wide-bandgap semiconductors like Silicon Carbide (SiC) and Gallium Nitride (GaN).

Furthermore, the paper examines the pivotal function of isolated gate drivers. These components are essential for safely and efficiently operating high-voltage power switches at the high frequencies needed to reduce the size of passive components like inductors and capacitors. By enabling faster switching speeds, robust protection, and superior noise immunity, isolated gate drivers directly contribute to increased power density and system reliability.

By combining these advanced current sensor and isolated gate driver solutions, designers can overcome traditional limitations, achieving significant improvements in power density, efficiency, and thermal management. This paper provides a comprehensive analysis of these technologies, offering design considerations and demonstrating their collective impact on the future of automotive power conversion.

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