This paper presents a novel performance-based approach for the experimental characterization of power components, specifically focusing on power inductors for use in hard-switching DC-DC power converters. The proposed testing procedure identifies the range of operating conditions under which a power inductor maintains its power loss, temperature rise, and peak-to-peak ripple current within specified target limits. The results underscore the multiple advantages of this performance-based characterization approach, including reduced testing times, enhanced identification of optimal performance applications for components, and improved matching between applications and components.
Performance-oriented experimental characterization of power inductors
Di Capua Giulia
;
2025-01-01
Abstract
This paper presents a novel performance-based approach for the experimental characterization of power components, specifically focusing on power inductors for use in hard-switching DC-DC power converters. The proposed testing procedure identifies the range of operating conditions under which a power inductor maintains its power loss, temperature rise, and peak-to-peak ripple current within specified target limits. The results underscore the multiple advantages of this performance-based characterization approach, including reduced testing times, enhanced identification of optimal performance applications for components, and improved matching between applications and components.| File | Dimensione | Formato | |
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