Detailed coverage of MOSFETs, BJTs, and the specialized power ICs that form the control "brain" of modern supplies.
A significant portion of the book is dedicated to supervisory circuits , covering overvoltage protection, current limiting, and surge suppression—essential for protecting delicate microprocessors from power-line transients.
A unique strength of the handbook is its look toward the future. Kularatna includes forward-looking sections at the end of many chapters, discussing emerging trends in . This ensures that the design principles remain relevant as the industry moves toward wider bandgap materials and smarter, digital control schemes. Power Electronics Design Handbook: Low-Power Co...
The Power Electronics Design Handbook: Low-Power Components and Applications by is a cornerstone resource for engineers navigating the transition from theoretical circuit analysis to practical system implementation. Unlike general power electronics texts that often prioritize high-power industrial motor drives, this handbook focuses on the intricacies of low- to medium-power systems , which are the backbone of modern consumer electronics and portable technology. Bridging Theory and Practice
For any designer looking to move from a "bench prototype" to a reliable, commercially viable product, the Power Electronics Design Handbook provides the necessary bridge between component specifications and system reliability. Detailed coverage of MOSFETs, BJTs, and the specialized
The handbook organizes power electronics design into several critical areas:
Analysis of AC-DC and DC-DC converters, specifically tailored for stability and efficiency in low-voltage DC environments. Kularatna includes forward-looking sections at the end of
Kularatna’s work stands out for its "practitioner’s" approach. It serves as a companion to foundational academic texts, such as those by Undeland, Mohan, and Robbins , by translating complex differential equations into actionable design steps. The book emphasizes energy-saving low-power applications , integrating component-level theory with system-level management.