Reprint

Advanced DC-DC Power Converters and Switching Converters II

Edited by
June 2024
300 pages
  • ISBN978-3-7258-1353-7 (Hardback)
  • ISBN978-3-7258-1354-4 (PDF)

This is a Reprint of the Special Issue Advanced DC-DC Power Converters and Switching Converters II that was published in

Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary

In the last few years, a strong demand for power converters with improved performance, such as low energy consumption and reduced size, has arisen. Emerging applications, such as e-mobility (traction inverters, DC-DC onboard chargers, DC-DC battery converters, etc.), data center power management (UPS and bus converters), variable speed drives, LV/HV converter interfaces for smart grids, and energy source conversion (renewable switching power converter interfaces, and battery storage converters) drive this improvement scenario. Efficiency and power density are crucial parameters for managing advanced power converter applications. The Special Issue “Advanced DC-DC Power Converters and Switching Converters II” focuses on advanced solutions for switching power converters in the strategic fields of emerging power electronics applications for technological growth. The articles contribute to these fields by describing the innovative solutions in advanced switching converters for energy conversion that are devoted to the use of sustainable technology in modern societal development.

Format
  • Hardback
License and Copyright
© 2024 by the authors; CC BY-NC-ND license
Keywords
buck converter; output intrinsically safe; the minimum frequency; temperature characteristic; LLC resonant converter; steady-state analysis; internal power losses; AC equivalent circuit; internal resistance; DC voltage gain; high-frequency hybrid converter; DC microgrids; high efficiency; low-voltage-stress; high-voltage conversion ratio; cost-effective; n/a; DC–DC converter; high voltage gain; coupled inductor; voltage multiplier cell; GaN FET; HEMT; enhancement mode; depletion mode; WBG; SiC MOSFET; super-junction MOSFET; cascode; LIDAR; zero-voltage-transition; zero-current-switching; buck/boost converter; coupled inductor; instantaneous frequency; frequency measurement; frequency-to-code converter; auto-tuning technique; boost converter; FPGA; fully-digitalized control; z-domain; controller design; ZVZCT; ZVT; ZCT; ZVS; ZCS; photovoltaics; Supercapacitors; DC–DC; dynamic systems; circuit simulation; power quality; THD; isolated PFC; LLC resonant converter; LLC PFC; first harmonic approximation; FHA; time-domain analysis; TDA; dynamic transition algorithm; CLLC resonant converters; hybrid modulation; fundamental harmonic approximation method; control loop deign; triple-active-bridge converter (TAB); phase-shift modulation (PSM); zero-voltage-switching (ZVS); electromagnetic compatibility; near-field scan; power electronics; double-switch SEPIC-buck converter (DSSB); buck-boost; SEPIC; bode diagrams; PI controllers