IET Power Electronics brings together five principal power electronics themes. The submission of high quality research that focuses on one or more of these themes is strongly encouraged. Applications of power semiconductor technology for the control and conversion of electric power in: electric machine drives; all forms of transport; manufacturing; heating; lighting; building services and industrial scale power conditioning. Circuits commonly used including: all types of converters; inverters; active filters; switched mode power and uninterruptible power supplies. Devices used in power electronic applications including: power semiconductor devices; photovoltaic devices; passive components; wound components; batteries and fuses. Techniques for controlling, analysing, modelling and/or simulation of power electronics circuits and complete power electronic systems. Performance management of power electronic systems including: power factor correction and harmonic spectrum management; thermal management; EMC and noise mitigation; fusing and protection.
IET Power Electronics
Description
Identifiers
ISSN | 1755-4535 |
Publisher
IET
Additional information
Data set: ieee
Articles
IET Power Electronics > 2017 > 10 > 14 > 1870 - 1877
This study describes the design and control of simplified structure of three-phase 4-level inverter. A 4-level dc-link derived from three symmetrical dc voltage supplies and two controlled switches is connected to a three-phase 3-level neutral point clamped (3-level NPC) bridge inverter. By employing the fundamental frequency switching technique, the simplified 4-level inverter can have two distinct...
IET Power Electronics > 2017 > 10 > 14 > 1924 - 1931
A new interleaved high step-up DC-DC converter is presented in this study which integrates coupled inductors and voltage multipliers techniques into interleaved structure to provide high voltage gain without extreme duty cycle. The voltage stress across power metal-oxide-semiconductor field-effect transistors is very low, so low voltage rating switches with lower Rds(on) can be used. A modified version...
IET Power Electronics > 2017 > 10 > 14 > 1889 - 1895
We describe a method for simulating an electromagnetic induction type wireless power transmission (WPT) device. This simulator was based on the finite-difference, time-domain method. To reduce computation time, two graphics processing units (GPUs) were used as accelerators for the electromagnetic field computation. The first GPU calculated the electromagnetic field for the non-resonance state, and...