PWM inverter-excited iron loss characteristics of a reactor core | Zendy

Atsushi Yao | Zendy; Kouhei Tsukada | Zendy; Shunya Odawara | Zendy; Keisuke Fujisaki | Zendy; Yuji Shindo | Zendy; Naoki Yoshikawa | Zendy; Tetsuma Yoshitake | Zendy

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PWM inverter-excited iron loss characteristics of a reactor core

Author(s) -

Atsushi Yao,

Kouhei Tsukada,

Shunya Odawara,

Keisuke Fujisaki,

Yuji Shindo,

Naoki Yoshikawa,

Tetsuma Yoshitake

Publication year - 2017

Publication title -

aip advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.421

H-Index - 58

ISSN - 2158-3226

DOI - 10.1063/1.4973797

Subject(s) - inverter , pulse width modulation , core (optical fiber) , materials science , inductor , excitation , flux (metallurgy) , pulse (music) , modulation (music) , nuclear engineering , control theory (sociology) , physics , engineering , electrical engineering , voltage , computer science , acoustics , composite material , control (management) , artificial intelligence , metallurgy

In this paper, we focus on an evaluation of iron losses in a reactor core under pulse width modulation (PWM) inverter excitation. We examine the inverter- and sinusoidal-fed iron losses of the reactor core through both experiments and numerical simulations. The proposed measurement includes operation at a higher frequency than is used commercially. We discuss the building factor (BF) of reactor losses under PWM inverter and sinusoidal excitations based on material iron losses measured in a ring specimen. The BF calculation based on inverter-fed tests is an almost constant value because the magnetic flux density distributions related to the carrier frequency mostly do not depend on the reactor gaps

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