Electronic engineering, Electrical engineering, Inverter, Pulse-width modulation and Control theory are his primary areas of study. His Electronic engineering study integrates concerns from other disciplines, such as Boost converter, Transformer, Buck–boost converter and Voltage. His work carried out in the field of Inverter brings together such families of science as Snubber, Power control and Modulation.
His Pulse-width modulation study incorporates themes from Electromagnetic interference, Commutation, Inductor, Diode and Delta-sigma modulation. His studies deal with areas such as Power factor, Total harmonic distortion, Ultrasonic motor, Thyristor and Induction generator as well as Control theory. His Induction generator research focuses on Voltage regulation and how it relates to Voltage source.
His primary areas of study are Electronic engineering, Pulse-width modulation, Inverter, Electrical engineering and Control theory. His research in Electronic engineering intersects with topics in Power factor, Transformer, Snubber and Boost converter, Forward converter. His Forward converter study combines topics in areas such as Buck–boost converter and Flyback converter.
His work deals with themes such as Converters, Inductor, Soft switching, Capacitor and AC power, which intersect with Pulse-width modulation. His Inverter research incorporates elements of Voltage source, Induction heating and Commutation. His Control theory study also includes
Mutsuo Nakaoka focuses on Electronic engineering, Pulse-width modulation, Inverter, Electrical engineering and Boost converter. His study in Electronic engineering is interdisciplinary in nature, drawing from both Ćuk converter, Inductor, Voltage, Forward converter and Flyback converter. The Pulse-width modulation study combines topics in areas such as Converters, Transformer, Snubber, Commutation and Switched capacitor.
His Inverter research incorporates themes from Total harmonic distortion, Induction heating and Control theory. His research integrates issues of Clamping and Electric power in his study of Electrical engineering. His biological study spans a wide range of topics, including Buck converter, Switched-mode power supply and AC/AC converter.
Mutsuo Nakaoka mostly deals with Electronic engineering, Pulse-width modulation, Inverter, Control theory and Electrical engineering. His Electronic engineering research includes elements of Snubber, Capacitor, Boost converter, Forward converter and Power electronics. Mutsuo Nakaoka interconnects Clamping, Transformer, Electronic circuit and Diode in the investigation of issues within Pulse-width modulation.
His research in the fields of Resonant inverter overlaps with other disciplines such as Process. His Control theory research integrates issues from Power factor, Wind power, Filter and Current. His research in Electrical engineering is mostly focused on AC power.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Terminal voltage regulation characteristics by static var compensator for a three-phase self-excited induction generator
T. Ahmed;O. Noro;E. Hiraki;M. Nakaoka.
IEEE Transactions on Industry Applications (2004)
Load-adaptive frequency tracking control implementation of two-phase resonant inverter for ultrasonic motor
S.-i. Furuya;T. Maruhashi;Y. Izuno;M. Nakaoka.
power electronics specialists conference (1990)
Advanced control of PWM converter with variable-speed induction generator
T. Ahmed;K. Nishida;M. Nakaoka.
IEEE Transactions on Industry Applications (2006)
A High Frequency-Link Secondary-Side Phase-Shifted Full-Range Soft-Switching PWM DC–DC Converter With ZCS Active Rectifier for EV Battery Chargers
T. Mishima;K. Akamatsu;M. Nakaoka.
IEEE Transactions on Power Electronics (2013)
Series resonant ZCS-PFM DC-DC converter with multistage rectified voltage multiplier and dual-mode PFM control scheme for medical-use high-voltage X-ray power generator
J. Sun;X. Ding;M. Nakaoka;H. Takano.
IEE Proceedings - Electric Power Applications (2000)
Induction-heated cooking appliance using new quasi-resonant ZVS-PWM inverter with power factor correction
S. Wang;K. Izaki;I. Hirota;H. Yamashita.
IEEE Transactions on Industry Applications (1998)
A novel pulse-density-modulated high-frequency inverter for silent-discharge-type ozonizer
O. Koudriavtsev;Shengpei Wang;Y. Konishi;M. Nakaoka.
IEEE Transactions on Industry Applications (2002)
Cost effective phase shifted pulse modulation soft switching high frequency inverter for induction heating applications
H. Kifune;Y. Hatanaka;M. Nakaoka.
IEE Proceedings - Electric Power Applications (2004)
Advanced current control implementation with robust deadbeat algorithm for shunt single-phase voltage-source type active power filter
K. Nishida;M. Rukonuzzman;M. Nakaoka.
IEE Proceedings - Electric Power Applications (2004)
Actual efficiency and electromagnetic noises evaluations of a single inductor resonant AC link snubber-assisted three-phase soft-switching inverter
M. Yoshida;E. Hiraki;M. Nakaoka.
international telecommunications energy conference (2003)
Profile was last updated on December 6th, 2021.
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