Electronic engineering, Inverter, Control theory, Electrical engineering and Z-source inverter are her primary areas of study. Her biological study spans a wide range of topics, including Fault, Switched-mode power supply, Converters and Gate array. As a member of one scientific family, she mostly works in the field of Inverter, focusing on Power electronics and, on occasion, Switching frequency and Silicon.
Her Control theory study combines topics in areas such as Power factor, Capacitor, AC power, Harmonics and Voltage. Jin Wang regularly links together related areas like Trickle charging in her Electrical engineering studies. The Z-source inverter study combines topics in areas such as Photovoltaic system and Network analysis.
Her primary areas of investigation include Electrical engineering, Electronic engineering, Voltage, Control theory and Converters. Jin Wang has included themes like Electronic circuit, Maximum power point tracking, Inverter, Switched-mode power supply and Power semiconductor device in her Electronic engineering study. Her Z-source inverter and Grid-tie inverter investigations are all subjects of Inverter research.
Her work in Voltage addresses subjects such as Optoelectronics, which are connected to disciplines such as High-electron-mobility transistor. Her studies deal with areas such as Power factor, Harmonics, AC power and Electric power system as well as Control theory. In her research, Electric vehicle is intimately related to Electronics, which falls under the overarching field of Converters.
Jin Wang mainly focuses on Voltage, Electrical engineering, Converters, Electronic engineering and Capacitor. As part of one scientific family, Jin Wang deals mainly with the area of Voltage, narrowing it down to issues related to the Optoelectronics, and often Magnet wire and Insulation system. Her Electrical engineering study frequently draws connections to adjacent fields such as Power module.
The various areas that she examines in her Converters study include Resistor, Inductor and Control theory. Her Electronic engineering study deals with Filter intersecting with EMI and Modulation. Jin Wang interconnects Ripple and Galvanic isolation in the investigation of issues within Capacitor.
Her main research concerns Voltage, Electrical engineering, Optoelectronics, Capacitor and Gallium nitride. The Voltage study combines topics in areas such as Electric machine, Electronic circuit and Electromagnetic coil. Jin Wang performs integrative Electrical engineering and Silicon carbide research in her work.
In her work, Rise time, Magnet wire, Insulation system, Light emission and Twisted pair is strongly intertwined with Partial discharge, which is a subfield of Optoelectronics. Within one scientific family, Jin Wang focuses on topics pertaining to Inductor under Capacitor, and may sometimes address concerns connected to DC-BUS and Converters. Her Circuit design research is multidisciplinary, incorporating elements of Power factor, Overcurrent and Voltage divider.
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Constant boost control of the Z-source inverter to minimize current ripple and voltage stress
Miaosen Shen;Jin Wang;A. Joseph;Fang Zheng Peng.
IEEE Transactions on Industry Applications (2006)
$Z$ -Source Inverter for Residential Photovoltaic Systems
Yi Huang;Miaosen Shen;F.Z. Peng;Jin Wang.
IEEE Transactions on Power Electronics (2006)
Comparison of Traditional Inverters and $Z$ -Source Inverter for Fuel Cell Vehicles
Miaosen Shen;A. Joseph;Jin Wang;F.Z. Peng.
IEEE Transactions on Power Electronics (2007)
Z-source inverter for motor drives
Fang Zheng Peng;A. Joseph;Jin Wang;Miaosen Shen.
IEEE Transactions on Power Electronics (2005)
Control of cascaded multi-level inverters
K.A. Corzine;M.W. Wielebski;F.Z. Peng;Jin Wang.
international electric machines and drives conference (2003)
Low cost fuel cell inverter system for residential power generation
J. Wang;F.Z. Peng;J. Anderson;A. Joseph.
applied power electronics conference (2004)
Low cost fuel cell converter system for residential power generation
Jin Wang;F.Z. Peng;J. Anderson;A. Joseph.
IEEE Transactions on Power Electronics (2004)
Maximum constant boost control of the Z-source inverter
M. Shen;Jin Wang;A. Joseph;F.Z. Peng.
ieee industry applications society annual meeting (2004)
A Universal Selective Harmonic Elimination Method for High-Power Inverters
D. Ahmadi;Ke Zou;Cong Li;Yi Huang.
IEEE Transactions on Power Electronics (2011)
Development of an 85-kW Bidirectional Quasi-Z-Source Inverter With DC-Link Feed-Forward Compensation for Electric Vehicle Applications
Feng Guo;Lixing Fu;Chien-Hui Lin;Cong Li.
IEEE Transactions on Power Electronics (2013)
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