Your search keyword '"Park, Jung-Wook"' showing total 3 results

1. Full-Bridge Single-Inductor-Based Buck–Boost Inverters.

Author

Khan, Usman Ali and Park, Jung-Wook

Subjects

*RENEWABLE energy sources, *REACTIVE flow, *POWER density, *ELECTRIC inverters, *REACTIVE power

Abstract

The output voltage of renewable energy sources is influenced by environmental conditions. To compensate for the variations of voltage, a buck–boost power conditioning system can be used. This article presents a full-bridge single-inductor-based buck–boost inverter. Its output voltage can be greater or lower than the input voltage depending on the controllable duty ratio. This inverter features bidirectional and reactive power flow operations with no high-frequency common-mode voltage. The unique feature of the proposed inverter is using a single inductor in the power train, which enhances the power density. Moreover, only two switches can operate at high frequency. This enables the inverter to be made with the high efficiency and simple circuit configuration. Based on the proposed full-bridge inverter, a novel cascaded buck–boost inverter is also presented. It retains all the benefits of the proposed full-bridge inverter. The theoretical analysis of the proposed full-bridge inverter is first explained in detail. It is then extended to a cascaded inverter. Thereafter, the practical effectiveness of the proposed inverters is verified with the experimental tests by implementing the hardware prototypes of 110 Vrms, 60 Hz, and 500 W for full-bridge single-inductor-based buck–boost inverter, and 220 Vrms, 60 Hz, and 1000 W for the cascaded inverter. [ABSTRACT FROM AUTHOR]

Published

2021

2. Clamping Angle Control PWM Method to Restore Linear Modulation Range of a Voltage Source Inverter.

Author

Kim, Jae-Goo, Lee, Kyo-Beum, and Park, Jung-Wook

Subjects

*PULSE width modulation, *ELECTRIC inverters, *ELECTRIC potential, *ELECTRIC power, *HARMONIC distortion (Physics)

Abstract

This paper proposes the new clamping angle control (CAC) pulse width modulation (PWM) method to restore its maximum linear modulation range of voltage source inverters (VSIs) reduced by the duty ratio limitation in hardware implementation, which makes the VSIs to operate nonlinearly in the high modulation range. The deadtime and the bootstrap gate driver circuit mainly cause this duty ratio limitation in practice. In particular, the bootstrap gate driver circuit is used in many industrial applications by avoiding the additional power supply to apply the gate-source voltage of power switches, and therefore making the VSIs to be small size with the low cost. First, the proposed CACPWM method is theoretically analyzed. Then, it is applied in the high modulation range to overcome the limitation of the duty ratio due to the use of the bootstrap gate driver circuit. Thereafter, its practical effectiveness is verified by both simulation and experimental tests. Also, the resulting harmonic distortions are compared with those by the conventional PWM methods. [ABSTRACT FROM AUTHOR]

Published

2018

3. Dual-Buck Three-Switch Leg Converters With Reduced Number of Passive Components.

Author

Akbar, Fazal, Khan, Usman Ali, Khan, Ashraf Ali, Ahmed, Hafiz Furqan, Elkhateb, Ahmad, Cha, Honnyong, and Park, Jung-Wook

Subjects

*PASSIVE components, *LOGIC circuits, *LEG

Abstract

Like conventional two-switch leg converters, the three-switch leg converters also have short-circuit risks and a dangerous shoot-through current is generated if switches of the same leg are turned on simultaneously. In this article, a new dual-buck structure is proposed for three-switch leg converters. The proposed structure is reliable because of no shoot-through concerns and high quality of output waveforms can be obtained due to the reduction in pulsewidth modulation deadtime. Unlike the conventional dual-buck three-switch leg that uses many passive components such as four current limiting inductors and three external diodes, the new dual-buck three-switch leg uses only one current limiting inductor with two external diodes. To verify the performance, the proposed three-switch legs are used in single-phase dual-output inverter and detailed theoretical analysis, simulation, and experiments are performed. Both continuous and discontinuous modulation schemes are applied and it has been figured out that discontinuous modulation scheme can improve the dc-link voltage utilization in the common-frequency mode of operation. [ABSTRACT FROM AUTHOR]

Published

2022