Your search keyword '"Huang, Jinqiang"' showing total 3 results

1. Vacuum Arc Commutation Characteristics of the DC Microgrid Hybrid Circuit Breakers.

Author

Liao, Minfu, Huang, Jinqiang, Ge, Guowei, Duan, Xiongying, Huang, Zhihui, and Zou, Jiyan

Subjects

*VACUUM arcs, *INSULATED gate bipolar transistors, *HYBRID integrated circuits, *HEAT capacity, *MAGNETIC fields

Abstract

This paper focuses on the vacuum arc commutation between the vacuum arc and the parallel-connected insulated gate bipolar transistor (IGBTs) of dc microgrid hybrid circuit breakers (HCBs). The principle of the dc HCB is analyzed and the vacuum arc commutation is the important process in dc HCB interruption, in which the arcing time and the interrupting time are depended. The test circuit of the vacuum arc commutation is established by simplifying the parallel-connected IGBTs to an on-state resistance with large thermal capacity. The influence of the magnitude of the main current, the resistance of the IGBTs, and the externally applied transverse magnetic field (TMF) on the vacuum arc commutation is investigated by the electrical measure and the development of vacuum arc which is observed by a high-speed CMOS camera. The criteria of the vacuum arc commutation are obtained. The interaction between the vacuum arc commutation and the externally applied TMF is researched and the optimal magnitude of the TMF is gained. The vacuum arc commutation characteristics of dc HCB can be useful for parameters design and control strategy. [ABSTRACT FROM PUBLISHER]

Published

2017

2. Post-arc current measurement based on current transfer characteristic.

Author

Liao, Minfu, Ge, Guowei, Huang, Jinqiang, Duan, Xiongying, and Zou, Jiyan

Subjects

ELECTRIC current measurement, ELECTRIC resistance, VACUUM switches, VACUUM arcs, ELECTRIC admittance, MAGNETIC fields

Abstract

The paper proposes a novel post-arc current measuring equipment (PACME), which is composed of vacuum switch, transfer resistance, protective gap and high-precision current sensor. The principle of the measurement is based on current transfer characteristic between the vacuum switch and transfer resistance. The current-transfer model of the post-arc current measurement is established to gain the characteristic of vacuum arc conductance and the completion time of current transfer influenced by the transfer resistance, current of main circuit and the contacts opening time. The vacuum arc of PACME extinguished just before the main current approach zero while the main current is completely transferred to the transfer resistance. According to the simulation result, the PACME is designed, especially; the transfer resistance is non inductive and over current protection. The post-arc current of vacuum switch with axial magnetic field (AMF) and transverse magnetic field (TMF) contacts was measured in synthetic short-circuit test. The measuring result of post-arc current is accurate and small interference, which satisfied the post-arc current measurement of vacuum circuit breakers. [ABSTRACT FROM AUTHOR]

Published

2017

3. Influence of the AMF Arc Control on Voltage Distribution of Double-Break VCBs.

Author

Liao, Minfu, Ge, Guowei, Duan, Xiongying, Huang, Jinqiang, Huang, Zhihui, and Zou, Jiyan

Subjects

VACUUM circuit breakers, ELECTRIC potential, VACUUM switches, MAGNETIC fields, SIMULATION methods & models

Abstract

This paper investigates the influence of the axial magnetic field (AMF) arc control on voltage distribution (VD) of double-break vacuum circuit breakers (VCBs) in order to gain balanced VD, and thus enhance the breaking capacity. The interaction of vacuum arc plasma, postarc current (PAC), and AMF is discussed. We conduct the breaking test of double-break VCBs with externally applied AMF of a different pulsewidth, magnitude, and a different moment. The PAC, postarc charge, and the VD are measured to analyze the relationship between the AMF arc control and the VD. The optimal AMF arc control and the relationship between the AMF magnitude and the unbalanced voltage ratio are gained when the grading capacitors were 400 pF. The experimental test showed that the proper AMF arc control can improve the unbalanced VD. The mechanism is that the proper AMF arc control can make the postarc charge small and stable, so the unbalanced postarc charge, which caused the unbalanced VD is limited. [ABSTRACT FROM AUTHOR]

Published

2016