Low Inductance Design for Symmetrical Submodules in Hybrid HVDC Circuit Breaker

Low Inductance Design for Symmetrical Submodules in Hybrid HVDC Circuit Breaker

The diode bridge submodule (SM) is one of the basic units of a hybrid high-voltage dc circuit breaker. This article works on the low inductance design of a single SM and series SMs. For the layout design of a single SM, this article proposes a simple and clear +-shaped SM layout, the low inductance...

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Bibliographic Details
Published in:IEEE transactions on power electronics Vol. 36; no. 11; pp. 12321 - 12331
Main Authors: Liu, Kexin, Qi, Lei, Dongye, Zhonghao, Tang, Guangfu, Cui, Xiang
Format: Journal Article
Language:English
Published: New York IEEE 01-11-2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Bridge circuits
Busbars
Capacitors
Circuit breakers
Circuit design
Design optimization
Diode bridge
Fault currents
hybrid HVDC circuit breaker
Inductance
Insulated gate bipolar transistors
Layout
Layouts
low inductance
Reduction
Snubbers
submodule (SM)
symmetry
voltage spike
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Summary:The diode bridge submodule (SM) is one of the basic units of a hybrid high-voltage dc circuit breaker. This article works on the low inductance design of a single SM and series SMs. For the layout design of a single SM, this article proposes a simple and clear +-shaped SM layout, the low inductance design is simplified to the optimization of two laminated busbars with a simple structure. Based on the +-shaped SM layout, this article further proposes an SM structure with holes in diodes region, the stray inductance is further reduced, and only one integrated laminated busbar is needed in a single SM. For the layout design of series SMs, this article makes full use of the layout of a single SM and the mutual inductances between the SMs, series SMs are alternately connected in reverse. The single SM layout proposed in this article is effective in reducing the stray inductance. The loop stray inductance in stage II reduced from 148.4 to 72.3 nH, a 51.3% reduction. When the two parallel IGBTs turn off a 6 kA fault current in 2 μ s, the voltage spike is reduced from 786.1 to 423.4 V, a 46.1% reduction. And the stray inductance difference of the bidirectional current path is controlled to about 10 nH. The layout of series SMs proposed in this article is effective in reducing the length of the series SMs, the length is reduced by 16.7%. The experimental results show that the SMs layout proposed in this article is effective.
ISSN:0885-8993
1941-0107
DOI:10.1109/TPEL.2021.3077884