[1] Huang Ronglin, Fu Peng, Zhu Yinfeng, et al. Design and analysis of a high power supply for the research system of superconducting magnets[J]. Fusion Engineering and Design, 147, 111248(2019).

[2] Mitchell N, Devred A, Libeyre P, et al. The ITER magnets: design and construction status[J]. IEEE Transactions on Applied Superconductivity, 22, 4200809(2012).

[3] Gavrilin A V, Eyssa Y M. Modeling of electromagnetic and thermal diffusion in a large pure aluminum stabilized superconductor under quench[J]. IEEE Transactions on Applied Superconductivity, 11, 2599-2602(2001).

[4] Fu Peng, Song Zhiquan, Gao Ge, et al. Quench protection of the poloidal field superconducting coil system for the EAST tokamak[J]. Nuclear Fusion, 46, S85-S89(2006).

[5] Jiang Jiafu, Liu Xiaoning, Xu Liuwei, . Analysis of discharge based on toroidal field coils of EAST[J]. High Voltage Engineering, 35, 186-191(2009).

[6] [6] Song I, Roshal A, Tanchuk V, et al. The fast disge system of ITER superconducting mags[C]Proceedings of 2011 International Conference on Electrical Machines Systems, 2011: 16.

[7] Li Hua, Song Zhiquan, Wang Shusheng, . Study on DC protection switch for superconducting coils in magnetic confinement fusion device[J]. Proceedings of the CSEE, 36, 233-239(2016).

[8] Song Zhiquan, Fu Peng, Tang Lunjun, . Design of the quench protection system of the EAST PFPS and its simulation[J]. Nuclear Fusion and Plasma Physics, 27, 28-33(2007).

[9] Hu Xingguang, Li Hua, Song Zhiquan, et al. Concept design of 100 kA hybrid DC breaker on China fusion engineering test reactor[J]. Fusion Engineering and Design, 158, 111740(2020).

[10] Zhu Jun, Li Bo, Ruan Jiangjun, . Analysis and test for the DC vacuum interruption process based on the artificial current zero technology[J]. Electric Machines and Control, 23, 63-72(2019).

[11] Li Bo, Peng Zhendong, Sha Xinle, . Reliability of forced commutation breaking by DC vacuum circuit breaker[J]. High Voltage Engineering, 45, 2486-2494(2019).

[12] [12] Zhang Yingkui, Shi Zongqian, Wang Qiaosen, et al. Experimental investigation on HVDC vacuum circuit breaker based on artificial current zero[C]Proceedings of the 27th International Symposium on Disges Electrical Insulation in Vacuum, 2016: 14.

[13] Yuan Shun, Wang Yi, Wang Jimei. Effects of separating moment of electrodes on interruption ability in vacuum circuit breaker[J]. Proceedings of the CSEE, 13, 10-13(1993).

[14] [14] Wang Jianhua, Geng Yingsan, Liu Zhiyuan. The they technology on electrical transmission voltage level single break vacuum interrupter[M]. Beijing: China Machine Press, 2017