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NPC-IGCT Phase Module Clamp Circuit LRC Parameters Design considering FRD snappy Recovery
Yang Ju Zou,Jia Xi Hu,Zhen Yu Ma,Jian Ping Liu,Run Qing Guo,Zhi Xue Zhang 전력전자학회 2019 ICPE(ISPE)논문집 Vol.2019 No.5
In this paper, a method for neutral point clamping-integrated gate commutated thyristor (NPCIGCT) phase module clamp circuit parameters design considering FRD snappy recovery is present. Based on the snappy recovery theory, and analysis of snappy recovery factors, the paper has shown decreasing current commutating slope can attenuated snappy recovery affect effectively. Then, the paper has shown that it is reasonable for decreasing di/dt by increasing inductance of NPC-IGCT phase module clamp circuit, based on the circuit working principle. Then, the new clamp circuit parameters design method which combine multi-objective optimization solution mathematical module of the circuit, fast recovery diode (FRD) snappy recovery, devices overvoltage and loss is shown in paper. A design example and its test results have demonstrated both IGCT and FRD characteristics have been guaranteed and ensuring safety and reliability of the NPC - IGCT phase module.
Chen, Yue,Zou, Hong,Yang, Li-Ying,Li, Yuan,Wang, Li,Hao, Yan,Yang, Ju-Lun Asian Pacific Journal of Cancer Prevention 2012 Asian Pacific journal of cancer prevention Vol.13 No.5
The lack of effective treatment targets for triple-negative breast cancers make them unfitted for endocrine or HER2 targeted therapy, and their prognosis is poor. Transcription factor ER81, a downstream gene of the HER2, is highly expressed in breast cancer lines, breast atypical hyperplasia and primary breast cancers including triple-negative examples. However, whether and how ER81 affects breast cancer carcinogenesis have remained elusive. We here assessed influence on a triple-negative cell line. ER81-shRNA was employed to silence ER81 expression in the MDA-MB-231 cell line, and MTT, colony-forming assays, and flow cytometry were used to detect cell proliferation, colony-forming capability, cell cycle distribution, and cell apoptosis in vitro. MDA-MB-231 cells stably transfected with ER81-shRNA were inoculated into nude mice, and growth inhibition of the cells was observed in vivo. We found that ER81 mRNA and protein expression in MDA-MB-231 cells was noticeably reduced by ER81-shRNA, and that cell proliferation and clonality were decreased significantly. ER81-shRNA further increased cell apoptosis and the residence time in $G_0/G_1$ phase, while delaying tumor-formation and growth rate in nude mice. It is concluded that ER81 may play an important role in the progression of breast cancer and may be a potentially valuable target for therapy, especially for triple negative breast cancer.