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A snapback-free and high-speed SOI LIGBT with double trenches and embedded fully NPN structure
Chenxia Wang, Jie Wei, Diao Fan, Yang Yang, Xiaorong Luo. A snapback-free and high-speed SOI LIGBT with double trenches and embedded fully NPN structure[J]. Journal of Semiconductors, 2020, 41(10): 102402. doi: 10.1088/1674-4926/41/10/102402 C X Wang, J Wei, D Fan, Y Yang, X R Luo, A snapback-free and high-speed SOI LIGBT with double trenches and embedded fully NPN structure[J]. J. Semicond., 2020, 41(10): 102402. doi: 10.1088/1674-4926/41/10/102402.Export: BibTex EndNote
Authors:Chenxia Wang  Jie Wei  Diao Fan  Yang Yang  Xiaorong Luo
Affiliation:China State Key Laboratory of Electronic Thin Films and Integrated Devices, University of Electronic Science and Technology of China, Chengdu 610054, China
Abstract:A novel 600 V snapback-free high-speed silicon-on-insulator lateral insulated gate bipolar transistor is proposed and investigated by simulation. The proposed device features an embedded NPN structure at the anode side, and double trenches together with an N-type carrier storage (N-CS) layer at the cathode side, named DT-NPN LIGBT. The NPN structure not only acts as an electron barrier to eliminate the snapback effect in the on-state within a smaller cell pitch but also provides an extra electron extracting path during the turn-off stage to decrease the turnoff loss (Eoff). The double cathode trenches and N-CS layer hinder the hole from being extracted by the cathode quickly. They then enhance carrier storing effect and lead to a reduced on-state voltage drop (Von). The latch-up immunity is improved by the double cathode trenches. Hence, the DT-NPN LIGBT obtains a superior tradeoff between the Von and Eoff. Additionally, the DT-NPN LIGBT exhibits an improved blocking capability and weak dependence of breakdown voltage (BV) on the P+ anode doping concentration because the NPN structure suppresses triggering the PNP transistor. The proposed LIGBT reduces the Eoff by 55% at the same Von, and improves the BV by 7.3% compared to the conventional LIGBT.
Keywords:snapback-free   fast switching   SOI LIGBT   trench gate   Eoff
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