Jingyu Xing scite author profile

Jingyu Xing

3Publications

20Citation Statements Received

80Citation Statements Given

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Xidian University

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Si/SiC heterojunction lateral double‐diffused metal oxide semiconductor field effect transistor with breakdown point transfer (BPT) terminal technology

Duan

Xing

Yang

2019

Micro & Nano Letters

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A novel silicon (Si) on silicon carbide (SiC) lateral double-diffused metal oxide semiconductor field effect transistor with deep drain region is proposed. Its main idea is transferring the breakdown point and utilising the high critical electric field of SiC material to suppress the curvature effect of the drain, which eventually alleviates the trade-off relationship between breakdown voltage (BV) and specific on-resistance (R on,sp). Through the TCAD simulation, the results show that the BV is significantly improved from 240 V for conventional Si lateral double-diffused metal oxide semiconductor (LDMOS) to 384 V for the proposed structure with the drift region length of 20 μm, increased by 60%. The figureof-merit of the conventional Si LDMOS and the Si/SiC LDMOS are 2.04 and 4.26 MW/cm 2 , respectively. It indicates that the proposed structure has better performance than the Si counterpart. The influences of design parameters and interfacial charges on the device performance are also discussed in this work.

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Analytical model of buried air partial SOI LDMOS

Xing

Duan

Dong

et al. 2019

Superlattices and Microstructures

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Unified Analytical Model for SOI LDMOS With Electric Field Modulation

Duan

Xing

Dong

et al. 2020

IEEE J. Electron Devices Soc.

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The unified analytical model is proposed for SOI LDMOS (Silicon On Insulator Lateral Double-diffused Metal Oxide Semiconductor) based on the electric field modulation in this paper for the first time. The analytical solutions of the surface electric field distributions and potential distributions are derived on the basis of the 2-D Poisson equation. The variation of the buried layer parameters modulates the surface electric field by the electric field modulation effect to optimize the surface electric field distribution of the device. Also, the simulation results obtained through the simulation software ISE are consistent with the expected results of the analytical model. This not only proves the feasibility of the electric field modulation theory, but also shows that the accurate analytical model will be of great guiding significance for designing and optimizing the same LDMOS based on SOI structures.

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Jingyu Xing

Si/SiC heterojunction lateral double‐diffused metal oxide semiconductor field effect transistor with breakdown point transfer (BPT) terminal technology

Analytical model of buried air partial SOI LDMOS

Unified Analytical Model for SOI LDMOS With Electric Field Modulation

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