A novel high performance TFS SJ IGBT with a buried oxide layer

doi:10.1088/1674-1056/23/8/088504

Abstract A novel high performance trench field stop (TFS) superjunction (SJ) insulated gate bipolar transistor (IGBT) with a buried oxide (BO) layer is proposed in this paper. The BO layer inserted between the P-base and the SJ drift region acts as a barrier layer for the hole-carrier in the drift region. Therefore, conduction modulation in the emitter side of the SJ drift region is enhanced significantly and the carrier distribution in the drift region is optimized for the proposed structure. As a result, compared with the conventional TFS SJ IGBT (Conv-SJ), the proposed BO-SJ IGBT structure possesses a drastically reduced on-state voltage drop (V_ce(on)) and an improved tradeoff between V_ce(on) and turn-off loss (E_off), with no breakdown voltage (BV) degraded. The results show that with the spacing between the gate and the BO layer W_o=0.2 μm, the thickness of the BO layer L_o=0.2 μm, the thickness of the drift region L_d=90 μm, the half width and doping concentration of the N- and P-pillars W_n=W_p=2.5 μm and N_n=N_p=3× 10¹⁵ cm^-3, the V_ce(on) and E_off of the proposed structure are 1.08 V and 2.81 mJ/cm² with the collector doping concentration N_c=1× 10¹⁸ cm^-3 and 1.12 V and 1.73 mJ/cm² with N_c=5× 10¹⁷ cm^-3, respectively. However, with the same device parameters, the V_ce(on) and E_off for the Conv-SJ are 1.81 V and 2.88 mJ/cm² with N_c=1× 10¹⁸ cm^-3 and 1.98 V and 2.82 mJ/cm² with N_c=5× 10¹⁷ cm^-3, respectively. Meanwhile, the BV of the proposed structure and Conv-SJ are 1414 V and 1413 V, respectively.

Keywords: insulated gate bipolar transistor trench field stop superjunction buried oxide layer

Received: 02 January 2014
Revised: 19 February 2014
Accepted manuscript online:

PACS:	85.30.-z	(Semiconductor devices)
	85.30.De	(Semiconductor-device characterization, design, and modeling)
	85.30.Pq	(Bipolar transistors)
	85.30.Tv	(Field effect devices)

Fund: Project supported by the National Science and Technology Major Project, China (Grant No. 2011ZX02504-003), the Fundamental Research Funds for the Central Universities (Grant No. ZYGX2011J024), and the Open Foundation of State Key Laboratory of Electronic Thin Films and Integrated Devices, China (Grant No. KFJJ201301).

Corresponding Authors: Zhang Jin-Ping
E-mail: jinpingzhang@uestc.edu.cn

Cite this article:

Zhang Jin-Ping (张金平), Li Ze-Hong (李泽宏), Zhang Bo (张波), Li Zhao-Ji (李肇基) A novel high performance TFS SJ IGBT with a buried oxide layer 2014 Chin. Phys. B 23 088504

[1]	Mori M, Saitou R and Yatsuo T 1993 Proceedings of the IEEE 5th International Symposium on Power Semiconductor Devices & IC's, May 18-20, 1993, Monterey, USA, p. 287
[2]	Onozawa Y, Otsuki M, Iwamuro N, Miyashita S, Miyasaka T, Seki Y and Matsumoto T 2007 IEEE Trans. Industry Applications 43 513
[3]	Ranstad P and Nee H P 2011 IEEE Trans. Power Electronics 26 260
[4]	Ogura T, Ninomiya H, Sugiyama K and Inoue T 2004 IEEE Trans. Electron Dev. 51 636
[5]	Nakamura H, Nakamura K, Kusunoki S, Takahashi H, Tomomatsu Y and Harada M 2001 Proceedings of the IEEE 13th International Symposium on Power Semiconductor Devices & IC's, June 4-7, 2001, Osaka, Japan, p. 299
[6]	Zhang J, Li Z, Zhang B and Li Z 2012 Electron. Lett. 48 525
[7]	Zhang J P, Li Z H, Zhang B and Li Z J 2012 Chin. Phys. B 21 068504
[8]	Takei M, Fujikake S, Nakazawa H, Naito T, Kawashima T, Shimoyama K and Kuribayashi H 2010 Proceedings of the IEEE 22nd International Symposium on Power Semiconductor Devices & IC's, June 6-10, 2010, Hiroshima, Japan, p. 383
[9]	Watanabe S, Mori M, Arai T, Ishibashi K and Toyoda Y 2011 Proceedings of the IEEE 23rd International Symposium on Power Semiconductor Devices & IC's, May 23-26, 2011, San Diego, USA, p. 48
[10]	Sumitomo M, Asai J, Sakane H, Arakawa K, Higuchi Y and Matsui M 2012 Proceedings of the IEEE 24th International Symposium on Power Semiconductor Devices & IC's, June 3-7, 2012, Bruges, Belgium, p. 17
[11]	Chen X 1993 US Patent 5216275
[12]	Chen X and Sin J K O 2001 IEEE Trans. Electron Dev. 48 344
[13]	Chen Y, Liang Y C, Samudra G S, Yang X, Buddharaju K D and Feng H 2008 IEEE Trans. Electron Dev. 55 211
[14]	Bartolf H, Mihaila A, Nistor I, Jurisch M, Leibold B and Zimm M 2013 IEEE Trans. Semiconductor Manufacturing 26 529
[15]	Li Z, Ren M, Zhang B, Ma J, Hu T, Zhang S, Wang F and Chen J 2010 J. Semicond. 31 084002-1
[16]	Oh K H, Lee J, Lee K H, Kim Y C and Yun C 2006 IEEE Trans. Electron Dev. 53 884
[17]	Yuan S C and Liu Y M 2008 IEEE Electron Dev. Lett. 29 931
[18]	Antoniou M, Udrea F and Bauer F 2010 IEEE Trans. Electron Dev. 57 594
[19]	Bauer F, Nistor I, Mihaila A, Antoniou M and Udrea F 2012 IEEE Electron Dev. Lett. 33 1288
[20]	Bruel M, Aspar B, Charlet B, Maleville C, Poumeyrol T and Soubie A 1995 Proceedings of the IEEE International SOI Conference, October 3-5, 1995, Tucson, USA, p. 178
[21]	Tong Q, Cha G, Gafiteanu R and Gosele U 1994 Journal of Microelectromechanical Systems 3 29

[1]	SiC gate-controlled bipolar field effect composite transistor with polysilicon region for improving on-state current Baoxing Duan(段宝兴), Kaishun Luo(罗开顺), and Yintang Yang(杨银堂). Chin. Phys. B, 2023, 32(4): 047702.
[2]	A 4H-SiC trench IGBT with controllable hole-extracting path for low loss Lijuan Wu(吴丽娟), Heng Liu(刘恒), Xuanting Song(宋宣廷), Xing Chen(陈星), Jinsheng Zeng(曾金胜), Tao Qiu(邱滔), and Banghui Zhang(张帮会). Chin. Phys. B, 2023, 32(4): 048503.
[3]	Fast-switching SOI-LIGBT with compound dielectric buried layer and assistant-depletion trench Chunzao Wang(王春早), Baoxing Duan(段宝兴), Licheng Sun(孙李诚), and Yintang Yang(杨银堂). Chin. Phys. B, 2022, 31(4): 047304.
[4]	Snapback-free shorted anode LIGBT with controlled anode barrier and resistance Shun Li(李顺), Jin-Sha Zhang(张金沙), Wei-Zhong Chen(陈伟中), Yao Huang(黄垚), Li-Jun He(贺利军), and Yi Huang(黄义). Chin. Phys. B, 2021, 30(2): 028501.
[5]	Design and fabrication of 10-kV silicon-carbide p-channel IGBTs with hexagonal cells and step space modulated junction termination extension Zheng-Xin Wen(温正欣), Feng Zhang(张峰), Zhan-Wei Shen(申占伟), Jun Chen(陈俊), Ya-Wei He(何亚伟), Guo-Guo Yan(闫果果), Xing-Fang Liu(刘兴昉), Wan-Shun Zhao(赵万顺), Lei Wang(王雷), Guo-Sheng Sun(孙国胜), Yi-Ping Zeng(曾一平). Chin. Phys. B, 2019, 28(6): 068504.
[6]	Low specific on-resistance GaN-based vertical heterostructure field effect transistors with nonuniform doping superjunctions Wei Mao(毛维), Hai-Yong Wang(王海永), Peng-Hao Shi(石朋毫), Xiao-Fei Wang(王晓飞), Ming Du(杜鸣), Xue-Feng Zheng(郑雪峰), Chong Wang(王冲), Xiao-Hua Ma(马晓华), Jin-Cheng Zhang(张进成), Yue Hao(郝跃). Chin. Phys. B, 2018, 27(4): 047305.
[7]	Improvement of reverse blocking performance in vertical power MOSFETs with Schottky-drain-connected semisuperjunctions Wei Mao(毛维), Hai-Yong Wang(王海永), Xiao-Fei Wang(王晓飞), Ming Du(杜鸣), Jin-Feng Zhang(张金风), Xue-Feng Zheng(郑雪峰), Chong Wang(王冲), Xiao-Hua Ma(马晓华), Jin-Cheng Zhang(张进成), Yue Hao(郝跃). Chin. Phys. B, 2017, 26(4): 047306.
[8]	Superjunction nanoscale partially narrow mesa IGBT towards superior performance Qiao-Qun Yu(喻巧群), Jiang Lu(陆江), Hai-Nan Liu(刘海南), Jia-Jun Luo(罗家俊), Bo Li(李博), Li-Xin Wang(王立新), Zheng-Sheng Han(韩郑生). Chin. Phys. B, 2017, 26(3): 038502.
[9]	Ultralow turnoff loss dual-gate SOI LIGBT with trench gate barrier and carrier stored layer Yi-Tao He(何逸涛), Ming Qiao(乔明), Bo Zhang(张波). Chin. Phys. B, 2016, 25(12): 127304.
[10]	A dual-gate and dielectric-inserted lateral trench insulated gate bipolar transistor on a silicon-on-insulator substrate Fu Qiang (付强), Zhang Bo (张波), Luo Xiao-Rong (罗小蓉), Li Zhao-Ji (李肇基). Chin. Phys. B, 2013, 22(7): 077309.
[11]	A high voltage silicon-on-insulator lateral insulated gate bipolar transistor with a reduced cell-pitch Luo Xiao-Rong (罗小蓉), Wang Qi (王琦), Yao Guo-Liang (姚国亮), Wang Yuan-Gang (王元刚), Lei Tian-Fei (雷天飞), Wang Pei (王沛), Jiang Yong-Heng (蒋永恒), Zhou Kun (周坤), Zhang Bo (张波). Chin. Phys. B, 2013, 22(2): 027303.
[12]	A novel superjunction MOSFET with improved ruggedness under unclamped inductive switching Ren Min(任敏), Li Ze-Hong(李泽宏), Deng Guang-Min(邓光敏), Zhang Ling-Xia(张灵霞), Zhang Meng(张蒙), Liu Xiao-Long(刘小龙), Xie Jia-Xiong(谢加雄), and Zhang Bo(张波) . Chin. Phys. B, 2012, 21(4): 048502.
[13]	Analysis and simulation of a 4H-SiC semi-superjunction Schottky barrier diode for softer reverse-recovery Cao Lin(曹琳), Pu Hong-Bin(蒲红斌), Chen Zhi-Ming(陈治明), and Zang Yuan(臧源) . Chin. Phys. B, 2012, 21(1): 017303.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

A novel high performance TFS SJ IGBT with a buried oxide layer

Cite this article:

Online attention