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Eliminating the floating-body effects in a novel CMOS-compatible thin-SOI LDMOS

Eliminating the floating-body effects in a novel CMOS-compatible thin-SOI LDMOS
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摘要 A novel CMOS-compatible thin film SOI LDMOS with a novel body contact structure is proposed. It has a Si window and a P-body extended to the substrate through the Si window, thus, the P-body touches the P+ region to form the body contact. Compared with the conventional floating body SOI LDMOS (FB SOI LDMOS) structure, the new structure increases the off-state BV by 54%, decreases the specific on resistance by 20%, improves the output characteristics significantly, and suppresses the self-heating effect. Furthermore, the advantages of the low leakage current and low output capacitance of SOI devices do not degrade. A novel CMOS-compatible thin film SOI LDMOS with a novel body contact structure is proposed. It has a Si window and a P-body extended to the substrate through the Si window, thus, the P-body touches the P+ region to form the body contact. Compared with the conventional floating body SOI LDMOS (FB SOI LDMOS) structure, the new structure increases the off-state BV by 54%, decreases the specific on resistance by 20%, improves the output characteristics significantly, and suppresses the self-heating effect. Furthermore, the advantages of the low leakage current and low output capacitance of SOI devices do not degrade.
出处 《Journal of Semiconductors》 EI CAS CSCD 2013年第9期53-57,共5页 半导体学报(英文版)
基金 supported by the National Natural Science Foundation of China(Nos.61176069,60976060,51308020304)
关键词 thin film SOI LDMOS body contact floating body effect parasitic BJT effect thin film SOI LDMOS body contact floating body effect parasitic BJT effect
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