A novel partial silicon-on-insulator laterally double-diffused metal-oxide-semiconductor transistor (PSOI LDMOS) with a thin buried oxide layer is proposed in this paper. The key structure feature of the device is a...A novel partial silicon-on-insulator laterally double-diffused metal-oxide-semiconductor transistor (PSOI LDMOS) with a thin buried oxide layer is proposed in this paper. The key structure feature of the device is an n+-layer, which is partially buried on the bottom interface of the top silicon layer (PBNL PSOI LDMOS). The undepleted interface n+-layer leads to plenty of positive charges accumulated on the interface, which will modulate the distributions of the lateral and vertical electric fields for the device, resulting in a high breakdown voltage (BV). With the same thickness values of the top silicon layer (10 p.m) and buried oxide layer (0.375 μm), the BV of the PBNL PSOI LDMOS increases to 432 V from 285 V of the conventional PSOI LDMOS, which is improved by 51.6%.展开更多
基金supported by the Natural Science Foundation of Chongqing Science and Technology Commission(CQ CSTC)(Grant No.cstcjjA40008)the Fundamental Research Funds for the Central Universities,China(Grant No.CDJZR12160003)+1 种基金the China Postdoctoral Science Foundation(Grant Nos.2012M511906 and 2013T60835)Chongqing University Postgraduates’Science and Innovation Fund,China(Grant No.CDJXS12161105)
文摘A novel partial silicon-on-insulator laterally double-diffused metal-oxide-semiconductor transistor (PSOI LDMOS) with a thin buried oxide layer is proposed in this paper. The key structure feature of the device is an n+-layer, which is partially buried on the bottom interface of the top silicon layer (PBNL PSOI LDMOS). The undepleted interface n+-layer leads to plenty of positive charges accumulated on the interface, which will modulate the distributions of the lateral and vertical electric fields for the device, resulting in a high breakdown voltage (BV). With the same thickness values of the top silicon layer (10 p.m) and buried oxide layer (0.375 μm), the BV of the PBNL PSOI LDMOS increases to 432 V from 285 V of the conventional PSOI LDMOS, which is improved by 51.6%.
