Title :
Negative ESD robustness of a novel anti-ESD TGFPTD SOI LDMOS
Author :
Zhang, Haipeng ; Zhang, Liang ; Wang, Dejun ; Liu, Guohua ; Lin, Mi ; Niu, Xiaoyan ; Fan, Lingyan
Author_Institution :
Key Lab. of RF Circuit & Syst., Hangzhou Dianzi Univ., Hangzhou, China
Abstract :
A novel anti-ESD TGFPTD (Trench Gate and Field Plate and Trench Drain) SOI LDMOS was proposed firstly for improve ESD robustness of TGFPTD SOI LDMOS in this paper. The proposed device was obtained by introducing an additional n+ implantation and rapid thermal annealing into the widen p-well region of conventional TGFPTD SOI LDMOS. 2D simulation of the proposed device upon a negative current pulse stimulus of HBM indicates that a hybrid conduction mechanism of parasitic diodes, BJTs, SCR, resistors, capacitors and Schottky diode exists during ESD period. Moreover, the gate voltage is clamped below 11% of the breakdown voltage of gate oxide and the induced gate charges are released in a very short time at about 1.0μs. Therefore, the proposed anti-ESD TGFPTD SOI LDMOS is featured of very high negative ESD robustness.
Keywords :
MOS integrated circuits; Schottky diodes; bipolar transistors; capacitors; rapid thermal annealing; resistors; silicon-on-insulator; 2D simulation; BJT; SCR; SOI LDMOS; Schottky diode; breakdown voltage; capacitor; field plate; gate oxide; gate voltage; human body model; hybrid conduction mechanism; induced gate charge; n+ implantation; negative ESD robustness; negative current pulse stimulus; parasitic diode; rapid thermal annealing; resistor; trench drain; trench gate; widen p-well region; CMOS integrated circuits; Insulated gate bipolar transistors; Lead; MOSFET circuits; Radio frequency; Robustness; Software; Anti-ESD; Negative ESD Robustness; Simulation; TCAD; TGFPTD SOI LDMOS;
Conference_Titel :
Circuits and Systems (APCCAS), 2010 IEEE Asia Pacific Conference on
Conference_Location :
Kuala Lumpur
Print_ISBN :
978-1-4244-7454-7
DOI :
10.1109/APCCAS.2010.5775049
