Electrostatic discharge(ESD)event usually destroys the electrical properties of dielectric films,resulting in product failure.In this work,the breakdown characteristic of machine mode(MM)ESD on three different nano si...Electrostatic discharge(ESD)event usually destroys the electrical properties of dielectric films,resulting in product failure.In this work,the breakdown characteristic of machine mode(MM)ESD on three different nano size films of head gimble assemble are obtained experimentally.The breakdown voltage and thickness parameters show a positive proportional relationship,but they are generally very low and have large discrete characteristics(~30%).The maximum and minimum breakdown voltages of the tested samples are 1.08 V and 0.46 V,which are far lower than the requirement of the current standard(25 V).In addition,the judgment criterion of product damage is given,and the relationship between discharge voltage polarity,initial resistance and breakdown voltage is studied.Finally,the theoretical analysis of the breakdown characteristic law has been given.展开更多
A novel LDNMOS embedded silicon controlled rectifier(SCR) was proposed to enhance ESD robustness of high-voltage(HV) LDNMOS based on a 0.5 μm 18 V CDMOS process. A two-dimensional(2D) device simulation and a transmis...A novel LDNMOS embedded silicon controlled rectifier(SCR) was proposed to enhance ESD robustness of high-voltage(HV) LDNMOS based on a 0.5 μm 18 V CDMOS process. A two-dimensional(2D) device simulation and a transmission line pulse(TLP) testing were used to analyze the working mechanism and ESD performance of the novel device. Compared with the traditional GG-LDNMOS, the secondary breakdown current(It2) of the proposed device can successfully increase from 1.146 A to 3.169 A with a total width of 50 μm, and ESD current discharge efficiency is improved from 0.459 m A/μm2 to 1.884 m A/μm2. Moreover, due to their different turn-on resistances(Ron), the device with smaller channel length(L) owns a stronger ESD robustness per unit area.展开更多
A robust electron device called the enhanced gated-diode-triggered silicon-controlled rectifier (EGDTSCR) for electrostatic discharge (ESD) protection applications has been proposed and implemented in a 0.18-μm 5-V/2...A robust electron device called the enhanced gated-diode-triggered silicon-controlled rectifier (EGDTSCR) for electrostatic discharge (ESD) protection applications has been proposed and implemented in a 0.18-μm 5-V/24-V BCD process. The proposed EGDTSCR is constructed by adding two gated diodes into a conventional ESD device called the modified lateral silicon-controlled rectifier (MLSCR). With the shunting effect of the surface gated diode path, the proposed EGDTSCR, with a width of 50 μm, exhibits a higher failure current (i.e., 3.82 A) as well as a higher holding voltage (i.e., 10.21 V) than the MLSCR.展开更多
文摘Electrostatic discharge(ESD)event usually destroys the electrical properties of dielectric films,resulting in product failure.In this work,the breakdown characteristic of machine mode(MM)ESD on three different nano size films of head gimble assemble are obtained experimentally.The breakdown voltage and thickness parameters show a positive proportional relationship,but they are generally very low and have large discrete characteristics(~30%).The maximum and minimum breakdown voltages of the tested samples are 1.08 V and 0.46 V,which are far lower than the requirement of the current standard(25 V).In addition,the judgment criterion of product damage is given,and the relationship between discharge voltage polarity,initial resistance and breakdown voltage is studied.Finally,the theoretical analysis of the breakdown characteristic law has been given.
基金Project(NCET-11-0975)supported by Program for New Century Excellent Talents in University of Ministry of Education of ChinaProjects(61233010,61274043)supported by the National Natural Science Foundation of China
文摘A novel LDNMOS embedded silicon controlled rectifier(SCR) was proposed to enhance ESD robustness of high-voltage(HV) LDNMOS based on a 0.5 μm 18 V CDMOS process. A two-dimensional(2D) device simulation and a transmission line pulse(TLP) testing were used to analyze the working mechanism and ESD performance of the novel device. Compared with the traditional GG-LDNMOS, the secondary breakdown current(It2) of the proposed device can successfully increase from 1.146 A to 3.169 A with a total width of 50 μm, and ESD current discharge efficiency is improved from 0.459 m A/μm2 to 1.884 m A/μm2. Moreover, due to their different turn-on resistances(Ron), the device with smaller channel length(L) owns a stronger ESD robustness per unit area.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.61874098 and 61974017)the Fundamental Research Project for Central Universities,China(Grant No.ZYGX2018J025).
文摘A robust electron device called the enhanced gated-diode-triggered silicon-controlled rectifier (EGDTSCR) for electrostatic discharge (ESD) protection applications has been proposed and implemented in a 0.18-μm 5-V/24-V BCD process. The proposed EGDTSCR is constructed by adding two gated diodes into a conventional ESD device called the modified lateral silicon-controlled rectifier (MLSCR). With the shunting effect of the surface gated diode path, the proposed EGDTSCR, with a width of 50 μm, exhibits a higher failure current (i.e., 3.82 A) as well as a higher holding voltage (i.e., 10.21 V) than the MLSCR.