ESD characterization of planar InGaAs devices
Reliability Physics Symposium(2015)
摘要
We present a comprehensive study of ESD reliability (TLP) on planar nMOSFETs with In0.53Ga0.47As as the channel material. Two types of traps are found during ESD stress. They are formed through independent mechanisms: transient Ef-lowering induced pre-existing e-traps discharging in the gate stack and hot hole induced e-traps generation through impact ionization in the InP buffer. These two types of traps explain the observed walk-out of off-state channel leakage current as well as the two-stage current conduction phenomena in the TLP measurement. The generated e-traps are permanent and can introduce detrimental conduction current harmful to the device performance. By properly selecting the buffer material, these defects can be removed.
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关键词
iii-v semiconductors,mosfet,electron traps,electrostatic discharge,gallium arsenide,impact ionisation,indium compounds,semiconductor device reliability,esd characterization,esd reliability,esd stress,in0.53ga0.47as,tlp measurement,detrimental conduction current,gate stack,hot hole induced e-trap generation,impact ionization,off-state channel leakage current,planar nmosfet device,transient ef-lowering induced pre-existing e-traps,two-stage current conduction phenomena,esd,electron trapping,hemt,iii-v,ingaas,reliability,integrated circuits,stress
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