Title :
HBM ESD Robustness of GaN-on-Si Schottky Diodes
Author :
Chen, Shih-Hung ; Griffoni, Alessio ; Srivastava, Puneet ; Linten, Dimitri ; Thijs, Steven ; Scholz, Mirko ; Denis, Marcon ; Gallerano, Antonio ; Lafonteese, David ; Concannon, Ann ; Vashchenko, Vladislav A. ; Hopper, Peter ; Bychikhin, Sergey ; Pogany, D
Author_Institution :
IMEC, Leuven, Belgium
Abstract :
The ESD robustness of GaN-on-Si Schottky diodes is investigated using on-wafer HBM and TLP. Both forward and reverse diode operation modes are analyzed as a function of device geometry, which strongly impact the corresponding failure mechanism. In forward mode, the anode-to-cathode length reduction and the total device width increase are beneficial for ESD robustness; however, in reverse mode, the ESD robustness does not depend on the total device width and saturates at around 400 V for medium and long anode-to-cathode lengths. The corresponding failure mechanisms are respectively attributed to the current distribution and Si substrate breakdown under forward and reverse mode ESD stresses.
Keywords :
III-V semiconductors; Schottky diodes; current distribution; electrochemical electrodes; electrostatic devices; electrostatic discharge; elemental semiconductors; failure analysis; gallium compounds; semiconductor device breakdown; silicon; wide band gap semiconductors; ESD robustness; ESD stress; GaN-Si; Schottky diode; Si; anode-to-cathode length reduction; current distribution; device geometry; failure mechanism; forward diode operation mode; human body model; on-wafer HBM; on-wafer TLP; reverse diode operation mode; substrate breakdown; transmission line pulsing; Electrostatic discharges; Gallium nitride; Robustness; Schottky barriers; Schottky diodes; Silicon; Stress; Electrostatic discharge (ESD); Gallium Nitride (GaN); Schottky diodes; human body model (HBM);
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2012.2217746
