Title :
Degradation of bipolar transistor current gain by hot holes during reverse emitter-base bias stress
Author :
Neugroschel, Arnost ; Sah, Chih-Tang ; Carroll, Michael S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Florida Univ., Gainesville, FL, USA
fDate :
8/1/1996 12:00:00 AM
Abstract :
Experimental evidences are given which demonstrate that degradation of the common-emitter forward current gain hFE of submicron silicon npn bipolar transistors at low reverse emitter-base junction applied voltage is caused by primary hot holes of the n+ /p emitter tunneling current rather than secondary hot electrons generated by the hot holes or thermally-generated hot electrons. Experiments also showed similar kinetic energy dependence of the generation rate of oxide/silicon interface traps by primary hot electrons and primary hot holes. Significant hFE degradation was observed at stress voltages less than 2.4 V
Keywords :
bipolar transistors; elemental semiconductors; hole traps; hot carriers; semiconductor device reliability; silicon; tunnelling; 0 to 2.4 V; Si; common-emitter forward current gain; current gain degradation; hot holes; interface traps; kinetic energy dependence; npn bipolar transistors; primary hot electrons; reverse emitter-base bias stress; reverse emitter-base junction applied voltage; stress voltages; tunneling current; Bipolar transistors; Charge carrier processes; Degradation; Electron emission; Hot carriers; Iron; Kinetic energy; Silicon; Tunneling; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
