Title :
Correlation between 1/f noise and hFE long-term instability in silicon bipolar devices
Author :
Zhuang, Yiqi ; Sun, Qing
Author_Institution :
Microelectron. Res. Inst., Xidian Univ., Shaanxi, China
fDate :
11/1/1991 12:00:00 AM
Abstract :
Accelerated life tests with high-temperature storage and electric aging for n+-p-n silicon planar transistors were carried out. Current gain hFE increases monotonously with time during the tests, and the hFE drift is correlated with initial measured 1/f noise in the transistors, i.e. the drift amount significantly increases with the increase of noise level. The correlation coefficient of relative drift ΔhFE /hFE and 1/f noise spectral density SiB(f) is far larger than that of Δ hFE/hFE and initial DC parameters of the transistors. A quantitative theory model for the h FE drift has been developed and explains the h FE drift behavior in the tests, which suggests that the h FE drift and 1/f noise can be attributed to the same physical origin, and both are caused by the modulation of the oxide traps near the Si-SiO2 interface to Si surface recombination. 1/f noise measurement, therefore, may be used as a fast and nondestructive means to predict the long-term instability in bipolar transistors
Keywords :
bipolar transistors; electron device noise; electron traps; electron-hole recombination; elemental semiconductors; hole traps; life testing; random noise; semiconductor device models; semiconductor device testing; silicon; stability; 1/f noise; Si surface recombination; Si-SiO2 interface; accelerated life tests; current gain instability; drift model; electric aging; hFE long-term instability; high-temperature storage; n+-p-n planar transistors; oxide traps modulation; Accelerated aging; Current measurement; Gain measurement; Iron; Life estimation; Life testing; Noise level; Noise measurement; Silicon; Time measurement;
Journal_Title :
Electron Devices, IEEE Transactions on
