Title :
Charge separation for bipolar transistors
Author :
Kosier, S.L. ; Shrimpf, R.D. ; Nowlin, R.N. ; Fleetwood, D.M. ; DeLaus, M. ; Pease, R.L. ; Combs, W.E. ; Wei, A. ; Chai, F.
Author_Institution :
Univ., of Arizona, Tucson, AZ, USA
fDate :
12/1/1993 12:00:00 AM
Abstract :
The effect of net positive oxide trapped charge and surface recombination velocity on excess base current in BJTs (bipolar junction transistors) is identified. Although the interaction of these two radiation-induced defects is physically complex, simple approaches for estimating these quantities from measured BJT characteristics are presented. The oxide charge is estimated using a transition voltage in the plot of excess base current vs. emitter bias. Two approaches for quantifying the effects of surface recombination velocity are described. The first measures surface recombination directly using a gated diode. The second estimates its effects using an intercept current that is easily obtained from the BJT itself. The results are compared to two-dimensional simulations and measurements made on test structures. The techniques are simple to implement and provide insight into the mechanisms and magnitudes of radiation-induced damage in BJTs
Keywords :
BIMOS integrated circuits; BiCMOS integrated circuits; bipolar transistors; electron traps; interface electron states; radiation effects; radiation hardening (electronics); semiconductor device models; surface electron states; BIMOS; BiCMOS; bipolar junction transistors; charge separation; excess base current; intercept current; net positive oxide trapped charge; radiation hardening; radiation-induced defects; surface recombination velocity; transition voltage; two-dimensional simulations; Bipolar transistor circuits; Bipolar transistors; Circuit testing; Diodes; Integrated circuit technology; Interface states; Ionizing radiation; MOSFETs; Velocity measurement; Voltage;
Journal_Title :
Nuclear Science, IEEE Transactions on
