Title :
Recent advances in understanding total-dose effects in bipolar transistors
Author_Institution :
Dept. of Electr. & Comput. Eng., Arizona Univ., Tucson, AZ, USA
fDate :
6/1/1996 12:00:00 AM
Abstract :
Gain degradation in irradiated bipolar transistors can be a significant problem, particularly in linear integrated circuits. In many bipolar technologies, the degradation is greater for irradiation at low dose rates than it is for typical laboratory dose rates. Ionizing radiation causes the base current in bipolar transistors to increase, due to the presence of net positive charge in the oxides covering sensitive device areas and increases in surface recombination velocity. Understanding the mechanisms responsible for radiation-induced gain degradation in bipolar transistors is important in developing appropriate hardness assurance methods. This paper reviews recent modeling and experimental work, with the emphasis on low-dose-rate effects. A promising hardness assurance method based on irradiation at elevated temperatures is described
Keywords :
bipolar integrated circuits; bipolar transistors; radiation effects; radiation hardening (electronics); semiconductor device models; surface recombination; base current; bipolar transistors; elevated temperatures; gain degradation; hardness assurance method; ionizing radiation; irradiated bipolar transistors; low-dose-rate effects; modeling; radiation-induced gain degradation; surface recombination velocity; total-dose effects; Analog integrated circuits; Bipolar integrated circuits; Bipolar transistor circuits; Bipolar transistors; Degradation; Failure analysis; Integrated circuit technology; Ionizing radiation; Space technology; Voltage;
Journal_Title :
Nuclear Science, IEEE Transactions on
