Displacement damage in bipolar linear integrated circuits

Author

Rax, B.G. ; Johnston, A.H. ; Miyahira, T.

Author_Institution

Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA

Volume

46

Issue

6

fYear

1999

Firstpage

1660

Lastpage

1665

Abstract

The effects of proton and gamma radiation are compared for several types of integrated circuits with complex internal design and failure modes that are not as straightforward as the input bias current mechanism that is frequently used to study damage effects in linear devices. New circuit failure mechanisms were observed in voltage regulators that cause them to fail at much lower levels when they are irradiated with protons compared to tests with gamma rays at equivalent total dose levels. Protons caused much larger changes in output voltage than tests with gamma rays, which limits the maximum radiation level of some types of voltage regulators in environments dominated by protons.

Keywords

bipolar integrated circuits; failure analysis; gamma-ray effects; integrated circuit reliability; integrated circuit testing; proton effects; radiation hardening (electronics); voltage regulators; bipolar linear integrated circuits; circuit failure mechanisms; displacement damage; equivalent total dose levels; failure modes; gamma radiation; input bias current mechanism; output voltage; proton radiation; voltage regulators; Analog integrated circuits; Circuit testing; Gamma rays; Integrated circuit technology; Operational amplifiers; Propulsion; Protons; Regulators; Space technology; Voltage;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/23.819135

Filename

819135