Modeling Total-Dose Effects for a Low-Dropout Voltage Regulator

Author

Ramachandran, V. ; Narasimham, B. ; Fleetwood, D.M. ; Schrimpf, R.D. ; Holman, W.T. ; Witulski, A.F. ; Pease, R.L. ; Dunham, G.W. ; Seiler, J.E. ; Platteter, D.G.

Author_Institution

Dept. of Electr. Eng. & Comput. Sci., Vanderbilt Univ., Nashville, TN

Volume

53

Issue

6

fYear

2006

Firstpage

3223

Lastpage

3231

Abstract

Total ionizing dose effects in a low-dropout voltage regulator are explained based on experimental data and circuit simulations. Transistor gain degradation is shown to be the dominant cause of the circuit degradation at lower dose rates. In addition, collector-to-emitter leakage current in one of the NPN transistors of the bandgap reference part of the circuit is responsible for increasing the postirradiation output voltage at high dose rates. Parametric changes in the bandgap, differential amplifier, and output pass transistor circuit blocks are identified that are responsible for various aspects of the observed circuit degradation. The different annealing characteristics of oxide-trap and interface-trap charge are responsible for the complex postirradiation recovery of the output voltage

Keywords

bipolar integrated circuits; leakage currents; radiation effects; voltage regulators; IC radiation response; NPN transistors; annealing characteristics; bandgap reference part; circuit degradation; circuit simulations; collector-to-emitter leakage current; complex postirradiation recovery; data simulations; differential amplifier; enhanced low-dose-rate sensitivity; interface-trap charge; linear bipolar IC; low-dropout voltage regulator; modeling; output pass transistor circuit blocks; oxide-trap charge; parametric changes; postirradiation output voltage; radiation-induced leakage; total ionizing dose effects; transistor gain degradation; Annealing; Circuit simulation; Cranes; Degradation; Differential amplifiers; Integrated circuit modeling; Operational amplifiers; Photonic band gap; Regulators; Voltage; Enhanced low-dose-rate sensitivity; IC radiation response; linear bipolar ICs; modeling and simulation; radiation-induced leakage; voltage regulator;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2006.885377

Filename

4033819