Title :
Enhanced low-dose-rate sensitivity of a low-dropout voltage regulator
Author :
Pease, Ronald L. ; McClure, Steve ; Gorelick, Jerry ; Witczak, Steven C.
Author_Institution :
RLP Res., Albuquerque, NM, USA
fDate :
12/1/1998 12:00:00 AM
Abstract :
Ionization-induced degradation of the 29372 low-dropout voltage regulator is most severe at low-dose-rate (~10 mrad(SiO2)/s) and zero load current. The most sensitive parameter is the maximum output drive current, which is a function of the gain of the large lateral pnp output transistor. Significant degradation of this parameter occurs at 5-10 krad(SiO2) at low-dose-rate. A moderate load current (~250 mA) during irradiation significantly mitigates the damage. The mitigation of the damage is proportional to irradiation load current and is not a strong function of irradiation temperature or input voltage. The mechanism for the mitigation of damage appears to be current density dependent passivation of interface and/or border traps by mobile hydrogen-related species. The worst-case space system application is in unbiased spares
Keywords :
bipolar analogue integrated circuits; gamma-ray effects; voltage regulators; 250 mA; 29372 low-dropout voltage regulator; 5 to 10 krad; bipolar linear microcircuit; border traps; current density; damage; drive current; enhanced low-dose-rate sensitivity; gain; hydrogen passivation; interface traps; ionization-induced degradation; lateral pnp transistor; load current; space system; Annealing; Circuits; Degradation; Electron traps; Logic; Regulators; Space charge; Space technology; Temperature; Voltage;
Journal_Title :
Nuclear Science, IEEE Transactions on
