Title :
Duration of the High Breakdown Voltage Phase in Deep Depletion SOI LDMOS
Author_Institution :
Univ. of Napoli Federico II, Napoli
Abstract :
Measurement results on the duration of the high-transient-breakdown phase for a silicon-on-insulator (SOI) laterally diffused metal-oxide-semiconductor (LDMOS) are presented. The results are important since they give experimental evidence on the practical applicability of the deep-depletion (DD) design technique, which is an innovative concept that has been recently proposed for SOI power devices. Measurements have been conducted on DD SOI LDMOS devices using a nondestructive test circuit that applies a voltage pulse with a definite amplitude and duration on the drain terminal. Measurement results show that the DD effect provides a high breakdown voltage (BV) phase that, as an example, lasts for 15 mus when the applied voltage is 150 V, which is a 65% increase over the static BV, and T =125 deg C. The sustained overvoltage and the duration of the high BV phase make the DD effect exploitable for modern power switching circuits.
Keywords :
MIS devices; MOS integrated circuits; electric breakdown; nondestructive testing; power semiconductor switches; silicon-on-insulator; breakdown voltage phase; deep depletion SOI LDMOS; deep-depletion design; high-transient-breakdown phase; metal-oxide-semiconductor; nondestructive test circuit; overvoltage; power switching circuits; silicon-on-insulator; temperature 125 degC; voltage 150 V; Breakdown voltage; Circuit testing; Nondestructive testing; Phase measurement; Power measurement; Pulse circuits; Pulse measurements; Silicon on insulator technology; Switching circuits; Voltage control; Deep depletion (DD); power MOSFETs; power semiconductor devices; semiconductor device breakdown; silicon-on-insulator (SOI) technology; switching transient;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.901388
