Title :
Mechanisms for output power expansion and degradation of PHEMT´s during high-efficiency operation
Author :
Leoni, Robert E., III ; Hwang, James C M
Author_Institution :
Lehigh Univ., Bethlehem, PA, USA
fDate :
8/1/1999 12:00:00 AM
Abstract :
PHEMT stability in high efficiency power amplifiers (where the PHEMT is typically driven into reverse gate-drain breakdown) has been examined under accelerated dc stresses. Such stresses initially caused a slight increase in drain current and decrease in threshold voltage due to hot-carrier injection into the buffer which was not seen in similarly stressed MESFET´s. On the other hand, continued stressing resulted in significant decrease in drain current and increase in drain resistance due to hot-carrier injection into the surface passivation which is consistent with the typical MESFET degradation mode. The degradation rate of PHEMT´s is approximately two orders of magnitude faster than that of MESFET´s. Two-dimensional physical device simulation confirms that the faster degradation of PHEMT´s is due to their higher sensitivity to surface conditions
Keywords :
high electron mobility transistors; hot carriers; passivation; semiconductor device breakdown; PHEMT; accelerated DC stress; degradation; drain current; drain resistance; high-efficiency power amplifier; hot carrier injection; output power; reverse gate-drain breakdown; surface passivation; threshold voltage; two-dimensional simulation; Degradation; High power amplifiers; Hot carrier injection; MESFETs; PHEMTs; Power amplifiers; Power generation; Stability; Stress; Surface resistance;
Journal_Title :
Electron Devices, IEEE Transactions on
