Title :
Mixed-mode stress degradation mechanisms in pnp SiGe HBTs
Author :
Chakraborty, Partha S. ; Appaswamy, Aravind C. ; Saha, Prabir K. ; Jha, Nand K. ; Cressler, John D. ; Yasuda, Hiroshi ; Eklund, Bob ; Wise, Rick
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
An investigation of the high-voltage/high-current mixed-mode (M-M) stress-induced damage mechanisms of pnp silicon-germanium (SiGe) heterojunction bipolar transistors (HBTs) is presented. Different accelerated stress methods, including mixed-mode stress, reverse emitter-base (EB) stress, and forward collector plus reverse EB stress, were applied to pnp SiGe HBTs from a state-of-the-art complementary-SiGe BiCMOS process technology platform. The operative damage mechanism from the M-M stress method is identified. Experimental evidence of collector current change due to the M-M stress, and the experimental proof of the type of hot carriers (electrons vs. holes) responsible for the observed M-M stress damage are presented.
Keywords :
BiCMOS integrated circuits; Ge-Si alloys; heterojunction bipolar transistors; mixed analogue-digital integrated circuits; BiCMOS process technology; HBT; M-M stress method; Mixed-mode stress degradation mechanism; SiGe; high-current mixed-mode transistor; reverse emitter-base stress; Acceleration; BiCMOS integrated circuits; Degradation; Electrons; Germanium silicon alloys; Heterojunction bipolar transistors; Hot carriers; Instruments; Silicon germanium; Stress; BiCMOS; HBT; SiGe; complementary; impact-ionization; mixed-mode stress; pnp; reliability;
Conference_Titel :
Reliability Physics Symposium, 2009 IEEE International
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4244-2888-5
Electronic_ISBN :
1541-7026
DOI :
10.1109/IRPS.2009.5173228
