Reliability Characteristics of a 150GHZ fT/fmax Si/SiGeC Heterojunction Bipolar Transistor Under Reverse, Forward and Mixed-Mode Stress

Author

Ruat, M. ; Bourgeat, J. ; Marin, M. ; Ghibaudo, G. ; Revil, N. ; Pananakakis, G.

Author_Institution

STMicroelectronics, Crolles

fYear

2006

fDate

Oct. 16 2006-Sept. 19 2006

Firstpage

59

Lastpage

62

Abstract

Major reliability characteristics of studied HBT infer dual conclusions. On a first level, similar electrical response to any type of stress is measured as HC are responsible for the creation of mid-gap defects, giving rise to a G-R leakage current component. A common basis for base current degradation model is thus provided. On a second level, acceleration factors, defects location, impact on LF noise and recovery behavior are different. Defect types are thus distinct. Degradation model, in turn, must be adapted to each type of stress

Keywords

Ge-Si alloys; heterojunction bipolar transistors; semiconductor device reliability; silicon; 150 GHz; Si-SiGeC; base current degradation model; forward stress; heterojunction bipolar transistor; mixed-mode stress; reliability characteristics; reverse stress; Aging; Current density; Degradation; Heterojunction bipolar transistors; Leakage current; Power amplifiers; Power system reliability; Stress; Temperature; Wireless communication;

fLanguage

English

Publisher

ieee

Conference_Titel

Integrated Reliability Workshop Final Report, 2006 IEEE International

Conference_Location

South Lake Tahoe, CA

ISSN

1930-8841

Print_ISBN

1-4244-0296-4

Electronic_ISBN

1930-8841

Type

conf

DOI

10.1109/IRWS.2006.305211

Filename

4098688