Title :
A method for rapid screening of various low-k TDDB models
Author :
Fen Chen ; Graas, Carole ; Shinosky, Michael ; Burke, Chad ; Feng, Kai D. ; Bocash, Craig ; Muralidhar, Ramachandran
Author_Institution :
IBM Microelectron., Essex Junction, VT, USA
Abstract :
Voltage or Field acceleration model is crucial for low-k TDDB reliability study and lifetime projection. Over the years, many different acceleration models have been proposed based on different physics. In this paper, a method for a relatively fast screen of various low-k TDDB models is proposed. Fast voltage ramp test to establish a relation of JE slope versus stress field is the first step. Study of J-E slopes in advance before time-consuming TDDB could provide insight into TDDB kinetics. Next is to select appropriate stress voltages based on J-E characteristics with high density voltage points but at high and medium stress voltage ranges. Lastly, by proceeding with the local acceleration factor comparison and correlating it to J-E slope versus voltage relation, the most likely and the most unlikely models can effectively be determined within a much shorter period of stress time.
Keywords :
electric breakdown; reliability; stress analysis; J-E slope characteristics; acceleration factor; fast voltage ramp testing; field acceleration model; lifetime projection; low-k TDDB reliability study; rapid screening method; stress voltage field; time-dependent dielectric breakdown; voltage acceleration model; Acceleration; Data models; Fitting; Low voltage; Resistance; Standards; Stress; Cu reliability; IR drop; Low-k TDDB; Low-k field acceleration model; local accelration factor; low-k I-V slope; low-k voltage acceleration model; model screening; series resistance;
Conference_Titel :
Reliability Physics Symposium (IRPS), 2015 IEEE International
Conference_Location :
Monterey, CA
DOI :
10.1109/IRPS.2015.7112697
