Title :
Reliable and accurate characterization of frequency dependent electrical material properites
Author :
Yichi Zhang ; Wojewoda, Leigh ; Aygun, Kemal
Author_Institution :
Assembly & Test Technol. Dev, Intel Corp., Chandler, AZ, USA
Abstract :
In today´s high speed digital circuit design, some high data rate signal paths require interconnect simulations up to 100 GHz. One of the major challenges for these simulations is generating reliable and accurate frequency dependent material models for dielectric constant (dk) and loss tangent (df). This paper will present a metrology for measurement of typical interconnect materials using cavity resonators including a method to capture all measurement variations. Once a precise metrology is established, the paper will then use the collected data to provide additional insight into popular modeling methods used to extrapolate data beyond measurement frequency. For the type of materials measured, specific recommendations will be made on the modeling parameters to have the most accurate high-frequency models for typical package substrate materials.
Keywords :
cavity resonators; dielectric losses; dielectric materials; digital circuits; extrapolation; integrated circuit interconnections; integrated circuit modelling; integrated circuit packaging; logic design; materials properties; cavity resonators; dielectric constant; frequency dependent electrical material properites; frequency dependent material models; high data rate signal paths; high speed digital circuit design; high-frequency models; interconnect materials; interconnect simulations; loss tangent; package substrate materials; Cavity resonators; Dielectric measurement; Fabry-Perot; Frequency measurement; Integrated circuit modeling; Metrology; Resonant frequency; Debye Model; Dielectric constant; Loss Tangent; Material Characterization; Resonator; Signal Integrity;
Conference_Titel :
Electronic Components and Technology Conference (ECTC) , 2015 IEEE 65th
Conference_Location :
San Diego, CA
DOI :
10.1109/ECTC.2015.7159637
