Title :
PWB warpage analysis and verification using an AP210 standards-based engineering framework and shadow moire
Author :
Zwemer, Dirk ; Bajaj, Manas ; Peak, Russell ; Thurman, Thomas ; Brady, Kevin ; McCarron, S. ; Spradling, A. ; Dickerson, M. ; Klein, Lothar ; Liutkus, Giedrius ; Messina, John
Author_Institution :
AkroMetrix LLC, Atlanta, GA, USA
Abstract :
Thermally induced warpage of printed wiring boards (PWB) and printed wiring assemblies (PWAs) is an increasingly important issue in managing the manufacturing yield and reliability of electronic devices. In this paper, we introduce complementary simulation and experimental verification procedures capable of investigating warpage at the local feature level as well as the global PWB level. Simulation within a standards-based engineering framework allows efficient introduction of detailed feature information into warpage models of varying fidelity. Experimental results derived from temperature-dependent shadow moire provide a rapid high resolution picture of local warpage in critical regions. We describe initial results for two unpopulated PWB test cases which indicate a promising outlook for the methodology.
Keywords :
bending; measurement standards; moire fringes; printed circuit design; printed circuit testing; AP210 standards-based engineering framework; PWB warpage analysis; global PWA level warpage; local feature level warpage; manufacturing yield; out-of-plane deformation; printed wiring assemblies; printed wiring boards; reliability; temperature-dependent shadow moire; thermally induced warpage; Assembly; Design automation; Information analysis; NIST; Standards organizations; Thermal loading; Thermal management; Thermal management of electronics; Virtual manufacturing; Wiring;
Conference_Titel :
Thermal and Mechanical Simulation and Experiments in Microelectronics and Microsystems, 2004. EuroSimE 2004. Proceedings of the 5th International Conference on
Print_ISBN :
0-7803-8420-2
DOI :
10.1109/ESIME.2004.1304031
