Title :
Design-based thermal simulation methodology for ball grid array packages
Author :
Johnson, Eane ; Eyman, Mike
Author_Institution :
Semicond. Products Sector, Motorola Inc., USA
Abstract :
Numerical simulation of steady-state thermal behaviour of ball grid array (BGA) electronic packages can be greatly eased through the simplification of small-scale geometric features. Such features include plated through-holes (PTHs), vias, controlled collapse chip connection (C4) solder joints, extended evaporated eutectic (E3) solder joints, controlled collapse chip connection carrier (C5) solder joints, and printed wiring board (PWB) copper trace patterns. Accurate and timely system-level modeling relies on simplifying the geometric representation of these features while capturing their thermal effects. A strict, single-pass modeling methodology based solely on design data and readily available bulk material properties is presented
Keywords :
assembling; ball grid arrays; circuit analysis computing; integrated circuit design; integrated circuit interconnections; integrated circuit modelling; integrated circuit packaging; numerical analysis; printed circuits; soldering; thermal analysis; thermal management (packaging); BGA electronic packages; C4 solder joints; C5 solder joints; Cu; E3 solder joints; PTHs; PWB copper trace patterns; ball grid array electronic packages; ball grid array packages; bulk material properties; controlled collapse chip connection carrier solder joints; controlled collapse chip connection solder joints; design data; design-based thermal simulation methodology; extended evaporated eutectic solder joints; geometric representation; numerical simulation; plated through-holes; printed wiring board copper trace patterns; single-pass modeling methodology; small-scale geometric features; steady-state thermal behaviour; system-level modeling; thermal effects; vias; Copper; Design methodology; Electronic packaging thermal management; Electronics packaging; Material properties; Numerical simulation; Soldering; Solid modeling; Steady-state; Wiring;
Conference_Titel :
Thermal and Thermomechanical Phenomena in Electronic Systems, 1998. ITHERM '98. The Sixth Intersociety Conference on
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-4475-8
DOI :
10.1109/ITHERM.1998.689523
