Title :
Techniques for Measuring Warpage of Chip Packages, PWBs, and PWB Assemblies
Author :
Sungbum Kang ; Ume, I.C.
Author_Institution :
Woodruff Sch. of Mech. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
One of the crucial factors for the thermo-mechanical reliability of electronic packages is warpage that occurs during the printed wiring board (PWB) fabrication, solder masking and solder reflow processes. As the quality and reliability requirements of electronic components (packages) become higher, warpage control becomes a more crucial process during the PWB fabrication (manufacturing) and package assembly processes. The warpage of PWBs, PWB assemblies and electronic packages are measured by various techniques. Each technique has both its advantages and disadvantages; therefore the choice of a particular technique depends on whether one wants to measure the warpage of a PWB, PWB assembly or chip package. This paper reviews the pros and cons, such as resolution, speed, costs, accuracy, in-line capability, flexibility, and robustness, of different techniques used for measuring the warpage of chip packages, PWBs and PWB assemblies.
Keywords :
chip scale packaging; circuit reliability; electronics packaging; printed circuits; PWB assembly; PWB fabrication; chip package; electronic components; electronic packages; package assembly processes; printed wiring board; solder masking; solder reflow processes; thermomechanical reliability; warpage control; Chip package; PWB assembly and warpage measurement techniques; digital fringe projection; electronic package; electronic speckle pattern interferometry; image correlation; laser interferometry; laser sensor; printed wiring board (PWB); profilometry; projection moiré; shadow moiré; shim gauge; touch probe; warpage;
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
DOI :
10.1109/TCPMT.2013.2255054
