Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Variable Frequency Microwave Processing of Underfill Encapsulants for Flip-Chip Applications
View through CrossRef
This paper discusses an innovative technique for rapid cure of polymeric encapsulants such as underfills used in direct chip attach devices using variable frequency microwaves (VFM). VFM processing reduces the cure time for underfill encapsulants to 10 min or less, as compared to 30 or more minutes when using convection oven methods. We report here the results of our investigations measuring key material attributes of VFM and conventionally cured underfill encapsulant samples, and we also have characterized voiding and delamination characteristics of flip-chip with underfill test structures. Finally, particle settling in the flip-chip with underfill test structures has been characterized. Our results show that the VFM technique produces underfill attributes that are comparable to conventionally cured samples.
ASME International
Title: Variable Frequency Microwave Processing of Underfill Encapsulants for Flip-Chip Applications
Description:
This paper discusses an innovative technique for rapid cure of polymeric encapsulants such as underfills used in direct chip attach devices using variable frequency microwaves (VFM).
VFM processing reduces the cure time for underfill encapsulants to 10 min or less, as compared to 30 or more minutes when using convection oven methods.
We report here the results of our investigations measuring key material attributes of VFM and conventionally cured underfill encapsulant samples, and we also have characterized voiding and delamination characteristics of flip-chip with underfill test structures.
Finally, particle settling in the flip-chip with underfill test structures has been characterized.
Our results show that the VFM technique produces underfill attributes that are comparable to conventionally cured samples.
Related Results
In Process Stress Analysis of Flip Chip Assemblies During Underfill Cure
In Process Stress Analysis of Flip Chip Assemblies During Underfill Cure
Abstract
The electronics industry is currently evaluating flip chip technology for high performance, miniaturized assembly applications. This is primarily because of...
Flip-Chip on Organic Carrier Assembly Evaluation
Flip-Chip on Organic Carrier Assembly Evaluation
ABSTRACT
Flip-chip integrated circuits on organic ball grid array (BGA) substrates are often the package of choice for new applications. Electrical performance ad...
Increased life expectancy of heart failure patients in a rural center by a multidisciplinary program
Increased life expectancy of heart failure patients in a rural center by a multidisciplinary program
Abstract
Funding Acknowledgements
Type of funding sources: None.
INTRODUCTION Patients with heart failure (HF)...
Reworkable Underfill Evaluation for Fine Pitch BGA Applications
Reworkable Underfill Evaluation for Fine Pitch BGA Applications
ABSTRACT
Interest in using fine pitch SMT components has increased greatly in recent years due to the growth of portable, hand held electronics and due to miniatu...
A High K Nanocomposite for High Density Chip-to-Package Interconnections
A High K Nanocomposite for High Density Chip-to-Package Interconnections
ABSTRACTAC-coupled interconnects (ACCI) is a very exciting technology for achieving high-density chip-to-package interconnects while simultaneously providing a simple, mechanically...
Comparing genome-wide chromatin profiles using ChIP-chip or ChIP-seq
Comparing genome-wide chromatin profiles using ChIP-chip or ChIP-seq
AbstractMotivation: ChIP-chip and ChIP-seq technologies provide genome-wide measurements of various types of chromatin marks at an unprecedented resolution. With ChIP samples colle...
Abstract 4146122: Potential Protective Roles of Clonal Hematopoiesis of Indeterminate Potential in Angina Pectoris
Abstract 4146122: Potential Protective Roles of Clonal Hematopoiesis of Indeterminate Potential in Angina Pectoris
Introduction:
Clonal hematopoiesis of indeterminate potential (CHIP) poses strong relationship to the occurrence of cardiovascular diseases with the process of aging. I...
A Comparative Study of Microwave Welding Using Multiwalled Carbon Nanotubes and Silicon Carbide Nanowhiskers as Microwave Susceptors
A Comparative Study of Microwave Welding Using Multiwalled Carbon Nanotubes and Silicon Carbide Nanowhiskers as Microwave Susceptors
Recently, microwave welding has arisen as an advanced joining method due to its versatility and rapid heating capabilities. Among others, microwave susceptors play a crucial role i...