Add to ORKG[[abstract]]As is well known, the design parameters of the packaging material and structure greatly influence the reliability of the packaging. When it comes to flip chip packages, the package reliability design becomes more complicated. In addition, the interactions between these different design parameters remain unclear, especially for lead-free solder applications. Based on the above, FEM factorial analysis was employed in this study to investigate the interrelationship of the design parameters. A factorial analysis with two levels and five factors was chosen. The factors included pre-solder thickness, thickness of the BT core in the laminate substrate, bumping height, substrate side pad opening, and the climbing height of the underfill...
Cu column bumping is a novel flip chip packaging technique that allows Cu columns to be bonded direc...
The design and proper selection of low-cost printed circuit board (PCB) is essential to the reliabil...
One major concern over thermally induced mechanical stress is that it causes reliability problems in...
[[abstract]]As is well known, the design parameters of the packaging material and structure greatly ...
[[abstract]]Since today's trend is toward `green' products, manufacturers are moving toward lead-fre...
[[abstract]]This research proposes a parametric analysis for a flip chip package with a constraint-l...
[[abstract]]The material properties of underfill and substrate in flip chip package have temperature...
[[abstract]]The geometry of solder joints in the flip chip technologies is primarily determined by t...
The Stud Bump Bonding (SBB) flip chip technology on Molded Interconnect Devices (MID) is a highly pr...
The continuing demand towards high-density and low profile integrated circuit packaging has accelera...
Flip chip assembly on flexible organic substrates is facing increasing interest. In consumer product...
High pin count and superior thermal dissipation are the main driving factors for high performance IC...
[[abstract]]In this study, a new packaging technology, chip-on-metal (COM) panel level package (PLP)...
A flip chip component is a silicon chip mounted to a substrate with the active area facing the subst...
Purpose – This paper aims to present an integrated optimisation-modelling computational approach for...
Cu column bumping is a novel flip chip packaging technique that allows Cu columns to be bonded direc...
The design and proper selection of low-cost printed circuit board (PCB) is essential to the reliabil...
One major concern over thermally induced mechanical stress is that it causes reliability problems in...
[[abstract]]As is well known, the design parameters of the packaging material and structure greatly ...
[[abstract]]Since today's trend is toward `green' products, manufacturers are moving toward lead-fre...
[[abstract]]This research proposes a parametric analysis for a flip chip package with a constraint-l...
[[abstract]]The material properties of underfill and substrate in flip chip package have temperature...
[[abstract]]The geometry of solder joints in the flip chip technologies is primarily determined by t...
The Stud Bump Bonding (SBB) flip chip technology on Molded Interconnect Devices (MID) is a highly pr...
The continuing demand towards high-density and low profile integrated circuit packaging has accelera...
Flip chip assembly on flexible organic substrates is facing increasing interest. In consumer product...
High pin count and superior thermal dissipation are the main driving factors for high performance IC...
[[abstract]]In this study, a new packaging technology, chip-on-metal (COM) panel level package (PLP)...
A flip chip component is a silicon chip mounted to a substrate with the active area facing the subst...
Purpose – This paper aims to present an integrated optimisation-modelling computational approach for...
Cu column bumping is a novel flip chip packaging technique that allows Cu columns to be bonded direc...
The design and proper selection of low-cost printed circuit board (PCB) is essential to the reliabil...
One major concern over thermally induced mechanical stress is that it causes reliability problems in...