Patent application number | Description | Published |
20120018494 | Thermal Compress Bonding - A method includes providing a substrate carrier including work piece holders, and placing a first plurality of work pieces into the work piece holders. A second plurality of work pieces is picked up and placed, with each of the second plurality of work pieces being placed on one of the first plurality of work pieces. Solder bumps between the first and the second plurality of work pieces are then reflowed to simultaneously bond the first and the second plurality of work pieces together. | 01-26-2012 |
20120021183 | Forming Low Stress Joints Using Thermal Compress Bonding - A method of forming a bump structure includes providing a first work piece including a dielectric layer having a top surface; placing a second work piece facing the first work piece; placing a heating tool contacting the second work piece; and heating the second work piece using the heating tool to perform a reflow process. A first solder bump between the first and the second work pieces is melted to form a second solder bump. Before the second solder bump solidifies, pulling the second work piece away from the first work piece, until an angle formed between a tangent line of the second solder bump and the top surface of the dielectric layer is greater than about 50 degrees, wherein the tangent line is drawn at a point where the second solder bump joins the dielectric layer. | 01-26-2012 |
20120267423 | Methods and Apparatus for Thin Die Processing - A vacuum tip and methods for processing thin integrated circuit dies. A vacuum tip for attaching to an integrated circuit die is disclosed comprising a vacuum port configured to connect to a vacuum supply on an upper surface and having a bottom surface; and at least one vacuum hole extending through the vacuum tip and exposed at the bottom surface of the vacuum tip; wherein the vacuum tip is configured to physically contact a surface of an integrated circuit die. Methods for processing integrated circuit dies are disclosed. | 10-25-2012 |
20120299181 | Package-on-Package Process for Applying Molding Compound - A method of packaging includes placing a package component over a release film, wherein solder balls on a surface of the package component are in physical contact with the release film. Next, A molding compound filled between the release film and the package component is cured, wherein during the step of curing, the solder balls remain in physical contact with the release film. | 11-29-2012 |
20130048027 | Package Assembly Cleaning Process Using Vaporized Solvent - A method includes generating a solvent-containing vapor that contains a solvent. The solvent-containing vapor is conducted to a package assembly to clean the package assembly. The solvent-containing vapor condenses to form a liquid on a surface of the package assembly, and flows off from the surface of the package assembly. | 02-28-2013 |
20130062761 | Packaging Methods and Structures for Semiconductor Devices - Packaging methods and structures for semiconductor devices are disclosed. In one embodiment, a packaged semiconductor device includes a redistribution layer (RDL) having a first surface and a second surface opposite the first surface. At least one integrated circuit is coupled to the first surface of the RDL, and a plurality of metal bumps is coupled to the second surface of the RDL. A molding compound is disposed over the at least one integrated circuit and the first surface of the RDL. | 03-14-2013 |
20130126591 | Thermal Compress Bonding - A method includes providing a substrate carrier including work piece holders, and placing a first plurality of work pieces into the work piece holders. A second plurality of work pieces is picked up and placed, with each of the second plurality of work pieces being placed on one of the first plurality of work pieces. Solder bumps between the first and the second plurality of work pieces are then reflowed to simultaneously bond the first and the second plurality of work pieces together. | 05-23-2013 |
20130128486 | Forming Low Stress Joints Using Thermal Compress Bonding - A method of forming a bump structure includes providing a first work piece including a dielectric layer having a top surface; placing a second work piece facing the first work piece; placing a heating tool contacting the second work piece; and heating the second work piece using the heating tool to perform a reflow process. A first solder bump between the first and the second work pieces is melted to form a second solder bump. Before the second solder bump solidifies, pulling the second work piece away from the first work piece, until an angle formed between a tangent line of the second solder bump and the top surface of the dielectric layer is greater than about 50 degrees, wherein the tangent line is drawn at a point where the second solder bump joins the dielectric layer. | 05-23-2013 |
20130146647 | Integrated Reflow and Cleaning Process and Apparatus for Performing the Same - A method includes reflowing a solder region of a package structure, and performing a cleaning on the package structure at a cleaning temperature higher than a room temperature. Between the step of reflowing and the step of cleaning, the package structure is not cooled to temperatures close to the room temperature. | 06-13-2013 |
20130228951 | Wafer-Level Underfill and Over-Molding - A mold includes a top portion, and an edge ring having a ring-shape. The edge ring is underlying and connected to edges of the top portion. The edge ring includes air vents. The edge ring further encircles the inner space under the top portion of the mold. A plurality of injection ports is connected to the inner space of the mold. The plurality of injection ports is substantially aligned to a straight line crossing a center of the top portion of the mold. The plurality of injection ports has different sizes. | 09-05-2013 |
20130273717 | Apparatus and Method for the Singulation of a Semiconductor Wafer - The present disclosure is directed to an apparatus for the singulation of a semiconductor substrate or wafer. In some embodiments the singulation apparatus comprises a plurality of cutting devices. The cutting devices are configured to form multiple concurrent cutting lines in parallel on a surface of the semiconductor wafer. In some embodiments, the singulation apparatus comprises at least two dicing saws or laser modules. The disclosed singulation apparatus can dice the semiconductor wafer into individual chips by dicing in a direction across a complete circumferential edge of the wafer, thereby decreasing process time and increasing throughput. | 10-17-2013 |
20140048586 | Innovative Multi-Purpose Dipping Plate - The present disclosure is directed to an apparatus for the application of soldering flux to a semiconductor workpiece. In some embodiments the apparatus comprises a dipping plate having a reservoir which is adapted to containing different depths of flux material. In some embodiments, the reservoir comprises at least two landing regions having sidewalls which form first and second dipping zones. The disclosed apparatus can allow dipping of the semiconductor workpiece in different depths of soldering flux without the necessity for changing dipping plates. | 02-20-2014 |
20140291881 | WAFER LEVEL TRANSFER MOLDING AND APPARATUS FOR PERFORMING THE SAME - A method includes placing a package structure into a mold chase, with top surfaces of device dies in the package structure contacting a release film in the mold chase. A molding compound is injected into an inner space of the mold chase through an injection port, with the injection port on a side of the mold chase. During the injection of the molding compound, a venting step is performed through a first venting port and a second venting port of the mold chase. The first venting port has a first flow rate, and the second port has a second flow rate different from the first flow rate. | 10-02-2014 |
20150021760 | MECHANISMS FOR FORMING BONDING STRUCTURES - Embodiments of mechanisms for forming a package are provided. The package includes a substrate and a contact pad formed on the substrate. The package also includes a conductive pillar bonded to the contact pad through solder formed between the conductive pillar and the contact pad. The solder is in direct contact with the conductive pillar. | 01-22-2015 |
20150024606 | METHOD AND SYSTEM FOR THINNING WAFER THEREOF - Embodiments of a method for thinning a wafer are provided. The method includes placing a wafer on a support assembly and securing an etching mask to a backside of the wafer. The etching mask covers a peripheral portion of the wafer. The method further includes performing a wet etching process on the backside of the wafer to form a thinned wafer, and the thinned wafer includes peripheral portions having a first thickness and a central portion having a second thickness smaller than the first thickness. Embodiments of system for forming the thinned wafer are also provided. | 01-22-2015 |
20150044819 | Packaging Methods and Structures for Semiconductor Devices - Packaging methods and structures for semiconductor devices are disclosed. In one embodiment, a packaged semiconductor device includes a redistribution layer (RDL) having a first surface and a second surface opposite the first surface. At least one integrated circuit is coupled to the first surface of the RDL, and a plurality of metal bumps is coupled to the second surface of the RDL. A molding compound is disposed over the at least one integrated circuit and the first surface of the RDL. | 02-12-2015 |
20150069604 | SEMICONDUCTOR DEVICE HAVING A BOUNDARY STRUCTURE, A PACKAGE ON PACKAGE STRUCTURE, AND A METHOD OF MAKING - A semiconductor device includes a substrate and a first conductive pad on a top surface of the substrate. The semiconductor device further includes a boundary structure on the top surface of the substrate around the conductive pad. | 03-12-2015 |