Patent application number | Description | Published |
20100289132 | SUBSTRATE HAVING EMBEDDED SINGLE PATTERNED METAL LAYER, AND PACKAGE APPLIED WITH THE SAME, AND METHODS OF MANUFACTURING OF THE SUBSTRATE AND PACKAGE - A substrate having single patterned metal layer applied in a package is provided. The substrate includes a first patterned dielectric layer, a patterned metal layer and a second patterned dielectric layer, wherein the patterned metal layer is embedded in the first patterned dielectric layer. Also, the top surfaces of the patterned metal layer and the first patterned dielectric layer lie in the same plane. At least part of the patterned metal layer are exposed from the holes formed on the lower surface of the first patterned dielectric layer, so as to form plural first contact pads for electrical connection downwardly. The second patterned dielectric layer, formed above the patterned metal layer and the first patterned dielectric layer, at least exposes part of the patterned metal layer to form plural second contact pads at the top surface of the patterned metal layer for electrical connection upwardly. | 11-18-2010 |
20100314744 | SUBSTRATE HAVING SINGLE PATTERNED METAL LAYER EXPOSING PATTERNED DIELECTRIC LAYER, CHIP PACKAGE STRUCTURE INCLUDING THE SUBSTRATE, AND MANUFACTURING METHODS THEREOF - A chip package structure includes a substrate, a die, and a package body. The substrate includes a single patterned, electrically conductive layer, and a patterned dielectric layer adjacent to an upper surface of the electrically conductive layer. A part of a lower surface of the electrically conductive layer forms first contact pads for electrical connection externally. The patterned dielectric layer exposes a part of the upper surface of the electrically conductive layer to form second contact pads. The electrically conductive layer exposes the lower surface of the patterned dielectric layer on a lower periphery of the substrate. The die is electrically connected to the second contact pads, the patterned dielectric layer and the die being positioned on the same side of the electrically conductive layer. The package body is disposed adjacent to the upper surface of the electrically conductive layer and covers the patterned dielectric layer and the die. | 12-16-2010 |
20100320610 | SEMICONDUCTOR PACKAGE WITH SUBSTRATE HAVING SINGLE METAL LAYER AND MANUFACTURING METHODS THEREOF - A semiconductor package includes a substrate, a die, and a package body. The substrate includes: (a) a core including a resin reinforced with fibers; (b) a plurality of openings extending through the core; (c) a dielectric layer; and (d) a single conductive layer disposed between the dielectric layer and the core. Portions of a lower surface of the single conductive layer cover the plurality of openings to form a plurality of first contact pads for electrical connection external to the semiconductor package. Exposed portions of an upper surface of the single conductive layer form a plurality of second contact pads. The die is electrically connected to the plurality of second contact pads, and the package body encapsulates the die. | 12-23-2010 |
20110084370 | SEMICONDUCTOR PACKAGE AND PROCESS FOR FABRICATING SAME - A package carrier includes: (a) a dielectric layer defining a plurality of openings; (b) patterned electrically conductive layer, embedded in the dielectric layer and disposed adjacent to a first surface of the dielectric layer; a plurality of electrically conductive posts, disposed in respective ones of the openings, wherein the openings extend between a second surface of the dielectric layer to the patterned electrically conductive layer, the electrically conductive posts a connected to the patterned electrically conductive layer, and an end of each of the electrically conductive posts has a curved profile and is faced away from the patterned electrically conductive layer; and (d) a patterned solder resist layer, disposed adjacent to the first surface of the dielectric layer and exposing portions of the patterned electrically conductive layer corresponding to contact pads. A semiconductor package includes the package carrier, a chip, and an encapsulant covering the chip and the package carrier. | 04-14-2011 |
20110084372 | PACKAGE CARRIER, SEMICONDUCTOR PACKAGE, AND PROCESS FOR FABRICATING SAME - A package carrier includes: (1) a dielectric layer; (2) a first electrically conductive pattern, embedded in the dielectric layer and disposed adjacent to a first surface of the dielectric layer, and including a plurality of first pads; (3) a plurality of first electrically conductive posts, extending through the dielectric layer, wherein each of the first electrically conductive posts includes a first electrically conductive post segment connected to at least one of the first pads and a second electrically conductive post segment connected to the first electrically conductive post segment, and a lateral extent of the first electrically conductive post segment is different from a lateral extent of the second electrically conductive post segment; and (4) a second electrically conductive pattern, disposed adjacent to a second surface of the dielectric layer, and including a plurality of second pads connected to respective ones of the second electrically conductive post segments. | 04-14-2011 |
20110169150 | Semiconductor Package with Single Sided Substrate Design and Manufacturing Methods Thereof - A semiconductor package includes a substrate unit, a die electrically connected to first contact pads, and a package body covering a first patterned conductive layer and the die. The substrate unit includes: (1) the first patterned conductive layer; (2) a first dielectric layer exposing a part of the first patterned conductive layer to form the first contact pads; (3) a second patterned conductive layer; (4) a second dielectric layer defining openings extending from the first patterned conductive layer to the second patterned conductive layer, where the second patterned conductive layer includes second contact pads exposed by the second dielectric layer; and (5) conductive posts extending from the first patterned conductive layer to the second contact pads through the openings, each of the conductive posts filling a corresponding one of the openings. At least one of the conductive posts defines a cavity. | 07-14-2011 |
20120153493 | EMBEDDED COMPONENT DEVICE AND MANUFACTURING METHODS THEREOF - An embedded component device includes an electronic component including an electrical contact, an upper patterned conductive layer, a dielectric layer between the upper patterned conductive layer and the electronic component, a first electrical interconnect, a lower patterned conductive layer, a conductive via, and a second electrical interconnect. The dielectric layer has a first opening exposing the electrical contact, and a second opening extending from the lower patterned conductive layer to the upper patterned conductive layer. The first electrical interconnect extends from the electrical contact to the upper patterned conductive layer, and fills the first opening. The second opening has an upper portion exposing the upper patterned conductive layer and a lower portion exposing the lower patterned conductive layer. The conductive via is located at the lower portion of the second opening. The second electrical interconnect fills the upper portion of the second opening. | 06-21-2012 |
20140021636 | SEMICONDUCTOR PACKAGE WITH SINGLE SIDED SUBSTRATE DESIGN AND MANUFACTURING METHODS THEREOF - A multilayer substrate includes a first outer conductive patterned layer, a first insulating layer exposing a portion of the first outer conductive patterned layer to define a first set of pads, a second outer conductive patterned layer, and a second insulating layer exposing a portion of the second outer conductive patterned layer to define a second set of pads. The multilayer substrate further includes inner layers each with an inner conductive patterned layer, multiple inner conductive posts formed adjacent to the inner conductive patterned layer, and an inner dielectric layer, where the inner conductive patterned layer and the inner conductive posts are embedded in the inner dielectric layer, and a top surface of each of the inner conductive posts is exposed from the inner dielectric layer. | 01-23-2014 |
20140151876 | SEMICONDUCTOR PACKAGE AND PROCESS FOR FABRICATING SAME - A package carrier includes: (a) a dielectric layer defining a plurality of openings; (b) patterned electrically conductive layer, embedded in the dielectric layer and disposed adjacent to a first surface of the dielectric layer; (c) a plurality of electrically conductive posts, disposed in respective ones of the openings, wherein the openings extend between a second surface of the dielectric layer to the patterned electrically conductive layer, the electrically conductive posts are connected to the patterned electrically conductive layer, and an end of each of the electrically conductive posts has a curved profile and is faced away from the patterned electrically conductive layer; and (d) a patterned solder resist layer, disposed adjacent to the first surface of the dielectric layer and exposing portions of the patterned electrically conductive layer corresponding to contact pads. A semiconductor package includes the package carrier, a chip, and an encapsulant covering the chip and the package carrier. | 06-05-2014 |
20140346670 | SEMICONDUCTOR PACKAGE WITH SINGLE SIDED SUBSTRATE DESIGN AND MANUFACTURING METHODS THEREOF - A multilayer substrate includes a first outer conductive patterned layer, a first insulating layer exposing a portion of the first outer conductive patterned layer to define a first set of pads, a second outer conductive patterned layer, and a second insulating layer exposing a portion of the second outer conductive patterned layer to define a second set of pads. The multilayer substrate further includes inner layers each with an inner conductive patterned layer, multiple inner conductive posts formed adjacent to the inner conductive patterned layer, and an inner dielectric layer, where the inner conductive patterned layer and the inner conductive posts are embedded in the inner dielectric layer, and a top surface of each of the inner conductive posts is exposed from the inner dielectric layer. | 11-27-2014 |
Patent application number | Description | Published |
20100055392 | METHOD OF FABRICATING MULTI-LAYERED SUBSTRATE AND THE SUBSTRATE THEREOF - The present invention directs to fabrication methods of single-sided or double-sided multi-layered substrate by providing a lamination structure having at least a core structure and first and second laminate structures stacked over both surfaces of the core structure. The core structure functions as the temporary carrier for carrying the first and second laminate structures through the double-sided processing procedures. By way of the fabrication methods, the production yield can be greatly improved without increasing the production costs. | 03-04-2010 |
20100288541 | SUBSTRATE HAVING SINGLE PATTERNED METAL LAYER, AND PACKAGE APPLIED WITH THE SUBSTRATE , AND METHODS OF MANUFACTURING OF THE SUBSTRATE AND PACKAGE - A substrate having single patterned metal layer includes a patterned base having at least a plurality of apertures, the patterned metal layer disposed on the patterned base, and a first surface finish layer. Parts of the lower surface of the patterned metal layer are exposed by the apertures of the patterned base to form a plurality of first contact pads for downward electrical connection externally, and parts of the upper surface of the patterned metal layer function as a plurality of second contact pads for upward electrical connection externally. The first surface finish layer is disposed at least on one or more surfaces of the second contact pads, and the first surface finish layer is wider than the second contact pad beneath. A package applied with the substrate disclosed herein further comprises at least a die conductively connected to the second contact pads of the substrate. | 11-18-2010 |
20110056736 | FABRICATION METHOD OF CIRCUIT BOARD, CIRCUIT BOARD, AND CHIP PACKAGE STRUCTURE - A circuit board, a chip package structure and a fabrication method of the circuit board are provided. By applying the fabrication method, a plurality of conductive channels can be formed in a single through hole of the circuit substrate. Unlike the conductive channels respectively formed in the through holes according to the related art, the conductive channels of the proposed circuit board can be formed in a single through hole. As such, it is conducive to the expansion of available layout area of the circuit board, the increase in layout flexibility, and the improvement of layout density of the circuit board. | 03-10-2011 |
20110057301 | SEMICONDUCTOR PACKAGE - A semiconductor package includes a patterned metal foil, a chip, wires, a patterned dielectric layer, an adhesive layer, and a molding compound. The patterned metal foil has a first surface and a second surface opposite thereto. The patterned dielectric layer is disposed on the second surface and has openings exposing at least a portion of the patterned metal foil to form joints for external electrical connection. The chip is disposed on the first surface. The adhesive layer is disposed between the chip and the patterned metal foil. The wires respectively connect the chip and the patterned metal foil. The patterned dielectric layer is located below intersections between the wires and the patterned metal foil. The patterned dielectric layer, the wires, and the patterned metal foil overlap with one another on a plane. The molding compound is disposed on the first surface and covers the chip and the wires. | 03-10-2011 |
20110194265 | Embedded Component Substrate and Manufacturing Methods Thereof - An embodiment of an embedded component substrate includes: (1) a semiconductor device including lower, lateral, and upper surfaces; (2) a first patterned conductive layer including a first electrical interconnect extending substantially laterally within the first patterned conductive layer; (3) a second electrical interconnect extending substantially vertically from a first surface of the first interconnect, and including lateral and upper surfaces, and a lower surface adjacent to the first surface; (4) a dielectric layer including an opening extending from an upper surface of the dielectric layer to a lower surface of the dielectric layer, where: (a) the dielectric layer substantially covers the lateral and upper surfaces of the device, and at least a portion of the lateral surface of the second interconnect; and (b) the second interconnect substantially fills the opening; and (5) a second patterned conductive layer adjacent to the upper surfaces of the dielectric layer and the second interconnect. | 08-11-2011 |
20120033394 | METHOD OF FABRICATING EMBEDDED COMPONENT PACKAGE STRUCTURE AND THE PACKAGE STRUCTURE THEREOF - The present invention directs to fabrication methods of the embedded component package structures by providing preformed lamination structures, joining or stacking the preformed laminate structures and mounting at least one electronic component to the joined structures. By way of the fabrication methods, the production yield can be greatly improved with lower cycle time. | 02-09-2012 |
20120073871 | MULTI-LAYERED SUBSTRATE - The present invention directs to double-sided multi-layered substrate a base, at least a through-hole passing through the base, patterned first and second metal layers formed on the two opposite surfaces of the base, and first and second plating layers. The first plating layer covers a sidewall of the through-hole and the bottom surface surrounding a bottom opening of the through hole. The second plating layer covers the first plating layer and the top surface surrounding a top opening of the through hole. | 03-29-2012 |
20120091569 | LEADFRAME PACKAGE STRUCTURE AND MANUFACTURING METHOD THEREOF - The package structure includes a metal sheet having a first central block, a plurality of first metal blocks, a second central block and a plurality of second metal blocks, a first finish layer and a second finish layer, at least a chip disposed on the metal sheet and a package body encapsulating the chip. The package structure may further include at least an area block for wire routing. | 04-19-2012 |