Patent application number | Description | Published |
20120012962 | ELECTRONIC DEVICE AND METHOD OF FABRICATING THE SAME - An electronic device and a method of fabricating the same are provided. The electronic device includes: a photodiode layer; a wiring layer formed on the first surface of the photodiode layer; a plurality of electrical contact pads formed on the wiring layer; a passivation layer formed on the wiring layer and the electrical contact pads; an antireflective layer formed on the second surface of the photodiode layer; a color filter layer formed on the antireflective layer; a dielectric layer formed on the antireflective layer and the color filter layer; and a microlens layer formed on the dielectric layer, allowing the color filter layer, the dielectric layer and the microlens layer to define an active region within which the electrical contact pads are positioned. As the electrical contact pads are positioned within the active region, an area of the substrate used for an inactive region can be eliminated. | 01-19-2012 |
20120146209 | PACKAGING SUBSTRATE HAVING THROUGH-HOLED INTERPOSER EMBEDDED THEREIN AND FABRICATION METHOD THEREOF - A packaging substrate having a through-holed interposer embedded therein is provided, which includes: a molding layer having opposite first and second surfaces; a through-holed interposer embedded in the molding layer and flush with the second surface; a redistribution-layer structure embedded in the molding layer and disposed on the through-holed interposer and having a plurality of electrode pads exposed from the first surface of the molding layer; and a built-up structure disposed on the second surface of the molding layer and electrically connected to the through-holed interposer. By embedding the through-holed interposer in the molding layer and forming the built-up structure on the second surface of the molding layer, the present invention eliminates the need of a core board and reduces the thickness of the overall structure. Further, since the through-holed interposer has a CIE close to or the same as that of a silicon wafer, the structural reliability during thermal cycle testing is improved. | 06-14-2012 |
20120217627 | PACKAGE STRUCTURE AND METHOD OF FABRICATING THE SAME - A package structure is provided that includes a metal plate; a semiconductor chip having an active surface, electrode pads disposed on the active surface, conductive bumps disposed on the electrode pads, and an inactive surface opposing the active surface and attached with the metal plate by a thermal conductive adhesive; an encapsulant formed on the metal plate for encapsulating a perimeter of the semiconductor chip, with the active surface of the semiconductor chip being exposed thereon; a first dielectric layer formed on the encapsulant and the active surface of the semiconductor chip, and having wiring trenches for exposing the conductive bumps; and a first wiring layer formed in the wiring trenches of the first dielectric layer and electrically connected to the conductive bumps. The wiring layer, through the electrical connection of the conductive bumps with the semiconductor chip prevents the use of bonding wires as a conductive pathway. | 08-30-2012 |
20120228764 | PACKAGE STRUCTURE, FABRICATING METHOD THEREOF, AND PACKAGE-ON-PACKAGE DEVICE THEREBY - A package structure, a method of fabricating the package structure, and a package-on-package device are provided, where the package structure includes a metal sheet having perforations and a semiconductor chip including an active surface having electrode pads thereon, where the semiconductor chip is combined with the metal sheet via an inactive surface thereof. Also, a protective buffer layer is formed on the active surface to cover the conductive bumps, and the perforations are arranged around a periphery of the inactive surface of the semiconductor chip. Further, an encapsulant is formed on the metal sheet and in the perforations, for encapsulating the semiconductor chip and exposing the protective buffer layer; and a circuit fan-out layer is formed on the encapsulant and the protective buffer layer and having conductive vias penetrating the protective buffer layer and electrically connecting to the conductive bumps. | 09-13-2012 |
20120273930 | SEMICONDUCTOR PACKAGE STRUCTURE AND METHOD OF FABRICATING THE SAME - A semiconductor package structure is provided, including: a semiconductor chip having electrode pads disposed thereon and metal bumps disposed on the electrode pads; an encapsulant encapsulating the semiconductor chip; a dielectric layer formed on the encapsulant and having a plurality of patterned intaglios formed therein for exposing the metal bumps; a wiring layer formed in the patterned intaglios of the dielectric layer and electrically connected to the metal bumps; and a metal foil having a plurality of metal posts disposed on a surface thereof such that the metal foil is disposed on the encapsulant with the metal posts penetrating the encapsulant so as to extend to the inactive surface of the semiconductor chip. Compared with the prior art, the present invention reduces the overall thickness of the package structure, increases the electrical transmission efficiency and improves the heat dissipating effect. | 11-01-2012 |
20130032390 | PACKAGING SUBSTRATE HAVING EMBEDDED INTERPOSER AND FABRICATION METHOD THEREOF - A packaging substrate includes a carrier and an interposer. The carrier has opposite top and bottom surfaces. A recess is formed on the top surface and a plurality of first conductive terminals are formed on the recess. Further, a plurality of second conductive terminals are formed on the bottom surface of the carrier. The interposer is disposed in the recess and has opposite first and second surfaces and a plurality of conductive through vias penetrating the first and second surfaces. A first conductive pad is formed on an end of each of the conductive through vias exposed from the first surface, and a second conductive pad is formed on the other end of each of the conductive through vias exposed from the second surface and electrically connected to a corresponding one of the first conductive terminals. Compared with the prior art, the invention improves the product reliability. | 02-07-2013 |
20130040427 | FABRICATION METHOD OF PACKAGING SUBSTRATE HAVING THROUGH-HOLED INTERPOSER EMBEDDED THEREIN - A packaging substrate having a through-holed interposer embedded therein and a fabrication method of the packaging substrate are provided, where the packaging substrate includes: a molding layer having opposite first and second surfaces; a through-holed interposer embedded in the molding layer and flush with the second surface; a redistribution-layer structure embedded in the molding layer and disposed on the through-holed interposer and having a plurality of electrode pads exposed from the first surface of the molding layer; and a built-up structure disposed on the second surface of the molding layer and electrically connected to the through-holed interposer. | 02-14-2013 |
20130105213 | PACKAGING SUBSTRATE HAVING EMBEDDED THROUGH-VIA INTERPOSER AND METHOD OF FABRICATING THE SAME | 05-02-2013 |
20130175687 | PACKAGE STACK DEVICE AND FABRICATION METHOD THEREOF - A package stack device includes a first package structure having a plurality of first metal posts and a first electronic element, a second package structure having a plurality of second metal posts and a second electronic element, and an encapsulant formed between the first and second package structures to encapsulate the first electronic element. By connecting the second metal posts to the first metal posts, respectively, the second package structure is stacked on the first package structure with the support of the metal posts. Further, the gap between the two package structures is filled with the encapsulant to avoid warpage of the substrates. | 07-11-2013 |
20130249083 | PACKAGING SUBSTRATE - A packaging substrate is provided, wherein a plurality of conductive posts together with a conductive bonding layer formed thereon form a plurality of external connection structures with the same height, thereby preventing tilted stack structures and poor coplanarity in a subsequent stacking process. | 09-26-2013 |
20130309817 | METHOD OF FABRICATING PACKAGE STRUCTURE - A package structure includes a metal sheet having perforations; a semiconductor chip having an active surface and an opposite inactive surface, wherein the active surface has electrode pads thereon, conductive bumps are disposed on the electrode pads, the semiconductor chip is combined with the metal sheet via the inactive surface thereof, a protective buffer layer is formed on the active surface to cover the conductive bumps, and the perforations are arranged around a periphery of the inactive surface of the semiconductor chip; an encapsulant formed on the metal sheet and in the perforations, for encapsulating the semiconductor chip and exposing the protective buffer layer; and a circuit fan-out layer formed on the encapsulant and the protective buffer layer and having conductive vias penetrating the protective buffer layer and electrically connecting to the conductive bumps. A method of fabricating the package structure and a package-on-package device including the package structure are also provided. | 11-21-2013 |
20130335928 | CARRIER AND METHOD FOR FABRICATING CORELESS PACKAGING SUBSTRATE - A fabrication method of a coreless packaging substrate is provided, including the steps of: forming an inner built-up circuit board on a carrier; removing the carrier; and symmetrically forming a first outer built-up structure and a second outer built-up structure on top and bottom surfaces of the inner built-up circuit board, respectively. The present invention effectively increases the product yield, saves the fabrication cost, and reduces wastes. | 12-19-2013 |
20140027925 | THROUGH-HOLED INTERPOSER, PACKAGING SUBSTRATE, AND METHODS OF FABRICATING THE SAME - A through-holed interposer is provided, including a board body, a conductive gel formed in the board body, and a circuit redistribution structure disposed on the board body. The conductive gel has one end protruding from a surface of the board body, and an area of the protruded end of the conductive gel that is in contact with other structures (e.g., packaging substrates or circuit structures) is increased, thereby strengthening the bonding of the conductive gel and reliability of the interposer. | 01-30-2014 |
20140084413 | PACKAGE SUBSTRATE AND METHOD OF FABRICATING THE SAME - A package substrate and a method of fabricating the package substrate are provided. The package substrate includes a substrate having a top surface and a bottom surface opposing the top surface; an insulating protective layer formed on the top surface of the substrate; an interposer embedded in and exposed from the insulating protective layer; and passive components provided on or embedded in the interposer. By integrating the passive components into the package substrate, when a chip is provided on the interposer, the conductive path between the chip and the passive components can be shortened, and the pins of the chip have a stable voltage. Therefore, the overall electrical performance is enhanced. | 03-27-2014 |
20140084463 | METHOD OF FABRICATING SEMICONDUCTOR PACKAGE STRUCTURE - A semiconductor package structure is provided, including: a semiconductor chip having electrode pads disposed thereon and metal bumps disposed on the electrode pads; an encapsulant encapsulating the semiconductor chip; a dielectric layer formed on the encapsulant and having a plurality of patterned intaglios formed therein for exposing the metal bumps; a wiring layer formed in the patterned intaglios of the dielectric layer and electrically connected to the metal bumps; and a metal foil having a plurality of metal posts disposed on a surface thereof such that the metal foil is disposed on the encapsulant with the metal posts penetrating the encapsulant so as to extend to the inactive surface of the semiconductor chip. Compared with the prior art, the present invention reduces the overall thickness of the package structure, increases the electrical transmission efficiency and improves the heat dissipating effect. | 03-27-2014 |
20140102777 | PACKAGE SUBSTRATE AND METHOD OF FABRICATING THE SAME - A package substrate and a method of fabricating the package substrate are provided. The package substrate may include an interposer having at least one conductive through via, a photo-sensitive dielectric layer formed on one side of the interposer, and at least one conductive via formed in the photo-sensitive dielectric layer and electrically connected to the conductive through via. By means of a photo lithography process with high alignment accuracy, at least one via with an extremely small diameter can be formed on the photo-sensitive dielectric layer and align with the conductive through via. Therefore, the conductive through via can have its diameter reduced as required, without considering the alignment with the at least one via. Accordingly, the interconnection density of the conductive through via on the interposer is increased. | 04-17-2014 |
20140110713 | ELECTRONIC DEVICE AND METHOD OF FABRICATING THE SAME - An electronic device and a method of fabricating the same are provided. The electronic device includes: a photodiode layer; a wiring layer formed on the first surface of the photodiode layer; a plurality of electrical contact pads formed on the wiring layer; a passivation layer formed on the wiring layer and the electrical contact pads; an antireflective layer formed on the second surface of the photodiode layer; a color filter layer formed on the antireflective layer; a dielectric layer formed on the antireflective layer and the color filter layer; and a microlens layer formed on the dielectric layer, allowing the color filter layer, the dielectric layer and the microlens layer to define an active region within which the electrical contact pads are positioned. As the electrical contact pads are positioned within the active region, an area of the substrate used for an inactive region can be eliminated. | 04-24-2014 |
20140117557 | PACKAGE SUBSTRATE AND METHOD OF FORMING THE SAME - A package substrate and a method for forming the package substrate are disclosed. The package substrate includes an interposer having a plurality of conductive through vias and a first insulating layer formed on the sidewalls of the conductive through vias, a second insulating layer formed on one side of the interposer, and a plurality of conductive vias formed in the second insulating layer and electrically connected to the conductive through vias. By increasing the thickness of the first insulating layer, the face diameter of the conductive through vias can be reduced, and the layout density of the conductive through vias in the interposer can thus be increased. | 05-01-2014 |
20140264335 | PACKAGE SUBSTRATE AND METHOD FOR TESTING THE SAME - A package substrate is provided, including a board body having a wiring region and a testing region defined thereon, conductive pads embedded in the wiring region, and a plurality of testing pads disposed in the testing region and electrically connected to the conductive pads, wherein the top surface area of each of the testing pads is greater than the top surface area of each of the conductive pads in order to facilitate a precise alignment of a probe with a corresponding one of the testing pads and prevent the probe from being blocked by the board body when in electrically testing an embedded circuit. | 09-18-2014 |