Patent application number | Description | Published |
20100077610 | METHOD FOR MANUFACTURING THREE-DIMENSIONAL CIRCUIT - A method for manufacturing a three-dimensional circuit is described as follows. Firstly, a three-dimensional insulating structure having at least one uneven surface is provided. Secondly, a self-assembly film is formed on the uneven surface for completely covering the uneven surface. Next, a catalytic film is formed on the self-assembly film. Afterward, the self-assembly film and the catalytic film are patterned. Then, a three-dimensional circuit structure is formed on the catalytic film by chemical deposition. | 04-01-2010 |
20100215927 | COMPOSITE CIRCUIT SUBSTRATE STRUCTURE - A composite circuit substrate structure includes a first dielectric layer, a second dielectric layer, a glass fiber structure, and a patterned circuit. The first dielectric layer has a first surface and a second surface opposite to each other. The second dielectric layer is disposed on the first dielectric layer and entirely connected to the first surface. The glass fiber structure is distributed in the second dielectric layer. The patterned circuit is embedded in the first dielectric layer from the second surface, and the patterned circuit is not contacted with the glass fiber structure. | 08-26-2010 |
20100266752 | METHOD FOR FORMING CIRCUIT BOARD STRUCTURE OF COMPOSITE MATERIAL - A method for forming a circuit board structure of composite material is disclosed. First, a composite material structure including a substrate and a composite material dielectric layer is provided. The composite material dielectric layer includes a catalyst dielectric layer contacting the substrate and at least one sacrificial layer contacting the catalyst dielectric layer. The sacrificial layer is insoluble in water. Later, the composite material dielectric layer is patterned and simultaneously catalyst particles are activated. Then, a conductive layer is formed on the activated catalyst particles. Afterwards, at least one sacrificial layer is removed. | 10-21-2010 |
20110091697 | SOLDER PAD STRUCTURE FOR PRINTED CIRCUIT BOARDS AND FABRICATION METHOD THEREOF - A method for fabricating a solder pad structure. A circuit board having thereon at least one copper pad is provided. A solder resist is formed on the circuit board and covers the copper pad. A solder resist opening, which exposes a portion of the copper pad, is formed in the solder resist by laser. The laser also creates a laser activated layer on sidewalls of the solder resist opening. A chemical copper layer is then grown from the exposed copper pad and concurrently from the laser activated layer. | 04-21-2011 |
20110094779 | CIRCUIT STRUCTURE - A circuit structure including a circuit board, an insulating layer, a conductive via, a platable dielectric layer and a conductive pattern is provided. The insulating layer is disposed on the circuit board and covers a circuit layer of the circuit board. The conductive via passes through the insulating layer and connects the circuit layer and protrudes from a surface of the insulating layer. The platable dielectric layer having a trench pattern is disposed on the surface of the insulating layer wherein the portion of the conductive via protruding from the surface is located in the trench pattern. The material of the platable dielectric layer includes a chemical platable material. The conductive pattern is in the trench pattern and connects the conductive via wherein an interface exists between the conductive pattern and the conductive via and protrudes from the surface of the insulating layer. | 04-28-2011 |
20110100543 | MANUFACTURING METHOD OF CIRCUIT STRUCTURE - A manufacturing method of circuit structure is described as follows. Firstly, a composite dielectric layer, a circuit board and an insulating layer disposed therebetween are provided. The composite dielectric layer includes a non-platable dielectric layer and a platable dielectric layer between the non-platable dielectric layer and the insulating layer wherein the non-platable dielectric layer includes a chemical non-platable material and the platable dielectric layer includes a chemical platable material. Then, the composite dielectric layer, the circuit board and the insulating layer are compressed. Subsequently, a through hole passing through the composite dielectric layer and the insulating layer is formed and a conductive via connecting a circuit layer of the circuit board is formed therein. Then, a trench pattern passing through the non-platable dielectric layer is formed on the composite dielectric layer. Subsequently, a chemical plating process is performed to form a conductive pattern in the trench pattern. | 05-05-2011 |
20110114373 | CIRCUIT BOARD AND MANUFACTURING METHOD THEREOF - A circuit board includes a circuit substrate, a dielectric layer disposed on the circuit substrate and a patterned circuit structure. The dielectric layer covers a first surface and at least a first circuit of the circuit substrate. The dielectric layer has a second surface, at least a blind via, a second intaglio pattern and a third intaglio pattern connected to the blind via. The patterned circuit structure includes at least a second circuit disposed in the second intaglio pattern and third circuits disposed in the third intaglio pattern and the blind via. Each third circuit has a first conductive layer and a second conductive layer. The materials of the first conductive layer and the second circuit are the same. The line width of the second circuit is shorter than that of each third circuit. At least a third circuit is electrically connected to the first circuit of the circuit substrate. | 05-19-2011 |
20110147056 | CIRCUIT BOARD AND PROCESS FOR FABRICATING THE SAME - A circuit board including a circuit substrate, a first dielectric layer, an antagonistic activation layer, a first conductive layer, a second conductive layer and a second dielectric layer is provided. The circuit substrate has a first surface and a first circuit layer. The first dielectric layer is disposed on the circuit substrate and covers the first surface and the first circuit layer. The first dielectric layer has a second surface, at least a blind via extending from the second surface to the first circuit layer and an intaglio pattern. The antagonistic activation layer is disposed on the second surface of the dielectric layer. The first conductive layer is disposed in the blind via. The second conductive layer is disposed in the intaglio pattern and the blind via and covers the first conductive layer. The second conductive layer is electrically connected with the first circuit layer via the first conductive layer. | 06-23-2011 |
20110155427 | CIRCUIT SUBSTRATE AND MANUFACTURING METHOD THEREOF - A manufacturing method of a circuit substrate includes the following steps. A dielectric layer is formed on at least one surface of a substrate. An insulating layer is formed on the dielectric layer. A portion of the insulating layer and a portion of the dielectric layer are removed, so as to form at least one blind via in the dielectric layer and the insulating layer. An electroless plating layer is formed on the sidewall of the blind via and a remaining portion of the insulating layer, wherein the binding strength between the insulating layer and the electroless plating layer is greater than that between the dielectric layer and the electroless plating layer. A patterned conductive layer is plated to cover the electroless plating layer. | 06-30-2011 |
20110155428 | CIRCUIT BOARD AND MANUFACTURING METHOD THEREOF - A circuit board includes a circuit substrate, a dielectric layer, and a patterned circuit structure. The dielectric layer covers a first surface and at least a first circuit of the circuit substrate. The dielectric layer has a second surface, at least a blind via extending from the second surface to the first circuit, a first intaglio pattern, and a second intaglio pattern. The patterned circuit structure includes at least a second circuit and a plurality of third circuits. The second circuit is disposed in the first intaglio pattern. The third circuits are disposed in the second intaglio pattern and the blind via. Each third circuit has a first conductive layer, a second conductive layer, and a barrier layer. The first conductive layer is located between the barrier layer and the second intaglio pattern and between the barrier layer and the blind via. The second conductive layer covers the barrier layer. | 06-30-2011 |
20110155440 | CIRCUIT BOARD AND PROCESS FOR MANUFACTURING THE SAME - A circuit board including a circuit substrate, a dielectric layer, a first conductive layer and a second conductive layer is provided. The circuit substrate has a first surface and a first circuit layer. The dielectric layer is disposed on the circuit substrate and covers the first surface and the first circuit layer. The dielectric layer has a second surface, at least a blind via extended from the second surface to the first circuit layer and an intaglio pattern. The first conductive layer is disposed inside the blind via. The second conductive layer is disposed in the intaglio pattern and the blind via and covers the first conductive layer. The second conductive layer is electrically connected with the first circuit layer through the first conductive layer. | 06-30-2011 |
20110155441 | CIRCUIT BOARD AND PROCESS FOR FABRICATING THE SAME - A process for fabricating a circuit board is provided. A circuit substrate having a first surface and a first circuit layer is provided. A first dielectric layer having a second surface is formed on the circuit substrate and covers the first surface and the first circuit layer. An antagonistic activation layer is formed on the second surface. The antagonistic activation layer is irradiated by a laser beam to form at least a blind via extended from the antagonistic activation layer to the first circuit layer and an intaglio pattern. A first conductive layer is formed inside the blind via. A second conductive layer is formed in the intaglio pattern and the blind via. The second conductive layer covers the first conductive layer and is electrically connected with the first circuit layer through the first conductive layer. The antagonistic activation layer is removed to expose the second surface. | 06-30-2011 |
20120031651 | CIRCUIT BOARD - A circuit board including a circuit layer, a thermally conductive substrate, an insulation layer, and at least one thermally conductive material is provided. The thermally conductive substrate has a plane. The insulation layer is disposed between the circuit layer and the plane and partially covers the plane. The thermally conductive material covers the plane without covered by the insulation layer and is in contact with the thermally conductive substrate. The insulation layer exposes the thermally conductive material. | 02-09-2012 |
20120031652 | CIRCUIT BOARD AND MANUFACTURING METHOD THEREOF - A circuit board includes a metal pattern layer, a thermally conductive plate, an electrically insulating layer, and at least one electrically insulating material. The thermally conductive plate has a plane. The electrically insulating layer is disposed between the metal pattern layer and the plane and partially covers the plane. The electrically insulating material covers the plane where is not covered by the electrically insulating layer and touches the thermally conductive plate. The electrically insulating layer exposes the electrically insulating material, and a thermal conductivity of the electrically insulating material is larger than a thermal conductivity of the electrically insulating layer. | 02-09-2012 |
20120312588 | CIRCUIT BOARD - A circuit board includes a circuit substrate, a dielectric layer disposed on the circuit substrate and a patterned circuit structure. The dielectric layer covers a first surface and at least a first circuit of the circuit substrate. The dielectric layer has a second surface, at least a blind via, a second intaglio pattern and a third intaglio pattern connected to the blind via. The patterned circuit structure includes at least a second circuit disposed in the second intaglio pattern and third circuits disposed in the third intaglio pattern and the blind via. Each third circuit has a first conductive layer and a second conductive layer. The materials of the first conductive layer and the second circuit are the same. The line width of the second circuit is shorter than that of each third circuit. At least a third circuit is electrically connected to the first circuit of the circuit substrate. | 12-13-2012 |
20120318770 | MANUFACTURING METHOD OF CIRCUIT BOARD - A manufacturing method of a circuit board is provided. A circuit substrate having a first surface and at least a first circuit is provided. A dielectric layer having a second surface and covering the first surface and the first circuit is formed on the circuit substrate. The dielectric layer is irradiated by a laser beam to form a first intaglio pattern, a second intaglio pattern and at least a blind via. A first conductive layer is formed in the first intaglio pattern, the second intaglio pattern and the blind via. A barrier layer and a second conductive layer are formed in the second intaglio pattern and the blind via. Parts of the second conductive layer, parts of the barrier layer and parts of the first conductive layer are removed until the second surface of the dielectric layer is exposed, so as to form a patterned circuit structure. | 12-20-2012 |
20130206467 | CIRCUIT BOARD - A circuit board includes a circuit substrate, a first dielectric layer, a first conductive layer, a second conductive layer and a second dielectric layer. The circuit substrate has a first surface and a first circuit layer. The first dielectric layer is disposed on the circuit substrate and covers the first surface and the first circuit layer. The first dielectric layer has a second surface, at least a blind via extending from the second surface to the first circuit layer, and an intaglio pattern. The first conductive layer is disposed in the blind via. The second conductive layer is disposed in the intaglio pattern and the blind via. The second conductive layer is electrically connected to the first circuit layer via the first conductive layer. The second dielectric layer is disposed on the first dielectric layer and covers the second conductive layer and the second surface of the first dielectric layer. | 08-15-2013 |
20130313011 | INTERPOSED SUBSTRATE AND MANUFACTURING METHOD THEREOF - A manufacturing method of an interposed substrate is provided. A photoresist layer is formed on a metal carrier. The photoresist layer has plural of openings exposing a portion of the metal carrier. Plural of metal passivation pads and plural of conductive pillars are formed in the openings. The metal passivation pads cover a portion of the metal carrier exposed by openings. The conductive pillars are respectively stacked on the metal passivation pads. The photoresist layer is removed to expose another portion of the metal carrier. An insulating material layer is formed on the metal carrier. The insulating material layer covers the another portion of the metal carrier and encapsulates the conductive pillars and the metal passivation pads. An upper surface of the insulating material layer and a top surface of each conductive pillar are coplanar. The metal carrier is removed to expose a lower surface of the insulating material layer. | 11-28-2013 |
20140034361 | CIRCUIT BOARD - A circuit board including a circuit substrate, a dielectric layer, a first conductive layer and a second conductive layer is provided. The circuit substrate has a first surface and a first circuit layer. The dielectric layer is disposed on the circuit substrate and covers the first surface and the first circuit layer. The dielectric layer has a second surface, at least a blind via extended from the second surface to the first circuit layer and an intaglio pattern. The first conductive layer is disposed inside the blind via. The second conductive layer is disposed in the intaglio pattern and the blind via and covers the first conductive layer. The second conductive layer is electrically connected with the first circuit layer through the first conductive layer. | 02-06-2014 |
20140099432 | FABRICATION METHOD FOR FLEXIBLE CIRCUIT BOARD - A fabrication method for a flexible circuit board is provided. The fabrication method includes the following steps. Firstly, a release film having an upper surface and a lower surface opposite to each other is provided. Next, two flexible substrates are respectively disposed on the upper surface and the lower surface. Next, a plurality of nano-scale micro-pores are formed on each flexible substrate to form two non-smooth flexible substrates. The nano-scale micro-pores evenly distributed over an outer surface of each non-smooth flexible substrate. Each non-smooth flexible substrate being adapted to be performed a plating process directly on the outer surface thereof. | 04-10-2014 |
20140138142 | INTERPOSED SUBSTRATE AND MANUFACTURING METHOD THEREOF - A manufacturing method of an interposed substrate is provided. A metal-stacked layer comprising a first metal layer, an etching stop layer and a second metal layer is formed. A patterned conductor layer is formed on the first metal layer, wherein the patterned conductor layer exposes a portion of the first metal layer. A plurality of conductive pillars is formed on the patterned conductor layer, wherein the conductive pillars are separated from each other and stacked on a portion of the patterned conductor layer. An insulating material layer is formed on the metal-stacked layer, wherein the insulating material layer covers the portion of the first metal layer and encapsulates the conductive pillars and the other portion of the patterned conductor layer. The metal-stacked layer is removed to expose a lower surface opposite to an upper surface of the insulating material layer and a bottom surface of the patterned conductor layer. | 05-22-2014 |
20140174804 | ELECTRICAL DEVICE PACKAGE STRUCTURE AND METHOD OF FABRICATING THE SAME - A method of packaging an electrical device including following steps is provided. A circuit board including a substrate and a first conductive pattern is provided. The electrical device having an electrode is disposed on the circuit board. A dielectric layer is formed on the circuit board to cover the electrical device, the electrode and the first conductive pattern, wherein a first caving pattern is formed in the dielectric layer by the first conductive pattern. The dielectric layer is patterned to form a through hole and a second caving pattern connecting with the through hole and exposing the electrode. A conductive material is filled in the through hole and the second caving pattern to form a conductive via in the through hole and a second conductive pattern in the second caving pattern. The substrate is removed. Moreover, the electrical device package structure is also provided. | 06-26-2014 |
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 |
20130008705 | CORELESS PACKAGE SUBSTRATE AND FABRICATION METHOD THEREOF - A coreless package substrate is provided, including: a circuit buildup structure including at least a dielectric layer, at least a circuit layer and conductive elements; first electrical contact pads embedded in the lowermost dielectric layer of the circuit buildup structure; a plurality of metal bumps formed on the uppermost circuit layer of the circuit buildup structure; a dielectric passivation layer disposed on a top surface of the circuit buildup structure and the metal bumps; and second electrical contact pads embedded in the dielectric passivation layer and electrically connected to the metal bumps. With the second electrical contact pads being engaged with the metal bumps and having top surfaces thereof completely exposed, the bonding strength between the second electrical contact pads and a chip to be mounted thereon and between the second electrical contact pads and the metal bumps can be enhanced. | 01-10-2013 |
20130008706 | CORELESS PACKAGING SUBSTRATE AND METHOD OF FABRICATING THE SAME - A coreless packaging substrate is provided which includes: a circuit buildup structure having at least a dielectric layer, at least a wiring layer and a plurality of conductive elements, a plurality of electrical pads embedded in the lowermost one of the at least a dielectric layer, a plurality of metal bumps formed on the uppermost one of the at least a wiring layer, and a dielectric passivation layer formed on the surface of the uppermost one of the circuit buildup structure and the metal bumps, with the metal bumps exposed from the dielectric passivation layer. The metal bumps each have a metal column portion and a wing portion integrally connected to the metal column portion, such that the bonding force between the metal bumps and a semiconductor chip is enhanced by the entire top surface of the wing portions of the metal bumps being completely exposed. | 01-10-2013 |
20130009293 | PACKAGING SUBSTRATE AND METHOD OF FABRICATING THE SAME - A packaging substrate includes a first dielectric layer; a plurality of first conductive pads embedded in and exposed from a first surface of the first dielectric layer; a first circuit layer embedded in and exposed from a second surface of the first dielectric layer; a plurality of first metal bumps disposed in the first dielectric layer, each of the first metal bumps having a first end embedded in the first circuit layer and a second end opposing the first end and disposed on one of the first conductive pads, a conductive seedlayer being disposed between the first circuit layer and the first dielectric layer and between the first circuit layer and the first metal bump; a built-up structure disposed on the first circuit layer and the first dielectric layer; and a plurality of second conductive pads disposed on the built-up structure. The packaging substrate has an over-warpage problem improved. | 01-10-2013 |
20130009306 | PACKAGING SUBSTRATE AND FABRICATION METHOD THEREOF - A packaging substrate includes a first dielectric layer, a first circuit layer, a first metal bump, and a built-up structure. The first metal bump and the first circuit layer are embedded in and exposed from two surfaces of the first dielectric layer. The end of the first metal bump is embedded in the first circuit layer and between the first circuit layer and the first dielectric layer. In addition, a conductive seedlayer is disposed between the first circuit layer and the first metal bump. The built-up structure is disposed on the first circuit layer and the first dielectric layer. The outmost layer of the built-up structure has a plurality of conductive pads. Compared to the prior art, the present invention can effectively improve the warpage problem of the conventional packaging substrate. | 01-10-2013 |
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 |
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 |
20130312911 | WET-ETCHING EQUIPMENT AND ITS SUPPLYING DEVICE - A supplying device including a supplying part and an adjustment part is provided. The supplying part includes a run-through supplying path for transporting a fluid. The adjustment part includes a channel and one or more recovery paths adjacent to the channel. The supplying part is disposed in the channel to allow the fluid to flow out of the channel through the supplying part and to allow the recovery paths to suck a portion of the etching solution outputted from the channel in order to control the amount of output of the fluid. Wet-etching equipment including the supplying device is also provided. | 11-28-2013 |
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 |
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 |
20140090794 | METHOD OF FABRICATING PACKAGING SUBSTRATE - A packaging substrate includes a first dielectric layer; a plurality of first conductive pads embedded in and exposed from a first surface of the first dielectric layer; a first circuit layer embedded in and exposed from a second surface of the first dielectric layer; a plurality of first metal bumps disposed in the first dielectric layer, each of the first metal bumps having a first end embedded in the first circuit layer and a second end opposing the first end and disposed on one of the first conductive pads, a conductive seedlayer being disposed between the first circuit layer and the first dielectric layer and between the first circuit layer and the first metal bump; a built-up structure disposed on the first circuit layer and the first dielectric layer; and a plurality of second conductive pads disposed on the built-up structure. The packaging substrate has an over-warpage problem improved. | 04-03-2014 |
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 |
20150068033 | METHOD OF FABRICATING PACKAGING SUBSTRATE - A packaging substrate includes a first dielectric layer, a first circuit layer, a first metal bump, and a built-up structure. The first metal bump and the first circuit layer are embedded in and exposed from two surfaces of the first dielectric layer. The end of the first metal bump is embedded in the first circuit layer and between the first circuit layer and the first dielectric layer. In addition, a conductive seedlayer is disposed between the first circuit layer and the first metal bump. The built-up structure is disposed on the first circuit layer and the first dielectric layer. The outmost layer of the built-up structure has a plurality of conductive pads. Compared to the prior art, the present invention can effectively improve the warpage problem of the conventional packaging substrate. | 03-12-2015 |
Patent application number | Description | Published |
20090144972 | CIRCUIT BOARD AND PROCESS FOR FABRICATING THE SAME - A process for fabricating a circuit board is provided. In the process, first, a circuit substrate including an insulation layer and at least a pad contacting the insulation layer is provided. Next, a barrier material layer is formed on the circuit substrate. The barrier material layer completely covers the insulation layer and the pad. Then, at least one conductive bump is formed on the barrier material layer. The conductive bump is opposite to the pad, and the material of the barrier material layer is different from the material of the conductive bump. Next, a portion of the barrier material layer is removed by using the conductive bump as a mask, so as to expose the surface of the insulation layer and to form a barrier connected between the conductive bump and the pad. | 06-11-2009 |
20090166059 | CIRCUIT BOARD AND PROCESS THEREOF - A circuit board and process thereof are provided. The circuit board includes a dielectric layer, a main circuit, and two shielding circuits. The dielectric layer has an active surface. The main circuit is embedded in the dielectric layer and the shielding circuits are disposed at the dielectric layer. The shielding circuits are respectively located at two sides of the main circuit. The thickness of the shielding circuits is larger than the thickness of the main circuit. | 07-02-2009 |
20090197364 | METHOD OF FABRICATING SUBSTRATE - A method of fabricating a substrate includes following steps. First, a metallic panel having a first surface and a second surface is provided. A first half-etching process is carried out to etch the first surface of the metallic panel to a first depth so that a first patterned metallic layer is formed on the first surface. Next, a first insulating material is deposited into gaps in the first patterned metallic layer to form a first insulator. Thereafter, a second half-etching process is carried out to etch the second surface of the metallic panel to a second depth and expose at least a portion of the first insulator so that a second patterned metallic layer is formed on the second surface. The first depth and the second depth together equal the thickness of the metallic panel. | 08-06-2009 |
20090273907 | CIRCUIT BOARD AND PROCESS THEREOF - A circuit board and process thereof are provided. The circuit board includes a dielectric layer, an active circuit, and two shielding circuits. The dielectric layer has an active surface. The active circuit is disposed on the active surface, and the shielding circuits are respectively disposed on two sides of the active circuit. The height of the shielding circuits is larger than the height of the active circuit. | 11-05-2009 |
20090314650 | PROCESS OF PACKAGE SUBSTRATE - A process of a package substrate is provided. A plurality of metal layers stacked in sequence is used as a foundation structure. A thick heat conductive core is fabricated from one of the metal layers for providing high heat dissipation capability, and a plurality of pads is fabricated from another one of the metal layers for electrically connecting an electronic package at the next level. | 12-24-2009 |
20120007252 | SEMICONDUCTOR PACKAGE STRUCTURE AND FABRICATING METHOD OF SEMICONDUCTOR PACKAGE STRUCTURE - A semiconductor package structure includes a dielectric layer, a patterned metal layer, a carrier, a metal layer and a semiconductor die. The dielectric layer has a first surface, a second surface and an opening. The patterned metal layer is disposed on the first surface. The carrier is disposed at the second surface and has a third surface, a fourth surface and at least a through hole. A portion of the third surface and the through hole are exposed by the opening. The metal layer is disposed on the fourth surface and has a containing cavity and at least a heat conductive post extending from the fourth surface and disposed in the through hole. An end of the heat conductive post protrudes away from the third surface, and the containing cavity is located on the end of the heat conductive post. The semiconductor die is located in the containing cavity. | 01-12-2012 |
20120124830 | PROCESS FOR FABRICATING CIRCUIT BOARD - A process for fabricating a circuit board is provided. In the process, first, a circuit substrate including an insulation layer and at least a pad contacting the insulation layer is provided. Next, a barrier material layer is formed on the circuit substrate. The barrier material layer completely covers the insulation layer and the pad. Then, at least one conductive bump is formed on the barrier material layer. The conductive bump is opposite to the pad, and the material of the barrier material layer is different from the material of the conductive bump. Next, a portion of the barrier material layer is removed by using the conductive bump as a mask, so as to expose the surface of the insulation layer and to form a barrier connected between the conductive bump and the pad. | 05-24-2012 |
20130011971 | FABRICATING METHOD OF SEMICONDUCTOR PACKAGE STRUCTURE - A fabricating method of a semiconductor package structure is provided. A dielectric layer having a first surface and a second surface is provided. A patterned metal layer has been formed on the first surface of the dielectric layer. An opening going through the first and the second surfaces is formed. A carrier having a third surface and a fourth surface is formed at the second surface. A portion of the third surface is exposed by the opening of the dielectric layer. A semiconductor die having a joining surface and a side-surface is joined in the opening. At least a through hole going through the third and the fourth surfaces is formed. A metal layer having at least a heat conductive post extending from the fourth surface of the carrier to the through hole and disposed in the through hole and a containing cavity is formed on the fourth surface. | 01-10-2013 |
20140071656 | LIGHT SOURCE MODULE AND BULB LAMP - A light source module includes a base plate, a projection, and a plurality of light-emitting devices. The projection is disposed on the base plate. The light-emitting devices surround the projection and are disposed on the projection. | 03-13-2014 |
20140071671 | T-BAR LAMP - A T-bar lamp includes a T-bar lamp housing, at least one light source, and a pattern. The T-bar lamp housing has an opening. The light source is mounted in the T-bar lamp housing. The pattern covers the opening and has at least one transparent region. The transparent region exposes the corresponding light source. | 03-13-2014 |
20140138559 | LAMPSHADE AND ILLUMINATION MODULE - A lampshade including a plurality of plate structures is provided. The plurality of plate structures are connected to one another to form a hollow casing having an opening. An illumination module including a base plate, a light source, and a lampshade is further provided. The light source is disposed on the base plate. The lampshade is covered on the base plate, and the light source is sited between the base plate and the lampshade. The lampshade includes a plurality of plate structures, wherein the plurality of plate structures are connected to one another to form a hollow casing having an opening. | 05-22-2014 |