Patent application number | Description | Published |
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 |
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 |
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 |
20120015304 | METHOD FOR FABRICATING AN INTERPOSER - Method for fabricating an interposer is provided. A substrate is provided having thereon at least a conductive via and at least a flange. The flange is bonded on the substrate and shades a portion of the via. A photoresist layer is formed on the interior surface of the via, on a contact surface of the flange and on an inner surface of the flange opposite to the contact surface. An opening is formed in the photoresist layer to expose a portion of the contact surface of the flange, while the photoresist layer still covers the interior surface of the via and the inner surface of the flange. A plating layer is formed on the exposed contact surface of the flange. The photoresist layer is then removed. | 01-19-2012 |
20120024584 | CONNECTOR AND MANUFACTURING METHOD THEREOF - A method of manufacturing a connector is provided. Firstly, a substrate having a first surface, a second surface opposite to the first surface and a through hole is provided. Next, a first conductive layer covering the inside wall of the through hole is formed on the substrate. Then, a filler is filled in the through hole to form a filler post. Next, a conductive elastic cantilever is formed over the first surface and electrically connected to the first conductive layer. Then, a gold layer is formed on the conductive elastic cantilever and over the first surface. A solder ball electrically connected to the first conductive layer is formed over the second surface. | 02-02-2012 |
20120026708 | CARRIER SUBSTRATE AND METHOD FOR MAKING THE SAME - A carrier substrate includes a substrate having a chip side and a PCB side, a plurality of bond pads disposed on the chip side for bonding a chip, a plurality of land grid array (LGA) pads disposed on the PCB side, and a plurality of resilient flanges installed on the PCB side in an array manner. The plurality of resilient flanges electrically connects with the LGA pads correspondingly. | 02-02-2012 |
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 |
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 |
20140119688 | CIRCUIT BOARD AND MANUFACTURING METHOD THEREOF AND ELECTRO-OPTIC APPARATUS HAVING THE CIRCUIT BOARD - A circuit board, a manufacturing method thereof, and an electro-optic apparatus having the circuit board are provided. The circuit board includes a substrate including a first dielectric layer and a first circuit layer disposed thereon, a waveguide layer disposed on a portion of the substrate, a second dielectric layer, a convex structure and a second circuit layer. The second dielectric layer is disposed on the substrate and the waveguide layer. The second dielectric layer has an opening exposing the sidewall of the waveguide layer and a portion of the first circuit layer. The convex structure is disposed on the sidewall of the waveguide layer. The convex structure and the waveguide layer respectively have refractive index n | 05-01-2014 |