Patent application number | Description | Published |
20080314622 | Method Of Fabricating Board Having High Density Core Layer And Structure Thereof - Structure and method of making a board having plating though hole (PTH) core layer substrate and stacked multiple layers of blind vias. More stacking layers of blind vias than conventional methods can be achieved. The fabrication method of the board having high-density core layer includes the following: after the making of the PTH, the filling material filled inside the PTH of the core layer is partially removed until the PTH has reached an appropriate flattened depression using etching; then image transfer and pattern plating are performed to fill and to level the depression portion up to a desired thickness to form a copper pad (overplating) as the core layer substrate is forming a circuit layer; finally using electroless copper deposition and the pattern plating to make the product. | 12-25-2008 |
20100075495 | Method Of Selectively Plating Without Plating Lines - A method of selectively plating without plating lines is provided. The method employs a loading plate having a metalized temporary conductive layer. The loading plate and the temporary conductive layer are adapted for transmitting a plating current. A patterning photoresist layer is accorded for selectively and sequentially plating a separating metal layer, a plating protection layer, and a connection pad layer on to the temporary conductive layer. Then, the loading plate is further used for supplying current to form other circuit layers by a pressing lamination process. And when the plate process is completed or it is not need to plate, the loading plate and the temporary conductive layer can be removed, for further completing for example the solder mask process, and thus achieving the objective of plating without plating lines. | 03-25-2010 |
20100075497 | Non-Plating Line Plating Method Using Current Transmitted From Ball Side - A non-plating line (NPL) plating method is provided. The NPL plating method is featured in that at first it forms a circuit layer on a bump side only, and therefore a plating current can be transmitted via a plating metal layer on a ball side to the circuit layer (enclosed by an insulation layer, e.g., a solder resist or a photoresist) on the bump side, and thus forming a protection layer, e.g., plating gold, on the plating metal layer on the circuit layer and the ball side. In such a way, the plating gold is formed after the insulation layer, so that there won't be any plating gold existed beneath the insulation layer of the bump side (connected with dies). Hence, the insulation layer can be prevented from dropping off from the protection layer, i.e., the plating gold, and thus the reliability of the products can be improved. | 03-25-2010 |
20100170088 | Method Of Fabricating Board Having High Density Core Layer And Structure Thereof - Structure and method of making a board having plating though hole (PTH) core layer substrate and stacked multiple layers of blind vias. More stacking layers of blind vias than conventional methods can be achieved. The fabrication method of the board having high-density core layer includes the following: after the making of the PTH, the filling material filled inside the PTH of the core layer is partially removed until the PTH has reached an appropriate flattened depression using etching; then image transfer and pattern plating are performed to fill and to level the depression portion up to a desired thickness to form a copper pad (overplating) as the core layer substrate is forming a circuit layer; finally using electroless copper deposition and the pattern plating to make the product. | 07-08-2010 |
20100283145 | Stack structure with copper bumps - A stack structure with copper bumps on an integrated circuit board is disclosed. The stack structure includes a plurality of insulating layers and a plurality of conductive layers which are stacked alternately. The uppermost conductive layer has copper bumps as copper pillar pins for soldering the chip pins of an integrated circuit chip. Because the copper bumps have a certain height, the distance between the copper bumps and the chip pins is shortened, and therefore the solders needed for soldering may be reduced. Also, the shape of the solders is a long strap instead of spheroid due to the cohesion force between the copper bump surfaces and the solders so that the distance between the solders is scaled down and the gaps between the pins are reduced. Thus, the entire size of the integrated circuit board may also be miniatured. | 11-11-2010 |
20100307666 | Method For Fabricating Buried Capacitor Structure - A method for fabricating a buried capacitor structure includes: laminating a first dielectric layer having a capacitor embedded therein with a second dielectric layer to bury the capacitor therebetween; forming a first circuit pattern on a first metal layer of the first dielectric layer and a second circuit pattern on a second metal layer of the second dielectric layer; depositing a first insulating layer and a second insulating layer on the first metal layer and the second metal layer, respectively; electrically connecting a positive electrode end and a negative electrode end of the capacitor to the second metal layer by a positive through-hole and a negative through-hole, thereby manufacturing the buried capacitor structure. | 12-09-2010 |
20100309608 | Buried Capacitor Structure - A buried capacitor structure including a first conductive metal layer, a first dielectric film, a capacitor, a second dielectric film, and a second conductive metal layer, which are stacked in sequence, wherein the capacitor is buried between the first dielectric film and the second dielectric film, the first conductive metal layer is formed into a first circuit pattern, the second conductive metal layer is formed into a second circuit pattern. The capacitor is a planar comb-shaped capacitor with a positive electrode, a negative electrode, and a capacitor paste filled between the positive electrode and the negative electrode, wherein the positive electrode includes a positive electrode end and a plurality of positive comb branches, the negative electrode includes a negative electrode end and a plurality of negative comb branches, and the positive branches and the negative branches are parallel to and separated from each other. | 12-09-2010 |
20110048777 | Component-Embedded Printed Circuit Board - A component-embedded printed circuit board includes: a carrier plate having a metalized layer disposed thereon, an electronic component disposed on the metalized layer of the carrier plate, and a metal layer laminated onto the metalized layer having the electronic component disposed thereon by a dielectric film. The carrier plate is then removed to expose the metalized layer. At least one of the metal layer and the metalized layer is patterned to be a circuit layer. | 03-03-2011 |
20110083323 | Method For Fabricating An Interlayer Conducting Structure Of An Embedded Circuitry - A method for fabricating an interlayer conducting structure of an embedded circuitry is disclosed. In accordance with the method for fabricating an interlayer conducting structure of an embedded circuitry of the present invention, there is no laser conformal mask formed prior to laminating the first and second lamination plates. Instead, after the first and second lamination plates are laminated, a laser boring process is directly conducted to form a via hole. In such a way, even when there is an offset between the first and the second lamination plates in alignment, the risk of short circuit between different layers of lamination plates can be lowered without improving an interlayer offset value. | 04-14-2011 |