Patent application number | Description | Published |
20080258279 | LEADFRAME FOR LEADLESS PACKAGE, STRUCTURE AND MANUFACTURING METHOD USING THE SAME - A leadframe employed by a leadless package comprises a plurality of package units and an adhesive tape. Each of the package units has a die pad with a plurality of openings and a plurality of pins disposed in the plurality of openings. The adhesive tape is adhered to the surfaces of the plurality of package units and fixes the die pad and the plurality of pins. | 10-23-2008 |
20080315417 | CHIP PACKAGE - A chip package includes a patterned conductive layer, a first solder resist layer, a second solder resist layer, a chip, bonding wires and a molding compound. The patterned conductive layer has a first surface and a second surface opposite to each other. The first solder resist layer is disposed on the first surface. The second solder resist layer is disposed on the second surface, wherein a part of the second surface is exposed by the second solder resist layer. The chip is disposed on the first solder resist layer, wherein the first solder resist layer is disposed between the patterned conductive layer and the chip. The bonding wires are electrically connected to the chip and the patterned conductive layer exposed by the second solder resist layer. The molding compound encapsulates the pattern conductive layer, the first solder resist layer, the second solder resist layer, the chip and the bonding wires. | 12-25-2008 |
20080315439 | QUAD FLAT NON-LEADED CHIP PACKAGE - A Quad Flat Non-leaded (QFN) chip package including a patterned conductive layer, a first solder resist layer, a chip, a plurality of bonding wires and a molding compound is provided. The patterned conductive layer has a first surface and a second surface opposite to each other. The first solder resist layer is disposed on the first surface, wherein a part of the first surface is exposed by the first solder resist layer. The chip is disposed on the first solder resist layer, wherein the first solder resist layer is between the patterned conductive layer and the chip. The bonding wires are electrically connected to the chip and the patterned conductive layer exposed by the first solder resist layer. The molding compound encapsulates the pattern conductive layer, the first solder resist layer, the chip and the bonding wires. | 12-25-2008 |
20090064494 | MANUFACTURING PROCESS FOR A QUAD FLAT NON-LEADED CHIP PACKAGE STRUCTURE - A manufacturing process for a Quad Flat Non-leaded (QFN) chip package structure is provided. First, a patterned conductive layer and a patterned solder resist layer on the patterned conductive layer are provided. A plurality of chips are bonded onto the patterned solder resist layer such that the patterned solder resist layer are between the chips and the patterned conductive layer. The chips are electrically connected to the patterned conductive layer by a plurality of bonding wires, wherein the chips and the bonding wires are at the same side of the patterned conductive layer. At least one molding compound is formed to encapsulate the patterned conductive layer, the patterned solder resist layer, the chips and the bonding wires. Then, the molding compound, the patterned conductive layer and the patterned solder resist layer are separated. | 03-12-2009 |
20090068789 | MANUFACTURING PROCESS FOR A CHIP PACKAGE STRUCTURE - A manufacturing process for a chip package structure is provided. First, a patterned conductive layer and a patterned solder resist layer on the patterned conductive layer are provided. A plurality of chips are bonded onto the patterned conductive layer such that the chips and the patterned solder resist layer are disposed at two opposite surfaces of the patterned conductive layer. The chips are electrically connected to the patterned conductive layer by a plurality of bonding wires, wherein the chips and the bonding wires are at the same side of the patterned conductive layer. A molding compound is formed to encapsulate the patterned conductive layer, the chips and the bonding wires. Then, the molding compound, the patterned conductive layer and the patterned solder resist layer are separated. | 03-12-2009 |
20090068792 | MANUFACTURING PROCESS FOR A CHIP PACKAGE STRUCTURE - A manufacturing process for a chip package structure is provided. First, a patterned conductive layer having a plurality of first openings and a patterned solder resist layer on the patterned conductive layer are provided. A plurality of chips are bonded onto the patterned conductive layer such that the chips and the patterned solder resist layer are disposed at two opposite surfaces of the patterned conductive layer. The chips are electrically connected to the patterned conductive layer by a plurality of bonding wires passing through the first openings of the patterned conductive layer. At least one molding compound is formed to encapsulate the patterned conductive layer, the patterned solder resist layer, the chips and the bonding wires. Then, the molding compound, the patterned conductive layer and the patterned solder resist layer are separated. | 03-12-2009 |
20090068793 | MANUFACTURING PROCESS FOR A CHIP PACKAGE STRUCTURE - A manufacturing process for a chip package structure is provided. First, a patterned conductive layer having a plurality of first openings and a first patterned solder resist layer on the patterned conductive layer are provided. A second patterned solder resist layer is formed on the patterned conductive layer such that the first patterned solder resist layer and the second patterned solder resist layer are disposed at two opposite surfaces of the patterned conductive layer. Chips are bonded onto the first patterned solder resist layer such that the first patterned solder resist layer is between the chips and the patterned conductive layer. The chips are electrically connected to the patterned conductive layer by a plurality of bonding wires passing through the first openings. At least one molding compound is formed and the molding compound, the first patterned solder resist layer and the second patterned solder resist layer are separated. | 03-12-2009 |
20090068794 | MANUFACTURING PROCESS FOR A QUAD FLAT NON-LEADED CHIP PACKAGE STRUCTURE - A manufacturing process for a Quad Flat Non-leaded (QFN) chip package structure is provided. First, a conductive layer having recesses and a patterned solder resist layer on the conductive layer are provided, wherein the patterned solder resist layer covers the recesses of the conductive layer. A part of the conductive layer uncovered by the patterned solder resist layer is removed so as to form a patterned conductive layer. Chips are bonded onto the patterned conductive layer such that the patterned solder resist layer and the chips are at the same side of the patterned conductive layer. The chips are electrically connected to the patterned conductive layer by bonding wires, wherein the chips and the bonding wires are at the same side of the patterned conductive layer. At least one molding compound is formed and the molding compound and the patterned conductive layer are separated. | 03-12-2009 |
20090068797 | MANUFACTURING PROCESS FOR A QUAD FLAT NON-LEADED CHIP PACKAGE STRUCTURE - A manufacturing process for a Quad Flat Non-leaded (QFN) chip package structure is provided. First, a conductive layer having a plurality of recesses and a patterned solder resist layer on the conductive layer are provided, wherein the patterned solder resist layer covers the recesses of the conductive layer. A plurality of chips are bonded onto the patterned solder resist layer such that the patterned solder resist layer is between the chips and the conductive layer. The chips are electrically connected to the conductive layer by a plurality of bonding wires. At least one molding compound is formed to encapsulate the conductive layer, the patterned solder resist layer, the chips and the bonding wires. A part of the conductive layer uncovered by the patterned solder resist layer is removed so as to form a patterned conductive layer. Then, the molding compound and the patterned conductive layer are separated. | 03-12-2009 |
20090068799 | MANUFACTURING PROCESS FOR A QUAD FLAT NON-LEADED CHIP PACKAGE STRUCTURE - A manufacturing process for a Quad Flat Non-leaded (QFN) chip package structure is provided. First, a conductive layer having a plurality of recesses and a patterned solder resist layer on the conductive layer are provided, wherein the patterned solder resist layer covers the recesses of the conductive layer. A plurality of chips are bonded onto the patterned solder resist layer such that the patterned solder resist layer is between the chips and the conductive layer. The chips are electrically connected to the conductive layer by a plurality of bonding wires. At least one molding compound is formed to encapsulate the conductive layer, the patterned solder resist layer, the chips and the bonding wires. A part of the conductive layer exposed by the patterned solder resist layer is removed so as to form a patterned conductive layer. Then, the molding compound and the patterned conductive layer are separated. | 03-12-2009 |
20090108419 | LEADFRAME FOR LEADLESS PACKAGE - A leadframe for a leadless package comprises a plurality of package areas, a plurality of slots, a plurality of connection portions, a plurality of openings, and a tape (film). Each package area comprises a plurality of package units, each of which comprises a die pad and a plurality of leads surrounding the die pad. The plurality of slots are disposed around each of the package units. The plurality of connection portions connect the plurality of package areas. The plurality of openings are disposed on the plurality of connection portions, and are aligned with some of the plurality of slots. The tape (film) fixes the plurality of package areas, the plurality of connection portions, the plurality of die pads, and the plurality of leads in place. | 04-30-2009 |
20090108424 | LEADFRAME FOR LEADLESS PACKAGE - A leadframe for a leadless package comprises a plurality of package areas, a plurality of first slots, a plurality of first side rails, a plurality of second side rails, and tape. Each of the package areas comprises a plurality of package units, each of which comprises a die pad and a plurality of leads surrounding the die pad. The plurality of first side rails and the plurality of second side rails are connected and surround the plurality of the package areas. The tape fixes the plurality of package areas, the plurality of first side rails, the plurality of second side rails, the die pads, and the plurality of leads in place. | 04-30-2009 |
20090127684 | LEADFRAME FOR LEADLESS PACKAGE - A leadframe for a leadless package comprises a plurality of package areas, a plurality of slots, an insulating layer, and a tape (film). Each package area comprises a plurality of package units, each of which comprises a die pad and a plurality of leads surrounding the die pad. The plurality of slots are disposed around each of the package units. The insulating layer is filled in a plurality of slots between the package areas. The tape (film) fixes the plurality of package areas, the plurality of connection portions, the plurality of die pads, and the plurality of leads in place. | 05-21-2009 |
20090189296 | FLIP CHIP QUAD FLAT NON-LEADED PACKAGE STRUCTURE AND MANUFACTURING METHOD THEREOF AND CHIP PACKAGE STRUCTURE - A manufacturing method for a Flip Chip Quad Flat Non-leaded package structure is provided. A lead frame having a plurality of leads is provided at first in the manufacturing method. A dielectric layer is formed on the lead frame and exposes a top surface and a bottom surface of the leads. A redistribution layer including a plurality of pads and a plurality of conductive lines connected the pads and the top surface of the leads is formed on the dielectric layer. A solder resist layer is formed to cover the redistribution layer, the dielectric layer and the leads, and expose the surface of the pads. An adhesive layer is formed on the solder resist layer. A chip having a plurality of bumps is provided. The chip is adhered on the solder resist layer with the adhesive layer and each bump is electrically connected with one of the pads. | 07-30-2009 |
20090321918 | CHIP PACKAGE - A chip package includes a thermal enhanced plate, contacts around the thermal enhanced plate and electrically insulated from the thermal enhanced plate, a film-like circuit layer disposed on the contacts and the thermal enhanced plate, a conductive adhesive layer, a first molding, and at least one chip disposed on the film-like circuit layer. The conductive adhesive layer is disposed between the contacts and the film-like circuit layer electrically connected to the contacts through the conductive adhesive layer. The chip has a back surface, an active surface and many bumps disposed thereon, and the chip is electrically connected to the film-like circuit layer via the bumps. The first molding at least encapsulates a portion of the thermal enhanced plate, the conductive adhesive layer, parts of the contacts and at least a portion of the film-like circuit layer. Therefore, heat dissipation efficiency of the light emitting chip package is improved. | 12-31-2009 |
20100120201 | METHOD OF FABRICATING QUAD FLAT NON-LEADED PACKAGE - A method of fabricating a quad flat non-leaded package includes first forming a patterned conductive layer on a sacrificial layer. The patterned conductive layer includes a number of lead sets. A number of chips are attached to the sacrificial layer. Each of the chips is surrounded by one of the lead sets. Each of the chips is electrically connected to one of the lead sets, and a molding compound is formed on the sacrificial layer to cover the patterned conductive layer and the chips. The molding compound and the patterned conductive layer are then cut and singulated, and the sacrificial layer is pre-cut to form a number of recesses on the sacrificial layer. After the molding compound and the patterned conductive layer are cut and singulated and the sacrificial layer is pre-cut, the sacrificial layer is removed. | 05-13-2010 |
20110133322 | LEADFRAME FOR LEADLESS PACKAGE, STRUCTURE AND MANUFACTURING METHOD USING THE SAME - A leadframe employed by a leadless package comprises a plurality of package units and an adhesive tape. Each of the package units has a die pad with a plurality of openings and a plurality of pins disposed in the plurality of openings. The adhesive tape is adhered to the surfaces of the plurality of package units and fixes the die pad and the plurality of pins. | 06-09-2011 |
20110136299 | LEADFRAME FOR LEADLESS PACKAGE, STRUCTURE AND MANUFACTURING METHOD USING THE SAME - A leadframe employed by a leadless package comprises a plurality of package units and an adhesive tape. Each of the package units has a die pad with a plurality of openings and a plurality of pins disposed in the plurality of openings. The adhesive tape is adhered to the surfaces of the plurality of package units and fixes the die pad and the plurality of pins. | 06-09-2011 |