Patent application number | Description | Published |
20130224910 | METHOD FOR CHIP PACKAGE - Provided is a method for chip packaging, including the steps of: providing a semi-packaged wafer which has a cutting trail and a metal bonding pad of the chip; forming on the metal bonding pad a sub-ball metal electrode, using a selective formation process; forming a protective layer on the wafer in a region not including the sub-ball metal electrode, with the protective layer covering the cutting trail; forming a solder ball on the sub-ball metal electrode; dicing the wafer along the cutting trail. The present invention can prevent metal in the cutting trail from being affected during the production of the sub-ball metal electrode, and protect the lateral sides of a discrete chip after cutting. The process flow thereof is simple, and enhances the efficiency of the packaging as well as its yield. | 08-29-2013 |
20130280904 | METHOD FOR CHIP PACKAGING - Provided is a method for chip packaging, including the steps of: providing a semi-packaged wafer which has a cutting trail and a metal bonding pad of the chip; forming a first protective layer on the cutting trail; forming on the metal bonding pad a sub-ball metal electrode; forming a solder ball on the sub-ball metal electrode; dicing the wafer along the cutting trail. The first protective layer according to the present invention can prevent the metal in the cutting trail from being separated by electroplating, and protect the lateral sides of a discrete chip after cutting. The process flow thereof is simple, and enhances the efficiency of the packaging as well as its yield. | 10-24-2013 |
20130301228 | PACKAGING STRUCTURE - The present invention relates a packaging structure including: a carrier board and a cementing layer on the surface of the carrier board; chips and passive devices having functional side thereof attached to the cementing layer; and a sealing material layer for packaging and curing, the sealing material being formed on the carrier board on the side attached to the chips and the passive devices. The present invention integrates chips and passive devices and then packages the chips and the passive devices together, and is therefore a packaged product having not single-chip functionality but integrated-system functionality. The present invention is highly integrated, reduces interfering factors such as system-internal electric resistance and inductance, and accommodates growing demand for lighter, thinner, shorter, and smaller semiconductor packaging. | 11-14-2013 |
20130302947 | PACKAGING METHOD - The present invention relates to a packaging method including the steps: a cementing layer is formed on a carrier board; the functional sides of chips and passive devices are attached to the cementing layer; a sealing material layer is formed on the side of the carrier board to which the chips and the passive devices are attached, and packaging and curing are performed; and the carrier board and the cementing layer are removed. Compared to the prior art, the system-level fan-out wafer packaging method claimed by the present invention first integrates chips and passive devices and then packages the chips and the passive devices together, thereby forming a final packaged product having not single-chip functionality but integrated-system functionality. Compared to current system-level packaging, highly integrated wafer-level packaging reduces such interfering factors as system-internal electric resistance and inductance, and accommodates the growing demand for lighter, thinner, shorter, and smaller semiconductor packaging. | 11-14-2013 |
20130313699 | FAN-OUT HIGH-DENSITY PACKAGING METHODS AND STRUCTURES - A fan-out high-density packaging method includes providing a packaging substrate, forming a stripping film on the packaging substrate, and forming a first protection layer on the stripping film and pre-designed photolithography pattern openings on the first protection layer. The method also includes forming a metal redistribution layer on the surface of the first protection layer and in the photolithography pattern openings, forming a second protection layer on the first protection layer and partially exposing the metal redistribution layer, and forming at least one package layer on the second protection layer. Each of at least one package layer includes a straight mounting layer, a sealant layer, and a wiring layer formed in sequence, and the package layer connects the metal redistribution layer through the wiring layer. Further, the method includes forming at least one top-level package layer on top of the at least one package layer, removing the packaging substrate and the stripping film to expose the metal redistribution layer in the first protection layer, and planting metal solder balls on the exposed metal redistribution layer. | 11-28-2013 |
20130320533 | 3D SYSTEM-LEVEL PACKAGING METHODS AND STRUCTURES - A 3D system-level packaging method includes providing a packaging substrate having a first functional surface and a second surface with wiring arrangement within the packaging substrate and between the first functional surface and the second surface. The method also includes forming at least one flip package layer on the first functional surface of the packaging substrate and forming at least one wiring and package layer on the flip package layer. The flip package layer is formed by subsequently forming a flip mounting layer, an underfill, a sealant layer, and a wiring layer; and the wiring and package layer is formed by subsequently forming a straight mounting layer, a sealant layer, and a wiring layer. Further, the method includes planting connection balls on the second functional surface of the packaging substrate. | 12-05-2013 |
20130320534 | SYSTEM-LEVEL PACKAGING METHODS AND STRUCTURES - A system-level packaging method includes providing a packaging substrate having a first functional surface and a second surface with wiring arrangement within the packaging substrate and between the first functional surface and the second surface. The method also includes forming at least two package layers on the first functional surface of the packaging substrate, wherein each package layer is formed by subsequently forming a mounting layer, a sealant layer, and a wiring layer. Further, the method includes forming a top sealant layer and planting connection balls on the second functional surface of the packaging substrate. | 12-05-2013 |
20130320535 | THREE-DIMENSIONAL SYSTEM-LEVEL PACKAGING METHODS AND STRUCTURES - A 3D system-level packaging method includes providing a packaging substrate, forming a glue layer on the substrate, and attaching a first chip layer at an opposite side of a functional surface of the first chip layer on the packaging substrate through the glue layer. The method also includes forming a first sealant layer on the packaging substrate at a same side attached with the first chip layer and exposing bonding pads of the first chip layer. The method also includes forming first vias in the first sealant layer, forming first vertical metal wiring in the first vias, and forming a first horizontal wiring layer on the sealant layer interconnecting the first chip layer and the first vertical metal wiring. Further, the method includes forming a plurality of package layers on the first sealant layer, and each of the plurality of package layers includes a chip layer, a sealant layer covering the chip layer, and vertical metal wiring and a horizontal wiring layer interconnecting adjacent package layers. | 12-05-2013 |