Patent application number | Description | Published |
20090051031 | Package structure and manufacturing method thereof - A package structure and a manufacturing method thereof are provided. The package structure comprises a carrier, a chip, at least one wire, a molding compound, at least one first solder ball and at least one second solder ball. The carrier has a chip chamber passing through the first surface and the second surface. The chip is disposed in the chip chamber, and an active surface of the chip is coplanar with the first surface. During packaging, the first surface and the active surface are both tightly pasted on a carrier tape to facilitate the subsequent wire bonding and sealing process. Afterwards, the carrier tape is removed for exposing the active surface and the first surface, and the active surface of the chip is coplanar with the first surface of the carrier, hence simplifying the packaging process and reducing the thickness of the package structure. | 02-26-2009 |
20090051048 | Package structure and manufacturing method thereof - A package structure and a manufacturing method thereof are provided. The package structure includes a carrier, a chip-bonding structure and a chip. The chip-bonding structure is formed on a first surface of the carrier. The chip-bonding structure includes a cavity, a dam, several via holes and several solder bumps. The solder bumps are received in the via holes and are correspond to the first connecting pads located on the carrier. The chip is embedded in the cavity of the chip-bonding structure. An active surface of the chip is tightly pasted on the first surface of the chip-bonding structure, and the first solder pads form electrical contact with the corresponding solder bumps. The chip of the package structure is precisely disposed on the carrier, not only simplifying the manufacturing process but also forming stable electrical connection between the chip and the carrier of the package structure. | 02-26-2009 |
20090096077 | Tenon-and-mortise packaging structure - A tenon-and-mortise packaging structure including a carrier and a chip is provided. The carrier has a top surface and a lower surface opposite to the top surface. The top surface forms at least one tenon projection, and the lower surface forms a mortise slot corresponding to the tenon projection in shape, size, and position, so that two carriers can be stacked on and jointed to each other by coupling the tenon projection to the corresponding mortise slot. The tenon projection and the mortise slot have conduction portions, respectively. When the tenon projection and the mortise slot are engaged with each other, the conduction portions are electrically connected with each other. At least one chip is embedded in the carrier. The chip has an active surface and a back side respectively and electrically connected with the top and the lower surfaces of the carrier. | 04-16-2009 |
20090175312 | BONDING STRENGTH MEASURING DEVICE - A bonding strength measuring device for measuring the bonding strength between a substrate and a molding compound disposed on the substrate is provided. The measuring device includes a heating platform, a heating slide plate, and a fixing bracket. The heating platform has a first heating area and a first replaceable fixture. The substrate is disposed on the first heating area, and the first replaceable fixture is used to fix the substrate and has an opening exposing the molding compound. The heating slide plate has a second heating area and a second replaceable fixture. The second heating area is used to heat the molding compound, and the second replaceable fixture has a cavity for accommodating the molding compound. The fixing bracket is used to fix the heating slide plate above the heating platform. | 07-09-2009 |
20090230564 | CHIP STRUCTURE AND STACKED CHIP PACKAGE AS WELL AS METHOD FOR MANUFACTURING CHIP STRUCTURES - A chip structure according to the present invention is provided. A plurality of pedestals extends from the back surface of the chip structure. Each of the pedestals is located at a position away from the edge of the back surface for a non-zero distance so that the pedestals of an upper chip structure will not damage the bonding pads positioned on the edge of the active surface of a lower chip structure when the upper chip structure is stacked on the active surface of the lower chip structure with the pedestals. | 09-17-2009 |
20100200974 | SEMICONDUCTOR PACKAGE STRUCTURE USING THE SAME - A semiconductor package structure using the same is provided. The semiconductor package structure includes a first semiconductor element, a second semiconductor element, a binding wire and a molding compound. The first semiconductor element includes a semiconductor die and a pad. The pad is disposed above the semiconductor die and includes a metal base, a hard metal layer disposed above the metal base and an anti-oxidant metal layer disposed above the hard metal layer. The hardness of the hard metal layer is larger than that of the metal base. The activity of the anti-oxidant metal layer is lower than that of the hard metal layer. The first semiconductor element is disposed above the second semiconductor element. The bonding wire is connected to the pad and the second semiconductor element. The molding compound seals the first semiconductor element and the bonding wire and covers the second semiconductor element. | 08-12-2010 |
20110156243 | SEMICONDUCTOR PACKAGE - A semiconductor package is provided. The semiconductor package includes an organic substrate, a stiffness layer, and a chip subassembly. The stiffness layer is formed on the organic substrate. The chip subassembly is disposed on the stiffness layer. The chip subassembly includes at least a first chip, a second chip, and a third chip. The second chip is disposed between the first chip and the third chip in a stacked orientation. The first chip, the second chip, and the third chip have the function of proximity communication. | 06-30-2011 |
20110156739 | TEST KIT FOR TESTING A CHIP SUBASSEMBLY AND A TESTING METHOD BY USING THE SAME - A test kit for testing a chip subassembly and a testing method by using the same is provided. The chip subassembly includes at least two stacked chips each having a number of electric contacts is provided. The test kit includes a test socket and a test plate. The test socket is configured to electrically engage the electric contacts on a first side of the chip subassembly. The test plate has at least a number of first probes configured for electrically engaging the electric contacts on a second side of the chip subassembly. At least one of the test socket and the test plate has a number of second probes for electrically connecting the test socket and the test plate. | 06-30-2011 |
20110278739 | Semiconductor Package - The present invention relates to a semiconductor package. The semiconductor package includes a substrate, a first chip and an interposer. The first chip is mechanically and electrically connected to the substrate. Some signal pads of the interposer are capacitively coupled to some signal pads of the first chip, so as to provide proximity communication between the first chip and the interposer. Whereby, the capacitively coupled signal pads can be made in fine pitch, and therefore the size of the semiconductor package is reduced and the density of the signal pads is increased. | 11-17-2011 |
20110291690 | Apparatus and Method for Testing Non-Contact Pads of a Semiconductor Device to be Tested - The present invention relates to an apparatus and a method for testing non-contact pads of a semiconductor device to be tested. The apparatus includes an insulating body, at least one testing module and a plurality of probes. The insulating body includes an accommodating cavity, a lower opening and at least one side opening. The side opening communicates with the accommodating cavity and the lower opening. The testing module is disposed in the side opening, and each testing module includes a circuit board and an active chip. The active chip is disposed on to and electrically connected to the circuit board. The active chip has a plurality of testing pads exposed to the accommodating cavity. The probes are disposed in the lower opening. Whereby, the non-contact pads of the semiconductor device to be tested face but not in physically contact with the testing pads of the active chip, so as to test the proximity communication between the non-contact pads of the semiconductor device and the testing pads of the active chip. | 12-01-2011 |
20110298139 | Semiconductor Package - The present invention relates to a semiconductor package. The semiconductor package includes a substrate, a first chip and a second chip. The substrate has a first surface, a second surface and at least one through hole. The first chip is disposed adjacent to the first surface of the substrate. The first chip includes a first active surface and a plurality of first signal pads. Part of the first active surface is exposed to the through hole. The position of the first signal pads corresponds to the through hole. The second chip is disposed adjacent to the second surface. The second chip includes a second active surface and a plurality of second signal pads. Part of the second active surface is exposed to the through hole. The position of the second signal pads corresponds to the through hole, and the second signal pads are capacitively coupled to the first signal pads of the first chip, so as to provide proximity communication between the first chip and the second chip. Whereby, the strength of the first chip and the second chip is increased after being mounted to the substrate, so the yield of the semiconductor package is increased. | 12-08-2011 |
20110309516 | SEMICONDUCTOR PACKAGE AND METHOD FOR MAKING THE SAME - The present invention relates to a semiconductor package and a method for making the same. The semiconductor package includes a first chip and a second chip. The first chip comprises a first active surface, at least one first non-top metal layer and a plurality of first signal coupling pads. The first non-top metal layer is disposed adjacent to and spaced apart from the first active surface by a second distance. The first signal coupling pads are disposed on the first non-top metal layer. The second chip is electrically connected to the first chip. The second chip comprises a second active surface, at least one second non-top metal layer and a plurality of third signal coupling pads. The second active surface faces the first active surface of the first chip. The second non-top metal layer is disposed adjacent to and spaced apart from the second active surface by a fourth distance. The third signal coupling pads are disposed on the second non-top metal layer and capacitively coupled to the first signal coupling pads of the first chip, so as to provide proximity communication between the first chip and the second chip. Whereby, the gap variation between the first signal coupling pads of the first chip and the third signal coupling pads of the second chip is under stringent control of the second distance and the fourth distance. Therefore, the mass-production yield of the semiconductor package is increased. | 12-22-2011 |
20120091575 | Semiconductor Package And Method For Making The Same - The present invention relates to a semiconductor package and a method for making the same. The semiconductor package includes a substrate, at least one first chip, a dielectric layer and at least one second chip. The first chip is attached and electrically connected to the substrate. The first chip includes a first active surface and a plurality of first signal coupling pads. The first signal coupling pads are disposed adjacent to the first active surface. The dielectric layer is disposed on the first active surface. The second chip is attached and electrically connected to the substrate by metal bumps. The second chip includes a second active surface and a plurality of second signal coupling pads. The second active surface contacts the dielectric layer. The second signal coupling pads are disposed adjacent to the second active surface, and capacitively coupled to the first signal coupling pads of the first chip, so as to provide proximity communication between the first chip and the second chip. Whereby, the gap between the first signal coupling pads of the first chip and the second signal coupling pads of the second chip is controlled by the thickness of the dielectric layer. Therefore, the mass-production yield of the semiconductor package is increased. | 04-19-2012 |
Patent application number | Description | Published |
20110227212 | SEMICONDUCTOR DEVICE PACKAGE AND METHOD OF FABRICATING THE SAME - A semiconductor device package and a method of fabricating the same are disclosed. The semiconductor device package includes a first substrate, a second substrate, two active chips, a bridge chip and a connection structure. The first substrate has a first surface facing a second surface of the second substrate. The active chips are disposed on and electrically connected to the first surface, and spaced apart from each other by an interval, wherein the active chips respectively have a first active surface. The bridge chip is mechanically and electrically connected to the second surface, and has a second active surface partially overlapped with the first active surfaces of the active chips, such that the bridge chip is used for providing a proximity communication between the active chips. The connection structure is disposed between the first surface and the second surface for combining the first substrate and the second substrate. | 09-22-2011 |
20110233749 | SEMICONDUCTOR DEVICE PACKAGE AND METHOD OF FABRICATING THE SAME - A semiconductor device package and a method of fabricating the same are disclosed. The semiconductor device package includes a substrate, a first chip, a jumper chip, a plurality of first bonding wires and a plurality of second bonding wires. The substrate has a plurality of contact pads. The first chip is disposed and electrically connected to the substrate via the first bonding wires. The jumper chip is disposed on the first chip and has a plurality of metal pads. Each of the metal pads is electrically connected to two contact pads of the substrate via two second bonding wires, respectively. | 09-29-2011 |
20110233764 | SEMICONDUCTOR DEVICE PACKAGE AND METHOD OF FABRICATING THE SAME - A semiconductor device package and a method of fabricating the same are disclosed. The semiconductor device package includes a substrate, a buffer structure, two active chips and a bridge chip. The substrate has a cavity, a first surface and a second surface opposite to the first surface. The cavity is extended from the first surface toward the second surface, and the buffer structure is disposed in the cavity. The active chips are mechanically disposed on and electrically connected to the first surface and around the cavity, wherein the active chips both have a first active surface. The bridge chip is disposed in the cavity and above the buffer structure, wherein the bridge chip has a second active surface, the second active surface faces the first active surfaces and is partially overlapped with the first active surfaces, the bridge chip is used for providing a proximity communication between the active chips. | 09-29-2011 |