Patent application number | Description | Published |
20100072619 | WIRE BONDING STRUCTURE AND MANUFACTURING METHOD THEREOF - The present invention relates to a wire bonding structure, and more particularly to a manufacturing method for said wire bonding structure. The wire bonding structure comprises a die that connects with a lead via a bonding wire. At least one bond pad is positioned on an active surface of the die, and a gold bump is provided on the bond pad; furthermore, a ball bond can be positioned upon the gold bump. The bond pad and the gold bump can separate the ball bond and the die, which can avoid damaging the die during the bonding process. | 03-25-2010 |
20100102429 | FLIP-CHIP PACKAGE STRUCTURE WITH BLOCK BUMPS AND THE WEDGE BONDING METHOD THEREOF - A flip-chip block structure with block bumps comprises a die, a substrate, a first block bump, and a second block bump. The die comprises an active side and a backside, a first die pad and a second die pad are disposed on the active surface, and an electrode layer is disposed on the backside. The first die pad and the second die pad are connected to the pattern side of the substrate via the first block bump and the second block bump respectively. Besides, the first block bump and the second block bump are formed by a wedge bonding method, therefore, the block bumps are more easily formed into larger sizes, which enhance electrical performance and thermal dissipation performance of the flip-chip structure due to a lower contact resistance and a larger contact area between the die and the substrate. | 04-29-2010 |
20100123243 | FLIP-CHIP CHIP-SCALE PACKAGE STRUCTURE - The present invention relates to a flip-chip chip-scale package structure, and more particularly to a flip-chip chip-scale package structure with high thermal and electrical performance. The flip-chip chip-scale package structure comprising: a die, a substrate, and a metal ribbon. The die comprises a back-side metal and a plurality of bond pads. The die is bonded to the substrate by a plurality of bumps. The metal ribbon is bonded to the back-side metal by way of metal diffusion bonding. By using the package structure of the present invention, it provides high thermal and electrical performance for semiconductor devices. | 05-20-2010 |
20110031302 | FLIP-CHIP PACKAGE STRUCTURE WITH BLOCK BUMPS AND THE WEDGE BONDING METHOD THEREOF - A flip-chip block structure with block bumps comprises a die, a substrate, a first block bump, and a second block bump. The die comprises an active side and a backside, a first die pad and a second die pad are disposed on the active surface, and an electrode layer is disposed on the backside. The first die pad and the second die pad are connected to the pattern side of the substrate via the first block bump and the second block bump respectively. Besides, the first block bump and the second block bump are formed by a wedge bonding method, therefore, the block bumps are more easily formed into larger sizes, which enhance electrical performance and thermal dissipation performance of the flip-chip structure due to a lower contact resistance and a larger contact area between the die and the substrate. | 02-10-2011 |
20110049692 | CONNECTION DEVICE BEWTEEN TRANSISTOR AND LEAD FRAME - A connection device includes a transistor, a lead frame, a first connection member and a second connection member. The signal is electronically connected between the transistor and the lead frame by the first and second connection members. The second connection member is located above the first connection member so as to increase the communication area for the signals and reduce the resistance between the transistor and the lead frame. | 03-03-2011 |
20120103668 | Chip Package - A chip package includes a conductive connection block connected to the conductive layer coated on the base and the two ends of the gold wire are respectively connected to the chip and the connection block. The connection block prevents lamination during packaging and ensures that the gold wire is firmly connected to the chip and the connection block. | 05-03-2012 |
20130070424 | Molded can package - A molded can package includes a circuit board, a MEMS die and a can. The MEMS die is connected to the circuit board by a conductive wire. The can is mounted to the circuit board so as to isolate the MEMS die to form a MEMS die unit. A compound mold packs the MEMS die unit to prevent the MEMS die from being interfered and physically damage by electro-magnetic radiation and light so as to simplify the manufacturing processes and increase the production and reduce the cost. | 03-21-2013 |
20130070427 | Pre molded can package - A pre molded can package includes a circuit board, a MEMS die, a pre mold cavity and a can. The MEMS dies are connected to the circuit board by conductive wires and the MEMS dies are separated by the pre mold cavities. A cap is connected to the top of each pre mold cavity to form MEMS die units. The MEMS die units are packed to as to reduce their volume. The manufacturing cost is reduced and the processes are simplified. The MEMS die units are able to be applied to the smaller and fine electronic devices. | 03-21-2013 |