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Hsiang-Ming
Hsiang-Ming Huang US
| Patent application number | Description | Published |
|---|---|---|
| 20090236741 | CONDUCTIVE STRUCTURE OF A CHIP AND METHOD FOR MANUFACTURING THE SAME - A conductive structure of a chip and a method for manufacturing the conductive structure are provided. An under bump metal (UBM) is formed on the redistribution layer (RDL) by performing an electroless plating process. Subsequently, the solder bump is formed on the under bump metal for electrical connection. Thus, the photomask can be economized and the cost of manufacturing can be reduced. | 09-24-2009 |
| 20090283905 | CONDUCTIVE STRUCTURE OF A CHIP - A conductive structure of a chip is provided. The conductive structure comprises a ground layer, a dielectric layer, a redistribution layer, an under bump metal and a solder bump. The ground layer electrically connects to the ground pad of the chip, while the dielectric layer overlays the ground layer. Thus, the conductive layer can result in impedance matching, and the packaged chip is adapted to transmit a high frequency signal. | 11-19-2009 |
Hsiang-Ming Huang, Science-Based Industrial Park TW
| Patent application number | Description | Published |
|---|---|---|
| 20110291267 | Semiconductor wafer structure and multi-chip stack structure - A semiconductor wafer structure comprises a first surface and a second surface opposite to the first surface, a plurality of chip areas formed on the first surface, a plurality of through-silicon holes formed in each of the plurality of chip areas connecting the first surface and the second surface, and a through-silicon-via (TSV) electrode structure formed in each through-silicon hole. Each through-silicon-via electrode structure comprises a dielectric layer formed on the inner wall of the through-silicon hole, a barrier layer formed on the inner wall of the dielectric layer and defining a vacancy therein, a filling metal layer filled into the vacancy, a first end of the filling metal layer being lower than the first surface forming a recess, and a soft metal cap connecting to and overlaying the first end of the filling metal layer, wherein a portion of the soft metal cap is formed in the recess and the soft metal cap protrudes out of the first surface. Hence, the reliability of multi-chip stack package structure can be enhanced with the application of these soft metal caps. | 12-01-2011 |
Hsiang-Ming Huang, Hsinchu City TW
| Patent application number | Description | Published |
|---|---|---|
| 20110309495 | Multi-chip stack package structure - A multi-chip stack package structure comprises a substrate, which has a chip placement area defined on its upper surface and a plurality of contacts disposed outside the chip placement area; a first chip is disposed in the chip placement area with the rear surface, a plurality of first pads being disposed on the active surface and a plurality of first bumps each being formed on one of the first pads; a plurality of metal wires connect the first bumps to the contacts; a second chip with a plurality of second pads being disposed on the active surface and a plurality of second bumps each being formed on one of the second pads, the second chip being mounted to the first chip with its active surface facing the active surface of the first chip, wherein the second bumps correspondingly connect the metal wires and the first bumps respectively. | 12-22-2011 |
| 20110309496 | Multi-chip stack package structure - A multi-chip stack package structure comprises a substrate, which has a chip placement area defined on its upper surface and a plurality of contacts disposed outside the chip placement area; a first chip is disposed in the chip placement area with the rear surface, a plurality of first pads being disposed on the active surface and a plurality of first bumps each being formed on one of the first pads; a plurality of metal wires connect the first bumps to the contacts; a second chip with a plurality of second pads being disposed on the active surface and a plurality of second bumps each being formed on one of the second pads, the second chip being mounted to the first chip with its active surface facing the active surface of the first chip, wherein the second bumps correspondingly connect the metal wires and the first bumps respectively. | 12-22-2011 |
| 20110309497 | Multi-chip stack package structure - A multi-chip stack package structure comprises a substrate, which has a chip placement area defined on its upper surface and a plurality of contacts disposed outside the chip placement area; a first chip is disposed in the chip placement area with the rear surface, a plurality of first pads being disposed on the active surface and a plurality of first bumps each being formed on one of the first pads; a plurality of metal wires connect the first bumps to the contacts; a second chip with a plurality of second pads being disposed on the active surface and a plurality of second bumps each being formed on one of the second pads, the second chip being mounted to the first chip with its active surface facing the active surface of the first chip, wherein the second bumps correspondingly connect the metal wires and the first bumps respectively. | 12-22-2011 |