Patent application number | Description | Published |
20120208129 | PROCESS FOR FORMING AN ANTI-OXIDANT METAL LAYER ON AN ELECTRONIC DEVICE - A process for forming an anti-oxidant metal layer on an electronic device comprises the steps of providing a substrate; forming a conductive metal layer on the substrate; forming a first photoresist layer on the conductive metal layer; patterning the first photoresist layer to form apertures and first grooves; forming a connecting member having a top surface and a lateral surface in the aperture and the first groove; removing the first photoresist layer to reveal the top surface and the lateral surface; forming a second photoresist layer on the conductive metal layer; patterning the second photoresist layer to form apertures and second grooves; forming an anti-oxidant metal layer in aperture and second groove, the anti-oxidant metal layer covers the top surface and the lateral surface of the connecting member; and removing the second photoresist layer to reveal the anti-oxidant metal layer and the conductive metal layer. | 08-16-2012 |
20120211257 | PYRAMID BUMP STRUCTURE - A pyramid bump structure for electrically coupling to a bond pad on a carrier comprises a conductive block disposed at the bond pad and an oblique pyramid insulation layer covered at one side of the conductive block. The oblique pyramid insulation layer comprises a bottom portion and a top portion, and outer diameter of the oblique pyramid insulation layer is tapered from the bottom portion to the top portion. When the carrier is connected with a substrate and an anisotropic conductive film disposed at the substrate, the pyramid bump structure may rapidly embed into the anisotropic conductive film to raise the flow rate of the anisotropic conductive film. Further, a short phenomenon between adjacent bumps can be avoided to raise the yield rate of package process. | 08-23-2012 |
20130181346 | BUMPING PROCESS AND STRUCTURE THEREOF - A bumping process includes providing a silicon substrate, forming a titanium-containing metal layer on the silicon substrate, wherein the titanium-containing metal layer comprises a plurality of first areas and a plurality of second areas, forming a photoresist layer on the titanium-containing metal layer, patterning the photoresist layer to form a plurality of opening slots, forming a plurality of bottom coverage layers at the opening slots, proceeding a heat procedure, forming a plurality of external coverage layers to make each of the external coverage layers connect with each of the bottom coverage layers, wherein said external coverage layer and said bottom coverage layer form a wrap layer and completely surround the copper bump, forming a plurality of connective layers on the external coverage layers, removing the photoresist layer, removing the second areas and enabling each of the first areas to form an under bump metallurgy layer. | 07-18-2013 |
20130193570 | BUMPING PROCESS AND STRUCTURE THEREOF - A bumping process includes providing a silicon substrate; forming a titanium-containing metal layer on silicon substrate, the titanium-containing metal layer comprises a plurality of first areas and a plurality of second areas; forming a first photoresist layer on titanium-containing metal layer; patterning the first photoresist layer to form a plurality of first opening slots; forming a plurality of copper bumps within first opening slots, said copper bump comprises a first top surface and a first ring surface; removing the first photoresist layer; forming a second photoresist layer on titanium-containing metal layer; patterning the second photoresist layer to form a plurality of second opening slots; forming a plurality of bump isolation layers at spaces, the first top surfaces and the first ring surfaces; forming a plurality of connective layers on bump isolation layers; removing the second photoresist layer, removing the second areas to form an under bump metallurgy layer. | 08-01-2013 |
20130196498 | BUMPING PROCESS AND STRUCTURE THEREOF - A bumping process includes providing a silicon substrate; forming a titanium-containing metal layer on silicon substrate, the titanium-containing metal layer comprises a plurality of first areas and a plurality of second areas; forming a first photoresist layer on titanium-containing metal layer; patterning the first photoresist layer to form a plurality of first opening slots; forming a plurality of copper bumps within first opening slots, said copper bump comprises a first top surface and a first ring surface; removing the first photoresist layer; forming a second photoresist layer on titanium-containing metal layer; patterning the second photoresist layer to form a plurality of second opening slots; forming a plurality of bump isolation layers at spaces, the first top surfaces and the first ring surfaces; forming a plurality of connective layers on bump isolation layers; removing the second photoresist layer, removing the second areas to form an under bump metallurgy layer. | 08-01-2013 |
20130249070 | SEMICONDUCTOR PACKAGE STRUCTURE - A semiconductor package structure comprises a lead frame, at least one chip, a molding compound and an anti-conduction film. The lead frame comprises a plurality of leads, each of the leads comprises a first end portion and a second end portion, wherein the first end portion comprises a first upper surface and a first lower surface, and the second end portion comprises a second upper surface and a second lower surface. The chip comprises a plurality of bumps electrically connected with the lead frame. The chip and the leads are covered with the molding compound. The first lower surface of each of the first end portions and the second lower surface of each of the second end portions are exposed by the molding compound. The first lower surface of the first end portion of each of the leads is covered with the anti-conduction film. | 09-26-2013 |
20130334671 | SEMICONDUCTOR PACKAGE AND LEAD FRAME THEREOF - A semiconductor package includes a lead frame, at least one chip and a molding compound. The lead frame comprises a plurality of leads, each lead comprises a first end portion and at least one coupling protrusion, wherein the first end portion comprises a first upper surface, the coupling protrusion comprises a ring surface and is integrally formed as one piece with the first upper surface. The chip disposed on top of the leads comprises a plurality of bumps and a plurality of solders, the coupling protrusions embed into the solders to make the ring surfaces of the coupling protrusions cladded with the solders. The solders cover the first upper surfaces. The chip and the leads are cladded with the molding compound. | 12-19-2013 |
20130334681 | SEMICONDUCTOR PACKAGE STRUCTURE AND METHOD FOR MAKING THE SAME - A semiconductor package structure includes a first substrate, a second substrate and an encapsulant. The first substrate comprises a plurality of first bumps and a plurality of first solder layers. Each of the first solder layers is formed on each of the first bumps and comprises a cone-shaped slot having an inner surface. The second substrate comprises a plurality of second bumps and a plurality of second solder layers. Each of the second solder layers is formed on each of the second bumps and comprises an outer surface. Each of the second solder layers is a cone-shaped body. The second solder layer couples to the first solder layer and is accommodated within the first solder layer. The inner surface of the cone-shaped slot contacts with the outer surface of the second solder layer. The encapsulant is formed between the first substrate and the second substrate. | 12-19-2013 |
20140008111 | CARRIER WITH THREE-DIMENSIONAL CAPACITOR - A carrier with three-dimensional capacitor includes a substrate and a three-dimensional capacitor, wherein the substrate comprises a trace layer having a first terminal and a second terminal. The three-dimensional capacitor is integrally formed as one piece with the trace layer. The three-dimensional capacitor and the trace layer are made of same material. The three-dimensional capacitor comprises a first capacitance portion and a second capacitance portion, the first capacitance portion comprises a first section, a second section and a first passage, the second capacitance portion is formed at the first passage. The second capacitance portion comprises a third section, a fourth section and a second passage communicated with the first passage. The first capacitance portion is located at the second passage, a first end of the first capacitance portion connects to the first terminal, and a third end of the second capacitance portion connects to the second terminal. | 01-09-2014 |
20140021601 | SEMICONDUCTOR MANUFACTURING METHOD AND SEMICONDUCTOR STRUCTURE THEREOF - A semiconductor manufacturing method includes providing a carrier; forming a first photoresist layer; forming plural core portions; removing the first photoresist layer; forming a second photoresist layer; forming a plurality of connection portions, each of the plurality of connection portions includes a first connection layer and a second connection layer and connects to each of the core portions to form a hybrid bump, wherein each of the first connection layers comprises a base portion, a projecting portion and an accommodating space, each base portion comprises an upper surface, each projecting portion is protruded to the upper surface and located on top of each core portion, each accommodating space is located outside each projecting portion, the second connection layers cover the projecting portions and the upper surfaces, and the accommodating spaces are filled by the second connection layers; removing the second photoresist layer to reveal the hybrid bumps. | 01-23-2014 |
20140027905 | SEMICONDUCTOR PACKAGE STRUCTURE AND METHOD FOR MAKING THE SAME - A semiconductor package structure includes a first substrate, a second substrate and an encapsulant. The first substrate comprises a plurality of first bumps and a plurality of first solder layers. Each of the first solder layers is formed on each of the first bumps and comprises a cone-shaped slot having an inner surface. The second substrate comprises a plurality of second bumps and a plurality of second solder layers. Each of the second solder layers is formed on each of the second bumps and comprises an outer surface. Each of the second solder layers is a cone-shaped body. The second solder layer couples to the first solder layer and is accommodated within the first solder layer. The inner surface of the cone-shaped slot contacts with the outer surface of the second solder layer. The encapsulant is formed between the first substrate and the second substrate. | 01-30-2014 |
20140035125 | SEMICONDUCTOR MANUFACTURING METHOD, SEMICONDUCTOR STRUCTURE AND PACKAGE STRUCTURE THEREOF - A semiconductor manufacturing method includes providing a carrier having a metallic layer, wherein the metallic layer comprises a plurality of base areas and a plurality of outer lateral areas; forming a first photoresist layer; forming a plurality of bearing portions; removing the first photoresist layer to reveal the bearing portions, each bearing portion comprises a bearing surface having a first area and a second area; forming a second photoresist layer for revealing the first areas of the bearing surfaces; forming a plurality of connection portions, wherein the first areas of the bearing surfaces are covered by the connection portions to make each connection portion connect with each bearing portion to form a snap bump; removing the outer lateral areas of the metallic layer to make the base areas form a plurality of under bump metallurgy layers. | 02-06-2014 |
20140035126 | SEMICONDUCTOR MANUFACTURING METHOD AND SEMICONDUCTOR STRUCTURE THEREOF - A semiconductor manufacturing method includes providing a substrate having a metallic layer that includes a first metal layer and a second metal layer, the first metal layer comprises plural base areas and plural first outer lateral areas, the second metal layer comprises plural second base areas and plural second outer lateral areas; forming a first photoresist layer; forming plural bearing portions; removing the first photoresist layer; forming a second photoresist layer; forming plural connection portions, each connection portion comprises a first connection layer and a second connection layer; removing the second photoresist layer to reveal the connection portions and the bearing portions; removing the first outer lateral areas; reflowing the second connection layers to form plural composite bumps; removing the second outer lateral areas to make the first base areas and the second base areas form plural under bump metallurgy layers. | 02-06-2014 |
20140117540 | SEMICONDUCTOR MANUFACTURING METHOD AND SEMICONDUCTOR STRUCTURE THEREOF - A semiconductor manufacturing method includes providing a substrate having a metallic layer that includes a first metal layer and a second metal layer, the first metal layer comprises plural base areas and plural first outer lateral areas, the second metal layer comprises plural second base areas and plural second outer lateral areas; forming a first photoresist layer; forming plural bearing portions; removing the first photoresist layer; forming a second photoresist layer; forming plural connection portions, each connection portion comprises a first connection layer and a second connection layer; removing the second photoresist layer to reveal the connection portions and the bearing portions; removing the first outer lateral areas; reflowing the second connection layers to form plural composite bumps; removing the second outer lateral areas to make the first base areas and the second base areas form plural under bump metallurgy layers. | 05-01-2014 |
20140120715 | SEMICONDUCTOR MANUFACTURING METHOD, SEMICONDUCTOR STRUCTURE AND PACKAGE STRUCTURE THEREOF - A semiconductor manufacturing method includes providing a carrier having a metallic layer, wherein the metallic layer comprises a plurality of base areas and a plurality of outer lateral areas; forming a first photoresist layer; forming a plurality of bearing portions; removing the first photoresist layer to reveal the bearing portions, each bearing portion comprises a bearing surface having a first area and a second area; forming a second photoresist layer for revealing the first areas of the bearing surfaces; forming a plurality of connection portions, wherein the first areas of the bearing surfaces are covered by the connection portions to make each connection portion connect with each bearing portion to form a snap bump; removing the outer lateral areas of the metallic layer to make the base areas form a plurality of under bump metallurgy layers. | 05-01-2014 |
20140141606 | SEMICONDUCTOR MANUFACTURING METHOD AND SEMICONDUCTOR STRUCTURE THEREOF - A semiconductor manufacturing method includes providing a carrier; forming a first photoresist layer; forming plural core portions; removing the first photoresist layer; forming a second photoresist layer; forming a plurality of connection portions, each of the plurality of connection portions includes a first connection layer and a second connection layer and connects to each of the core portions to form a hybrid bump, wherein each of the first connection layers comprises a base portion, a projecting portion and an accommodating space, each base portion comprises an upper surface, each projecting portion is protruded to the upper surface and located on top of each core portion, each accommodating space is located outside each projecting portion, the second connection layers cover the projecting portions and the upper surfaces, and the accommodating spaces are filled by the second connection layers; removing the second photoresist layer to reveal the hybrid bumps. | 05-22-2014 |
20140217578 | SEMICONDUCTOR PACKAGE PROCESS AND STRUCTURE THEREOF - A semiconductor package process includes the following steps, providing a first substrate having a first metal bump, the first metal bump comprises a joint portion having a first softening point; providing a second substrate having a second metal bump having a top surface, a lateral surface and a second softening point, wherein the first softening point is smaller than the second softening point; performing a heating procedure to make the joint portion of the first metal bump become a softened state; and laminating the first substrate on the second substrate to make the second metal bump embedded into the joint portion in the softened state to make the top surface and the lateral surface of the at least one second metal bump being clad extendedly by compressing the joint portion in the softened state. | 08-07-2014 |