Patent application number | Description | Published |
20090023246 | EMBEDDED CHIP PACKAGE PROCESS - An embedded chip package process is disclosed. First, a first substrate having a first patterned circuit layer thereon is provided. Then, a first chip is disposed on the first patterned circuit layer and electrically connected to the first patterned circuit layer. A second substrate having a second patterned circuit layer thereon is provided. A second chip is disposed on the second patterned circuit layer and electrically connected to the second patterned circuit layer. Afterwards, a dielectric material layer is formed and covers the first chip and the first patterned circuit layer. Then, a compression process is performed to cover the second substrate over the dielectric material layer so that the second patterned circuit layer and the second chip on the second substrate are embedded into the dielectric material layer. | 01-22-2009 |
20090144972 | CIRCUIT BOARD AND PROCESS FOR FABRICATING THE SAME - A process for fabricating a circuit board is provided. In the process, first, a circuit substrate including an insulation layer and at least a pad contacting the insulation layer is provided. Next, a barrier material layer is formed on the circuit substrate. The barrier material layer completely covers the insulation layer and the pad. Then, at least one conductive bump is formed on the barrier material layer. The conductive bump is opposite to the pad, and the material of the barrier material layer is different from the material of the conductive bump. Next, a portion of the barrier material layer is removed by using the conductive bump as a mask, so as to expose the surface of the insulation layer and to form a barrier connected between the conductive bump and the pad. | 06-11-2009 |
20090166059 | CIRCUIT BOARD AND PROCESS THEREOF - A circuit board and process thereof are provided. The circuit board includes a dielectric layer, a main circuit, and two shielding circuits. The dielectric layer has an active surface. The main circuit is embedded in the dielectric layer and the shielding circuits are disposed at the dielectric layer. The shielding circuits are respectively located at two sides of the main circuit. The thickness of the shielding circuits is larger than the thickness of the main circuit. | 07-02-2009 |
20090273907 | CIRCUIT BOARD AND PROCESS THEREOF - A circuit board and process thereof are provided. The circuit board includes a dielectric layer, an active circuit, and two shielding circuits. The dielectric layer has an active surface. The active circuit is disposed on the active surface, and the shielding circuits are respectively disposed on two sides of the active circuit. The height of the shielding circuits is larger than the height of the active circuit. | 11-05-2009 |
20090282674 | ELECTRICAL INTERCONNECT STRUCTURE AND PROCESS THEREOF AND CIRCUIT BOARD STRUCTURE - An electrical interconnecting structure suitable for a circuit board is provided. The electrical interconnecting structure includes a core, an ultra fine pattern, and a patterned conductive layer. The core has a surface, and the ultra fine pattern is inlaid in the surface of the core. The patterned conductive layer is disposed on the surface of the core and is partially connected to the ultra fine pattern. Since the ultra fine pattern of the electrical interconnecting structure is inlaid in the surface of the core and is partially connected to the patterned conductive layer located on the surface of the core. | 11-19-2009 |
20090284935 | STRUCTURE AND MANUFACTURING PROCESS FOR CIRCUIT BOARD - A circuit board structure comprising a composite layer, a fine circuit pattern and a patterned conductive layer is provided. The fine circuit pattern is inlaid in the composite layer, and the patterned conductive layer is disposed on a surface of the composite layer. After fine circuit grooves are formed on the surface of the composite layer, conductive material is filled into the grooves to form the fine circuit pattern inlaid in the composite layer. Since this fine circuit pattern has relatively fine line width and spacing, the circuit board structure has a higher wiring density. | 11-19-2009 |
20110076802 | EMBEDDED CHIP PACKAGE PROCESS - An embedded chip package process is disclosed. A first substrate having a first patterned circuit layer is provided. A second substrate having a second patterned circuit layer is provided. A dielectric material layer is formed to cover the first patterned circuit layer. A compression process is performed to cover the second substrate over the dielectric material layer and the second patterned circuit layer is embed into the dielectric material layer. A curing process is performed to cure the dielectric material layer after the step of performing the compression process. At least a conductive plug through the dielectric material layer is formed to electrically connect the first patterned circuit layer to the second patterned circuit layer after the step of performing the curing process. The first substrate, the second substrate and a portion of the at least a conductive plug are removed after the step of forming the conductive through hole. | 03-31-2011 |
20120124830 | PROCESS FOR FABRICATING CIRCUIT BOARD - A process for fabricating a circuit board is provided. In the process, first, a circuit substrate including an insulation layer and at least a pad contacting the insulation layer is provided. Next, a barrier material layer is formed on the circuit substrate. The barrier material layer completely covers the insulation layer and the pad. Then, at least one conductive bump is formed on the barrier material layer. The conductive bump is opposite to the pad, and the material of the barrier material layer is different from the material of the conductive bump. Next, a portion of the barrier material layer is removed by using the conductive bump as a mask, so as to expose the surface of the insulation layer and to form a barrier connected between the conductive bump and the pad. | 05-24-2012 |
20130105202 | CIRCUIT BOARD STRUCTURE | 05-02-2013 |