Patent application number | Description | Published |
20120267779 | SEMICONDUCTOR PACKAGE - The invention provides a semiconductor package. The semiconductor package includes a semiconductor die having a central area and a peripheral area surrounding the central area. A first conductive bump is disposed on the semiconductor die in the central area. A second conductive bump is disposed on the semiconductor die in the peripheral area. An area ratio of the first conductive bump to the second conductive bump from a top view is larger than 1, and less than or equal to 3. | 10-25-2012 |
20130093073 | HIGH THERMAL PERFORMANCE 3D PACKAGE ON PACKAGE STRUCTURE - A package on package (PoP) structure is disclosed. The PoP structure includes a top package and a bottom package disposed thereunder. The top package includes a first substrate and a first die mounted onto the first substrate. The first substrate has a thermal conductivity which is more than 70 W/(m×K). The bottom package includes a second substrate and a second die mounted onto the second substrate. An upper surface of the second die is in thermal contact with a lower surface of the first substrate. | 04-18-2013 |
20130313698 | SEMICONDUCTOR PACKAGE - A semiconductor package with reduced warpage problem is provided, including: a circuit board, having opposing first and second surfaces; a semiconductor chip, formed over a center portion of the first surface of the circuit board, having a first cross sectional dimension; a spacer, formed over a center portion of the semiconductor chip, having a second cross sectional dimension less than that of the first cross sectional dimension; an encapsulant layer, formed over the circuit board, covering the semiconductor chip and surrounding the spacer; a heat spreading layer, formed over the encapsulant layer and the spacer; and a plurality of solder balls, formed over the second surface of the circuit board. | 11-28-2013 |
20140319668 | HIGH THERMAL PERFORMANCE 3D PACKAGE ON PACKAGE STRUCTURE - A package on package (PoP) structure is disclosed. The PoP structure comprises a top package and a bottom package disposed thereunder. The top package comprises a first substrate and a first die mounted onto the first substrate. At least one electrically floating pad is disposed on a lower surface of the first substrate. The bottom package comprises a second substrate and a second die mounted onto the second substrate. An upper surface of the second die is in thermal contact with the electrically floating pad. | 10-30-2014 |
20150035131 | CHIP PACKAGE - According to an embodiment of the present invention, a chip package is provided. The chip package includes a substrate. A chip is disposed on the substrate. A stiffener is disposed on the substrate. The thermal conductivity of the stiffener is higher than the thermal conductivity of the substrate. | 02-05-2015 |
20150115429 | SEMICONDUCTOR PACKAGE - A semiconductor package with reduced warpage problem is provided, including: a circuit board, having opposing first and second surfaces; a semiconductor chip, formed over a center portion of the first surface of the circuit board, having a first cross sectional dimension; a spacer, formed over a center portion of the semiconductor chip, having a second cross sectional dimension less than that of the first cross sectional dimension; an encapsulant layer, formed over the circuit board, covering the semiconductor chip and surrounding the spacer; a heat spreading layer, formed over the encapsulant layer and the spacer; and a plurality of solder balls, formed over the second surface of the circuit board, wherein a ratio between the first cross sectional dimension and the second cross sectional dimension is about 1:2-1:6. | 04-30-2015 |
20150145113 | SEMICONDUCTOR PACKAGE - A semiconductor package with reduced warpage problem is provided, including: a circuit board, having opposing first and second surfaces; a semiconductor chip, formed over a center portion of the first surface of the circuit board; a spacer, formed over a center portion of the semiconductor chip, having a second cross sectional dimension less than that of the first cross sectional dimension; a non-planar shaped heat spreading layer, formed over the spacer; an encapsulant layer, formed, over the circuit board, filling spaces between the non-planar shaped heat spreading layer and the circuit board; and a plurality of solder balls, formed over the second surface of the circuit board. | 05-28-2015 |
20150346785 | THERMAL CONTROL METHOD AND THERMAL CONTROL SYSTEM - The present invention provides a thermal control method and a thermal control system. The thermal control method comprises: detecting a temperature variance of a component of the electronic device to generate a detecting result; and determining a temperature threshold value for the integrated circuit as a throttling point according to the detecting result. The thermal control system comprises: a detecting unit, for detecting a temperature variance of a component of the electronic device to generate a detecting result; and a determining unit, for determining a temperature threshold value for the integrated circuit as a throttling point according to the detecting result. | 12-03-2015 |
20150347203 | ELECTRONIC DEVICE CAPABLE OF CONFIGURING APPLICATION-DEPENDENT TASK BASED ON OPERATING BEHAVIOR OF APPLICATION DETECTED DURING EXECUTION OF APPLICATION AND RELATED METHOD THEREOF - An electronic device has a processing system and a management circuit. The processing system executes an application. The management circuit detects an operating behavior of the application during execution of the application, analyzes the detected operating behavior of the application to generate an application identification result, and configures an application-dependent task according to at least the application identification result. | 12-03-2015 |
20150350407 | THERMAL CONTROL METHOD AND THERMAL CONTROL SYSTEM - The invention provides a thermal control method and a thermal control system. The thermal control method comprises: detecting a temperature variance of a component of the electronic device to generate a detecting result; and determining a temperature threshold value for the integrated circuit as a throttling point according to the detecting result. The thermal control system comprises: a detecting unit, for detecting a temperature variance of a component of the electronic device to generate a detecting result; and a determining unit, for determining a temperature threshold value for the integrated circuit as a throttling point according to the detecting result. | 12-03-2015 |