Patent application number | Description | Published |
20080197462 | SEMICONDUCTOR PACKAGE - A semiconductor package is provided with a package main body including a base portion configured by joining thin plates integrally, and a semiconductor device accommodating portion provided on one surface of the base portion, electric terminals electrically connected to a semiconductor device in the accommodating portion and exposed to an outer surface of the accommodating portion, and a heat high-transfer element including at least one layer-like member provided in the base portion. The layer-like member is configured independent of the base portion by a material having a thermal conductivity higher than that of the base portion, and extends from a position corresponding to a heat-generation site of the semiconductor device to a position in an outside of the heat-generation site corresponding position. | 08-21-2008 |
20090039500 | SEMICONDUCTOR PACKAGE - A semiconductor package includes a base plate having first and second surfaces both facing in opposite directions, and a plurality of anisotropic heat conducting members disposed in the base plate and spaced away from each other. A semiconductor element having a heat generating unit is mounted on the first surface, and the second surface is supported on a supporting member having a thermal conductivity. Each anisotropic heat conducting member has a sheet shape intersecting with the first and second surfaces, and orientates a direction of higher thermal conductivity than the thermal conductivity of the base plate in a direction from the first surface toward the second surface. | 02-12-2009 |
20090072386 | SEMICONDUCTOR PACKAGE AND SEMICONDUCTOR PACKAGE ASSEMBLY - A semiconductor package includes a main body having a semiconductor device accommodating portion accommodating a basic circuit including a semiconductor device, external connection terminal members protruding outside the main body, and a cooling structure reducing heat generated by the device from the main body. The cooling structure includes a coolant flowing portion including a coolant supply port to which coolant is supplied, a coolant moving space which is positioned adjacent to the accommodating portion and in which the coolant moves in a back side of the basic circuit of the accommodating portion, and a coolant discharge port which discharges the coolant from the moving space. The semiconductor package assembly includes a package support body which supports the package and which includes a coolant circulation structure supplying coolant to the flowing portion of the main body through the supply port and collecting the supplied coolant through the discharge port. | 03-19-2009 |
20090091891 | SEMICONDUCTOR PACKAGE - A semiconductor package includes a package main body having a base portion and a semiconductor device accommodating portion, electric terminals electrically connected to a semiconductor device in the accommodating portion and exposed to an outer surface, and a high heat transfer element disposed in the base portion to extend from a heat generation site corresponding position corresponding to a heat generating site of the semiconductor device to a position in an outside of the heat generation site corresponding position. The base portion is configured by bringing a plurality of thin plates in close contact with each other to bond them integrally, and the high heat transfer element includes at least one combination of fluid passage formed in the base portion and a heat transfer fluid sealed in the passage, or at least one heat pipe. | 04-09-2009 |
20090205806 | SEMICONDUCTOR PACKAGE - A semiconductor package is provided with a package body including a base part and a semiconductor device housing part housing a semiconductor device. An electric terminal electrically connected to the device is provided in the housing part and is exposed to an outer surface. A high heat transfer element is arranged from a heat generating part corresponding position corresponding to a heat generating part of the device to a position outside the corresponding position in the base part. The base part is configured by contacting a plurality of thin sheets mutually closely with each other and by bonding integrally with each other. The high heat transfer element includes particles configured by a material having a thermal conductivity higher than that of the base part and dispersed in the base part. The particles are dispersed between two mutually adjacent thin sheets among the thin sheets. | 08-20-2009 |
20090257478 | SPREAD SPECTRUM RAKE RECEIVER - Even when the number of paths is increased, interfering noises can be effectively reduced by a rake receiver for use in a spread spectrum communication system. The rake receiver includes a timing detecting unit detecting a reception timing t | 10-15-2009 |
20100091477 | PACKAGE, AND FABRICATION METHOD FOR THE PACKAGE - A package includes a conductive base plate; a ceramic wall configured to house a semiconductor device and a circuit board disposed adjoining of the semiconductor device, the ceramic wall configured to be disposed on the conductive base plate, the ceramic wall configured to include a frame shape having a screw hole in four corners; a metal seal ring configured to include a framed shape and be disposed on the ceramic wall; and a ceramic cap configured to be disposed on the metal seal ring, and the ceramic wall is screwed to the conductive base plate through the screw hole, and the package can radiate heat satisfactory in the heat generation from the semiconductor device, and can improve reliability, and can be applied to the high frequency of the microwave/millimeter wave/sub-millimeter wave band. | 04-15-2010 |
20100127391 | FIXTURE FOR SEMICONDUCTOR DEVICE AND ASSEMBLY OF SEMICONDUCTOR DEVICE - A pressing portion of a fixture is put on a lid of a semiconductor package, and anchor portions on the opposite sides of the pressing portion are opposed to a baseplate. Two screw members are passed individually through opening parts formed spanning the pressing portion and anchor portions and threadedly engage with a heat sink through the baseplate. If the screw members are tightened in this state, the anchor portions are pressed by the baseplate, and the pressing portion presses the lid of the semiconductor package, whereby the baseplate is fixed to the heat sink in pressure contact with it. | 05-27-2010 |