Patent application number | Description | Published |
20080274569 | Method for forming semiconductor ball grid array package - A method for forming a semiconductor package provides a ball grid array, BGA, formed on a package substrate. The apices of the solder balls of the BGA are all at the same height, even if the package substrate is non-planar. Different solder ball pad sizes are used and tailored to compensate for non-planarity of the package substrate that may result from thermal warpage. Larger size solder ball pads are formed at relatively-high locations on the package substrate. An equal amount of solder is formed on each of the solder ball pads to produce solder balls having different heights and coplanar apices. | 11-06-2008 |
20080296764 | Enhanced copper posts for wafer level chip scale packaging - An enhanced wafer level chip scale packaging (WLCSP) copper electrode post is described having one or more pins that protrude from the top of the electrode post. When the solder ball is soldered onto the post, the pins are encapsulated within the solder material. The pins not only add shear strength to the soldered joint between the solder ball and the electrode post but also create a more reliable electrical connection due to the increased surface area between the electrode post/pin combination and the solder ball. Moreover, creating an irregularly shaped solder joint retards the propagation of cracks that may form in the intermetal compounds (IMC) layer formed at the solder joint. | 12-04-2008 |
20090108429 | Flip Chip Packages with Spacers Separating Heat Sinks and Substrates - A package structure includes a substrate; a die over and flip bonded on the substrate; a heat sink over the die; and one or more spacer separating the heat sink from the substrate. | 04-30-2009 |
20090130840 | Protected Solder Ball Joints in Wafer Level Chip-Scale Packaging - Protection of a solder ball joint is disclosed in which the solder ball joint is located below the surface level of the encapsulating buffer layer. The buffering layer is etched to expose one or more electrode posts, each of which may be made up of a single column or multiple columns. A top layer resulting either from a top conductive cap or a plating layer around the electrode posts also lies below the buffer layer. When the solder ball is placed onto the posts, the solder/ball joint is protected in a position below the surface of the buffer layer, while still maintaining an electrical connection between the various solder balls and their associated or capping/plating material, electrode posts, wiring layers, and circuit layers. Therefore, the entire ball joint is protected from direct stress. | 05-21-2009 |
20090174071 | Semiconductor device including electrically conductive bump and method of manufacturing the same - A semiconductor device and method of manufacturing are provided that include forming an electrically conductive bump on a substrate and forming at least one passivation layer on the bump to reduce solder joint failures. | 07-09-2009 |
20100187687 | Underbump Metallization Structure - A system and method for forming an underbump metallization (UBM) is presented. A preferred embodiment includes a raised UBM which extends through a passivation layer so as to make contact with a contact pad while retaining enough of the passivation layer between the contact pad and the UBM to adequately handle the peeling and shear stress that results from CTE mismatch and subsequent thermal processing. The UBM contact is preferably formed in either an octagonal ring shape or an array of contacts. | 07-29-2010 |
20110057313 | Enhanced Copper Posts for Wafer Level Chip Scale Packaging - An enhanced wafer level chip scale packaging (WLCSP) copper electrode post is described having one or more pins that protrude from the top of the electrode post. When the solder ball is soldered onto the post, the pins are encapsulated within the solder material. The pins not only add shear strength to the soldered joint between the solder ball and the electrode post but also create a more reliable electrical connection due to the increased surface area between the electrode post/pin combination and the solder ball. Moreover, creating an irregularly shaped solder joint retards the propagation of cracks that may form in the intermetal compounds (IMC) layer formed at the solder joint. | 03-10-2011 |
20110192761 | CLEANING SYSTEM AND A PACKAGE CARRIER FOR A SEMICONDUCTOR PACKAGE - A semiconductor package holder includes two plates, and each plate defining a through-hole. Each of the plates has a set of first members along a periphery of the through-hole and extending into the through-hole. The first members of one of the plates are positioned to overlie the first members of the other of the plates. One of the at least two plates further has a set of second members along a periphery of the through-hole and extending into the through-hole. | 08-11-2011 |
20120306067 | Thermally Enhanced Integrated Circuit Package - According to an embodiment, an integrated circuit package comprises a chip, a thermal component, and a molding compound. The chip comprises an active surface and a backside surface opposite the active surface. The thermal component is physically coupled to the backside surface of the chip. The molding compound encapsulates the chip, and an exposed surface of the thermal component is exposed through the molding compound. Another embodiment is a method to form an integrated circuit package. | 12-06-2012 |
20130299984 | Protected Solder Ball Joints in Wafer Level Chip-Scale Packaging - Protection of a solder ball joint is disclosed in which the solder ball joint is located below the surface level of the encapsulating buffer layer. The buffering layer is etched to expose one or more electrode posts, each of which may be made up of a single column or multiple columns. A top layer resulting either from a top conductive cap or a plating layer around the electrode posts also lies below the buffer layer. When the solder ball is placed onto the posts, the solder/ball joint is protected in a position below the surface of the buffer layer, while still maintaining an electrical connection between the various solder balls and their associated or capping/plating material, electrode posts, wiring layers, and circuit layers. Therefore, the entire ball joint is protected from direct stress. | 11-14-2013 |