Patent application number | Description | Published |
20080224291 | PACKAGED SEMICONDUCTOR COMPONENTS HAVING SUBSTANTIALLY RIGID SUPPORT MEMBERS AND METHODS OF PACKAGING SEMICONDUCTOR COMPONENTS - Packaged semiconductor components having substantially rigid support member are disclosed. The packages can include a semiconductor die and a support member proximate to the semiconductor die. The support member is at least substantially rigid. The packages can further include an adhesive between the support member and the semiconductor die and adhesively attaching the support member to the semiconductor die. The packages can also include a substrate carrying the semiconductor die and the support member attached to the semiconductor die. | 09-18-2008 |
20080224329 | PACKAGED MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING PACKAGED MICROELECTRONIC DEVICES - Packaged microelectronic devices and methods for manufacturing packaged microelectronic devices are disclosed. In one embodiment, a method for forming a microelectronic device includes attaching a microelectronic die to a support member by forming an attachment feature on at least one of a back side of the microelectronic die and the support member. The attachment feature includes a volume of solder material. The method also includes contacting the attachment feature with the other of the microelectronic die and the support member, and reflowing the solder material to join the back side of the die and the support member via the attachment feature. In several embodiments, the attachment feature is not electrically connected to internal active structures of the die. | 09-18-2008 |
20090008797 | BOND PAD REROUTING ELEMENT, REROUTED SEMICONDUCTOR DEVICES INCLUDING THE REROUTING ELEMENT, AND ASSEMBLIES INCLUDING THE REROUTED SEMICONDUCTOR DEVICES - A rerouting element for a semiconductor device that includes a dielectric film that carries conductive vias, conductive elements, and contact pads. The conductive vias are positioned at locations that correspond to the locations of bond pads of a semiconductor device with which the rerouting element is to be used. The conductive elements, which communicate with corresponding conductive vias, reroute the bond pad locations to corresponding contact pad locations adjacent to one peripheral edge or two adjacent peripheral edges of the rerouted semiconductor device. The rerouting element is particularly useful for rerouting centrally located bond pads of a semiconductor device, as well as for rerouting the peripheral locations of bond pads of a semiconductor device to one or two adjacent peripheral edges thereof. Methods for designing and using the rerouting element are also disclosed, as are semiconductor device assemblies including one or more rerouting elements. | 01-08-2009 |
20100055837 | MULTI-CHIP MODULE AND METHODS - A substrate includes first and second regions over which first and second semiconductor devices are to be respectively positioned. The first region is located at least partially within the second region. Contact areas are located external to the first region but within the second region. In one embodiment, in which semiconductor devices are to be stacked over and secured to the substrate in a flip-chip type arrangement, the contact areas correspond to bond pads of an upper, second semiconductor device, while other contact areas located within the first region correspond to bond pads of a lower, first semiconductor device. In another embodiment, the contact areas correspond to bond pads of the first semiconductor device, which are electrically connected thereto by way of laterally extending discrete conductive elements, while other contact areas that are located external to the second region correspond to bond pads of the upper, second semiconductor device. | 03-04-2010 |
20100078792 | BOND PAD REROUTING ELEMENT, REROUTED SEMICONDUCTOR DEVICES INCLUDING THE REROUTING ELEMENT, AND ASSEMBLIES INCLUDING THE REROUTED SEMICONDUCTOR DEVICES - A rerouting element for a semiconductor device includes a dielectric film that carries conductive vias, conductive elements, and contact pads. The conductive vias are positioned at locations that correspond to the locations of bond pads of a semiconductor device with which the rerouting element is to be used. The conductive elements, which communicate with corresponding conductive vias, reroute the bond pad locations to corresponding contact pad locations adjacent to one peripheral edge or two adjacent peripheral edges of the rerouted semiconductor device. The rerouting element is particularly useful for rerouting centrally located bond pads of a semiconductor device, as well as for rerouting the peripheral locations of bond pads of a semiconductor device to one or two adjacent peripheral edges thereof. Methods for designing and using the rerouting element are also disclosed, as are semiconductor device assemblies including one or more rerouting elements. | 04-01-2010 |
20110104857 | PACKAGED MICRODEVICES AND METHODS FOR MANUFACTURING PACKAGED MICRODEVICES - Microdevices and methods for packaging microdevices. One embodiment of a packaged microdevice includes a substrate having a mounting area, contacts in the mounting area, and external connectors electrically coupled to corresponding contacts. The microdevice also includes a die located across from the mounting area and spaced apart from the substrate by a gap. The die has an integrated circuit and pads electrically coupled to the integrated circuit. The microdevice further includes first and second conductive elements in the gap that form interconnects between the contacts of the substrate and corresponding pads of the die. The first conductive elements are electrically connected to contacts on the substrate, and the second conductive elements are electrically coupled to corresponding pads of the die. The first conductive elements are attached to the second conductive elements at corresponding interfaces such that the interconnects connect the contacts of the substrate directly to corresponding pads on the die within the gap. | 05-05-2011 |
20110233740 | PACKAGED MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING PACKAGED MICROELECTRONIC DEVICES - Packaged microelectronic devices and methods for manufacturing packaged microelectronic devices are disclosed. In one embodiment, a method for forming a microelectronic device includes attaching a microelectronic die to a support member by forming an attachment feature on at least one of a back side of the microelectronic die and the support member. The attachment feature includes a volume of solder material. The method also includes contacting the attachment feature with the other of the microelectronic die and the support member, and reflowing the solder material to join the back side of the die and the support member via the attachment feature. In several embodiments, the attachment feature is not electrically connected to internal active structures of the die. | 09-29-2011 |
20130193581 | PACKAGED MICRODEVICES AND METHODS FOR MANUFACTURING PACKAGED MICRODEVICES - Microdevices and methods for packaging microdevices. One embodiment of a packaged microdevice includes a substrate having a mounting area, contacts in the mounting area, and external connectors electrically coupled to corresponding contacts. The microdevice also includes a die located across from the mounting area and spaced apart from the substrate by a gap. The die has an integrated circuit and pads electrically coupled to the integrated circuit. The microdevice further includes first and second conductive elements in the gap that form interconnects between the contacts of the substrate and corresponding pads of the die. The first conductive elements are electrically connected to contacts on the substrate, and the second conductive elements are electrically coupled to corresponding pads of the die. The first conductive elements are attached to the second conductive elements at corresponding interfaces such that the interconnects connect the contacts of the substrate directly to corresponding pads on the die within the gap. | 08-01-2013 |
20150021769 | PACKAGED MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING PACKAGED MICROELECTRONIC DEVICES - Packaged microelectronic devices and methods for manufacturing packaged microelectronic devices are disclosed. In one embodiment, a method for forming a microelectronic device includes attaching a microelectronic die to a support member by forming an attachment feature on at least one of a back side of the microelectronic die and the support member. The attachment feature includes a volume of solder material. The method also includes contacting the attachment feature with the other of the microelectronic die and the support member, and reflowing the solder material to join the back side of the die and the support member via the attachment feature. In several embodiments, the attachment feature is not electrically connected to internal active structures of the die. | 01-22-2015 |