Sandisk Semiconductor (Shanghai) Co., Ltd.
|Sandisk Semiconductor (Shanghai) Co., Ltd. Patent applications|
|Patent application number||Title||Published|
|20150221624||SEMICONDUCTOR DEVICE INCLUDING INDEPENDENT FILM LAYER FOR EMBEDDING AND/OR SPACING SEMICONDUCTOR DIE - A semiconductor package including a plurality of stacked semiconductor die, and methods of forming the semiconductor package, are disclosed. In order to ease wirebonding requirements on the controller die, the controller die may be mounted directly to the substrate in a flip chip arrangement requiring no wire bonds or footprint outside of the controller die. Thereafter, a spacer layer may be affixed to the substrate around the controller die to provide a level surface on which to mount one or more flash memory die. The spacer layer may be provided in a variety of different configurations.||08-06-2015|
|20150214184||EPOXY COATING ON SUBSTRATE FOR DIE ATTACH - A system and method are disclosed for applying a die attach epoxy to substrates on a panel of substrates. The system includes a window clamp having one or more windows through which the epoxy may be applied onto the substrate panel. The size and shape of the one or more windows correspond to the size and shape of the area on the substrate to receive the die attach epoxy. Once the die attach epoxy is sprayed onto the substrate through the windows of the window clamp, the die may be affixed to the substrate and the epoxy cured in one or more curing steps. The system may further include a clean-up follower for cleaning epoxy off of the window clamp, and a window cleaning mechanism for cleaning epoxy off of the sidewalls of the windows of the window clamp.||07-30-2015|
|20150187745||SOLDER PILLARS FOR EMBEDDING SEMICONDUCTOR DIE - A semiconductor device, and a method of its manufacture, are disclosed. The semiconductor device includes a semiconductor die, such as a controller die, mounted on a surface of a substrate. Pillars, for example of solder, may also formed on the substrate, around the semiconductor die. The pillars are formed to a height above the substrate that is greater than the height of the substrate-mounted semiconductor die, including any wire bonds, above the substrate. A second group of one or more semiconductor die, such as flash memory die, may be affixed to the substrate, on top of the solder pillars without contacting the substrate-mounted semiconductor die.||07-02-2015|
|20150187421||SPACER LAYER FOR EMBEDDING SEMICONDUCTOR DIE - A semiconductor device, and a method of its manufacture, are disclosed. The semiconductor device includes a semiconductor die, such as a controller die, mounted on a surface of a substrate. A spacer layer is also mounted to the substrate, with the semiconductor die fitting within an aperture or a notch formed through first and second major opposed surfaces of the spacer layer. Additional semiconductor die, such as flash memory die, may be mounted atop the spacer layer.||07-02-2015|
|20150155247||BRIDGE STRUCTURE FOR EMBEDDING SEMICONDUCTOR DIE - A semiconductor device, and a method of its manufacture, are disclosed. The semiconductor device includes a semiconductor die, such as a controller die, mounted on a surface of a substrate. A bridge structure is also mounted to the substrate, with the semiconductor die fitting within a trench formed in a bottom surface of the bridge structure. The bridge structure may be formed from a semiconductor wafer into either a dummy bridge structure functioning as a mechanical spacer layer, or an IC bridge structure functioning as both a mechanical spacer layer and an integrated circuit semiconductor die. Memory die may also be mounted atop the bridge structure.||06-04-2015|
|20150115479||SEMICONDUCTOR DIE LAMINATING DEVICE WITH INDEPENDENT DRIVES - A laminating device (||04-30-2015|
|20140183727||WATERFALL WIRE BONDING - A wire bonded structure for a semiconductor device is disclosed. The wire bonded structure comprises a bonding pad; and a continuous length of wire mutually diffused with the bonding pad, the wire electrically coupling the bonding pad with a first electrical contact and a second electrical contact different from the first electrical contact.||07-03-2014|
|20140015116||EMI SHIELDING AND THERMAL DISSIPATION FOR SEMICONDUCTOR DEVICE - A memory device including a metallic layer shielding electromagnetic radiation and/or dissipating heat, and a method of making the memory device, are disclosed. The metallic layer is formed on a metallic layer transfer assembly. The metallic layer transfer assembly and the unencapsulated memory device are placed in a mold and encapsulated. During the encapsulation and curing of the molding compound, the metallic layer is transferred from the shield to the encapsulated memory device.||01-16-2014|
Patent applications by Sandisk Semiconductor (Shanghai) Co., Ltd.