Patent application number | Description | Published |
20130149851 | Methods of Protecting Elevated Polysilicon Structures During Etching Processes - Disclosed herein are various methods of protecting elevated polysilicon structures during etching processes. In one example, the method includes forming a layer stack above a semiconducting substrate for a memory device, forming a protective mask layer above the layer stack of the memory device and performing at least one etching process to define a gate electrode for a transistor while the protective mask is in position above the layer stack for the memory device. | 06-13-2013 |
20130256834 | BACK-SIDE MOM/MIM DEVICES - Back-side MOM/MIM structures are integrated on a device with front-side circuitry. Embodiments include forming a substrate having a front side and a back side that is opposite the front side, the substrate including circuitry on the front side of the substrate; and forming a metal-oxide-metal (MOM) capacitor, a metal-insulator-metal (MIM) capacitor, or a combination thereof on the back side of the substrate. Other embodiments include forming a through-silicon via (TSV), in the substrate, connecting the MOM capacitor, the MIM capacitor, or a combination thereof to the circuitry on the front side of the substrate. | 10-03-2013 |
20130277810 | METHOD FOR FORMING HEAT SINK WITH THROUGH SILICON VIAS - Semiconductor devices are formed with through silicon vias extending into the semiconductor substrate from a backside surface for improved heat dissipation. Embodiments include forming a cavity in a backside surface of a substrate, the substrate including a gate stack on a frontside surface, and filling the cavity with a thermally conductive material. | 10-24-2013 |
20140035155 | DEVICE WITH INTEGRATED POWER SUPPLY - Semiconductor devices and methods for forming a semiconductor device are disclosed. The semiconductor device includes a die. The die includes a die substrate having first and second major surfaces. The semiconductor device includes a power module disposed below the second major surface of the die substrate. The power module is electrically coupled to the die through through silicon via (TSV) contacts. | 02-06-2014 |
20140191407 | DIELECTRIC POSTS IN METAL LAYERS - A semiconductor device is disclosed. The semiconductor device includes a substrate comprises a plurality of metal layers. The semiconductor device also includes dielectric posts disposed in the metal layers. The density of the dielectric posts in the metal layers is equal to about 15-25%. | 07-10-2014 |
20140252445 | METHOD OF FORMING SPLIT-GATE CELL FOR NON-VOLATIVE MEMORY DEVICES - Fabrication of a slim split gate cell and the resulting device are disclosed. Embodiments include forming a first gate on a substrate, the first gate having an upper surface and a hard-mask covering the upper surface, forming an interpoly isolation layer on side surfaces of the first gate and the hard-mask, forming a second gate on one side of the first gate, with an uppermost point of the second gate below the upper surface of the first gate, removing the hard-mask, forming spacers on exposed vertical surfaces, and forming a salicide on exposed surfaces of the first and second gates. | 09-11-2014 |
20140264733 | DEVICE WITH INTEGRATED PASSIVE COMPONENT - Semiconductor devices and methods for forming a semiconductor device are presented. The semiconductor device includes a die which includes a die substrate having first and second major surfaces. The semiconductor device includes a passive component disposed below the second major surface of the die substrate. The passive component is electrically coupled to the die through through silicon via (TSV) contacts. | 09-18-2014 |
20150061156 | PAD SOLUTIONS FOR RELIABLE BONDS - A bonding pad and a method of manufacturing a bonding pad are presented. The method includes providing a substrate prepared with circuits component and an interlevel dielectric (ILD) layer with interconnects. A final passivation level is formed on the substrate surface and includes a pad opening. A wire bond in contact with the pad interconnect is formed in the pad opening. The pad interconnect is suitable for, for example, copper wire bond and can avoid the formation of intermetallic compound during wire bonding. This Abstract is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. | 03-05-2015 |