Patent application number | Description | Published |
20120092925 | VERTICAL CAPACITOR-LESS DRAM CELL, DRAM ARRAY AND OPERATION OF THE SAME - A vertical capacitor-less DRAM cell is described, including: a source layer having a first conductivity type, a storage layer disposed on the source layer and having a second conductivity type, an active layer disposed on the storage layer and having the first conductivity type, a drain layer disposed on the active layer and having the second conductivity type, an address gate disposed beside the active layer and separated from the same by a first gate dielectric layer, and a storage gate disposed beside the storage layer and separated from the same by a second gate dielectric layer. The DRAM cell can be written by turning on the MOSFET formed by the storage layer, the active layer, the drain layer, the first gate dielectric layer and the address gate to inject carriers into the storage layer from the active layer. | 04-19-2012 |
20120153371 | DYNAMIC RANDOM ACCESS MEMORY CELL AND ARRAY HAVING VERTICAL CHANNEL TRANSISTOR - A dynamic random access memory cell having vertical channel transistor includes a semiconductor pillar, a drain layer, an assisted gate, a control gate, a source layer, and a capacitor. The vertical channel transistor has an active region formed by the semiconductor pillar. The drain layer is formed at the bottom of the semiconductor pillar. The assisted gate is formed beside the drain layer, and separated from the drain layer by a first gate dielectric layer. The control gate is formed beside the semiconductor pillar, and separated from the active region by a second gate dielectric layer. The source layer is formed at the top of the semiconductor pillar. The capacitor is formed to electrical connect to the source layer. | 06-21-2012 |
20150340427 | CAPACITOR STRUCTURE AND METHOD OF MANUFACTURING THE SAME - A capacitor structure including at least one capacitor unit is provided. The capacitor unit includes a dielectric layer, an inner metal layer and an outer metal layer. The inner metal layer is disposed in the dielectric layer. The outer metal layer is disposed in the dielectric layer and surrounds the inner metal layer. The outer metal layer includes a first metal layer, two second metal layers and a third metal layer. The first metal layer is disposed under the inner metal layer. The second metal layers are disposed at two sides of the inner metal layer, and lower surfaces of the second metal layers are located equal to or below a lower surface of the inner metal layer. The third metal layer is disposed over the inner metal layer and connects to the second metal layers. | 11-26-2015 |