Patent application number | Description | Published |
20080261357 | METHOD FOR FABRICATION OF SEMICONDUCTOR DEVICE - After forming a source-drain material film on an insulator layer, an opening portion reaching the insulator layer is formed in the source-drain material film. Then, a channel having desired thickness and a gate insulator are sequentially formed on the insulator layer and the source-drain material film in the opening portion. Thereafter, a gate material film embedding the opening portion is formed on the gate insulator. Subsequently, a cap film is formed on the gate material film, thereby forming the gate made of the gate material film. Then, a mask layer is formed on the source-drain material film. Next, the source-drain material film not protected by the mask layer is removed while protecting the gate by the cap film, thereby leaving the source-drain material film on both sides of the gate. The source-drain material film on one side becomes the source and that on the other side becomes the drain. | 10-23-2008 |
20080285325 | Semiconductor Memory Device - In a two-transistor gain cell structure, a semiconductor memory device capable of stable reading without malfunction and having small-area memory cells is provided. In a two-transistor gain cell memory having a write transistor and a read transistor, a write word line, a read word line, a write bit line, and a read bit line are separately provided, and voltages to be applied are independently set. Furthermore, a memory cell is connected to the same read word line and write bit line as those of an adjacent memory cell. | 11-20-2008 |
20110235386 | Semiconductor Memory Device and Manufacturing Method of the Same - The invention provides a voltage applying structure having a reduced area penalty with respect to a data line. A wiring forming a global data line and a local data line formed in a p-type well region are connected via a select transistor. Two select lines are formed on a gate electrode of the select transistor. One select line is electrically connected to the gate electrode of the select transistor, however, the other select line is not connected to the select transistor. That is, an insulator film is formed between the select line and the gate electrode. As mentioned above, two select lines shorter than a gate length are provided on one select transistor. The select line is structured such as to be connected to the other select transistor. | 09-29-2011 |
20110252336 | INFORMATION MANAGEMENT SUPPORT METHOD, MANAGEMENT INFORMATION VISUALIZATION DEVICE, INFORMATION MANAGEMENT SYSTEM, AND MANAGEMENT INFORMATION VISUALIZATION METHOD - A management information visualization device (management provider server | 10-13-2011 |
Patent application number | Description | Published |
20110169070 | SEMICONDUCTOR DEVICE - For providing a cheap semiconductor memory device with improving reliability by level of a cell, in the place of escaping from defects on memory cells electrically, through such as ECC, and further for providing a cell structure enabling scaling-down in the vertical direction with maintaining the reliability, in a semiconductor memory device, upon which high-speeded read-out operation is required, a charge storage region is constructed with particles made from a large number of semiconductor charge storage small regions, each being independent, thereby increasing the reliability by the cell level. | 07-14-2011 |
20120319187 | SEMICONDUCTOR DEVICE - For providing a cheap semiconductor memory device with improving reliability by level of a cell, in the place of escaping from defects on memory cells electrically, through such as ECC, and further for providing a cell structure enabling scaling-down in the vertical direction with maintaining the reliability, in a semiconductor memory device, upon which high-speeded read-out operation is required, a charge storage region is constructed with particles made from a large number of semiconductor charge storage small regions, each being independent, thereby increasing the reliability by the cell level. | 12-20-2012 |