| Patent application number | Description | Published |
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| 20080285330 | METHODS OF OPERATING A BISTABLE RESISTANCE RANDOM ACCESS MEMORY WITH MULTIPLE MEMORY LAYERS AND MULTILEVEL MEMORY STATES - A method is described for operating a bistable resistance random access memory having two memory layer stacks that are aligned in series is disclosed. The bistable resistance random access memory comprises two memory layer stacks per memory cell, the bistable resistance random access memory operates in four logic states, a logic “00” state, a logic “01” state, a logic “10” state and a logic “11” state. The relationship between the four different logic states can be represented mathematically by the two variables n and f and a resistance R. The logic “0” state is represented by a mathematical expression (1+f) R. The logic “1” state is represented by a mathematical expression (n+f) R. The logic “2” state is represented by a mathematical expression (1+nf) R. The logic “3” state is represented by a mathematical expression n(1+f) R. | 11-20-2008 |
| 20090057748 | Memory and manufacturing method thereof - A memory and a manufacturing method thereof are provided. The memory includes a dielectric layer, a polysilicon layer, a first buried diffusion, a second buried diffusion, a charge storage structure and a gate. The polysilicon layer is disposed on the dielectric layer and electrically connected to at least a voltage. The first buried diffusion and the second buried diffusion are separately disposed in the surface of the polysilicon layer. The charge storage structure is disposed on the polysilicon layer and positioned between the first buried diffusion and the second buried diffusion. The gate is disposed on the charge storage structure. | 03-05-2009 |
| 20090072211 | Resistive random access memory and method for manufacturing the same - A resistive random access memory including, an insulating layer, a hard mask layer, a bottom electrode, a memory cell and a top electrode is provided. The insulating layer is disposed on the bottom electrode. The insulating layer has a contact hole having a first width. The hard mask layer has an opening. A portion of the memory cell is exposed from the opening and has a second width smaller than the first width. The top electrode is disposed on the insulating layer and is coupled with the memory cell. | 03-19-2009 |
| 20090101967 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device includes an insulating layer, a channel structure, an insulating structure and a gate. The channel structure includes a channel bridge for connecting two platforms. The bottom of the channel bridge is separated from the insulating layer by a distance, and the channel bridge has a plurality of separated doping regions. The insulating structure wraps around the channel bridge, and the gate wraps around the insulating structure. | 04-23-2009 |
| 20090108331 | Memory and manufacturing method thereof - A memory having isolated dual memory cells is provided. A first isolation wall and a second isolation wall are separately disposed between a source and a drain on a substrate. An isolation bottom layer and a polysilicon layer are orderly disposed on the substrate between the first and the second isolation walls. A first charge storage structure and a first gate are orderly disposed on the substrate between the first isolation wall and the source. A second charge storage structure and a second gate are orderly disposed on the substrate between the second isolation wall and the drain. A word line disposed on the polysilicon layer, the first gate, the second gate, the first isolation wall and the second isolation wall is electrically connected to the first gate, the second gate and the polysilicon layer. | 04-30-2009 |
| 20100112810 | Resistive random access memory and method for manufacturing the same - A resistive random access memory including, an insulating layer, a hard mask layer, a bottom electrode, a memory cell and a top electrode is provided. The insulating layer is disposed on the bottom electrode. The insulating layer has a contact hole having a first width. The hard mask layer has an opening. A portion of the memory cell is exposed from the opening and has a second width smaller than the first width. The top electrode is disposed on the insulating layer and is coupled with the memory cell. | 05-06-2010 |
| 20110003446 | Semiconductor Device and Method for Manufacturing the Same - A semiconductor device includes an insulating layer, a channel structure, an insulating structure and a gate. The channel structure includes a channel bridge for connecting two platforms. The bottom of the channel bridge is separated from the insulating layer by a distance, and the channel bridge has a plurality of separated doping regions. The insulating structure wraps around the channel bridge, and the gate wraps around the insulating structure. | 01-06-2011 |
| Patent application number | Description | Published |
|---|
| 20080237798 | MEMORY CELL AND PROCESS FOR MANUFACTURING THE SAME - A memory cell and a process for manufacturing the same are provided. In the process, a first electrode layer is formed on a conductive layer over a substrate, and then a transition metal layer is formed on the first electrode layer. After that, the transition metal layer is subjected to a plasma oxidation step to form a transition metal oxide layer as a precursor of a data storage layer, and a second electrode layer is formed on the transition metal oxide layer. A memory cell is formed after the second electrode layer, the transition metal oxide layer and the first electrode layer are patterned into a second electrode, a data storage layer and a first electrode, respectively. | 10-02-2008 |
| 20090075466 | Method of manufacturing a non-volatile memory device - A method of manufacturing a non-volatile semiconductor memory device includes forming a sub-gate without an additional mask. A low word-line resistance is formed by a metal silicide layer on a main gate of the memory device. In operation, application of a voltage to the sub-gate forms a transient state inversion layer that serves as a bit-line, so that no implantation is required to form the bit-line. | 03-19-2009 |
| 20090166604 | RESISTANCE TYPE MEMORY DEVICE - A resistance type memory device is provided. The resistance type memory device includes a first and a second conductors and a metal oxide layer. The metal oxide layer is disposed between the first and the second conductors, and the resistance type memory device is defined in a first resistivity. The resistance type memory device is defined in a second resistivity after a first pulse voltage is applied to the metal oxide layer. The resistance type memory device is defined in a third resistivity after a second pulse voltage is applied to the metal oxide layer. The second resistivity is greater than the first resistivity, and the first resistivity is greater than the third resistivity. | 07-02-2009 |
