| Patent application number | Description | Published |
|---|
| 20090014708 | SEMICONDUCTOR DEVICE - A nonvolatile, sophisticated semiconductor device with a small surface area and a simple structure capable of switching connections between three or more electrodes. In a semiconductor device at least one of the electrodes contains atoms such as copper or silver in the solid electrolyte capable of easily moving within the solid electrolyte, and those electrodes face each other and applying a voltage switches the voltage on and off by generating or annihilating the conductive path between the electrodes. Moreover applying a voltage to a separate third electrode can annihilate the conductive path formed between two electrodes without applying a voltage to the two electrode joined by the conductive path. | 01-15-2009 |
| 20090014770 | SEMICONDUCTOR DEVICE - A technique that can realize high integration even for multilayered three-dimensional structures at low costs by improving the performance of the semiconductor device having recording or switching functions by employing a device structure that enables high precision controlling of the movement of ions in the solid electrolyte. The semiconductor element of the device is formed as follows; two or more layers are deposited with different components respectively between a pair of electrodes disposed separately in the vertical (z-axis) direction, then a pulse voltage is applied between those electrodes to form a conductive path. The resistance value of the path changes according to an information signal. Furthermore, a region is formed at a middle part of the conductive path. The region is used to accumulate a component that improves the conductivity of the path, thereby enabling the resistance value (rate) to response currently to the information signal. More preferably, an electrode should also be formed at least in either the x-axis or y-axis direction to apply a control voltage to the electrode. | 01-15-2009 |
| 20090039335 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF THE SAME - On an insulating film ( | 02-12-2009 |
| 20090039336 | SEMICONDUCTOR DEVICE - The performance of a semiconductor device capable of storing information is improved. A memory layer of a memory element is formed by a first layer at a bottom electrode side and a second layer at a top electrode side. The first layer contains 20-70 atom % of at least one element of a first element group of Cu, Ag, Au, Al, Zn, and Cd, contains 3-40 atom % of at least one element of a second element group of V, Nb, Ta, Cr, Mo, W, Ti, Zr, Hf, Fe, Co, Ni, Pt, Pd, Rh, Ir, Ru, Os, and lanthanoid elements, and contains 20-60 atom % of at least one element of a third element group of S, Se, and Te. The second layer contains 5-50 atom % of at least one element of the first element group, 10-50 atom % of at least one element of the second element group, and 30-70 atom % of oxygen. | 02-12-2009 |
| 20090108247 | Memory Device - A phase-change memory device including a memory cell having a memory element and a select transistor is improved in heat resistance so that it may be operable at 145° C. or higher. | 04-30-2009 |
| 20090140233 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A nonvolatile semiconductor memory device having a large storage capacity and stabilized rewriting conditions in which a memory cell includes a nonvolatile recording material layer, a selector element and a semiconductor layer provided between the nonvolatile recording material layer and the selector element and having a thickness ranging from 5 to 200 nm. | 06-04-2009 |
| 20090189137 | NON-VOLATILE MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - In a phase change memory, electric property of a diode used as a selection device is extremely important. However, since crystal grain boundaries are present in the film of a diode using polysilicon, it involves a problem that the off leak property varies greatly making it difficult to prevent erroneous reading. For overcoming the problem, the present invention provides a method of controlling the temperature profile of an amorphous silicon in the laser annealing for crystallizing and activating the amorphous silicon thereby controlling the crystal grain boundaries. According to the invention, variation in the electric property of the diode can be decreased and the yield of the phase-change memory can be improved. | 07-30-2009 |
| 20090242868 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A solid electrolyte memory involves a problem that stable rewriting is difficult since the amount of ions in the solid electrolyte and the shape of the electrode are changed by repeating rewriting. In a semiconductor device in which information is stored or the circuit connection is changed by the change of resistance of the solid electrolyte layer, the solid electrolyte layer includes a composition, for example, of Cu—Ta—S and an ion supply layer in adjacent or close therewith as Cu—Ta—O, in which ions supplied from the ion supply layer form a conduction path in the solid electrolyte layer thereby making it possible to store information by the level of the resistance and applying the electric pulse to change the resistance, in which the ion supply layer includes crystals having, for example, a compositional ratio of: Cu—Ta—O=1:2:6 and rewriting operation can be performed stably. | 10-01-2009 |
| 20090250680 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - With a high-speed nonvolatile phase change memory, reliability in respect of the number of refresh times is enhanced. In a memory cell forming area of a phase change memory using a MISFET as a transistor for selection of memory cells, a phase change material layer of a memory cell comprising a resistor element, using a phase change material, is formed for common use. As a result, variation in shape and a change in composition of the phase change material, caused by isolation of memory cell elements by etching, are reduced, thereby enhancing reliability of memory cells, in respect of the number of refresh times. | 10-08-2009 |
| 20090262574 | SEMICONDUCTOR DEVICE - A highly reliable large capacity phase change memory module is realized. A semiconductor device according to the present invention includes a memory array having a structure in which a storage layer using a chalcogenide material and a memory cell constituted of a diode are stacked, and an initialization condition and a rewriting condition are changed in accordance with the layer where a selected memory cell is located. A current mirror circuit is selected in accordance with an operation, and at the same time, the initialization condition and the rewriting condition (here, reset condition) are changed in accordance with the operation by a control mechanism of the reset current in a voltage selection circuit and a current mirror circuit. | 10-22-2009 |
| 20100010365 | Apparatus for analyzing brain wave - To increase intensity of the brain wave signal for detection. Provided is an apparatus for analyzing a brain wave which is installed on a vehicle comprising: a detection unit for detecting the brain wave signal, and separating and analyzing the detected brain wave signal; a discrimination unit for generating a control signal according to an intensity of the brain wave signal analyzed by the detection unit; a processing control unit for controlling subsequent processing according to a type of each of the plurality of control signals produced by the discrimination unit; at least one brain wave signal induction unit for generating a graphic inducing a predetermined type of the brain wave; and a display for displaying the generated graphic according to the received signal from the brain wave signal induction unit. | 01-14-2010 |
| 20100012917 | SEMICONDUCTOR DEVIC - On an insulating film ( | 01-21-2010 |
| 20100058127 | SEMICONDUCTOR DEVICE - To realize a fast and highly reliable phase-change memory system of low power consumption, a semiconductor device includes: a memory device which includes a first memory array having a first area including a plurality of first memory cells and a second area including a plurality of second memory cells; a controller coupled to the memory device to issue a command to the memory device; and a condition table for storing a plurality of trial writing conditions. The controller performs trial writing in the plurality of second memory cells a plurality of times based on the plurality of trial writing conditions stored in the condition table, and determines writing conditions in the plurality of first memory cells based on a result of the trial writing. The memory device performs writing in the plurality of first memory cells based on the writing conditions instructed from the controller. | 03-04-2010 |
| 20100096613 | SEMICONDUCTOR DEVICE - A phase change memory is formed of a plug buried within a through-hole in an insulating film formed on a semiconductor substrate, an interface layer formed on the insulating film in which the plug is buried, a recording layer formed of a chalcogenide layer formed on the interface layer, and an upper contact electrode formed on the recording layer. The recording layer storing information according to resistance value change is made of chalcogenide material containing indium in an amount range from 20 atomic % to 38 atomic %, germanium in a range from 9 atomic % to 28 atomic %, antimony in a range from 3 atomic % to 18 atomic %, and tellurium in a range from 42 atomic % to 63 atomic %, where the content of germanium larger than or equal to the content of antimony. | 04-22-2010 |
| 20100171087 | SEMICONDUCTOR DEVICE AND PROCESS FOR PRODUCING THE SAME - In a semiconductor device including a phase change memory element whose memory layer is formed of a phase change material of M (additive element)-Ge (germanium)-Sb (antimony)-Te (tellurium), both of high heat resistance and stable data retention property are achieved. The memory layer has a fine structure with a different composition ratio therein, and an average composition of M | 07-08-2010 |
| 20100188877 | Storage device - The object of the invention is to avoid an unselected data line being driven in a memory array composed of memory cells each of which uses a storage element depending upon variable resistance and a selection transistor when the selection transistors in all memory cells on a selected word line conduct. To achieve the object, a source line parallel to a data line is provided, a precharge circuit for equipotentially driving both and a circuit for selectively driving the source line are arranged. Owing to this configuration, a current path is created in only a cell selected by a row decoder and a column decoder and a read-out signal can be generated. Therefore, a lower-power, lower-noise and more highly integrated nonvolatile memory such as a phase change memory can be realized, compared with a conventional type. | 07-29-2010 |
| 20110049454 | SEMICONDUCTOR DEVICE - In a phase-change memory, an interface layer is inserted between a chalcogenide material layer and a plug. The interface layer is arranged so as not to cover the entire interface of a plug-like electrode. When the plug is formed at an upper part than the chalcogenide layer, the degree of integration is increased. The interface layer is formed by carrying out sputtering using an oxide target, or, by forming a metal film by carrying out sputtering using a metal target followed by oxidizing the metal film in an oxidation atmosphere such as oxygen radical, oxygen plasma, etc. | 03-03-2011 |
| 20110110150 | SEMICONDUCTOR DEVICE - A highly reliable large capacity phase change memory module is realized. A semiconductor device according to the present invention includes a memory array having a structure in which a storage layer using a chalcogenide material and a memory cell constituted of a diode are stacked, and an initialization condition and a rewriting condition are changed in accordance with the layer where a selected memory cell is located. A current mirror circuit is selected in accordance with an operation, and at the same time, the initialization condition and the rewriting condition (here, reset condition) are changed in accordance with the operation by a control mechanism of the reset current in a voltage selection circuit and a current mirror circuit. | 05-12-2011 |
