Patent application number | Description | Published |
20090154222 | OPERATION METHOD FOR MULTI-LEVEL SWITCHING OF METAL-OXIDE BASED RRAM - Memory devices and methods for operating such devices are described herein. A method as described herein for operating a memory device includes applying a sequence of bias arrangements across a selected metal-oxide memory element to change the resistance state from a first resistance state in a plurality of resistance states to a second resistance state in the plurality of resistance states. The sequence of bias arrangements comprise a first set of one or more pulses to change the resistance state of the selected metal-oxide memory element from the first resistance state to a third resistance state, and a second set of one or more pulses to change the resistance state of the selected metal-oxide memory element from the third resistance state to the second resistance state. | 06-18-2009 |
20090212274 | PHASE CHANGE MEMORY RANDOM ACCESS DEVICE USING SINGLE-ELEMENT PHASE CHANGE MATERIAL - A phase change memory cell with a single element phase change thin film layer; and a first electrode and a second electrode coupled to the single element phase change thin film layer. A current flows from the first electrode to the single element phase change thin film layer, and through to the second electrode. The single element phase change thin film layer includes a single element phase change material. The single element phase change thin film layer can be less than 5 nanometers thick. The temperature of crystallization of the single element phase change material can be controlled by its thickness. In one embodiment, the single element phase change thin film layer is configured to be amorphous at room temperature (25 degrees Celsius). In one embodiment, the single element phase change thin film layer is comprised of Antimony (Sb). | 08-27-2009 |
20090279343 | OPERATING METHOD OF ELECTRICAL PULSE VOLTAGE FOR RRAM APPLICATION - Metal-oxide based memory devices and methods for operating and manufacturing such devices are described herein. A method for manufacturing a memory device as described herein comprises forming a metal-oxide memory element, and applying an activating energy to the metal-oxide memory element. In embodiments the activating energy can be applied by applying electrical and/or thermal energy to the metal-oxide material. | 11-12-2009 |
20100144128 | Phase Change Memory Cell and Manufacturing Method - A phase change memory cell includes first and second electrodes electrically coupled by a phase change element. At least a section of the phase change element comprises a higher reset transition temperature portion and a lower reset transition temperature portion. The lower reset transition temperature portion comprises a phase change region which can be transitioned, by the passage of electrical current therethrough, from generally crystalline to generally amorphous states at a lower temperature than the higher reset transition temperature portion. The phase change element may comprise an outer, generally tubular, higher reset transition temperature portion surrounding an inner, lower reset transition temperature portion. | 06-10-2010 |
20100177559 | METHOD FOR SETTING PCRAM DEVICES - Memory devices and methods for operating such devices are described herein. A method as described herein includes applying a bias arrangement to a memory cell to change the resistance state from a higher resistance state to a lower resistance state. The bias arrangement comprises a first voltage pulse and a second voltage pulse across the phase change memory element, the second voltage pulse having a voltage polarity different from that of the first voltage pulse. | 07-15-2010 |
20110175050 | Metal Oxide Resistance Based Semiconductor Memory Device With High Work Function Electrode - Various aspect are directed to a memory device or memory cell with a metal-oxide memory element arranged in electrical series along a current path between at least a first electrode, a metal-oxide memory element adjacent to the first electrode, and a second electrode. The first electrode comprises an electrode material having a first work function. The metal-oxide memory element comprises a metal-oxide material having a second work function. The first work function is greater than the second work function. Thermionic emission characterizes the current through this memory. | 07-21-2011 |
20110317471 | Nonvolatile stacked nand memory - A memory cell is arranged to enhance the electrical field of the memory element. The memory cell has a metal-oxide memory element, a nonconductive element, and a conductive element. The metal-oxide memory element is in a current path between a first electrode at a first voltage and a second electrode at a second voltage. The nonconductive element is adjacent to the metal-oxide memory element. | 12-29-2011 |
20120016472 | Color Tactile Vision System - A tactile display writer unit includes a probe having a contact tip, and at least a first actuator and a second actuator coupled to the probe, whereby activation of the actuators results in a displacement of the probe tip in one or more of a z-direction and in a lateral direction having a vector in an x-y plane. Also, a display writer includes a plurality of such units supported in an x-y array. The writer units may have a third actuator coupled to the probe. Also, a tactile vision system includes such a display writer, an image processor, and an image sensor. The processor transforms RGB image information from the image sensor into hue-based information having two or more attributes; and the actuators in the tactile display writer are activated by the information attributes. Also, a method for producing a tactile color stimulus at a site on the skin of a subject includes providing a probe having a contact tip; displacing the tip at the contact site in a direction generally normal to the skin surface at the site to an extent that relates one attribute of a hue-based model of the color, and displacing the tip in at least one lateral direction generally in a plane parallel to the skin surface at the site to an extent that relates to at least one additional attribute of the color. | 01-19-2012 |
20130346673 | METHOD FOR IMPROVING FLASH MEMORY STORAGE DEVICE ACCESS - A method for improving flash memory storage device access is disclosed. The steps of the method comprises requesting to read/write data of logical address by a host; setting up an engine by a CPU; looking up physical address and updating at least one table stored in at least one flash memory by the engine; and reading/writing data from/to the at least one flash memory. Thereby, the engine is accessing the data from each table in parallel to significantly reduce the total operation time. | 12-26-2013 |