| Patent application number | Description | Published |
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| 20090095949 | Low Area Contact Phase-Change Memory - A memory device includes a first electrode and a second electrode. A phase-change material is disposed between the first and second electrodes. The phase-change material is in electrical communication with the first and second electrodes at a first contact region and a second contact region respectively. The first and second contact regions are similar in contact area. The device enables scaling of reset current to smaller dimensions without encountering a limitation imposed by an offset current. | 04-16-2009 |
| 20090095951 | Memory Device With Low Reset Current - An electronic device includes a first electrode and a second electrode. The device also includes a resistive material between the first and second electrodes. An active material is between the first electrode and the resistive material. The active material is in electrical communication with the first electrode and the active material is in electrical communication with the second electrode through the resistive layer. | 04-16-2009 |
| 20090298222 | Method for manufacturing Chalcogenide devices - A method of chalcogenide device formation includes treatment of the surface upon which the chalcogenide material is deposited. The treatment reduces or eliminates native oxides and other contaminants from the surface, thereby increasing the adhesion of the chalcogenide layer to the treated surface, eliminating voids between the chalcogenide layer and deposition surface and reducing the degradation of chalcogenide material due to the migration of contaminants into the chalcogenide. | 12-03-2009 |
| 20100182827 | High Margin Multilevel Phase-Change Memory via Pulse Width Programming - An electronic device and method of programming for binary and multilevel memory operation. The active material of the device is a phase-change material. The method includes utilization of the pulse duration of electrical pulses as a programming variable to program a phase-change device to two or more memory states that differ in the relative proportion and/or spatial arrangement of crystalline and amorphous phase regions. Pulse width programming, in conjunction with a device electrical contact having a resistivity within a particular range, enables fine control over the crystalline-amorphous phase-change process by facilitating control over the spatial distribution of thermal energy produced by Joule heating. The degree of control over the phase-change process enables reliable multilevel memory operation by providing for reproducible programming of memory states that are well-resolved in both resistance and programming variable. | 07-22-2010 |
| 20110070715 | MANUFACTURING A PHASE CHANGE MEMORY DEVICE HAVING A RING HEATER - A ring shaped heater surrounds a chalcogenide region along the length of a cylindrical solid phase portion thereof defining a change phase memory element. The chalcogenide region is formed in a sub-lithographic pore, so that a relatively compact structure is achieved. Furthermore, the ring contact between the heater and the cylindrical solid phase portion results in a more gradual transition of resistance versus programming current, enabling multilevel memories to be formed. | 03-24-2011 |
| Patent application number | Description | Published |
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| 20080203376 | Phase change memories with improved programming characteristics - A phase change memory may be made with improved speed and stable characteristics over extended cycling. The alloy may be selected by looking at alloys that become stuck in either the set or the reset state and finding a median or intermediate composition that achieves better cycling performance. Such alloys may also experience faster programming and may have set and reset programming speeds that are substantially similar. | 08-28-2008 |
| 20080273372 | Method of Programming Multi-Layer Chalcogenide Devices - A method of programming a multi-layer chalcogenide electronic device. The device includes an active region in electrical communication with two terminals, where the active region includes two or more layers. The method includes providing an electrical signal between the two terminals, where the electrical signal alters an electrical characteristic of a layer remote from one of the terminals. In one embodiment, the layer remote from the terminal is a chalcogenide material and the electrical characteristic is resistance. In another embodiment, an electrical characteristic of the layer in contact with the terminal is also altered. The alteration of an electrical characteristic may be caused by a transformation of a chalcogenide material from one structural state to another structural state. | 11-06-2008 |
| 20090057645 | Memory element with improved contacts - A phase-change memory element comprising a phase-change memory material, a first electrical contact and a second electrical contact. At least one of the electrical contacts having a sidewall electrically coupled to the memory material. | 03-05-2009 |
| 20090109737 | Method of restoring variable resistance memory device - Methods of programming a phase-change memory device that remedy device failure. The methods includes applying a sequence of two or more electrical energy pulses to the device, where the sequence of pulses includes positive polarity pulses and negative polarity pulses. In one method, two or more pulses of an initial polarity are applied and are followed by one or more pulses having opposite polarity. In another method, pulses of an initial polarity are repeatedly applied until the device fails and one or more pulses of opposite polarity are subsequently applied to restore the device to its initial performance. The pulses may be set pulses, reset pulses, or pulses that produce programmed states having a resistance intermediate between the set resistance and reset resistance of the device. | 04-30-2009 |
| 20090142882 | Phase Change Memories With Improved Programming Characteristics - A phase change memory may be made with improved speed and stable characteristics over extended cycling. The alloy may be selected by looking at alloys that become stuck in either the set or the reset state and finding a median or intermediate composition that achieves better cycling performance. Such alloys may also experience faster programming and may have set and reset programming speeds that are substantially similar. | 06-04-2009 |
| 20090244962 | Immunity of phase change material to disturb in the amorphous phase - Disturb from the reset to the set state may be reduced by creating an amorphous phase that is substantially free of crystal nuclei when programming the reset state in a phase change memory. In some embodiments, this can be achieved by using a current or a voltage to program that exceeds the threshold voltage of the phase change memory element, but does not exceed a safe current voltage which would cause a disturb. | 10-01-2009 |
| 20100321991 | Chalcogenide Devices Exhibiting Stable Operation from the As-Fabricated State - A chalcogenide material and chalcogenide memory device having less stringent requirements for formation, improved thermal stability and/or faster operation. The chalcogenide materials include materials comprising Ge, Sb and Te in which the Ge and/or Te content is lean relative to the commonly used Ge | 12-23-2010 |
