Patent application number | Description | Published |
20130258767 | PHASE-CHANGE MEMORY CELL - A phase-change memory cell includes a phase change material; a reference electrical terminal disposed on first side of the phase change material; first and second electrical terminals disposed on a second side of the phase change material; the phase-change material configured to be reversibly transformable between an amorphous phase and a crystalline phase, in response to a phase-altering electrical signal applied to the phase-change material via the reference electrical terminal and one or more of the first and second electrical terminals; a resistance measurement unit configured to measure a respective electrical resistance between each of the first and electrical terminals and the reference electrical terminal; and a mathematical operation unit configured to determine a mathematical relation between the respective electrical resistances measured between each of the electrical terminals and the reference electrical terminal. | 10-03-2013 |
20130322165 | PROGRAMMING OF GATED PHASE-CHANGE MEMORY CELLS - A method for programming gated phase-change memory cells, each with a gate, source and drain, having s≧2 programmable cell-states including an amorphous RESET state and at least one crystalline state includes applying a programming signal between the source and drain of a memory cell to program that cell to a desired cell-state; and when programming the cell from a crystalline state to the RESET state, applying a bias voltage to the gate of the cell to increase the cell resistance. | 12-05-2013 |
20130322166 | MEMORY APPARATUS WITH GATED PHASE-CHANGE MEMORY CELLS - A memory apparatus includes a plurality of gated phase-change memory cells having s≧2 programmable cell-states, the cells each having a gate and being arranged in series between a source and drain; a bias voltage generator configured to apply a bias voltage to the gate of each cell; and a controller configured to control the bias voltage generator, in a write operation for programming the state of a cell, to apply a first bias voltage to the gate of each cell except an addressed cell for the write operation, wherein application of the first bias voltage to a cell reduces the cell resistance such that application of a programming signal between the source and drain effects programming of the addressed cell only. | 12-05-2013 |
20130322167 | PROGRAMMING OF GATED PHASE-CHANGE MEMORY CELLS - A method for programming gated phase-change memory cells, each with a gate, source and drain, having s≧2 programmable cell-states including an amorphous RESET state and at least one crystalline state includes applying a programming signal between the source and drain of a memory cell to program that cell to a desired cell-state; and when programming the cell from a crystalline state to the RESET state, applying a bias voltage to the gate of the cell to increase the cell resistance. | 12-05-2013 |
20130322168 | MEMORY APPARATUS WITH GATED PHASE-CHANGE MEMORY CELLS - A memory apparatus includes a plurality of gated phase-change memory cells having s≧2 programmable cell-states, the cells each having a gate and being arranged in series between a source and drain; a bias voltage generator configured to apply a bias voltage to the gate of each cell; and a controller configured to control the bias voltage generator, in a write operation for programming the state of a cell, to apply a first bias voltage to the gate of each cell except an addressed cell for the write operation, wherein application of the first bias voltage to a cell reduces the cell resistance such that application of a programming signal between the source and drain effects programming of the addressed cell only. | 12-05-2013 |
20140061580 | SEMICONDUCTOR STACK INCORPORATING PHASE CHANGE MATERIAL - A semiconductor stack for performing at least a logic operation includes adjacent layers arranged in a stacked configuration with each layer comprising at least a phase-change memory cell in which a phase-change material is provided between a heater electrical terminal and at least two further heater electrical terminals, the phase-change material between the heater electrical terminal and each of the two further heater electrical terminals being operable in one of at least two reversibly transformable phases, an amorphous phase and a crystalline phase; wherein the semiconductor stack, when in use, is configurable to store information by way of an electrical resistance of the phase of the phase-change material between each heater electrical terminal and each of the two further heater electrical terminals in each layer, and the logic operation is performed on the basis of the information stored in the adjacent layers. | 03-06-2014 |
20140063932 | SEMICONDUCTOR STACK INCORPORATING PHASE CHANGE MATERIAL - A semiconductor stack for performing at least a logic operation includes adjacent layers arranged in a stacked configuration with each layer comprising at least a phase-change memory cell in which a phase-change material is provided between a heater electrical terminal and at least two further heater electrical terminals, the phase-change material between the heater electrical terminal and each of the two further heater electrical terminals being operable in one of at least two reversibly transformable phases, an amorphous phase and a crystalline phase; wherein the semiconductor stack, when in use, is configurable to store information by way of an electrical resistance of the phase of the phase-change material between each heater electrical terminal and each of the two further heater electrical terminals in each layer, and the logic operation is performed on the basis of the information stored in the adjacent layers. | 03-06-2014 |
Patent application number | Description | Published |
20140369113 | PHASE-CHANGE MEMORY CELLS - A phase-change memory cell for storing information in a plurality of programmable cell states. The memory cell includes: a phase-change material located between a first electrode and a second electrode for applying a read voltage to the phase-change material to read a programmed cell state; and an electrically-conductive component extending in a direction between the first and second electrodes in contact with the phase-change material and arranged to present, to a cell current produced by the read voltage, a lower-resistance current path than an amorphous phase of the phase-change material in any of the plurality of programmable cell states, said current path having a length dependent on a size of said amorphous phase, wherein a volume of the electrically-conductive component is greater than about half that of said phase-change material. | 12-18-2014 |
20140369114 | PHASE-CHANGE MEMORY CELLS - Improved phase-change memory cells are provided for storing information in a plurality of programmable cell states. A phase-change material is located between first and second electrodes for applying a read voltage to the phase-change material to read the programmed cell state. An electrically-conductive component extends from one electrode to the other in contact with the phase-change material. The resistance presented by this component to a cell current produced by the read voltage is less than that of the amorphous phase and greater than that of the crystalline phase of the phase-change material in any of the cell states. | 12-18-2014 |
20150060755 | NANODEVICE ASSEMBLIES - A semiconductor structure is described containing a deflector between a first nanoscale device and a second nanoscale device. The deflector is designed to deflect near-field radiation from emanating from the first nanoscale device to the second nanoscale device. In some embodiments, this may be accomplished using at least one nanoscale element located between the first and second nanoscale device, where the nanoscale element is tuned to the proper plasmon-polariton frequency to deflect the near field radiation. | 03-05-2015 |