| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 365130000 | Three-dimensional magnetic array | 7 |
| 20090154219 | THREE-DIMENSIONAL MAGNETIC MEMORY WITH MULTI-LAYER DATA STORAGE LAYERS - Magnetic memories and methods are disclosed. A magnetic memory as described herein includes a plurality of stacked data storage layers to form a three-dimensional magnetic memory. The data storage layers are each formed from a multi-layer structure. At ambient temperatures, the multi-layer structures exhibit an antiparallel coupling state with a near zero net magnetic moment. At higher transition temperatures, the multi-layer structures transition from the antiparallel coupling state to a parallel coupling state with a net magnetic moment. At yet higher temperatures, the multi-layer structure transitions from the antiparallel coupling state to a receiving state where the coercivity of the multi-layer structures drops below a particular level so that magnetic fields from write elements or neighboring data storage layers may imprint data into the data storage layer. | 06-18-2009 |
| 20110141792 | READ/WRITE STRUCTURES FOR A THREE DIMENSIONAL MEMORY - Read/write structures for three-dimensional memories are disclosed. In one embodiment, a three-dimensional memory includes a plurality of data storage layers fabricated in parallel on top of one another to form a three-dimensional structure. Each data storage layer is able to store bits of data in the form of magnetic domains. The memory further includes a column of write elements that is operable to write a column of magnetic domains to the first data storage layer representing a column of bits. The first data storage layer is patterned into a plurality of magnetic conductors aligned transverse to the column of write elements. A control system may inject spin-polarized current pulses in the magnetic conductors to transfer the column of magnetic domains laterally within the first data storage layer. The control system may transfer of the column of magnetic domains perpendicularly from the first data storage layer to another data storage layer. | 06-16-2011 |
| 20100002487 | THREE-DIMENSIONAL MAGNETIC MEMORY - Magnetic memories and methods are disclosed. A magnetic memory as described herein includes a plurality of stacked data storage layers to form a three-dimensional magnetic memory. Bits may be written to a data storage layer in the form of magnetic domains. The bits can then be transferred between the stacked data storage layers by heating a neighboring data storage layer, which allows the magnetic fields from the magnetic domains to imprint the magnetic domains in the neighboring data storage layer. By imprinting the magnetic domains into the neighboring data storage layer, the bits are copied from one data storage layer to another. | 01-07-2010 |
| 20100118585 | HIGH DENSITY SPIN TORQUE THREE DIMENSIONAL (3D) MEMORY ARRAYS ADDRESSED WITH MICROWAVE CURRENT - One embodiment of the present invention includes a three dimensional memory array having a plurality of memory elements coupled to form the array through a single top lead and a single bottom lead, each memory element including a magnetic free layer in which non-volatile data can be stored, wherein each memory element possesses unique resonant frequencies associated with each digital memory state, thereby enabling frequency addressing during parallel write and read operations, each memory element further including a fixed layer and a spacer formed between the free layer and the fixed layer. | 05-13-2010 |
| 20100039849 | READ/WRITE ELEMENTS FOR A THREE-DIMENSIONAL MAGNETIC MEMORY - Read/write elements for three-dimensional magnetic memories are disclosed. One embodiment describes an array of integrated read/write elements. The array includes read conductors formed proximate to one of the layers (i.e., storage stacks) of the three-dimensional magnetic memory. The array also includes flux caps formed proximate to the read conductors, and read sensors formed proximate to the flux caps. The array also includes a magnetic pole having a first end contacting the read sensor and a second end opposite the first end. First write conductors are fabricated between the magnetic poles, and second write conductors are also fabricated between the magnetic poles orthogonal to the first write conductors. The first write conductors and the second write conductors form current loops around the magnetic poles. | 02-18-2010 |
| 20110149632 | MULTILEVEL FREQUENCY ADDRESSABLE FIELD DRIVEN MRAM - A three-dimensional nonvolatile memory array device includes a plurality of memory elements and a memory controller. The plurality of memory elements each have a stack of a plurality of bits, which in turn each include a magnetic free layer, a magnetic pinned layer, and a non-magnetic layer. The magnetic free layer is configured to alternate its magnetization orientation based on a radio frequency current being at a resonant frequency of the magnetic free layer and on a magnetic field being applied to the magnetic free layer. The magnetic pinned layer has a specific magnetization orientation. The non-magnetic layer is located in between the magnetic free layer and the magnetic pinned layer. The memory controller is in communication with each of the plurality of memory elements, and configured to write data to and read data from the plurality of bits in the memory elements. | 06-23-2011 |
| 20080205116 | THREE-DIMENSIONAL MAGNETIC MEMORY - Magnetic memories and methods are disclosed. A magnetic memory as described herein includes a plurality of stacked data storage layers to form a three-dimensional magnetic memory. Bits may be written to a data storage layer in the form of magnetic domains. The bits can then be transferred between the stacked data storage layers by heating a neighboring data storage layer, which allows the magnetic fields from the magnetic domains to imprint the magnetic domains in the neighboring data storage layer. By imprinting the magnetic domains into the neighboring data storage layer, the bits are copied from one data storage layer to another. | 08-28-2008 |
