Patent application number | Description | Published |
20100118583 | MAGETIC SHIFT REGISTER AND DATA ACCESSING METHOD - A magnetic shift register memory includes at least a magnetic memory track, in which multiple domain walls separate the memory track into multiple magnetic domains to serve as magnetic memory cells. A fixed number of the magnetic memory cells forms a memory unit to store a burst data. A read/write device is implemented between the memory units to read or write the burst data to the magnetic memory cells passing the read/write device. A flag unit records a flag value for each memory track or each memory unit to indicate whether the burst data is located at a first side or a second side of the read/write device. A current unit provides an operation current to the magnetic memory track according to the flag value to move the domain walls to pass the read/write device. After the read/write device reads or writes the burst data, the flag value is updated. | 05-13-2010 |
20110090730 | MAGNETIC MEMORY STRUCTURE AND OPERATION METHOD - A magnetic memory structure includes a memory track which has consecutive magnetic domains. Each of the magnetic domains has memory capacity of one bit. A first domain-wall injecting layer intersects and connects a terminal of the memory track and constantly stores a first binary data. A second domain-wall injecting layer against the first domain-wall injecting layer intersects and connects the terminal of the memory track and constantly stores a second binary data different from the first binary data. The memory track and one of the first domain-wall injecting layer and the second domain-wall injecting layer together form a domain wall. | 04-21-2011 |
20110157955 | MAGNETIC SHIFT REGISTER MEMORY - A magnetic shift register memory includes a magnetic track and a reference magnetic region. The magnetic track has multiple magnetic domains. Each of the magnetic domains stores one bit data. One end of the magnetic domains is set with a first data injection domain for storing a first data, and a second data injection domain is located adjacent to the first data injection domain. The reference magnetic region corresponding to the second data injection region is implemented at a side of the magnetic track for storing a second data. | 06-30-2011 |
20130033917 | READER FOR MAGNETIC SHIFT REGISTER - A reader for magnetic shift register is provided. The reader includes a magnetic reference layer, a tunneling layer, a magnetic canceling layer and an isolated layer. The magnetic reference layer and the magnetic canceling layer are respectively configured at different sides of a magnetic track for providing anti-parallel magnetic fields. The magnetic reference layer overlaps the magnetic canceling layer in a perpendicular direction of the magnetic track. The magnetic reference layer electrically connects to a readout circuit. The magnetic canceling layer is floating. The tunneling layer is configured between the magnetic reference layer and the magnetic track for providing a magnetic tunnel junction (MTJ). The isolated layer is configured between the magnetic canceling layer and the magnetic track for avoiding a current in the magnetic track from tunneling to the magnetic canceling layer. | 02-07-2013 |
20130168786 | MAGNETIC SHIFT REGISTER WITH PINNING STRUCTURE - A magnetic shift register includes a first supporting layer, a second supporting layer, a first pinning material layer, and at least one magnetic memory track. The first supporting layer has trenches on a first surface extending along a first direction. The second supporting layer is filled in the trenches, wherein the first support layer and the second support layer have at least a portion substantially equal in height. The first pinning material layer is disposed between the first supporting layer and the second supporting layer, wherein a plurality of end surfaces of the first pinning material layer are exposed on the first surface. The magnetic memory track extending along a second direction on the first surface is disposed over the first support layer, the first pinning material layer, and the second support layer, wherein the second direction is not the same or perpendicular to the first direction. | 07-04-2013 |
20130168787 | MAGNETIC SENSOR - A magnetic sensor suitable for sensing an external magnetic field includes a magnetic tunnel junction (MTJ) device. The MTJ device is used to sense an out-of-plane (Z-axis) component of the external magnetic field at a perpendicular direction to the MTJ device. The MTJ device includes a first pinned magnetic layer, a tunnel layer and a magnetic sensing layer. The first pinned magnetic layer has a pinned magnetization perpendicular to the first pinned magnetic layer. The tunnel layer is disposed on the first pinned magnetic layer. The magnetic sensing layer is disposed on the tunnel layer. The magnetic sensing layer has a critical thickness to be at a superparamagnetic range, in which an out-of-plane (Z-axis) magnetic sensitivity is larger than an in-plane (X-axis, Y-axis) magnetic sensitivity. The first pinned magnetic layer, the tunnel layer and the magnetic sensing layer are stacked in a forward sequence or a reverse sequence. | 07-04-2013 |
20130168788 | TUNNELING MAGNETO-RESISTOR REFERENCE UNIT AND MAGNETIC FIELD SENSING CIRCUIT USING THE SAME - A tunneling magneto-resistor reference unit for sensing a magnetic field includes a first MTJ (magnetic tunneling junction) device and a second MTJ device connected in parallel. The first MTJ device has a first pinned layer having a first pinned magnetization at a pinned direction, and a first free layer having a first free magnetization parallel to the pinned direction in a zero magnetic field. The second MTJ device has a second pinned layer having a second pinned magnetization at the pinned direction, and a second free layer having a second free magnetization anti-parallel to the pinned direction in a zero magnetic field. Major axes of the first and second MTJ devices have an angle of 45 degrees to a direction of an external magnetic field when sensed. | 07-04-2013 |
20130207209 | TOP-PINNED MAGNETIC TUNNEL JUNCTION DEVICE WITH PERPENDICULAR MAGNETIZATION - A top-pinned magnetic tunnel junction device with perpendicular magnetization, including a bottom electrode, a non-ferromagnetic spacer, a free layer, a tunneling barrier, a synthetic antiferromagnetic reference layer and a top electrode, is provided. The non-ferromagnetic spacer is located on the bottom electrode. The free layer is located on the non-ferromagnetic spacer. The tunnel insulator is located on the free layer. The synthetic antiferromagnetic reference layer is located on the tunneling barrier. The synthetic antiferromagnetic reference layer includes a top reference layer located on the tunneling barrier, a middle reference layer located on the bottom reference layer and a bottom reference layer located on the tunneling barrier. The magnetization of the top reference layer is larger than that of the bottom reference layer. The top electrode is located on the synthetic antiferromagnetic reference layer. | 08-15-2013 |
20140001586 | PERPENDICULARLY MAGNETIZED MAGNETIC TUNNEL JUNCTION DEVICE | 01-02-2014 |
20140048895 | Magnetic Tunnel Junction Device - A magnetic tunnel junction (MTJ) device includes a reference layer having a surface, a tunnel insulating layer formed over the surface of the reference layer, and a free layer formed over the tunnel insulating layer. A magnetization direction in each of the reference layer and the free layer is substantially perpendicular to the surface. A dimension of the reference layer in a horizontal direction substantially parallel to the surface is larger than a dimension of the free layer in the horizontal direction. | 02-20-2014 |
20140048896 | Magnetic Tunnel Junction Device And Method Of Making Same - A magnetic tunnel junction (MTJ) device includes a reference layer having a surface, a tunnel insulating layer formed over the surface of the reference layer, a free layer formed over the tunnel insulating layer, and a magnetic field providing layer formed over the free layer. A magnetization direction in each of the reference layer and the free layer is substantially perpendicular to the surface. The magnetic field providing layer is configured to provide a lateral magnetic field in the free layer, the lateral magnetic field being substantially parallel to the surface. | 02-20-2014 |
20140145277 | MAGNETIC DEVICE - A magnetic device includes a substrate, a sensing block and a repair layer. The substrate has a registration layer and a barrier layer disposed on the registration layer. The sensing block is patterned to distribute on the barrier layer. The repair layer is disposed substantially on the barrier layer, wherein the barrier layer is configured to have a tunneling effect when a bias voltage exists between the sensing block and the registration layer. | 05-29-2014 |
20140361391 | MAGNETIC TUNNEL JUNCTION DEVICE WITH PERPENDICULAR MAGNETIZATION AND METHOD OF FABRICATING THE SAME - A magnetic tunnel junction device with perpendicular magnetization including a reference layer, a tunneling dielectric layer, a free layer and a capping layer is provided. The tunneling dielectric layer covers on the reference layer. The free layer covers on the tunneling dielectric layer. The capping layer is consisted of magnesium, aluminum and oxygen, and disposed on the free layer. | 12-11-2014 |
20150076634 | MAGNETIC DEVICE WITH A SUBSTRATE, A SENSING BLOCK AND A REPAIR LAYER - A magnetic device includes a substrate, a sensing block and a repair layer. The substrate has a bottom electrode, a registration layer and a barrier layer disposed on the registration layer. The sensing block is patterned to distribute on the barrier layer. The repair layer is disposed substantially on the barrier layer, wherein the barrier layer is configured to have a tunneling effect when a bias voltage exists between the sensing block and the registration layer. | 03-19-2015 |