Patent application number | Description | Published |
20080239794 | Magnetoresistive random access memory device with small-angle toggle write lines - Disclosed herein are toggle-mode magnetoresistive random access memory (MRAM) devices having small-angle toggle write lines, and related methods of toggle-mode switching MRAM devices. Also disclosed are layouts for MRAM devices constructed according to the disclosed principles. Generally speaking, the disclosed principles provide for non-orthogonally aligned toggle-mode write lines used to switch toggle-mode MRAM devices that employ a bias field to decrease the threshold needed to switch the magnetic state of each device. While the conventional toggle-mode write lines provide for the desired orthogonal orientation of the applied magnetic fields to optimize device switching, the use of a bias field affects this orthogonal orientation. By non-orthogonally aligning the two write lines as disclosed herein, the detrimental affect of the bias field may be compensated for such that the net fields applied to the device for both lines are again substantially orthogonal, as is desired. | 10-02-2008 |
20080242071 | METHOD FOR PASSIVATING GATE DIELECTRIC FILMS - The present disclosure provides a method of fabricating a semiconductor device. The method includes providing a semiconductor substrate, forming a dielectric layer over the semiconductor substrate, treating the dielectric layer with a carbon containing group, forming a conductive layer over the treated dielectric layer, and patterning and etching the dielectric layer and conductive layer to form a gate structure. The carbon containing group includes an OCH | 10-02-2008 |
20080266931 | Resistive memory device having enhanced resist ratio and method of manufacturing same - Disclosed herein are new resistive memory devices having one or more buffers layer surrounding a dielectric layer. By inserting one or more buffer layers around the dielectric layer of the device, the resistive ratio of the device is highly enhanced. For example, tests using this unique stack structure have revealed a resistance ratio of approximately 1000× over conventional electrode-dielectric-electrode stack structures found in resistive memory devices. This improvement in the resistance ratio of the resistive memory device is believed to be from the improved interface coherence, and thus smoother topography, between the buffer layer(s) and the dielectric layer. | 10-30-2008 |
20080310214 | DEVICE AND METHOD OF PROGRAMMING A MAGNETIC MEMORY ELEMENT - Thus, the present disclosure provides a method of programming a memory array. At least one memory cell including a magnetic element is provided. At least one current source coupled to the magnetic element is provided. A unipolar current is supplied from the at least one current source to the magnetic element at a plurality of non-zero current levels. | 12-18-2008 |
20090086530 | System and method for reading multiple magnetic tunnel junctions with a single select transistor - A method for reading two or more magnetic tunnel junctions (MTJs) which are serially connected with a select transistor to form a memory string, the method comprises turning on the select transistor, measuring a first resistance of the memory string, storing the first resistance, toggling a predetermined one of the MTJs, measuring a second resistance of the memory string after the toggling, toggling back the predetermined one of the MTJs and comparing the first and second resistances with a plurality of predetermined resistance values, wherein the comparison result leads to a determination of the data stored in the MTJs. | 04-02-2009 |
20100013020 | Semiconductor device with semi-insulating substrate portions - A semiconductor substrate includes semi-insulating portions beneath openings in a patterned hardmask film formed over a semiconductor substructure to a thickness sufficient to prevent charged particles from passing through the hardmask. The semi-insulating portions include charged particles and may extend deep into the semiconductor substrate and electrically insulate devices formed on opposed sides of the semi-insulating portions. The charged particles may advantageously be protons and further substrate portions covered by the patterned hardmask film are substantially free of the charged particles. | 01-21-2010 |
20110059590 | METHOD FOR FORMING A REDUCED ACTIVE AREA IN A PHASE CHANGE MEMORY STRUCTURE - A phase change memory structure and method for forming the same, the method including providing a substrate comprising a conductive area; forming a spacer having a partially exposed sidewall region at an upper portion of the spacer defining a phase change memory element contact area; and, wherein the spacer bottom portion partially overlaps the conductive area. Both these two methods can reduce active area of a phase change memory element, therefore, reducing a required phase changing electrical current. | 03-10-2011 |
Patent application number | Description | Published |
20080291720 | SPIN TORQUE TRANSFER MRAM DEVICE - The present disclosure provides a magnetic memory element. The memory element includes a magnetic tunnel junction (MTJ) element and an electrode. The electrode includes a pinning layer, a pinned layer, and a non-magnetic conductive layer. In one embodiment, the MTJ element includes a first surface having a first surface area, and the electrode includes a second surface. In the embodiment, the second surface of the electrode is coupled to the first surface of the MTJ element such that an interface area is formed and the interface area is less than the first surface area. | 11-27-2008 |
20090290410 | SPIN TORQUE TRANSFER MRAM DEVICE - The present disclosure provides a magnetic memory element. The memory element includes a magnetic tunnel junction (MTJ) element and an electrode. The electrode includes a pinning layer, a pinned layer, and a non-magnetic conductive layer. In one embodiment, the MTJ element includes a first surface having a first surface area, and the electrode includes a second surface. In the embodiment, the second surface of the electrode is coupled to the first surface of the MTJ element such that an interface area is formed and the interface area is less than the first surface area. | 11-26-2009 |
20100118603 | DEVICE AND METHOD OF PROGRAMMING A MAGNETIC MEMORY ELEMENT - The present disclosure provides a non-volatile memory device. A memory device includes a first magnetic element having a fixed magnetization. The memory device also includes a second magnetic element having a non-fixed magnetization. The memory device further includes a barrier layer between the first and second magnetic elements. A unidirectional current source is electrically coupled to the first and second magnetic elements. The current source is configured to provide a first current to the first and second memory elements. The first current has a first current density and is in a first direction. The current source is also configured to provide a second current to the first and second magnetic elements. The second current has a second current density, different than the first current density, and is in the first direction. The first and second currents cause the non-fixed magnetization of the second magnetic element to toggle between substantially parallel to the fixed magnetization of the first magnetic element and between substantially antiparallel to the fixed magnetization of the first magnetic element. | 05-13-2010 |