| Patent application number | Description | Published |
|---|
| 20090135644 | Magnetoresistive Element and Magnetic Random Access Memory - A magnetoresistive element includes a free layer a pinned layer; a nonmagnetic layer interposed between the free layer and the pinned layer; and two magnetic layers arranged adjacent to the free layer on an opposite side to the pinned layer. The free layer includes: a first magnetic layer, a second magnetic layer, and a first nonmagnetic layer interposed between the first magnetic layer and the second magnetic layer. Magnetization of the first magnetic layer and magnetization of the second magnetic layer are antiferromagnetically coupled. One of the two magnetic layers is in contact with one end of the free layer in a long-axis direction, and the other of the two magnetic layers is in contact with the other end of the free layer in the long-axis direction. | 05-28-2009 |
| 20100182824 | MAGNETIC RANDOM ACCESS MEMORY - An MRAM according to the present invention has: a memory cell array; a first word line and a second word line each connected to a group of memory cells arranged in a first direction; a plurality of blocks arranged in a matrix form; a common word line connected to a group of blocks arranged in the first direction; and a bit line pair connected to a group of blocks arranged in a second direction. Each block has a plurality of memory cells, and each memory cell has a first transistor and a magnetoresistance element. Each block further has a second transistor to which the plurality of memory cells are connected in parallel. A gate of the second transistor is connected to the common word line. A gate of the first transistor is connected to the first word line. One of source/drain of the first transistor is connected to the first bit line, and the other thereof is connected to one end of the magnetoresistance element and connected to the second bit line through the second transistor. The other end of the magnetoresistance element is connected to the second word line. | 07-22-2010 |
| 20100238719 | MAGNETIC RANDOM ACCESS MEMORY AND OPERATING METHOD OF THE SAME - A MRAM includes: first and second bit lines provided to extend in a first direction; a storage block including at least one magnetroresistive element for storing data; and a reading circuit. The reading circuit includes a first terminal electrically connected to the first bit line, and a second terminal electrically connected to the second bit line. The second terminal has a high impedance preventing a steady-state current from flowing into at a time of a reading operation. The reading circuit supplies a reading current from the first terminal to the first bit line at the time of the reading operation. The storage block is configured such that the reading current flows from the first bit line to the magnetroresistive element and the magnetroresistive element is connected to the second bit line at the time of the reading operation. The reading circuit controls the reading current on the basis of a voltage applied to the second terminal through the second bit line. | 09-23-2010 |
| 20100265760 | NONVOLATILE LATCH CIRCUIT AND LOGIC CIRCUIT USING THE SAME - A nonvolatile latch circuit includes: a latch circuit; a first magnetoresistance element and a second magnetoresistance element; and a current supply portion. The latch circuit temporarily holds data. Each of the first magnetoresistance element and the second magnetoresistance element includes a first magnetic layer and a second magnetic layer that are stacked with an insulating film sandwiched therebetween. The current supply portion complementarily changes magnetization states of the first magnetoresistance element and the second magnetoresistance element based on a state of the latch circuit. The first magnetic layer of the first magnetoresistance element and the first magnetic layer of the second magnetoresistance element are series-connected to each other in. The latch circuit has a function that brings data corresponding to the magnetization states to data held by the latch circuit. | 10-21-2010 |
| 20100271866 | NONVOLATILE LATCH CIRCUIT - A nonvolatile latch circuit includes: first and second inverters cross-coupled to hold 1-bit data; first and second magnetoresistive elements each having first to third terminals; and a current supply circuitry configured to supply a magnetization reversal current for changing the magnetization states of the first and second maqnetoresistive elements in response to the 1-bit data. The power terminal of the first inverter is connected to the first terminal of the first magnetoresistive element and the power terminal of the second inverter is connected to the first terminal of the second magnetoresistive element. The current supply circuitry is configured to supply the magnetization reversal current to the second terminals of the first and second magnetoresistive elements. The third terminal of the first magnetoresistive element is electrically connected to the third terminal of the second magnetoresistive element. | 10-28-2010 |
| 20110016371 | SEMICONDUCTOR STORAGE DEVICE AND METHOD OF OPERATING THE SAME - Provided is an operation method which can be applied to a PRAM, an ReRAM, and a solid electrolyte memory which stores error correction codes, each of which comprises of symbols, each of which comprises bits, and which codes allow error correction in units of symbols. In the operation method, the respective symbols are read by using different reference cells | 01-20-2011 |
| 20110148458 | MAGNETORESISTIVE ELEMENT, LOGIC GATE AND METHOD OF OPERATING LOGIC GATE - A logic gate | 06-23-2011 |
