Patent application number | Description | Published |
20100109085 | MEMORY DEVICE DESIGN - Memory elements and methods for making memory elements. One method of making a memory element includes forming a first electrode, forming an electrically conductive current densifying element and a memory cell on the first electrode, the memory cell and the current densifying element adjacent to each other. A second electrode is formed over the current densifying element and the memory cell. The memory elements may be resistance random access memory elements. | 05-06-2010 |
20100109107 | MAGNETIC STACK DESIGN WITH DECREASED SUBSTRATE STRESS - A magnetic element and a method for making a magnetic element. The method includes patterning a first electrode material to form a first electrode on a substrate and depositing filler material on the substrate around the first electrode. The method further includes polishing to form a planar surface of filler and the first electrode. A magnetic cell is formed on the planar surface and a second electrode is formed on the magnetic cell. In some embodiments, the first electrode has an area that is at least 2:1 to the area of the magnetic cell. | 05-06-2010 |
20100202191 | nvSRAM HAVING VARIABLE MAGNETIC RESISTORS - Non-volatile static random access memory (nvSRAM) that has a six transistor static random access memory (6T SRAM) cell electrically connected to a non-volatile random access memory (nvRAM) cell. The nvRAM cell has first and second variable magnetic resistors and first, second and third transistors. | 08-12-2010 |
20100327248 | CELL PATTERNING WITH MULTIPLE HARD MASKS - A method of making a memory cell or magnetic element by using two hard masks. The method includes first patterning a second hard mask to form a reduced second hard mask, with a first hard mask being an etch stop for the patterning process, and then patterning the first hard mask to form a reduced first hard mask by using the reduced second hard mask as a mask and using an etch stop layer as an etch stop. After patterning both hard masks, then patterning a functional layer by using the reduced first hard mask as a mask. In the resulting memory cell, the first hard mask layer is also a top lead, and the diameter of the first hard mask layer is at least essentially the same as the diameter of the etch stop layer, the adhesion layer, and the functional layer. | 12-30-2010 |
20110005920 | Low Temperature Deposition of Amorphous Thin Films - Various embodiments of the present invention are generally directed to an apparatus and method for low temperature physical vapor deposition (PVD) of an amorphous thin film layer of material onto a substrate. A PVD chamber is configured to support a substrate and has a cathode target with a layer of sputtering material thereon, an anode shield, and a magnetron assembly adjacent the target. A high impulse power magnetron sputtering (HiPIMS) power supply is coupled to the PVD chamber, the power supply having a charging circuit and a charge storage device. The power supply applies relatively high energy, low duty cycle pulses to the magnetron assembly to sputter, via self ionizing plasma, relatively low energy ions from the layer of sputtering material to deposit an amorphous thin film layer onto the substrate. | 01-13-2011 |
20110006275 | NON-VOLATILE RESISTIVE SENSE MEMORY - A resistive sense memory cell includes a layer of crystalline praseodymium calcium manganese oxide and a layer of amorphous praseodymium calcium manganese oxide disposed on the layer of crystalline praseodymium calcium manganese oxide forming a resistive sense memory stack. A first and second electrode are separated by the resistive sense memory stack. The resistive sense memory cell can further include an oxygen diffusion barrier layer separating the layer of crystalline praseodymium calcium manganese oxide from the layer of amorphous praseodymium calcium manganese oxide a layer. Methods include depositing an amorphous praseodymium calcium manganese oxide disposed on the layer of crystalline praseodymium calcium manganese oxide forming a resistive sense memory stack. | 01-13-2011 |
20110006377 | Patterning Embedded Control Lines for Vertically Stacked Semiconductor Elements - Various embodiments of the present invention are generally directed to an apparatus with embedded (bottom side) control lines for vertically stacked semiconductor elements, and a method for forming the same. In accordance with various embodiments, a first semiconductor wafer is provided with a first facing surface on which a first conductive layer is formed. The first semiconductor wafer is attached to a second semiconductor wafer to form a multi-wafer structure, the second semiconductor wafer having a second facing surface on which a second conductive wafer is formed. The first conductive layer is contactingly bonded to the second conductive layer to form an embedded combined conductive layer within said structure. Portions of the combined conductive layer are removed to form a plurality of spaced apart control lines that extend in a selected length or width dimension through said structure. | 01-13-2011 |
20110006436 | Conductive Via Plug Formation - Various embodiments of the present invention are generally directed to a method of forming a conductive via plug in a semiconductor device. A first and second metal layer are electrically connected by a via plug that is formed by depositing a tungsten seed layer on a plurality of metal barrier layers within a recess using atomic layer deposition. The recess is then filled with tungsten using chemical vapor deposition. | 01-13-2011 |
20110007552 | Active Protection Device for Resistive Random Access Memory (RRAM) Formation - Apparatus and method for providing overcurrent protection to a resistive random access memory (RRAM) cell during an RRAM formation process used to prepare the cell for normal read and write operations. In accordance with various embodiments, the RRAM cell is connected between a first control line and a second control line, and an active protection device (APD) is connected between the second control line and an electrical ground terminal. A formation current is applied through the RRAM cell, and an activation voltage is concurrently applied to the APD to maintain a maximum magnitude of the formation current below a predetermined threshold level | 01-13-2011 |
20120199915 | Patterning Embedded Control Lines for Vertically Stacked Semiconductor Elements - The present invention is generally directed to an apparatus with embedded (bottom side) control lines for vertically stacked semiconductor elements. In accordance with various embodiments, a first semiconductor wafer is provided with a first facing surface on which a first conductive layer is formed. The first semiconductor wafer is attached to a second semiconductor wafer to form a multi-wafer structure, the second semiconductor wafer having a second facing surface on which a second conductive wafer is formed. The first conductive layer is contactingly bonded to the second conductive layer to form an embedded combined conductive layer within said structure. Portions of the combined conductive layer are removed to form a plurality of spaced apart control lines that extend in a selected length or width dimension through said structure. | 08-09-2012 |
20120273744 | NON-VOLATILE RESISTIVE SENSE MEMORY WITH IMPROVED SWITCHING - A resistive sense memory cell includes a layer of crystalline praseodymium calcium manganese oxide and a layer of amorphous praseodymium calcium manganese oxide disposed on the layer of crystalline praseodymium calcium manganese oxide forming a resistive sense memory stack. A first and second electrode are separated by the resistive sense memory stack. The resistive sense memory cell can further include an oxygen diffusion barrier layer separating the layer of crystalline praseodymium calcium manganese oxide from the layer of amorphous praseodymium calcium manganese oxide a layer. Methods include depositing an amorphous praseodymium calcium manganese oxide disposed on the layer of crystalline praseodymium calcium manganese oxide forming a resistive sense memory stack. | 11-01-2012 |