Patent application number | Description | Published |
20090020820 | CHANNEL-STRESSED SEMICONDUCTOR DEVICES AND METHODS OF FABRICATION - In one aspect, a method of fabricating a semiconductor device is provided. The method includes forming at least one capping layer over epitaxial source/drain regions of a PMOS device, forming a stress memorization (SM) layer over the PMOS device including the at least one capping layer and over an adjacent NMOS device, and treating the SM layer formed over the NMOS and PMOS devices to induce tensile stress in a channel region of the NMOS device. | 01-22-2009 |
20090163023 | Phase change memory and method of fabricating the same - A method of fabricating a phase change memory includes forming a lower electrode on a semiconductor substrate, forming a phase change pattern, an upper electrode, and a hard mask pattern sequentially on the lower electrode, a width of a bottom surface of the hard mask pattern being greater than a width of a top surface of the hard mask pattern, the bottom surface of the hard mask pattern facing the upper electrode and being opposite the top surface of the hard mask pattern, and forming a capping layer to cover the top surface of the hard mask pattern and sidewalls of the hard mask pattern, phase change pattern, and upper electrode. | 06-25-2009 |
20090168493 | SEMICONDUCTOR MEMORY DEVICE WITH STACKED MEMORY CELL AND METHOD OF MANUFACTURING THE STACKED MEMORY CELL - In a semiconductor memory device and method, resistive-change memory cells are provided, each including a plurality of control transistors formed on different layers and variable resistance devices comprising a resistive-change memory. Each resistive-change memory cell includes a plurality of control transistors formed on different layers, and a variable resistance device formed of a resistive-change memory. In one example, the number of the control transistors is two. The semiconductor memory device includes a global bit line; a plurality of local bit lines connected to or disconnected from the global bit line via local bit line selection circuits which correspond to the local bit lines, respectively; and a plurality of resistive-change memory cell groups storing data while being connected to the local bit lines, respectively. Each of the resistive-change memory cells of each of the resistive-change memory cell groups comprises a plurality of control transistors formed on different layers, and a variable resistance device formed of a resistive-change memory. In addition, the semiconductor memory device has a hierarchical bit line structure that uses a global bit line and local bit lines. Accordingly, it is possible to increase both the integration density of the semiconductor memory device and the amount of current flowing through each of the resistive-change memory cells. | 07-02-2009 |
20090273076 | Tape for heat dissipating member, chip on film type semiconductor package including heat dissipating member, and elctronic apparatus including the same - Disclosed is a chip-on-film (COF) type semiconductor package and a device using the same. The COF type semiconductor package may include an insulation substrate including a top surface and bottom surface, a semiconductor device on the top surface of the insulation substrate, a heat dissipating component on the bottom surface of the insulation substrate, and at least one space between the bottom surface of the insulation substrate and a top surface of the heat dissipating component. | 11-05-2009 |
20110143625 | TAPE FOR HEAT DISSIPATING MEMBER, CHIP ON FILM TYPE SEMICONDUCTOR PACKAGE INCLUDING HEAT DISSIPATING MEMBER, AND ELECTRONIC APPARATUS INCLUDING THE SAME - Disclosed is a chip-on-film (COF) type semiconductor package and a device using the same. The COF type semiconductor package may include an insulation substrate including a top surface and bottom surface, a semiconductor device on the top surface of the insulation substrate, a heat dissipating component on the bottom surface of the insulation substrate, and at least one space between the bottom surface of the insulation substrate and a top surface of the heat dissipating component. | 06-16-2011 |
20110193047 | PHASE CHANGE MEMORY - A method of fabricating a phase change memory includes forming a lower electrode on a semiconductor substrate, forming a phase change pattern, an upper electrode, and a hard mask pattern sequentially on the lower electrode, a width of a bottom surface of the hard mask pattern being greater than a width of a top surface of the hard mask pattern, the bottom surface of the hard mask pattern facing the upper electrode and being opposite the top surface of the hard mask pattern, and forming a capping layer to cover the top surface of the hard mask pattern and sidewalls of the hard mask pattern, phase change pattern, and upper electrode. | 08-11-2011 |
20120175580 | VARIABLE RESISTANCE MEMORY - A method of fabricating a phase change memory includes forming a lower electrode on a semiconductor substrate, forming a phase change pattern, an upper electrode, and a hard mask pattern sequentially on the lower electrode, a width of a bottom surface of the hard mask pattern being greater than a width of a top surface of the hard mask pattern, the bottom surface of the hard mask pattern facing the upper electrode and being opposite the top surface of the hard mask pattern, and forming a capping layer to cover the top surface of the hard mask pattern and sidewalls of the hard mask pattern, phase change pattern, and upper electrode. | 07-12-2012 |
20130095653 | NON-VOLATILE MEMORY DEVICES INCLUDING VERTICAL NAND STRINGS AND METHODS OF FORMING THE SAME - A NAND based non-volatile memory device can include a plurality of memory cells vertically arranged as a NAND string and a plurality of word line plates each electrically connected to a respective gate of the memory cells in the NAND string. A plurality of word line contacts can each be electrically connected to a respective word line plate, where the plurality of word line contacts are aligned to a bit line direction in the device. | 04-18-2013 |
20140141610 | NON-VOLATILE MEMORY DEVICES INCLUDING VERTICAL NAND STRINGS AND METHODS OF FORMING THE SAME - A NAND based non-volatile memory device can include a plurality of memory cells vertically arranged as a NAND string and a plurality of word line plates each electrically connected to a respective gate of the memory cells in the NAND string. A plurality of word line contacts can each be electrically connected to a respective word line plate, where the plurality of word line contacts are aligned to a bit line direction in the device. | 05-22-2014 |
20140145352 | SEMICONDUCTOR PACKAGES AND ELECTRONIC SYSTEMS INCLUDING THE SAME - A plurality of semiconductor chips may be stacked on the substrate, and each of them may include at least one electrode pad. At least one of the plurality of semiconductor chips may include at least one redistribution pad configured to electrically connect with the at least one electrode pad. | 05-29-2014 |