Patent application number | Description | Published |
20080237562 | PHASE CHANGE MEMORY DEVICES AND FABRICATION METHODS THEREOF - Phase change memory devices and fabrication methods thereof. A phase change memory device comprises a stacked heating element with a conductive portion and a relatively high resistive portion, wherein the relatively high resistive portion includes a nitrogen-containing metal silicide part. The heating stacked element such as a highly resistive nitrogen-containing metal silicide (MSi | 10-02-2008 |
20080251498 | PHASE CHANGE MEMORY DEVICE AND FABRICATIONS THEREOF - A method for forming a memory device is disclosed. A dielectric layer is formed on a substrate. A Sn doped phase change layer is formed on the dielectric layer. A patterned mask layer is formed on the Sn doped phase change layer. The Sn doped phase change layer is etched by an etchant comprising fluorine-based etchant added with chlorine using the patterned mask layer as a mask to pattern the Sn doped phase change layer. An electrode is formed, electrically connecting the patterned Sn doped phase change layer. | 10-16-2008 |
20080311699 | PHASE-CHANGE MEMORY AND FABRICATION METHOD THEREOF - A phase-change memory comprises a bottom electrode formed on a substrate. A first isolation layer is formed on the bottom electrode. A top electrode is formed on the isolation layer. A first phase-change material is formed in the first isolation layer, wherein the top electrode and the bottom electrode are electrically connected via the first phase-change material. Since the phase-change material can have a diameter less than the resolution limit of the photolithography process, an operating current for a state conversion of the phase-change material pattern may be reduced so as to decrease a power dissipation of the phase-change memory device. | 12-18-2008 |
20090278546 | SOLAR CELL TESTING APPARATUS - A solar cell testing apparatus including a stage, a movable chuck, a light source and a plurality of probes is provided. The movable chuck is disposed on the stage and capable of carrying a sample sheet to move. The sample sheet has a light incident side, a rear side opposite to the light incident side, and a plurality of electrodes disposed on the rear side. The light source is disposed above the stage and capable of providing testing light to the light incident side of the sample sheet. The probes are located on the rear side of the sample sheet and capable of contacting the electrodes of the sample sheet. The present invention not only can be used to test a substrate type solar cell, but also can be used to test a superstrate type solar cell. | 11-12-2009 |
20100047960 | METHOD OF FABRICATING A PHASE-CHANGE MEMORY - A phase-change memory comprises a bottom electrode formed on a substrate. A first isolation layer is formed on the bottom electrode. A top electrode is formed on the isolation layer. A first phase-change material is formed in the first isolation layer, wherein the top electrode and the bottom electrode are electrically connected via the first phase-change material. Since the phase-change material can have a diameter less than the resolution limit of the photolithography process, an operating current for a state conversion of the phase-change material pattern may be reduced so as to decrease a power dissipation of the phase-change memory device. | 02-25-2010 |
20100154882 | SOLAR CELL - A solar cell is provided and includes a front contact, a first conductive type layer, an intrinsic (I) layer, a second conductive type layer, and a back contact. The first conductive type layer is a material layer of low refractive index which has a refractive index lower than 3. The material layer with low refractive index was used to increase light transmittance of the solar cell and decrease reflection which occurs at interfaces in the solar cell, and thus the solar cell has an optimum sunlight utility rate. Therefore, the solar cell has a large short circuit current (Jsc) and high efficiency. | 06-24-2010 |
20100200040 | DEVICE AND METHOD FOR REPAIRING SOLAR CELL MODULE - A device for repairing a solar cell module is described. The solar cell module includes a first solar cell and a second solar cell serially connected to each other. The device for repairing the solar cell module includes a first terminal, a second terminal, and a power supply device. The power supply device applies a biased voltage signal to the solar cells via the first terminal and the second terminal. The biased voltage signal includes a forward biased voltage part and a reversed biased voltage part. The reversed biased voltage part has multiple voltage bands arranged by time, and a voltage value of each voltage band is a fixed value. The voltage value of the earlier-generated voltage band is greater than the voltage value of the later-generated voltage band, and a duration of the reversed biased voltage part is longer than a duration of the forward biased voltage part. | 08-12-2010 |
20140087487 | METHOD FOR REPAIRING SOLAR CELL MODULE - A method for repairing a solar cell module includes the following steps. A solar cell module, which is provided, includes a first and a second solar cell serially connected. A first terminal is electrically connected to a first electrode layer of the first solar cell. A second terminal is electrically connected to a second electrode layer of the second solar cell. A polarity of the first electrode layer is the same as that of the second electrode layer. A biased voltage signal is generated and transmitted to the first solar cell and the second solar cell through the first terminal and the second terminal. The biased voltage signal includes a forward biased voltage part greater than zero and a reversed biased voltage part smaller than zero. The voltage value of the reversed biased voltage part is increasingly decreased in a step-like manner as time goes by. | 03-27-2014 |