Patent application number | Description | Published |
20130342031 | Method Of Controlling Electronic Device And Electronic Device - A control method and an electronic device are described. The method is applied in an electronic device which includes a first body, a second body and a rotary apparatus. On at least one body of the first body and the second body, there are provided M number of input apparatuses; the first body and the second body are rotatably connected together, where M is an integer greater than or equal to 1. The state-information of the first body and/or the second body is detected, to obtain a detection result; when the detection result indicates that the first body and/or the second body are/is in a motion state, a disable command is generated; the disable command is executed, so that N number of input apparatuses from the M number of input apparatuses are in a disabled state, where N is an integer less than or equal to M. | 12-26-2013 |
20140115308 | CONTROL METHOD, CONTROL DEVICE AND COMPUTER SYSTEM - A control method and a control device applied in a computer system, and a computer system are described. The control method according to the embodiments of the present invention is applied in a computer system, wherein the computer system includes a system memory containing two divided storage areas with the two storage areas being respectively a first storage area and a second storage area. The control method includes loading a first operating system into the first storage area; running the first operating system; and starting up a system memory access drive by the first operating system, so as to load into the second storage area the pre-stored memory mapping data of the second operating system by the system memory access drive. | 04-24-2014 |
20140126353 | BUILDING BASEBAND UNIT, BASEBAND PROCESSING PANEL, AND FAILURE PROCESSING METHOD FOR BASEBAND PROCESSING PANEL - Disclosed are a building baseband unit, a baseband processing panel, and a failure processing method for the baseband processing panel. A direct path is introduced respectively for a baseband processing module and a power supply module in a baseband processing panel; when the baseband processing module has failed, the baseband processing module is directly bypassed, and a part of the baseband processing resources of a baseband processing panel in normal operation is allocated to an RRU corresponding to the failed baseband processing panel via a back panel and the direct path; and when both the baseband processing module and the power supply module have failed, both of them are directly bypassed, and a part of the baseband processing resources of a baseband processing panel in normal operation is allocated to the RRU corresponding to the failed baseband processing panel via the back panel and the direct path, and at the same time the power required for working is provided to an optical module via the back panel and another direct path. Applying the solution of the present invention can reduce implementation costs. | 05-08-2014 |
20140145937 | METHOD AND DEVICE FOR AUTOMATIC CONTROL - A method for automatic control is provided, which is applied to an electronic apparatus including a first controller, a second controller, a first input apparatus and a first display unit. The first input apparatus is rotatablely connected to the first display unit. When the electronic apparatus is in a sleeping state, the second controller is in a sleeping state and the first controller is in an operating state. The method includes: obtaining a first angle between the first input apparatus and the first display unit in the case that the electronic apparatus is in the sleeping state; determining whether the first angle satisfies a first preset condition; and controlling the first input apparatus to be in a turn-off state by the first controller in the case that the first angle satisfies a first preset condition. | 05-29-2014 |
Patent application number | Description | Published |
20120247529 | SOLAR CELL MODULES AND METHODS OF MANUFACTURING THE SAME - Back contact solar cell modules and methods of manufacturing the same. The solar cell module comprises a back surface with a plurality of first electrodes and a plurality of second electrodes formed thereon, the plurality of first electrodes and the plurality of second electrodes being of opposite polarities, the back surface being configured to form an electric field thereon of the opposite polarity as the plurality of first electrodes; a first connecting strip electrically connecting the plurality of first electrodes; and an insulative member between the back surface and the first connecting strip. | 10-04-2012 |
20120298192 | LIGHT TO CURRENT CONVERTER DEVICES AND METHODS OF MANUFACTURING THE SAME - Light to current converter devices, such as solar cells, are disclosed. The devices may include via holes extending through the cell substrate and may include through-hole electrodes within the via holes. The through-hole electrodes may be made from one or more materials and may be hollow, partially hollow, or fully filled. Front and rear electrodes may also be formed on the device and can be made of the same or different materials as the through-hole electrode. The devices may include emitters located only on the top surface of the cell, located on the top surface and symmetrically or asymmetrically along a portion of the inner surface of the via holes, or located on the top surface and full inner surface of the via holes. Processes for making light to current converter devices are also disclosed. | 11-29-2012 |
20120301997 | METHODS OF MANUFACTURING LIGHT TO CURRENT CONVERTER DEVICES - Processes for making light to current converter devices are provided. The processes can be used to make light to current converter devices having P-N junctions located on only the top surface of the cell, located on the top surface and symmetrically or asymmetrically along a portion of the inner surface of the via holes, located on the top surface and full inner surface of the via holes, or located on the top surface, full inner surface of the via holes, and a portion of the bottom surface of the cell. The processes may isolate the desired P-N junction by etching the emitter, forming a via hole after forming the emitter, using a barrier layer to protect portions of the emitter from etching, or using a barrier layer to prevent the emitter from being formed on portions of the substrate. | 11-29-2012 |
20150037924 | METHODS OF MANUFACTURING LIGHT TO CURRENT CONVERTER DEVICES - Processes for making light to current converter devices are provided. The processes can be used to make light to current converter devices having P-N junctions located on only the top surface of the cell, located on the top surface and symmetrically or asymmetrically along a portion of the inner surface of the via holes, located on the top surface and full inner surface of the via holes, or located on the top surface, full inner surface of the via holes, and a portion of the bottom surface of the cell. The processes may isolate the desired P-N junction by etching the emitter, forming a via hole after forming the emitter, using a barrier layer to protect portions of the emitter from etching, or using a barrier layer to prevent the emitter from being formed on portions of the substrate. | 02-05-2015 |