WO/2015/039401 INTENSIVELY INSULATED BUSWAY||WO||26.03.2015|
||PCT/CN2013/091261||SHENZHEN WOER HEAT-SHRINKABLE MATERIAL CO.,LTD||ZHOU, Heping|
An intensively insulated busway, comprising a busbar protective housing (10) and a busbar unit disposed inside the busbar protective housing; the busbar unit comprises a plurality of busbars (20), and the busbars comprise a conductor (21) and an insulating layer (22) covering the busbars; the plurality of busbars are arranged side-by-side and parallel to one another; the space between the busbar protective housing and the busbar unit is filled with fire-resistant material; an inorganic endothermic material (30) is provided inside the intensively insulated busway; the inorganic endothermic material is an inorganic material that absorbs heat when heated and also releases steam. By means of the inorganic endothermic material disposed within the intensively insulated busway, the fire-resistance properties of the busway are improved, the intensively insulated busway is better able to continue to supply power during a fire, and the duration for which the intensively insulated busway is able to supply power during a fire is prolonged.
WO/2015/039330 PLL AND ADAPTIVE COMPENSATION METHOD IN PLL||WO||26.03.2015|
||PCT/CN2013/083898||TELEFONAKTIEBOLAGET L M ERICSSON (PUBL)||ZHAO, Zhongyuan|
In a method for mitigating the vibration-induced phase noise of an phase locked loop with an acceleration sensitive voltage controlled oscillator, a correction signal generated by applying a gain and a equalization to an acceleration signal provided by an acceleration sensor sensing the acceleration on the VCO, is added to the oscillator control signal for active compensation, an adaptive compensation unit dynamically adjusts the gain, the frequency response of equalization, and the sensing direction of the acceleration sensor while the phase locked loop is working to make the active compensation automatically adapt to the parameters of the voltage controlled oscillator. The acceleration signal and a filtered phase difference signal generated by a filter following the phase frequency detector of the phase locked loop are provided at the inputs of the adaptive compensation unit. In the adaptive compensation unit, a cross-correlation unit calculates the correlation coefficient and delay between the acceleration signal and the filtered phase difference signal, a gain generation unit in dependent on the correlation coefficient incrementally calculates the gain as well as the sensing direction of the acceleration sensor, and a equalization coefficient estimator in dependent on the acceleration signal, the filtered phase difference signal and the calculated delay, incrementally calculates the filter coefficients of a filter performing the equalization.
WO/2015/039331 NANOMETER CLEANING AND STERILIZATION PEN||WO||26.03.2015|
||PCT/CN2013/083902||EVATRADE COMPANY LIMITED||LAM, Johnny|
A nanometer cleaning and sterilization pen comprises a pen body (1), wherein the pen body (1) is provided with an inner cavity (11) used for storing nanometer sterilization liquid, and one end of the pen body (1) is provided with a hard sponge pen nib (2) in communication with the inner cavity (11) and used for wiping a metal, glass or plastic surface. In use, the pen nib (2) is slightly pressed such that the nanometer sterilization liquid stored in the pen body (1) seeps from the surface of the pen nib (2) and forms a protective film on the surface of a product, playing the roles of cleaning and sterilizing. The nanometer cleaning and sterilization pen has the advantages of forming a uniform protective film, avoiding waste of the nanometer sterilization liquid, and being convenient to carry.
WO/2015/039318 LITHIUM-RICH MANGANESE-BASED SOLID SOLUTION/GRAPHEME COMPOSITE MATERIAL AND PREPARATION METHOD THEREFOR||WO||26.03.2015|
||PCT/CN2013/083842||FUJIAN INSTITUTE OF RESEARCH ON THE STRUCTURE OF MATTER, CHINESE ACADEMY OF SCIENCES||WANG, Yaobing|
The present invention provides a lithium-rich manganese-based solid solution/graphene composite material and a preparation method therefor, and is applicable to the technical field of energy materials. The general structural formula of said lithium-rich manganese-based solid solution is xLi2MnO3·(1-x)LiMO2, wherein M is anyone of Ni, Co, Mn, Cr, Ni-Co, Ni-Mn, Ni-Co-Mn, Fe and Ru, and 0
WO/2015/039299 METHOD AND APPARATUS FOR COVERAGE ENHANCEMENT IN WIRELESS COMMUNICATION SYSTEM||WO||26.03.2015|
||PCT/CN2013/083758||NEC (CHINA) CO., LTD.||WANG, Gang|
Embodiments of the disclosure provide methods and apparatuses for coverage enhancement in a wireless communication system. In a method according to embodiments of the present invention, a PHICH resource set including a plurality of PHICH resources is determined, and an ACK/NACK message is spread by using the plurality of PHICH resources, such that spreading results of the ACK/NACK message are sent to a UE in the plurality of PHICH resources.
WO/2015/039326 PORTABLE TERMINAL-BASED VEHICLE-MOUNTED NAVIGATION DEVICE AND SYSTEM||WO||26.03.2015|
||PCT/CN2013/083869||GONG, He||GONG, He|
The present invention relates to a portable terminal-based vehicle-mounted navigation device and system. The portable terminal-based vehicle-mounted navigation device comprises a display module, a GPS positioning module, a vehicle-mounted Bluetooth module, a memory module, and a master control module. The GPS positioning module is used for acquiring vehicle location information and for providing same to the master control module. The vehicle-mounted Bluetooth module is used for Bluetooth communication with an external portable terminal to acquire destination location information. The memory module is used for storing map information. The master control module is used for controlling operations of the display module, of the GPS positioning module, of the memory module, and of the vehicle-mounted Bluetooth module and for generating map route information on the basis of the vehicle location information, of the destination location information, and of the map information. The display module is used for receiving and displaying the map route information. The present invention has the advantages of a high level of security, convenient operations, and strong versatility.
WO/2015/039329 MOBILE COMPUTING DEVICE DOCK||WO||26.03.2015|
||PCT/CN2013/083892||MICROSOFT TECHNOLOGY LICENSING, LLC||ZHAO, Kelong|
A mobile computing device dock is described. In one or more implementations, an apparatus includes a support structure and first and second connection portions disposed on opposing sides of the support. Each of the first and second connection portions includes a respective connection device configured to form a communicative coupling to a mobile computing device. The first and second connection portions are configured such that movement of one of the first or second connection portions causes corresponding movement of the other one of the first or second connection portions to engage to or disengage from the mobile computing device.
WO/2015/039313 METHOD, USER EQUIPMENT, AND BASE STATION FOR TRANSMISSION OF HYBRID AUTOMATIC REPEAT REQUEST-ACKNOWLEDGEMENT||WO||26.03.2015|
||PCT/CN2013/083798||HUAWEI TECHNOLOGIES CO., LTD.||CHENG, Yan|
Provided in the present invention are a method, user equipment, and base station for transmission of a hybrid automatic repeat request-acknowledgement (HARQ-ACK). A downlink control channel for PDSCH transmission or for indicating downlink SPS release is received on downlink subframes n-k on a first service cell by the user equipment, where the duplex mode of the first service cell is FDD; an HARQ-ACK response corresponding to downlink subframes n-k on the first service cell is transmitted on uplink subframe n, where n is an integer, k is a positive integer, k belongs to set K, and set K is determined on the basis of a first HARQ-ACK timing. By configuring a timing for an FDD service cell, the present invention solves the problem that some downlink subframes lack corresponding uplink subframes for HARQ-ACK feedback, thus increasing resource utilization rate.
WO/2015/039315 SMALL STATION COMMUNICATION METHOD, DEVICE AND SYSTEM||WO||26.03.2015|
||PCT/CN2013/083807||HUAWEI TECHNOLOGIES CO., LTD.||HU, Zhenxing|
Provided are a small station communication method, device and system, applied to a heterogeneous network. The heterogeneous network comprises a micro station, and the micro station covers at least one small station. A user equipment (UE) accesses a micro station and performs data transmission with the micro station; the UE receives pre-configuration information about a candidate small station of the UE sent by the micro station, the candidate small station is selected by the micro station from at least one small station within the covered area, and the pre-configuration information comprises small station recognition information and small station connection information; and the UE determines a small station to be accessed and establishes a connection according to the pre-configuration information. The technical solution provided in the embodiments of the present invention enables a UE moving at a high speed to quickly access a small station and obtain an extra communication service from the small station, thereby saving the energy consumption of the UE, is easy to realize and will not significantly increase device costs.
WO/2015/039324 INCOMING CALL REMINDER SYSTEM||WO||26.03.2015|
||PCT/CN2013/083867||GONG, He||GONG, He|
The present invention relates to an incoming call reminder system. The incoming call reminder system comprises a mobile terminal and an incoming call reminder lighting. The mobile terminal is used for converting an incoming call signal into a communication signal and for outputting same to the incoming call reminder lighting. The incoming call reminder lighting comprises a wireless receiver unit, a light-emitting unit, and an incoming call reminder control unit. The light-emitting unit is used for emitting a light for illumination. The wireless receiver unit is used for receiving the communication signal outputted by the mobile terminal and for providing the communication signal to the incoming call reminder control unit. The incoming call reminder control unit is used for converting the communication signal into a flash control signal and for outputting same to the light-emitting unit to control the light-emitting unit to emit a flashing light. The present invention has the advantages of low costs, a simple structure, and convenient operations.