Abstract: Provided is a package structure includes a die having a first connector, a RDL structure disposed on the die, and a second connector. The RDL structure includes at least one elongated via located on and connected to the first connector. The second connector is disposed on and connected to the RDL structure.

Abstract: An organic light emitting display panel and a method for manufacturing the same are provided. The organic light emitting display panel includes: an organic light emitting element array substrate; a thin film encapsulation layer covering the organic light emitting element array substrate and including at least one inorganic layer and at least one organic layer; a wettability adjustment layer disposed on an organic layer or inorganic layer of the thin film encapsulation layer and including a plurality of wettability adjustment pattern zones and a plurality of hollow zones, and touch electrodes made of metal. The touch electrodes are in a meshed shape and disposed in the hollow zones. A wetting angle between material of the touch electrodes and the wettability adjustment pattern zones is greater than a wetting angle between the material of the touch electrodes and the organic layer or the inorganic layer.

Abstract: The present disclosure relates to a 5G or pre-5G communication system to be provided to support a higher data transmission rate since 4G communication systems like LTE. The present disclosure provides a transmission and reception method applying a special resource block structure in a scalable frame structure to integrally support various services in a cellular wireless communication system. According to the present disclosure, it is possible to minimize interference between adjacent resource blocks due to heterogeneous subcarrier spacings between the 5G system and the LTE system or the 5G system to improve system performance.

Abstract: The present disclosure, in some embodiments, relates to a resistive random access memory (RRAM) device. The RRAM device includes a lower electrode over a conductive interconnect, and an upper electrode over the lower electrode. A data storage structure is disposed between the lower electrode and the upper electrode. The data storage structure includes a plurality of metal oxide layers having one or more metals from a first group of metals. A concentration of the one or more metals from the first group of metals changes as a distance from the lower electrode increases.

Abstract: Embodiments of the present invention disclose a touch sensor, a method of manufacturing the touch sensor, and a touch screen and an electronic product which include the touch sensor. The touch sensor includes: a substrate; a blocking pattern formed on the substrate; and a metal bridge. The blocking pattern is formed in a region corresponding to the metal bridge on the substrate and is configured to block the metal bridge.

Abstract: A remote radio unit, which includes a housing, a ventilation air channel, and a circuit component, where the housing is a sealed hollow cavity; the ventilation air channel passes through the housing, a top end of the ventilation air channel is connected to a top end surface of the housing in a sealed manner, and a bottom end of the ventilation air channel is connected to a bottom end surface of the housing in a sealed manner; and the circuit component is disposed inside the cavity, and is in contact with an external surface of a side wall of the ventilation air channel, so that heat generated by the circuit component is dissipated through the ventilation air channel.

Abstract: A microfluidic system includes a semiconductor substrate having a first surface and an opposite, parallel second surface, a first bioFET sensor and a second bioFET sensor. An isolation layer is disposed on the second surface of the semiconductor substrate and has a first opening over the first bioFET sensor and a second opening over the second bioFET sensor. An interface layer is disposed in at least each of the first opening and the second opening. The system includes a readout circuit having a differential amplifier designed to measure a difference between signals associated with the first bioFET sensor and the second bioFET sensor. The system also includes a microfluidic network designed to deliver fluid to the interface layer disposed in each of the first opening and the second opening.

Abstract: One embodiment provides a method comprising, in a training phase, receiving one or more malware samples, extracting multi-aspect features of malicious behaviors triggered by the malware samples, determining evolution patterns of the malware samples based on the multi-aspect features, and predicting mutations of the malware samples based on the evolution patterns. Another embodiment provides a method comprising, in a testing phase, receiving a new mobile application, extracting a first set of multi-aspect features for the new mobile application using a learned feature model, and determining whether the new mobile application is a mutation of a malicious application using a learned classification model and the first set of multi-aspect features.

Abstract: A voice command module is used to execute voice commands in a residential environment that contains a plurality of home devices. The voice command module includes a speech recognition module and command logic. The speech recognition module receives utterances from users and converts the utterances to commands from a vocabulary of predetermined commands, which includes a customization command to define a new wake-up utterance as corresponding to a wake-up command. The command logic executes the commands. When the customization command is received, the command logic changes the voice command module so that it now executes the wake-up command upon detection of the new wake-up utterance.

Abstract: A current collecting board includes a base board, a conductive board mounted on the base board, a number of conductive plates, and a number of security elements. The base board includes a first surface, a second surface, and a number of receiving protrusions extending upwardly from the first surface. The base board defines a number of first through holes, each receiving protrusion surrounds a first through hole. Each conductive plate defines a second through hole. The receiving protrusion includes a number of leading blocks and a number of clamping blocks; each conductive plate is received in a receiving protrusion and clamped between the leading blocks and the clamping blocks. One end of each security element is solder to and electrically connected to a conductive plate, the other end of each security element is soldered to the conductive board. A battery module using the current collecting board is also provided.

Abstract: A drive signal generating apparatus includes a transducer configured to convert electromagnetic energy of a signal received through a first port into a different type of energy, convert the different type of energy into electromagnetic energy, and transfer the converted electromagnetic energy to a second port, and a switching circuit configured to perform a gate switching operation, upon receiving a signal from the second port, to generate a drive signal.

Abstract: A shift register unit includes an input circuit configured to output a pre-output signal in response to an input signal and a first clock signal, a first output circuit configured to output a first output signal in response to the pre-output signal and a second clock signal; and a second output circuit configured to output a second output signal in response to the pre-output signal and a third clock signal.

Abstract: The present invention relates to a liquid crystal display (LCD) device which is capable of improving picture quality by switching an optimal gamma voltage and an optimal common voltage on a basis of an operation time, and a method for driving the same. The liquid crystal display device includes a timing controller, a voltage generating unit, a data driver, and a liquid crystal panel. The timing controller can generate voltage control signal for switching initial state to stable state by using certain switching point. The voltage generating unit can receive the voltage control signal, supply the first gamma voltage and the first common voltage during the initial state, and supply the second gamma voltage and the second common voltage during the stable state. The data driver can receive the first gamma voltage in the initial state and the second gamma voltage in the stable state.

Abstract: The present invention discloses an intelligent outdoor umbrella, including an umbrella body, and angle adjustment mechanism configured to adjust an angle in a vertical direction, a rotation mechanism configured to adjust an angle in a horizontal direction, a lifting mechanism, an environment monitoring mechanism and a main controller. An angle of an outdoor umbrella is automatically adjusted to follow the change in the sun angle and better achieve the purpose of shading. The lifting mechanism enables the outdoor umbrella to fold and unfold automatically. The environment monitoring mechanism includes a solar assembly and a wind speed measurement device, the direction of sunlight and the wind speed are monitored and the measured related data is transmitted to the main controller.

Abstract: A fuel supply device (FS) includes a filler neck (10) that includes a nozzle guiding path that guides a fuel supply nozzle (FN), and a fuel passage that is continuous to the nozzle guiding path on a downstream side of the fuel passage, through which fuel that has been discharged from the fuel supply nozzle (FN) passes; a fuel vapor port (23) located outside of the filler neck (10) that has a through hole (23H) that communicates with the fuel passage (11Pd); and a vapor introduction body (70) that guides the fuel vapor from the fuel vapor port to the fuel passage (11Pd).

Abstract: Embodiments provide a resource scheduling method, which can support reduction of transmission resource overheads in resource scheduling. The method is applied to a wireless local area network, where a next generation protocol followed by the wireless local area network predefines locations of resource units possibly allocated from a to-be-assigned frequency domain resource. The method includes: generating, by a sending end, resource scheduling information, where the resource scheduling information includes a bit sequence to indicate an actual allocation of a resource unit(s) from the to-be-assigned frequency domain resource, and at least some bits in the bit sequence are to indicate whether one or more of said resource unit locations possibly allocated for the to-be-assigned frequency domain resource is\are the actually allocated resource unit(s).

Abstract: A main semiconductor element and a temperature sensing part are arranged on a single silicon carbide base. The main semiconductor element is a vertical MOSFET and the temperature sensing part is a horizontal diode. An anode region of the temperature sensing part and an n+-type source region and a p+-type contact region of the main semiconductor element are connected by wiring by an anode electrode on a front surface of the silicon carbide base. The temperature sensing part, when the main semiconductor element is ON, is forward biased by drift current flowing in the main semiconductor element. The temperature sensing part, for example, is a poly-silicon diode constituted by a p-type poly-silicon layer and an n-type poly-silicon layer arranged on the front surface of the silicon carbide base. With such configuration, a semiconductor device having high reliability may be provided.