Abstract: The present invention provides novel compounds and methods for treating, preventing or inhibiting hepatitis B virus (HBV).

Abstract: The beginning of using Complementary Metal-Oxide-Semiconductor (CMOS) process technology to implement Static Random-Access Memory (SRAM) which transistor number is six. And then reducing transistor number for increasing integration density, but it will diminish the stability of memory, and also may enhance the complexity of access circuit, thus increasing the power consumption. For increasing the integration density of SRAM, and according to the electrical characteristics of reduced transistor number therefore designing the memory possess low power consumption and its corresponding circuits, and then implementing an access system. If electrical characteristic of the other various memories are similar to SRAM, such as Dynamic Random-Access Memory (DRAM), so they can also use the corresponding access circuit of SRAM.

Abstract: Provided are a series of BTK inhibitors, and specifically disclosed are a compound, pharmaceutically acceptable salt thereof, tautomer thereof or prodrug thereof represented by formula (I), (II), (III) or (IV).

Abstract: An ion transfer device includes a tube, a resistive layer on an inside surface of the tube, and a dielectric layer on the resistive layer. The device defines a conduit providing a transfer path for gas and ions. The conduit is surrounded by the dielectric layer. The dielectric layer protects the resistive layer from the chemical environment in the conduit, while being thin enough to allow charges to pass through the dielectric layer and be dissipated by the resistive layer.

Abstract: This core-shell composite (10) is provided with a core (11) formed from a porous carbon body having a large number of pores from the interior through to the surface, and a shell layer (12) formed from conductive polymer nanorods (12a) that extend outward from the cavities of the pores (11a) on the surface of the core. The present invention provides the core-shell composite (10), to which electrolyte ions can be efficiently adsorbed or doped, a method for producing the core-shell composite, as well as an electrode material, a catalyst, an electrode, a secondary battery and an electric double-layer capacitor that use the core-shell composite.

Abstract: A liquid drain valve assembly for a charge air cooler includes a valve housing configured to couple to the charge air cooler, the valve housing having a condensate inlet configured to receive condensate from the charge air cooler, and a condensate outlet. A valve is disposed within the valve housing. The valve includes a diaphragm seated against an inner wall of the valve housing and movable between a first position enabling condensate to flow past the diaphragm and out the condensate outlet to selectively drain condensate from the charge air cooler when the charge air cooler is not in a boosted condition, and a second position preventing condensate flow out the condensate outlet when the charge air cooler is in a boosted condition to thereby isolate the charge air cooler from the atmosphere.

Abstract: The beginning of using Complementary Metal-Oxide-Semiconductor (CMOS) process technology to implement Static Random-Access Memory (SRAM) which transistor number is six. And then reducing transistor number for increasing integration density, but it will diminish the stability of memory, and also may enhance the complexity of access circuit, thus increasing the power consumption. For increasing the integration density of SRAM, and according to the electrical characteristics of reduced transistor number therefore designing the memory possess low power consumption and its corresponding circuits, and then implementing an access system. If electrical characteristic of the other various memories are similar to SRAM, such as Dynamic Random-Access Memory (DRAM), so they can also use the corresponding access circuit of SRAM.

Abstract: The beginning of using Complementary Metal-Oxide-Semiconductor (CMOS) process technology to implement Static Random-Access Memory (SRAM) which transistor number is six. And then reducing transistor number for increasing integration density, but it will diminish the stability of memory, and also may enhance the complexity of access circuit, thus increasing the power consumption. For increasing the integration density of SRAM, and according to the electrical characteristics of reduced transistor number therefore designing the memory possess low power consumption and its corresponding circuits, and then implementing an access system. If electrical characteristic of the other various memories are similar to SRAM, such as Dynamic Random-Access Memory (DRAM), so they can also use the corresponding access circuit of SRAM.

Abstract: The beginning of using Complementary Metal-Oxide-Semiconductor (CMOS) process technology to implement Static Random-Access Memory (SRAM) which transistor number is six. And then reducing transistor number for increasing integration density, but it will diminish the stability of memory, and also may enhance the complexity of access circuit, thus increasing the power consumption. For increasing the integration density of SRAM, and according to the electrical characteristics of reduced transistor number therefore designing the memory possess low power consumption and its corresponding circuits, and then implementing an access system. If electrical characteristic of the other various memories are similar to SRAM, such as Dynamic Random-Access Memory (DRAM), so they can also use the corresponding access circuit of SRAM.

Abstract: A detecting apparatus includes a detecting carrier and a detecting device. The detecting carrier can be moved into a charging frame or anyone of storing frames of a stock room. The detecting device is installed in the detecting carrier and includes a power module and a detector for volatile organic compounds (VOC). The power module is configured to supply power for operating the detecting apparatus. The detector includes a chassis, a displacement unit disposed in the chassis, a detecting unit disposed on the displacement unit, and a blowing unit disposed on the chassis. The detecting unit is configured to detect a concentration of VOC corresponding in position to the detecting carrier. The detecting unit can be arranged inside or outside the chassis by using the displacement unit. The blowing unit is configured to blow VOC adhered to the detecting unit.

Abstract: A detecting apparatus includes a detecting carrier and a detecting device. The detecting carrier can be moved into a charging frame or anyone of storing frames of a stock room. The detecting device is installed in the detecting carrier and includes a power module and a detecting module. The detecting module is configured to detect environment information corresponding in position to the detecting carrier. The power module is configured to supply power for operating the detecting apparatus. When the detecting carrier is arranged in the charging frame, the power module is spaced away from the charging frame and is charged without contacting the charging frame.

Abstract: An implant for treatment of a vascular space can form open loops and closed loops in separate cycles to provide balanced stiffness and flexibility. Such an implant provides both stability for retention within the vascular space and conformability for mitigating forces on the vasculature. Such a configuration can also provide proper coverage over an opening to a vascular space into which the implant is delivered, for reducing or eliminating flow into or out of the body cavity and promoting occlusion of the vascular space.

Abstract: A detecting apparatus includes a detecting carrier and a detecting device. The carrier can be moved into a charging frame or anyone of storing frames of a stock room. The detecting device is installed in the detecting carrier and includes a power module, a detecting module, and a wireless communication module. The wireless communication module can emit an electricity signal according to the power module. The detecting apparatus is selectively operable in a detecting mode and a charging mode. When the detecting apparatus is in the detecting mode, the detecting carrier randomly enters into one of the storing frames, so that the detecting module is operated to detect surroundings. When the detecting apparatus is in the charging mode, the detecting carrier enters into the charging frame, so that the power module is charged.

Abstract: The present invention provides novel compounds and methods for treating, preventing or inhibiting hepatitis B virus (HBV).

Abstract: This core-shell composite (10) is provided with a core (11) formed from a porous carbon body having a large number of pores from the interior through to the surface, and a shell layer (12) formed from conductive polymer nanorods (12a) that extend outward from the cavities of the pores (11a) on the surface of the core. The present invention provides the core-shell composite (10), to which electrolyte ions can be efficiently adsorbed or doped, a method for producing the core-shell composite, as well as an electrode material, a catalyst, an electrode, a secondary battery and an electric double-layer capacitor that use the core-shell composite.

Abstract: A method for determining an orientation of a screen of an electronic apparatus and an image receiving apparatus are provided. The method for determining the screen orientation includes the following steps of: receiving a screen shared image transmitted by the electronic apparatus, the screen shared image is a color image; performing line sampling on pixels of the screen shared image; and determining whether the screen is in the landscape orientation or in the portrait orientation according to color values of the sampled pixels of the screen shared image. The present disclosure can determine the screen orientation according to color values of the sampled pixels with small amount of operation data and high accuracy.

Abstract: A detecting apparatus includes a detecting carrier and a detecting device. The detecting carrier can be moved into a charging frame or anyone of storing frames of a stock room. The detecting device is installed in the detecting carrier and includes a power module and a detector for volatile organic compounds (VOC). The power module is configured to supply power for operating the detecting apparatus. The detector includes a chassis, a displacement unit disposed in the chassis, a detecting unit disposed on the displacement unit, and a blowing unit disposed on the chassis. The detecting unit is configured to detect a concentration of VOC corresponding in position to the detecting carrier. The detecting unit can be arranged inside or outside the chassis by using the displacement unit. The blowing unit is configured to blow VOC adhered to the detecting unit.

Abstract: A detecting apparatus includes a detecting carrier and a detecting device. The carrier can be moved into a charging frame or anyone of storing frames of a stock room. The detecting device is installed in the detecting carrier and includes a power module, a detecting module, and a wireless communication module. The wireless communication module can emit an electricity signal according to the power module. The detecting apparatus is selectively operable in a detecting mode and a charging mode. When the detecting apparatus is in the detecting mode, the detecting carrier randomly enters into one of the storing frames, so that the detecting module is operated to detect surroundings. When the detecting apparatus is in the charging mode, the detecting carrier enters into the charging frame, so that the power module is charged.

Abstract: A detecting apparatus includes a detecting carrier and a detecting device. The detecting carrier can be moved into a charging frame or anyone of storing frames of a stock room. The detecting device is installed in the detecting carrier and includes a power module and a detecting module. The detecting module is configured to detect environment information corresponding in position to the detecting carrier. The power module is configured to supply power for operating the detecting apparatus. When the detecting carrier is arranged in the charging frame, the power module is spaced away from the charging frame and is charged without contacting the charging frame.

Abstract: A dust removal device installed on a slide rail of an automatic door is provided. The slide rail includes a slide groove on the bottom side thereof and is connected to a plurality of door panels. The slide rail includes a top plate, where a plurality of dust discharging holes is disposed. The dust removal device further includes a dust extracting case disposed on the top plate. The dust extracting includes an air passage at the inside, which communicates with the plurality of dust discharging holes. The dust removal device further includes a negative pressure device connected to the dust extracting case so as to generate a negative pressure at the inside of the dust extracting case and the air passage.