portabledeviceapi(portabledeviceapilib)

前沿拓展:

portabledevicea

portabledeviceapi.dll有后门木马的 这文件平常不访问网络的,这是装成DLL的后门程序,被拦截就是没什么问题了,也可以用杀毒扫描下电脑。


序号标题摘要申请号1局部计算环境中的无线电力使用描述了无线地供电的局部计算环境的各实施例。无线地供电的局部计算环境至少包括被配置成无线地向若干个被适当配置的设备中的任何一个提供电力的近场磁谐振(NFMR)电源。在所述各实施例中,被配置成从NFMR电源无线地接收电力的设备必须位于被称为近场的区域内,该区域延伸不超过距离D,距离D是NFMR电源传输设备的特征大小的几倍。通常,距离D大约1米左右。CN201510377914.42用于对便携式收听设备进行充电和固定的盒本申请公开了一种用于便携式收听设备的盒,该盒包括可再充电电池以及第一充电系统和第二充电系统。该第一充电系统被配置为对该便携式收听设备进行充电,并且该第二充电系统被配置为对邻近外部充电表面定位在盒之外的便携式电子设备进行无线充电。CN201621078587.93用于电子设备的无线充电站本公开涉及用于电子设备的无线充电站。本公开涉及一种用于电子设备的无线充电器,包括具有基部开口以及由上壳层、下壳层和内侧壁限定的内腔的基部,内侧壁在上壳层和下壳层之间延伸以限定基部开口。孔眼穿过内侧壁在内腔和基部开口之间被形成,以及铰链在内腔内被连接到基部并且穿过孔眼延伸。充电器还包括无线充电组件,该无线充电组件由铰链可枢转地附接到基部并且在向下的位置和向上的位置之间是可移动的,其中在向下的位置中无线充电组件被置于基部开口内,在向上的位置中无线充电组件延伸到基部开口外。充电组件具有充电表面和被置于邻近充电表面处的电力传输单元,被配置为跨充电表面将电力无线地传输到便携式电子设备的电力接收单元。CN201610791123.04无线充电组件本申请涉及无线充电组件。所述无线充电组件包括:包括充电表面的壳体;被安置在所述壳体内的亚铁磁套筒,所述亚铁磁套筒包括相对的第一面和第二面、穿过所述亚铁磁套筒从所述第一面延伸到所述第二面的中心开孔以及围绕所述中心开孔并且在所述第一面处开口的凹部;被安置在所述凹部内在所述充电表面和所述亚铁磁套筒的所述第二面之间的感应线圈,所述感应线圈被配置为跨所述充电表面无线地传输电力;以及被安置在所述亚铁磁套筒的所述中心开孔内的磁铁。CN201620969264.25感应线圈组件、感应充电部件及制备感应线圈组件的设备本申请涉及感应线圈组件、感应充电部件及制备感应线圈组件的设备。所述感应线圈组件包括:绝缘层,所述绝缘层包括第一表面和与第一表面相对的第二表面;第一导电层,固定到绝缘层的第一表面并被构图以形成被配置为发送或接收电力的线圈;第二导电层,固定到绝缘层的第二表面并被构图以形成导电迹线元件,其中线圈和导电迹线元件电耦合。CN201620911956.16Wirelessly Charged Electronic Device With Shared Inductor CircuitryAn electronic device may contain an input-output device such as a speaker, vibrator, or near field communications antenna. The input-output device may include an inductor. The inductor in the input-output device may be shared by wireless charging circuitry in the electronic device so that wireless charging signals can be converted into power to charge a battery in the electronic device. A separate inductor may also be provided within an input-output device to support wireless charging. A drive circuit may supply drive signals to the input-output device such as audio signals, vibrator control signals, or near field communications output signals for external near field communications equipment. An input amplifier that is coupled across the inductor in the input-output device may be used in receiving near field communications signals.US137764367WIRELESS CHARGER FOR AN ELECTRONIC DEVICEA wireless charger includes a base having a base opening and an interior cavity defined by upper and lower shells and an inner sidewall extending between the upper and lower shells to define the base opening. An aperture is formed through the inner sidewall between the interior cavity and the base opening and a hinge is connected to the base within the interior cavity and extends through the aperture. The charger further includes a wireless charging assembly pivotably attached to the base by the hinge and moveable between a down position in which the wireless charging assembly is disposed within the base opening and an up position in which the wireless charging assembly extends outside the base. The charging assembly is configured to wirelessly transmit power across the charging surface to a power receiving unit of a portable electronic device.US149466028用于电子设备的无线充电器本公开涉及一种用于电子设备的无线充电器。无线充电器包括:基部,具有基部开口以及由上壳层、下壳层和内侧壁限定的内腔,其中内侧壁在上壳层和下壳层之间延伸以限定基部开口;孔眼,其穿过内侧壁在内腔和基部开口之间被形成;铰链,其在内腔内被耦接到基部并且穿过孔眼延伸;无线充电组件,其由铰链被可枢转地附接到基部并且可在向下的位置和向上的位置之间移动,充电组件具有充电表面和被置于邻近充电表面处的电力传输单元,电力传输单元被配置为跨充电表面将电力无线地传输到便携式电子设备的电力接收单元;和插座连接器,其电气耦接到电力传输单元并且在基部的外表面处具有连接器开口以与相应的插头连接器配对。CN201621029734.39铰链组件和用于电子设备的无线充电组件本公开涉及铰链组件和用于电子设备的无线充电组件。铰链组件包括:具有在上表面处形成的销接纳凹槽以及相对的第一基脚和第二基脚的销块,每个基脚包括搁板和关于搁板被升高的座;被附接到第一基脚的座并且在第一基脚的搁板上方延伸的第一摩擦梁;被附接到第二基脚的座并且在第二基脚的搁板上方延伸的第二摩擦梁;置于销接纳凹槽内的可旋转的销,该可旋转的销具有相对的第一末端和第二末端;可操作地耦接到第一摩擦梁和第一基脚的搁板之间的第一张紧器;可操作地耦接到第二摩擦梁和第二基脚的搁板之间的第二张紧器;以及杆,其在第一支撑件和第二支撑件之间被耦接到可旋转的销以使杆与可旋转的销一起旋转。CN201621024727.410Wireless Charging and Communications Systems With Dual-Frequency Patch AntennasAn electronic device may be provided with wireless circuitry. The wireless circuitry may include one or more dual-frequency dual-polarization patch antennas. Each patch antenna may have a patch antenna resonating element that lies in a plane and a ground that lies in a different parallel plane. The patch antenna resonating element may have a first feed located along a first central axis and a second feed located along a second central axis that is perpendicular to the first central axis. The patch antenna resonating element may be rectangular, may be oval, or may have other shapes. A shorting pin may be located at an intersecting point between the first and second axes. The patch antennas may be used in beam steering arrays. The patch antennas may be used for wireless power transfer at microwave frequencies or other frequencies and may be used to support millimeter wave communications.US1492189511HINGE ASSEMBLY FOR A WIRELESS CHARGERA wireless charger for an electronic device. The charger includes a base having a base opening and an interior cavity defined by an upper shell, a lower shell and an inner sidewall extending between the upper and lower shells to define the base opening. An aperture is formed through the inner sidewall between the interior cavity and the base opening and a hinge is connected to the base within the interior cavity and extends through the aperture. The charger further includes a wireless charging assembly that is pivotably attached to the base by the hinge and moveable between a down position in which the wireless charging assembly is disposed within the base opening and an up position in which the wireless charging assembly extends outside the base. The charging assembly has a charging surface and a power transmitting unit disposed adjacent to the charging surface where the power transmitting unit is configured to wirelessly transmit power across the charging surface to a power receiving unit of a portable electronic device.US1494661912WIRELESS CHARGING RETAIL SYSTEMSA wireless charging table comprising a table top having an upper surface upon which one or more electronic devices can be placed, a wireless charging transmitter positioned under the upper surface of the table top, the wireless charging transmitter comprising a plurality of transmitter coils that define a charging region at the upper surface of the table top, and a power distribution system operatively coupled to the wireless charging transmitter, the power distribution system configured to receive power from an alternating current (AC) power source and distribute power to the wireless charging transmitter. The plurality of transmitter coils include at least a first transmitter coil comprising : a first loop portion; a second loop portion; and a crossing portion comprising overlapping conductive paths that electrically couple the first loop portion.US1518487513Configurable Wireless Transmitter DeviceA wireless transmitter device is configurable and operable to transfer energy to multiple receiver devices at the same time. The transmitter device is configured to enable one or more sections of a charging surface to transfer energy by selectively choosing one or more conductive traces in the transmitter device based on the position of the receiver device on the charging surface. The size and shape of each section of the charging surface that is used to transfer energy to a receiver device can change dynamically based on each receiver device. Additionally, the process of transferring energy to each receiver device may be adjusted during energy transfer based on conditions specific to each receiver device.US1527461014WIRELESS CHARGING STATIONA wireless charging system including a transmitter and a receiver. The transmitter is formed of a coil of wire that includes a first loop portion, a second loop portion, and a crossing portion. The crossing portion electrically couples the first loop portion and the second loop portion such that when current is generated in the coil, electrical current flows through the first loop portion in a different rotational direction than in the second loop portion. The receiver is formed of a ferromagnetic core and multiple (e.g., three) coils disposed about the ferromagnetic core. Each coil may be disposed about a different axis of the core such that current may be induced in at least one of the coils by a magnetic field in any direction.US1518486815CASE WITH INDUCTIVE CHARGING SYSTEM TO CHARGE A PORTABLE DEVICEA case for a portable listening device includes a rechargeable battery and a first and a second charging system. The first charging system is configured to charge the portable listening device and the second charging system is configured to wirelessly charge a portable electronic device positioned outside of the case adjacent to an exterior charging surface.US1527369316WIRELESS POWER UTILIZATION IN A LOCAL COMPUTING ENVIRONMENTVarious embodiments of a wirelessly powered local computing environment are described. The wireless powered local computing environment includes at least a near field magnetic resonance (NFMR) power supply arranged to wirelessly provide power to any of a number of suitably configured devices. In the described embodiments, the devices arranged to receive power wirelessly from the NFMR power supply must be located in a region known as the near field that extends no further than a distance D of a few times a characteristic size of the NFMR power supply transmission device. Typically, the distance D can be on the order of 1 meter or so.US14727365173D SHAPED INDUCTIVE CHARGING COIL AND METHOD OF MAKING THE SAMEA three-dimensional inductive charging coil assembly and a method of making the same. The method can include patterning a first conductive layer affixed to a first surface of an insulating layer to form a coil configured to transmit or receive power, patterning a second conductive layer affixed to a second surface of the insulating layer opposite the first surface to form a conductive trace element, and electrically coupling the coil and the conductive trace element. The coil, insulating layer, and conductive trace element can be molded (e.g., simultaneously) into a three dimensional shape. In some embodiment, the molding can include a thermoforming process such as compression molding, vacuum forming, or the like.US1508293518Wirelessly Charged Electronic Device With Shared Inductor CircuitryAn electronic device may contain an input-output device such as a speaker, vibrator, or near field communications antenna. The input-output device may include an inductor. The inductor in the input-output device may be shared by wireless charging circuitry in the electronic device so that wireless charging signals can be converted into power to charge a battery in the electronic device. A separate inductor may also be provided within an input-output device to support wireless charging. A drive circuit may supply drive signals to the input-output device such as audio signals, vibrator control signals, or near field communications output signals for external near field communications equipment. An input amplifier that is coupled across the inductor in the input-output device may be used in receiving near field communications signals.US1505461619Wireless charging station for an electronic device1001557253 ABSTRACT OF THE DISCLOSURE A wireless charger for an electronic device. The charger includes a base having a base opening and an interior cavity defined by an upper shell, a lower shell and an inner sidewall extending between the upper and lower shells to define the base opening. An aperture is formed through the inner sidewall between the interior cavity and the base opening and a hinge is connected to the base within the interior cavity and extends through the aperture. The charger further includes a wireless charging assembly that is pivotably attached to the base by the hinge and moveable between a down position in which the wireless charging assembly is disposed within the base opening and an up position in which the wireless charging assembly extends outside the base. The charging assembly has a charging surface and a power transmitting unit disposed adjacent to the charging surface where the power transmitting unit is configured to wirelessly transmit power across the charging surface to a power receiving unit of a portable electronic device. 1/18 100 114 11 411212 120 124 126 FIG. IA 100-, 12 114 12412 FIG. lBAU201622239520WIRELESS CHARGING STATIONA wireless charging system including a transmitter and a receiver. The transmitter is formed of a coil of wire that includes a first loop portion, a second loop portion, and a crossing portion. The crossing portion electrically couples the first loop portion and the second loop portion such that when current is generated in the coil, electrical current flows through the first loop portion in a different rotational direction than in the second loop portion. The receiver is formed of a ferromagnetic core and multiple (e.g., three) coils disposed about the ferromagnetic core. Each coil may be disposed about a different axis of the core such that current may be induced in at least one of the coils by a magnetic field in any direction.WOUS1603786521用於电子装置之无线充电站本发明提供一种用於一电子装置之无线充电器该充电器包括一基底,其具有一基底开口及一内部空腔,该内部空腔系由一上部壳层、一下部壳层及在该上部壳层与该下部壳层之间延伸以界定该基底开口之一内侧壁界定一孔隙经形成穿过该内部空腔与该基底开口之间的该内侧壁,且一铰链在该内部空腔内连接至该基底且延伸通过该孔隙该充电器进一步包括一无线充电总成,其藉由该铰链而可枢转地附接至该基底且在该无线充电总成在该基底开口内安置的一向下位置与该无线充电总成在该基底外部延伸的一向上位置之间可移动该充电总成具有一充电表面及邻近於该充电表面而安置之一电力传输单元,其中该电力传输单元经组态以横越该充电表面将电力无线地传输至一携带型电子装置之一电力接收单元TW105128168

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