Abstract: A hot spot defect detecting method and a hot spot defect detecting system are provided. In the method, hot spots are extracted from a design of a semiconductor product to define a hot spot map comprising hot spot groups, wherein local patterns in a same context of the design yielding a same image content are defined as a same hot spot group. During runtime, defect images obtained by an inspection tool performing hot scans on a wafer manufactured with the design are acquired and the hot spot map is aligned to each defect image to locate the hot spot groups. The hot spot defects in each defect image are detected by dynamically mapping the hot spot groups located in each defect image to a plurality of threshold regions and respectively performing automatic thresholding on pixel values of the hot spots of each hot spot group in the corresponding threshold region.

Abstract: A method of provisioning LED fixtures in a wireless network includes: detecting nonvisible light emitted by each of the LED fixtures, using a portable wireless electronic device that comes into range of each of the LED fixtures one at a time; extracting, from the detected nonvisible light for each of the LED fixtures, a unique node ID assigned to each of the LED fixtures; and provisioning each of the LED fixtures into the wireless network, based on the unique ID extracted from the detected nonvisible light for each of the LED fixtures. Embodiments of the LED fixtures and a portable wireless electronic device used as part of the provisioning method are also described.

Abstract: This application is directed to a speaker device having a rounded enclosure. The rounded enclosure includes two housing elements that are coupled to each other and have a substantially continuous transition. The rounded enclosure has a circular cross section defined by a first radius. A first housing element includes and extends past the circular cross section, and a second housing element has a second maximum radius that is smaller than the first radius. A speaker unit and a circuit board are arranged within the rounded enclosure. The circuit board is electrically coupled to the speaker unit. At least a portion of the first housing element includes perforations configured to enable transmission of sound generated by the speaker unit out of the speaker device. The second housing element has a power connector that is electrically coupled to the circuit board and is configured to receive power from an external power supply.

Abstract: An accessory interface for an electronic host device includes a digital communication bus including a plurality of communication lines configured to pass data between the electronic host device and an electronic accessory device. The accessory interface further includes detection circuitry selectively coupled to the plurality of communication lines via a multiplexer and configured to detect analog voltage levels across the plurality of communication lines, determine a device type of the electronic accessory device based on the detected analog voltage levels, and control the multiplexer to couple the plurality of communication lines to a host processor of the electronic host device upon determining the device type of the electronic accessory device. The host processor is configured to receive the device type of the electronic accessory device and transmit data via the plurality of communication lines to the electronic accessory device in accordance with the device type of the electronic accessory device.

Abstract: Power adapters having Universal Serial Bus (USB) Type-C (USB-C) receptacles acting in a USB Power Delivery (USB-PD) sink mode are disclosed herein. The USB-C receptacle can be connected to a USB-PD source via a USB-C cable. The power adapter further includes a socket in electrical communication with the USB-C receptacle that receives a removable (interchangeable) barrel plug of a size corresponding to the barrel receptacle of an output device to be powered by the power adapter. The power adapter uses a USB-PD controller to communicate with the USB-PD source via the USB-C receptacle to request that power be provided at a desired direct current (DC) voltage by the USB-PD source to the USB-C receptacle. The power so received is then delivered between the USB-C receptacle and the socket. From the socket, the power travels through the attached removable barrel plug and to the barrel receptacle of the output device.

Abstract: This document describes an access point device and associated systems and methods. The techniques and systems include an access point device that includes a housing with an antenna carrier, a circuit board assembly, a heat sink, and a heat shield positioned within the housing. The housing includes a top housing member connected to a bottom housing member. The top housing member includes a concave-down top-end portion connected to a generally cylindrical vertical wall via rounded corners. The antenna carrier supports multiple antennas positioned proximate to an inner surface of the vertical wall. The heat sink is positioned between the antenna carrier and the circuit board assembly. The circuit board assembly is positioned between the heat shield and the heat sink, and the heat shield is positioned between the circuit board assembly and the bottom housing member.

Abstract: This document describes an access point device and associated systems and methods. The techniques and systems include an access point device that includes a housing with an antenna carrier, a circuit board assembly, a heat sink, and a heat shield positioned within the housing. The housing includes a top housing member connected to a bottom housing member. The top housing member includes a concave-down top-end portion connected to a generally cylindrical vertical wall via rounded corners. The antenna carrier supports multiple antennas positioned proximate to an inner surface of the vertical wall. The heat sink is positioned between the antenna carrier and the circuit board assembly. The circuit board assembly is positioned between the heat shield and the heat sink, and the heat shield is positioned between the circuit board assembly and the bottom housing member.

Abstract: Detecting power at a detachable case of a mobile device may include identifying a first electrical connection at the detachable case. The first electrical connection may include the detachable case receiving power from a wireless charging device. The detachable case may provide the received power from the wireless charging device to the mobile device. A second electrical connection may be identified at the detachable case. The second electrical connection may include the detachable case receiving at least one of power or data from a wired device coupled to the detachable case for transmission to the mobile device. When the second electrical connection includes receiving power from the wired device, the received power from the wired device may be provided to the mobile device while refraining from providing the power from the wireless charging device to the mobile device.

Abstract: This document describes techniques and systems that enable a range extender device. The techniques and systems include a user device that includes a housing with an audio sensor, a heat sink assembly, a circuit board assembly, and a speaker assembly positioned within the housing. The housing includes a top housing member connected to a bottom housing member. The top housing member includes a concave-down top-end portion connected to a generally-cylindrical vertical wall via rounded corners. The heat sink assembly includes a heat sink and one or more antennas positioned proximate to an inner surface of the vertical wall. The circuit board assembly is positioned within the housing and proximate to the heat sink assembly, and the speaker assembly is positioned within the housing and connected to the circuit board assembly. Also, a light ring assembly is connected to a bottom exterior surface of the bottom housing member.

Abstract: This document describes techniques and systems that enable a range extender device. The techniques and systems include a user device that includes a housing with an audio sensor, a heat sink assembly, a circuit board assembly, and a speaker assembly positioned within the housing. The housing includes a top housing member connected to a bottom housing member. The top housing member includes a concave-down top-end portion connected to a generally-cylindrical vertical wall via rounded corners. The heat sink assembly includes a heat sink and one or more antennas positioned proximate to an inner surface of the vertical wall. The circuit board assembly is positioned within the housing and proximate to the heat sink assembly, and the speaker assembly is positioned within the housing and connected to the circuit board assembly. Also, a light ring assembly is connected to a bottom exterior surface of the bottom housing member.

Abstract: Disclosed embodiments relate to the application of radiofrequency (RFID) gamepieces for a gaming console. In one example, a gaming console includes a processor, a touchscreen to detect RFID gamepieces placed thereon and overlaying an RFID reader; each gamepiece having a base containing an RFID tag, which can be supported by central, peripheral or offset supports usable to detect its position and orientation and tall enough to support the base above a touchscreen detection zone, the RFID tag disposed within a range of the RFID reader and comprising a unique identifier, and wherein the gaming console is configured to display a user interface on the touchscreen, select the game. wait for gamepieces to be placed on the touchscreen, detect and read each gamepiece, access a database to authenticate a profile associated with each gamepiece, and use the profile, the position, and the orientation of each gamepiece to conduct the game.

Abstract: Disclosed embodiments relate to the application of radiofrequency (RFID) gamepieces for a gaming console. In one example, a gaming console includes a processor, a touchscreen to detect RFID gamepieces placed thereon and overlaying an RFID reader; each gamepiece having a base containing an RFID tag, which can be supported by central, peripheral or offset supports usable to detect its position and orientation and tall enough to support the base above a touchscreen detection zone, the RFID tag disposed within a range of the RFID reader and comprising a unique identifier, and wherein the gaming console is configured to display a user interface on the touchscreen;, select the game. wait for gamepieces to be placed on the touchscreen, detect and read each gamepiece, access a database to authenticate a profile associated with each gamepiece, and use the profile, the position, and the orientation of each gamepiece to conduct the game.

Abstract: Technologies directed to a wireless network device with a single hardware architecture that supports multiple devices roles through software configuration are described. One wireless network device includes a housing with an RF connector and a circuit board with a first radio coupled to an internal antenna and a second radio coupled to an external antenna via the RF connector. The second antenna is mounted on an exterior surface of the building and coupled to the RF connector via an RF cable. The wireless network device receives a command identifying a device role for the wireless network device and configures itself according to the device role using device setting.

Abstract: This document describes techniques and systems that enable a range extender device. The techniques and systems include a user device that includes a housing with an audio sensor, a heat sink assembly, a circuit board assembly, and a speaker assembly positioned within the housing. The housing includes a top housing member connected to a bottom housing member. The top housing member includes a concave-down top-end portion connected to a generally-cylindrical vertical wall via rounded corners. The heat sink assembly includes a heat sink and one or more antennas positioned proximate to an inner surface of the vertical wall. The circuit board assembly is positioned within the housing and proximate to the heat sink assembly, and the speaker assembly is positioned within the housing and connected to the circuit board assembly. Also, a light ring assembly is connected to a bottom exterior surface of the bottom housing member.

Abstract: Technologies directed to a wireless network device with a single hardware architecture that supports multiple devices roles through software configuration are described. One wireless network device includes a housing with an RF connector and a circuit board with a first radio coupled to an internal antenna and a second radio coupled to an external antenna via the RF connector. The second antenna is mounted on an exterior surface of the building and coupled to the RF connector via an RF cable. The wireless network device establishes a first wireless link between the first radio and a radio of a second device via the first antenna and a second wireless link between the second radio and a radio of a third device via the second antenna. The second device can be a second wireless network device that is programmed to operate as a gateway, the gateway being mounted outside of the building.

Abstract: This document describes techniques and systems that enable a range extender device. The techniques and systems include a user device that includes a housing with an audio sensor, a heat sink assembly, a circuit board assembly, and a speaker assembly positioned within the housing. The housing includes a top housing member connected to a bottom housing member. The top housing member includes a concave-down top-end portion connected to a generally-cylindrical vertical wall via rounded corners. The heat sink assembly includes a heat sink and one or more antennas positioned proximate to an inner surface of the vertical wall. The circuit board assembly is positioned within the housing and proximate to the heat sink assembly, and the speaker assembly is positioned within the housing and connected to the circuit board assembly. Also, a light ring assembly is connected to a bottom exterior surface of the bottom housing member.

Abstract: A circuit substrate has an open substrate, a heat-dissipation block, multiple high thermal conductivity members, a first dielectric layer, a second dielectric layer, multiple first heat conductive members, and multiple second heat conductive members. The heat-dissipation block is disposed in the open substrate. Multiple high thermal conductivity members are mounted through the heat-dissipation block. The first dielectric layer exposes a part of one of two surfaces of the heat-dissipation block. The second dielectric layer exposes a part of the other surface of the heat-dissipation block. The first heat conductive members are in contact with the heat-dissipation block exposed from the first dielectric layer. The second heat conductive members are in contact with the part of the heat-dissipation block exposed from the second dielectric layer.

Abstract: This document describes an access point device and associated systems and methods. The techniques and systems include an access point device that includes a housing with an antenna carrier, a circuit board assembly, a heat sink, and a heat shield positioned within the housing. The housing includes a top housing member connected to a bottom housing member. The top housing member includes a concave-down top-end portion connected to a generally cylindrical vertical wall via rounded corners. The antenna carrier supports multiple antennas positioned proximate to an inner surface of the vertical wall. The heat sink is positioned between the antenna carrier and the circuit board assembly. The circuit board assembly is positioned between the heat shield and the heat sink, and the heat shield is positioned between the circuit board assembly and the bottom housing member.

Abstract: Technologies directed to coordinated dynamic analog beamforming are described. One method includes receiving, by a digital controller of a first wireless device, a data packet, the data packet comprising a destination address of a second wireless device. The method further includes retrieving, from memory, beamformer configuration data associated with the destination address, the beamformer configuration data comprising a phase shifter angle value for a radiation pattern. The method sends, to a beamformer circuit, the phase shifter angle value, the beamformer circuit comprises a power splitter and a set of phase shifters (e.g., at least four). The method causes the set of phase shifters to steer the radiation pattern of electromagnetic energy, radiated by an antenna array of elements, at the phase shifter angle value and sends the data packet to the second wireless device via the antenna array.

Abstract: This document describes an access point device and associated systems and methods. The techniques and systems include an access point device that includes a housing with an antenna carrier, a circuit board assembly, a heat sink, and a heat shield positioned within the housing. The housing includes a top housing member connected to a bottom housing member. The top housing member includes a concave-down top-end portion connected to a generally cylindrical vertical wall via rounded corners. The antenna carrier supports multiple antennas positioned proximate to an inner surface of the vertical wall. The heat sink is positioned between the antenna carrier and the circuit board assembly. The circuit board assembly is positioned between the heat shield and the heat sink, and the heat shield is positioned between the circuit board assembly and the bottom housing member.