An antenna assembly for a portable information handling system. The antenna assembly includes an antenna bounding component, the antenna bounding component being electrically and physically connected to a top cover portion of the portable information handling system; and, an antenna, the antenna being mounted to the antenna bounding portion, radio frequency (RF) radiation radiating via an RF radiation path, the RF radiation path being provided by a radiation slot, the radiation slot being located within a bottom cover portion of the portable information handling system.

Systems, methods, and non-transitory computer readable media containing instructions for causing at least one processor to perform operations for determining a display configuration for presenting virtual content are provided. In one implementation, the processor is configured for receiving image data from an image sensor associated with a wearable extended reality appliance; analyzing the image data to detect a particular input device placed on a surface; determining a value of at least one use parameter for the particular input device; retrieving from memory default display settings associated with the particular input device; determining a display configuration for presenting virtual content based on the value of the at least one use parameter and the retrieved default display settings; and causing a presentation of the virtual content via the wearable extended reality appliance according to the determined display configuration.

An information handling system keyboard extends plural feet from a bottom surface to reduce contaminants at the bottom surface that might scratch a touchscreen display and retracts the plural feet when resting on the touchscreen display to place a non-scratch and contaminant free surface against the touchscreen display. In one embodiment, the plural feet automatically retract when in proximity to a display surface, such as in response to a magnetic sensor integrated in the keyboard that senses a magnet integrated in the display or in response to a command from an information handling system having an integrated display on which the keyboard rests. In one embodiment, the keyboard integrates accelerometers to automatically extend the plural feet during accelerations and retract the plural feet when the keyboard rests on a display after accelerations.

An information handling system and keyboard automatically coordinate wireless pairing when the keyboard couples to the information handling system to interface contacts exposed at the information handling system housing and the keyboard. The information handling system retrieves an identifier of the keyboard through a contact, determines if the keyboard is already paired, and if not initiates wireless pairing with a command through the contact. A pairing key is provided from the keyboard to the information handling system through the contact and applied by the information handling system to complete pairing. A confirm code is communicated through the contact to the keyboard for communication back to the information handling system by wireless signals. The contacts provide a charging path to charge the keyboard when coupled to the information handling system.

Aspects of the disclosure relate to a remote control which may include one or more buttons configured to provide input to the remote control upon being activated, a transmitter for transmitting data, a receiver for receiving data, a processor and memory storing computer executable instructions that, when executed, cause the two-way remote control to perform a method for configuring repeat transmission behavior of one or more of the buttons of the two-way remote control. Further, the receiver may be configured to receive data from a device configured to be controlled by the remote control and the data may include instructions for configuring the repeat transmission behavior of the one or more buttons of the two-way remote control. Additionally, the two-way remote control may configure the repeat transmission behavior of the one or more buttons of the two-way remote control based on the data received from the device.

Embodiments of this application disclose a wireless charging system. The wireless charging system includes a first electronic device, a wireless charging device, and a second electronic device. The wireless charging device is located between the first electronic device and the second electronic device. The wireless charging device is an auxiliary device of the first electronic device and is physically connected to the first electronic device, the wireless charging device includes a receiver circuit and a housing, the receiver circuit includes a receiver coil, and the receiver coil is located on an inner side of the housing. The first electronic device is configured to: charge the wireless charging device, charge the second electronic device through the wireless charging device, and receive power from the second electronic device through the wireless charging device.

An electronic device and a method of controlling multiple pieces of equipment are provided. The electronic device is coupled to an operating device, a first controlled device and a second controlled device. The electronic device includes an operating interface and a controlled interface. The operating interface is coupled to the operating device. The operating device includes a first operating area and a second operating area. The first operating area is configured to deliver a first operating signal. The second operating area is configured to deliver a second operating signal. The controlled interface is coupled to the first controlled device and the second controlled device. The first controlled device is controlled by the first operating signal. The second controlled device is controlled by the second operating signal.

An example keyboard module for a computing device may be separable and wirelessly communicable with a display module. In some examples, the keyboard module may include a wireless transceiver to receive a first audio signal from the display module and to transmit a second audio signal to the display module. The first audio signal may be output by a speaker on the keyboard module. The second audio signal may be captured by a microphone on the keyboard module. In some examples, the keyboard module may include a wireless display receiver to receive a display image from the display module. In some examples, the keyboard module may include a display output port to output the received display image for an external display.

An apparatus, system and method is described for controlling one or more consumer electronic devices that is performed by a smart device. The smart device causes one or more graphical elements, each for performing a particular operation to be displayed. The smart device then causes an action to be performed when the user selects one of the graphical elements, for example by pressing one of the keys on the universal controlling device or by speaking a command.

A method of docking an accessory device includes, at the accessory device, receiving (324) a first transmission energy for wireless charging from an electronic device; in accordance with receiving the first transmission energy: setting (326) a timer, and entering (328) a docked mode; and exiting (330) the docked mode upon expiration of the timer.