One embodiment provides an electronic device, comprising: an antenna structure comprising an antenna body and an antenna tuning circuit; an RF circuit coupled to the antenna structure via a first capacitor to transmit an RF signal through the antenna structure; a Specific Absorption Ratio (SAR) sensor coupled to the antenna structure via a first inductor to detect, through the antenna structure, a change of capacitance within a target range, wherein a second capacitor in the antenna tuning circuit is located within the target range; and a control circuit for outputting a control signal to the antenna tuning circuit to adjust the second capacitor in the antenna tuning circuit to match RF signals having different frequencies; wherein a power supply terminal of the control circuit is coupled to a constant voltage power source. Other aspects are described and claimed.

This electronic device is used by being worn on a user's head. The electronic device includes lens portions positioned in front of the user's eyes when the electronic devices is worn on the head of the user, a first antenna formed in one lens portion, and a second antenna formed in the other lens portion. The first antenna and the second antenna have different functions.

An electronic device is to be worn by a user and includes an antenna and a storage compartment that stores the antenna. In a state of the electronic device being worn by the user, the storage compartment is positioned at a side of the user's head. The antenna is capable of selectively adopting a stored state and a deployed state, the antenna being stored in the storage compartment in the stored state, and a greater portion of the antenna being separated from the storage compartment in the deployed state than in the stored state.

An electronic apparatus capable of reducing SAR and, simultaneously, suppressing degradation of antenna efficiency is provided. To that end, an electronic apparatus includes a first temple to be positioned on one side of the user's head when the electronic apparatus is worn on the user's head, a second temple to be positioned on the other side of the user's head when the electronic apparatus is worn on the user's head, an first antenna formed in the first temple, an second antenna formed in the second temple, and a transceiver circuit for supplying power to the first antenna and the second antenna.

An example electronic device may include an antenna module comprising an active element and a ground plane. The electronic device may include a proximity sensor element integrated within the antenna module, wherein the proximity sensor element is to detect proximity of a user.

A mirrored antenna system for beam steering in an information handling system is disclosed. The mirrored antenna system includes a first antenna and a second antenna configured to operate alternatively as a radiator and as a reflector. The first and the second antenna are arranged in mirror symmetry to one another and separated by a dielectric medium. The mirrored antenna system further includes a switch coupled to the first antenna and the second antenna configured to switch the feed in response to a trigger.

Dual-band antenna structures and methods of operating the same of an electronic device are described. One apparatus includes a radio frequency (RF) feed and a dual-band antenna structure coupled to the RF feed at a feeding point and coupled to a ground plane at a grounding point. The structure includes a first loop antenna and a second loop antenna, both coupled to the feeding point and the grounding point. The first loop antenna radiates electromagnetic energy in a first resonant mode in a first frequency band and the second loop antenna radiates electromagnetic energy in a second resonant mode in a second frequency band and radiates electromagnetic energy in a third resonant mode in the first frequency band. Surface currents create a pair of hot spots of magnetic field.

A hearing aid includes a hearing aid assembly having an antenna for emission of an electromagnetic field, a transceiver for wireless data communication, the transceiver interconnected with the antenna, and a housing for accommodation of the antenna, wherein the antenna comprises a first section having a length between at least one sixteenth wavelength and a full wavelength of the electromagnetic field, the antenna being positioned so that current flows in the first section in a direction that corresponds with an ear-to-ear axis of a user when the housing is worn in its operational position by the user, whereby the electromagnetic field emitted by the antenna propagates along a surface of a head of the user with its electrical field substantially orthogonal to the surface of the head of the user.

The embodiments of the present disclosure provide positions of one or more speakers and microphones that permit a user to orient the antenna and heat generating elements of a mobile communication device in a location that reduces exposure to RF and/or thermal energy or radiation, including orientations where the antenna of the mobile communication device is positioned further away from a brain of a user than an antenna of a conventional mobile communication device.

An antenna with swappable and selective radiation direction includes a first arm, a second arm electrically connected to the first arm, a third arm is electrically connected to the first arm, a first impedance tuning circuit coupled to the second arm for connecting the second arm to a ground or a first matching component according to a control signal, and a second impedance tuning circuit coupled to the third arm for connecting the third arm to the ground or a second matching component according to the control signal. By tuning impedance of the antenna, the antenna operates in a first mode corresponding to a first radiation direction or a second mode corresponding to a second radiation direction.