A communication device includes a conductive chassis, an electrical feed positioned within the conductive chassis and configured to supply a communication signal, an edge antenna at least partially formed in the conductive chassis at an edge of the communication device, and a conductive coil positioned within the conductive chassis in proximity to the edge antenna. The conductive coil is configured to receive the communication signal from the electrical feed and to generate a magnetic field corresponding to the communication signal that inductively drives the edge antenna to radiate a radio frequency signal corresponding to the communication signal.

There is presented a hearing aid configured to be arranged at least partly in the ear canal of a specific person, the hearing aid comprising a faceplate, a custom ear shell, adapted to fit or match with the ear canal of a specific person, the custom ear shell connected to the faceplate, a rechargeable battery, an induction coil for wireless charging of the rechargeable battery, wherein the induction coil is fixed to the ear shell and furthermore a method for providing a hearing aid, said method comprising obtaining data representative of a shape and/or size of an ear canal of a specific person, establishing a digital model of the custom shell of the hearing aid for said ear canal based on said data, wherein said providing includes determining a position and/or orientation of an induction coil in an inner space of said ear shell, which position and/or orientation increases or maximizes a distance from the outer ear to the faceplate.

The disclosure provides a controller for a device having near field RF communications capabilities. The controller is configured to: tune the impedance of at least one component of an impedance matching circuit to vary an impedance transformation provided by the impedance matching circuit; determine at least one indication of power output from the circuit, each at least one indication corresponding to an impedance transformation; and identify one of a plurality of modes of the circuit as an operating mode, based on the at least one indication, wherein the impedance matching circuit provides a different impedance transformation in each mode.

A wireless power transfer system is provided having a wireless transmission system that includes an input to receive input power from an input power source, a transmission antenna, and a transmission controller configured to generate wireless signals based, at least in part, on the input power, the wireless signals including wireless power signals and wireless data signals, and to transmit such wireless signals. The wireless power transfer system further includes a wireless receiver system in a wireless peripheral device, the wireless receiver system having a receiver antenna configured to receive the wireless power signals and wireless data signals via inductive coupling with the transmission antenna, as well as a receiver controller configured to determine the acceleration of the wireless peripheral device, generate a prescribed update frequency based on the detected acceleration, and transmit operational updates to the wireless transmission system at the prescribed update frequency.

A wireless data communication accessory is disclosed, which is configured for attachment to a drug delivery device and comprises an interface for data exchange between the accessory and the drug delivery device, wireless communication means configured to communicate with an external device paired with the wireless communication means via wireless communication, and a controller coupled to the interface and the wireless communication means and being configured to control operation of the interface and the wireless communication means such that data received from the drug delivery device via the interface are processed for transmission to the external device via the wireless communication.

An RFID tag substrate includes an insulating substrate that has a mounting region in which a semiconductor device is disposed, the mounting region being included in a first surface of the insulating substrate, and a coil that is positioned at an outer edge portion of the insulating substrate. The coil includes a plurality of first coil conductors and a plurality of second coil conductors that are wound such that the first coil conductors and the second coil conductors each have the same number of turns and such that a direction in which the first coil conductors are wound and a direction in which the second coil conductors are wound are opposite to each other. The first coil conductors and the second coil conductors are alternately arranged in a thickness direction of the insulating substrate and connected in series to one another.

An antenna (100) for near-field communication including an electrically conducting track (102). This track (102) defines, by the pattern thereof, a primary shape of the antenna and includes an arrangement of primary portions (121) of the same width and of secondary portions (122) of different widths to that of the primary portions (121), such that the arrangement forms a figurative image (123) on the antenna (100).

Systems that detect a positional relationship between an informal processing device and an external keyboard are disclosed. A system includes an external keyboard including a first communication unit, an incoming coil disposed inside thereof, and an input controller configured to control the first communication unit to transmit operating information indicating an input operation from a user, information processing device including a second communication unit configured to communicate with the first communication unit, a planar portion on which the keyboard is mountable, and a feeding coil disposed below the planar portion, the feeding coil configured to supply electricity to the incoming coil by an electromagnetically induced coupling, and a position detector configured to detect a positional relationship between the planar portion and the keyboard based on a coupling strength of the electromagnetically induced coupling between the feeding coil and the incoming coil. Similar apparatus and methods are also provided.

An electronic device may include a rear housing wall, antenna resonating element, sensor board, and grounding ring. The grounding ring may couple antenna currents from the resonating element onto a ground trace on the sensor board. A switchable inductor may couple the grounding ring to the ground traces. The switchable inductor may be used to tune a frequency response of the antenna in a cellular low band. Additionally or alternatively, an inductor may couple the resonating element to the ground traces or other portions of an antenna ground. This inductor may serve to extend the effective length of the antenna resonating element in the cellular low band to compensate for dielectric loading by the rear housing wall, such as in examples where the rear housing wall is formed from zirconia.

A small home appliance includes a coil for power reception and communication, a communication unit which performs wireless communication with a wireless power transmission device by using the coil, and a controller which receives wireless power from the wireless power transmission device by the coil, receives a zero crossing interrupt signal from the wireless power transmission device, and determines a communication period of the communication unit according to the zero crossing interrupt signal.