A power supply device for an internal antenna of a display is provided. The power supply device includes at least two coils configured to be separated by a predetermined interval and a power supply terminal of the at least two coils to connect the at least two coils in parallel. An integrated circuit (IC) includes the power supply terminal of the at least two coils connects the at least two coils in parallel and supplies a current to the at least two coils through the included power supply terminal. Phases of the current flowing in the at least two coils are the same due to the current supplied by the IC.

In one embodiment, a coil includes a magnetic core and a winding. The magnetic core includes at least one block provided with a groove or an opening. Each block is arranged so as to make the groove or the opening extend along a direction of magnetic flux. The coil is used as a power transmitting coil or a power receiving coil.

A method for operating an electronic device is provided. The method includes monitoring a noise level of a noise signal received via a panel while wireless power is transmitted and/or received at a first power level via at least a conductive pattern, and generating a signal for changing the first power level corresponding to at least a part of an input to at least a part of the panel.

The invention provides a power supplying device, which includes a first coil; and a second coil, which is wound to be substantially line symmetrical to the first coil with respect to a center line, wherein the center line is an axis passing through a winding center of the first coil. A ground point of the first coil and the second coil is disposed further inside than an outermost winding of the first coil.

Apparatus and methods are disclosed of a membrane panel comprising a close-proximity communication antenna embedded within the membrane panel. In an example, a welding-type system includes a membrane panel with a user interface and a close-proximity communication antenna embedded within the membrane panel.

Near field radio communication with a communication device located at or near a housing is enabled in a simple configuration. A housing defining at least part of a space having a prescribed shape includes an NFC antenna. In addition, the NFC antenna is disposed along a surface of the housing for performing the near field radio communication with an NFC card located inside the space having the prescribed shape.

An antenna unit includes an antenna prepared by winding conducting wire around a magnetic body. The antenna unit also includes a metal housing to accommodate the antenna. The metal housing includes a first cut-out to allow a magnetic field generated by the antenna to pass through the metal housing.

A handle for a car door includes a near field communication unit having a microchip and an antenna. The antenna includes a coil and an elongated connection part configured to cooperate with the microchip, a body, an overmolded portion formed on the body and defining an encapsulating zone including an entirety of the coil and part of the elongated connection part. The elongated connection part includes a terminal portion including a cooperation extremity configured to cooperate with the microchip. The terminal portion is outside the encapsulated zone.

A system/device, such as a gradiometer probe for detecting RF signals, or for example for explosive detection, has the shape of the coils in its adjustment mechanism that minimizes the cross-talk between the receiver probe (Rx) and the transmitting antenna (Tx) in such a way as to minimize (or reduce) the areas where the distance between the coils during the adjustment is the smallest. Moving coils along the plain of the coils is one mechanism of achieving it. Having the coils of different shapes, e.g., circular receiver and oval transmitter coils, is another. Many shapes are possible, including circular, oval, elliptical, and polygonal, to give a few examples. In some embodiments both of these methods/approaches are combined in a single device.

A communications assembly for a mask. The communications assembly includes a housing configured to couple to the mask, the housing includes a substrate. A push-to-talk (PTT) actuator is coupled to the substrate. A near field communication (NFC) antenna is coupled to the substrate.