The embodiments disclose a modular eyeglasses apparatus including a first and second temple interchangeably lockable to a first and second eyeglasses frame end, a first and second temple lockable receiver coupled to the first and second eyeglasses frame end, a lockable lever device coupled to the receiver having a lever handle having an upward angled section at one end and having an oblong section at the opposite end, an insertable section at one end of the first and second temple having a semi-circular depression configured to accept an elongated portion of the oblong section, rotating the lever handle downward toward the temple places the elongated portion into the depression to create a friction based coupling to lock the temple in an inserted position, and rotating the lever handle upward away from the temple retracts the elongated portion out of the depression to unlock the temple for removal from the receiver.

A novel design for untethered smartglasses with wireless connectivity in which electronic components and electric wiring are mounted in a manner than enables at least a portion of temples of the smartglasses to be bent around the ear to improve the smartglasses' fit. In one embodiment, the smartglasses include a front element that supports lenses and two temples, coupled to the front element through hinges that enable folding and unfolding. At least one of the temples includes: a first portion coupled to the front element with first electronic components, a second portion coupled to the first portion with electric wires, and a third portion coupled to the second portion with second electronic components. The second portion is designed to be bent around a human ear to improve the smartglasses' fit, and the first and third portions are not designed to be bent to improve the smartglasses' fit.

Eyewear having a frame front, a first temple and a second temple. The first temple extends from a first side of the frame front. The second temple extends from a second side of the frame front. At least one of the first temple and the second temple includes a front portion and a rear portion. Temple structures having a base member are disclosed, along with temples for eyewear and methods of attaching portions of temples of eyewear.

The present disclosure relates to a loudspeaker. The loudspeaker may include a loudspeaker mechanism, a fixing mechanism, and a connector. The loudspeaker mechanism may be configured to generate a vibration signal and transmit the vibration signal to the human body. The fixing mechanism may be configured to support and maintain the position of the loudspeaker mechanism. The connector may be configured to connect the loudspeaker mechanism with the fixing mechanism. The loudspeaker mechanism may at least include a first fixed position and a second fixed position. The first fixed position may be a fixed position of the loudspeaker when the loudspeaker is in a non-working state. The second fixed position may be a fixed position of the loudspeaker when the loudspeaker is in a working state. The connector may be configured to switch the loudspeaker mechanism between the first fixed position and the second fixed position.

An electronic device may include a power management subsystem that soft-starts freshly charged batteries upon connection. The device may be configured to operate on power from a number of batteries less than the greatest number of batteries that may be concurrently connected. Because the soft-start reduces current inrush upon connection of a fresh battery, the device may continue operating as fresh batteries are connected and depleted batteries are disconnected.

An example wearable electronic device including an antenna may include: a bridge; a first rim disposed in a first direction of the bridge, and a second rim disposed in a second direction of the bridge opposite to the first direction; and a first temple configured to be folded or unfolded with respect to the first rim using a first hinge, and a second temple configured to be folded or unfolded with respect to the second rim using a second hinge, wherein the first temple may include a first cut-off portion, and a first conductive portion and a second conductive portion separated by the first segmenting portion, wherein the second temple may include a second segmenting portion, and a third conductive portion and a fourth conductive portion separated by the second segmenting portion, and wherein the first conductive portion may include a printed circuit board on which a wireless communication circuit is disposed, a feeding point electrically connected to the wireless communication circuit, and at least one conductive connection member electrically connecting the first conductive portion and the second conductive portion.

An example wearable electronic device including an antenna may include: a bridge; a first rim disposed in a first direction of the bridge, and a second rim disposed in a second direction of the bridge opposite to the first direction; and a first temple configured to be folded or unfolded with respect to the first rim using a first hinge, and a second temple configured to be folded or unfolded with respect to the second rim using a second hinge, wherein the first temple may include a first cut-off portion, and a first conductive portion and a second conductive portion separated by the first segmenting portion, wherein the second temple may include a second segmenting portion, and a third conductive portion and a fourth conductive portion separated by the second segmenting portion, and wherein the first conductive portion may include a printed circuit board on which a wireless communication circuit is disposed, a feeding point electrically connected to the wireless communication circuit, and at least one conductive connection member electrically connecting the first conductive portion and the second conductive portion.

The present disclosure relates to a loudspeaker. The loudspeaker may include an earphone core, an auxiliary function module, and a flexible circuit board. The earphone core may be configured to convert an electric signal into a vibration signal. The auxiliary function module may be configured to receive an auxiliary signal and execute an auxiliary function. The flexible circuit board may be configured to electrically connect to an audio signal wire and an auxiliary signal wire of an external control circuit, and electrically connect the audio signal wire and the auxiliary signal wire with the earphone core and the auxiliary function module via the flexible circuit board, respectively. The loudspeaker in the present disclosure may simplify the wire routing and improve sound quality.

The present disclosure relates to a loudspeaker. The loudspeaker may include an earphone core, an auxiliary function module, and a flexible circuit board. The earphone core may be configured to convert an electric signal into a vibration signal. The auxiliary function module may be configured to receive an auxiliary signal and execute an auxiliary function. The flexible circuit board may be configured to electrically connect to an audio signal wire and an auxiliary signal wire of an external control circuit, and electrically connect the audio signal wire and the auxiliary signal wire with the earphone core and the auxiliary function module via the flexible circuit board, respectively. The loudspeaker in the present disclosure may simplify the wire routing and improve sound quality.

Techniques for providing wearable electronic devices with electrical components are disclosed. The electrical components can provide electrical technology to eyewear to facilitate audio support including enhanced hearing. The electrical components can operate independently or together with other electrical components provided elsewhere. The wearable electronic devices with electronic components can, for example, provide audio output, audio enhancements, or event-related audio content.