Eyewear providing flexible audio to a user. The eyewear includes a frame having two temple arms. The frame also has a front rim retaining two lenses. The eyewear also includes an open ear speaker for firing directional audio to an ear of a user, thereby providing semi-private audio to the user. The eyewear may include a wireless connection to another smart device or network.

In one embodiment, an eyeglass frame includes a lens holder, a first temple with a first end close to the lens holder and a second end, a second temple, an electrical connector and a printed circuit board. The printed circuit board with at least one electrical component can be in the first temple. The connector can be close to the first end of the first temple, facing downward, and electrically connected to the at least one electrical component. In another embodiment, an eyeglass frame includes a first printed circuit board, with at least one electrical component. The first printed circuit board can be connected to an electrical component at the frame via a second printed circuit board.

Aspects of the present invention relate to a head-worn computer having a see-through computer display, a frame mechanically adapted to hold the see-through computer, a first side arm pivotally attached to the frame and adapted to hold the head-worn computer in place on a head of the user, wherein the first side arm comprises a temple section and an ear horn section and the temple section further comprising a compartment adapted to contain a battery, wherein the battery powers the see-through computer display.

An adaptor system to facilitate use of eyewear with an audio processor for a cochlear hearing implant. The system includes an audio processor adaptor configured to mount to the audio processor and an eyewear adaptor configured to mount to the eyewear. The audio processor adaptor and the eyewear adaptor can be selectively connected to join the eyewear and the audio processor. The audio processor adaptor may include an ear hook portion that allows the audio processor to be worn over a wearer's ear even when separated from the eyewear. The adaptor system may be provided as a kit including a plurality of audio processor adaptors configured to mount to different audio processors and/or a plurality of eyewear adaptors configured to mount to different eyewear. The adaptors may include universal connectors that allow any audio processor adaptor to be interconnected with any eyewear adaptor.

Aspects of the present invention relate to a head-worn computer having a see-through computer display, a frame mechanically adapted to hold the see-through computer, a first side arm pivotally attached to the frame and adapted to hold the head-worn computer in place on a head of the user, wherein the first side arm comprises a temple section and an ear horn section and the temple section further comprising a compartment adapted to contain a battery, wherein the battery powers the see-through computer display.

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.

In one embodiment, an eyeglass frame includes a lens holder, a first temple with a first end close to the lens holder and a second end, a second temple, an electrical connector and a printed circuit board. The printed circuit board with at least one electrical component can be in the first temple. The connector can be close to the first end of the first temple, facing downward, and electrically connected to the at least one electrical component. In another embodiment, an eyeglass frame includes a first printed circuit board, with at least one electrical component. The first printed circuit board can be connected to an electrical component at the frame via a second printed circuit board. One embodiment is configured for hearing enhancement to enhance signals for the user to hear. One embodiment is configured for text and audio messages. One embodiment is configured to be a headset.

Embodiments of ultrathin eyeglasses are provided. The eyeglasses comprise a frame and temple pieces extending from the frame. The frame and temple pieces are configured to be directly connected using a bearing or a pin, without the need for a separately attached hinge piece. The temple pieces are configured to sit flat against the frame. An eyeglasses case is also provided. The case has a thin profile and is configured to be attached to a smartphone. The connection between the case and the smartphone allows relative rotation between the case and the smartphone.

Aspects of the present invention relate to thermal management systems for head-worn computers.

Spectacles including auricular devices are described. The spectacles include a structure having a front frame for supporting respective lenses, and a pair of arms articulated to the front frame on laterally opposite sides, each of the arms extending longitudinally between a first end that is articulated to the front frame and a second, opposite end, close to which an end arm portion can make contact with the head at the ear. Each arm extends from the second end into an arm portion that is made of flexible material and bears an element for supporting an auricular device, and the arm portion can move, on account of its flexibility, between an operating position in which the support element is worn at the ear to allow the auricular device to be positioned, and a non-operating position in which the support element is removably held on the end arm portion.