A digital coin timepiece that generates a tactile presentation which indicates elapsed time including a body member that includes a tactilely readable display surface that provides haptic feedback comprising first vibrations in a first location on the display surface when the tactilely readable display surface is touched by a user, with the first vibrations providing haptic feedback representing an actual minute or elapsed minutes so that the user can determine the actual or approximate time without having to view the display surface.

A digital coin timepiece that generates a tactile presentation which indicates elapsed time including a body member that includes a tactilely readable display surface that provides haptic feedback comprising first vibrations in a first location on the display surface when the tactilely readable display surface is touched by a user, with the first vibrations providing haptic feedback representing an actual minute or elapsed minutes so that the user can determine the actual or approximate time without having to view the display surface.

Aspects of the technology provide a symbiotic graphical display on a client device such as a smartwatch. The system includes at least one emissive display element and at least one non-emissive display element. The display elements are arrayed in layers or other configurations such that content or other information is concurrently aligned across the respective display surfaces of the different elements. A first set of content is rendered using the non-emissive display element while a second set of content is rendered using the emissive display element. Depending on characteristics or features of a given content item, that item may be rendered by one or both of the display elements. Certain content may be transitioned from the emissive display element to the non-emissive display element according to a time threshold or other criteria.

An electronic device is provided. The electronic device includes a bezel as a first metallic component, a dial as a second metallic component to form a capacitor with the bezel, an inner ring as a dielectric disposed between the bezel and the dial, at least one processor configured to obtain a capacitance value generated by a touch input on the bezel.

An electronic device is provided. The electronic device includes a bezel as a first metallic component, a dial as a second metallic component to form a capacitor with the bezel, an inner ring as a dielectric disposed between the bezel and the dial, at least one processor configured to obtain a capacitance value generated by a touch input on the bezel.

A haptic device for an electronic device includes an actuation member formed from a shape-memory alloy (SMA) material that changes shape (e.g., expands or contracts) in response to an applied electrical current. In some cases, the haptic devices described herein also include a restoration mechanism that restores the actuation member to its original shape or to a similar shape. The change in the shape of the actuation member and the restoration of the shape of the actuation member may produce a haptic output at the electronic device.

The smart watch with a control dial includes a watch body having a display on a top side and a control circuit inside the watch body, and a control dial electrically connected to the control circuit. The control dial has a portion of its circumference exposed from a lateral side of the watch body, and, when the control dial is turned, the control circuit detects the movement of the control dial and adjusts correspondingly the content shown on the display. The physical movement provided by the control dial effectively prevents the problem of operating the touch screen of the smart watch when the touch screen is stained.

The smart watch with a control dial includes a watch body having a display on a top side and a control circuit inside the watch body, and a control dial electrically connected to the control circuit. The control dial has a portion of its circumference exposed from a lateral side of the watch body, and, when the control dial is turned, the control circuit detects the movement of the control dial and adjusts correspondingly the content shown on the display. The physical movement provided by the control dial effectively prevents the problem of operating the touch screen of the smart watch when the touch screen is stained.

A proposed device is composed of a smartwatch unit, including at least a display unit of the smartwatch, and a box, including a housing to accommodate the smartwatch. The box has a cover being openable and closeable to cover the display unit, wherein the cover has at least one hole so that a corresponding portion of the display unit is visible to a user when the cover is in closed position, and wherein when the cover is in closed position, the smartwatch unit displays the output of the smartwatch in/on the corresponding portion of the display.

A proposed device is composed of a smartwatch unit, including at least a display unit of the smartwatch, and a box, including a housing to accommodate the smartwatch. The box has a cover being openable and closeable to cover the display unit, wherein the cover has at least one hole so that a corresponding portion of the display unit is visible to a user when the cover is in closed position, and wherein when the cover is in closed position, the smartwatch unit displays the output of the smartwatch in/on the corresponding portion of the display.