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.

A timepiece, time display, and method of presenting time information. The timepiece includes clock means for measuring the passage of time in standard units, and maintaining a current value. A visual display is included for displaying one of the standard units of the current value at a time. The time piece further comprises means for selecting one of the standard units and presenting the selected unit of the current value on the visual display. The current value is represented by the position of an indicator within a defined space on the visual display.

An electronic tourbillion clock including a clock case having a plurality of high-resolution digital displays that extend around an outer circumference of the clock case as an indicator of hours. A seven segment display is located within the clock case as an indicator of minutes elapsed within an hour. A microcontroller determines the current time and other chronological indications depending on the output signals generated by a position of a tourbillon mechanism disposed in the clock case. A sub-circuit is disposed within the clock case and interconnected with the microcontroller for creating a plurality of distinctive sound patterns directed through one or more speakers in response to the output signals generated by the position of the tourbillon mechanism.

Light guide into which is injected the light produced by a light source optically coupled to the light guide, wherein the light guide includes a first central portion made of a transparent material in which are structured light extractors, via which the light produced by the light source is extracted from the light guide, and a second peripheral portion made of a light absorbing material and surrounding the central portion, wherein the peripheral portion is integral with the central portion.

A Dewar device for mechanical and/or functional components of a watch, the device being provided with a bracelet and a casing including an enclosure wherein a case of the watch can be disposed so that a crystal of the case is arranged opposite a crystal of all the elements of the casing defining this enclosure and at least one fastening device fastening the watch case in the enclosure of the casing by keeping it remote from all the elements of the casing defining this enclosure, the Dewar device including a device for actuating at least one push button by rotating a pivoting bezel of the casing.

An electronic tourbillion clock including a clock case having a plurality of high-resolution digital displays that extend around an outer circumference of the clock case as an indicator of hours. A seven segment display is located within the clock case as an indicator of minutes elapsed within an hour. A microcontroller determines the current time and other chronological indications depending on the output signals generated by a position of a tourbillon mechanism disposed in the clock case. A sub-circuit is disposed within the clock case and interconnected with the microcontroller for creating a plurality of distinctive sound patterns directed through one or more speakers in response to the output signals generated by the position of the tourbillon mechanism.

A liquid crystal controller is provided for a liquid crystal panel having a plurality of pixels, each of which includes a memory element and a display element. The memory element is configured to hold electric potential depending on an image signal and is configured to change the held electric potential based on activation of an enable signal. The display element is configured to be applied voltage depending on the electric potential which the memory element holds. The liquid crystal controller is configured to: hold off outputting the enable signal, for a period th before polarity of AC voltage applied to the display element is inverted and a period (tr+ts) after the polarity of the AC voltage is inverted; and hold off inversion of the polarity of the AC voltage, for an output period of the enable signal and the period th after the output period.

A liquid crystal control circuit is provided for driving a MIP liquid crystal panel. The MIP liquid crystal panel has a plurality of pixels, each of which includes a memory element and a display element. The memory element holds electric potential depending on an image signal. The display element is applied voltage depending on the electric potential which the memory element holds. The liquid crystal control circuit includes an inversion unit that inverts polarity of AC voltage in a first mode in which an enable signal is output. The AC voltage being is applied to the display element in synchronization with outputting of the enable signal. The enable signal activates the image signal output to the MIP liquid crystal panel.

A liquid crystal control circuit includes: a first terminal that outputs a rewriting signal for rewriting a plurality of pixels; a second terminal that periodically designates a start timing of the rewriting signal; a third terminal that outputs a polarity signal for designating polarity of AC voltage; a first circuit that identifies a next second inversion timing of any first inversion timing at which the polarity is inverted; a calculator that calculates a first start timing after the first inversion timing based on the start timing; a second circuit that determines whether the second inversion timing is within a period from a predetermined time before the first start timing to the first start timing; and an inversion unit that inverts polarity of the polarity signal after the rewriting signal starting from the first start timing is stopped, when the second inversion timing is within the period.

A display device is configured such that a through-hole extends through a liquid crystal panel and a light guide plate, a fastener for coupling the hands of a watch is coupled to the through-hole, and the formation of a dark region is prevented due to interference between the fastener and light from a light source around the through-hole. At least one flat side surface for minimizing interference with the light from the light source is provided on the fastener, whereby uniform luminance is provided around the through-hole.