The present disclosure generally relates to a dynamic user interface having an indication of time. The dynamic user interface having the indication of time further includes one or more geometric regions that intersect the indication of time, such that colors of the indication of time are different on opposite sides of a boundary of the one or more geometric regions that intersect the indication of time. The one or more geometric regions may shift and/or change over time, thereby providing a custom and/or unique dynamic user interface having the indication of time.

A method of fabricating a liquid crystal display device including a reflective or transflective liquid crystal cell whose liquid crystal molecules are aligned in a planar or vertical manner, this liquid crystal cell being formed of a transparent front substrate located on the side of an observer, and a rear substrate, also transparent, which extends beneath the front substrate, parallel to and at a distance from the latter, these two front and rear substrates being joined to each other with a sealing frame which defines a sealed enclosure in which a liquid crystal composition is confined, the front and rear substrates being coated on their opposite faces with electrically conductive transparent electrodes and counter-electrodes, the optical properties of the liquid crystal composition being modified by application of an electric field at the point of intersection between an electrode and a corresponding counter-electrode.

The present disclosure generally relates to a dynamic user interface having an indication of time. The dynamic user interface having the indication of time further includes one or more geometric regions that intersect the indication of time, such that colors of the indication of time are different on opposite sides of a boundary of the one or more geometric regions that intersect the indication of time. The one or more geometric regions may shift and/or change over time, thereby providing a custom and/or unique dynamic user interface having the indication of time.

The present disclosure generally relates to a dynamic user interface having an indication of time. The dynamic user interface having the indication of time further includes one or more geometric regions that intersect the indication of time, such that colors of the indication of time are different on opposite sides of a boundary of the one or more geometric regions that intersect the indication of time. The one or more geometric regions may shift and/or change over time, thereby providing a custom and/or unique dynamic user interface having the indication of time.

An electronic device includes: a TFT liquid crystal panel; a light source that emits light to be radiated onto a back face of the TFT liquid crystal panel; and a processor that generates a common signal to be input to a common electrode of the TFT liquid crystal panel. The processor generates the common signal so as to have a waveform that differs between when the light source is not lit and when the light source is lit.

An electronic device includes a display module having a hole and including a plurality of first light sources disposed along a perimeter of one side of the display module and a plurality of second light sources which are positioned opposite the plurality of first light sources and are disposed along a perimeter of the other side of the display module, a shaft rotatably inserted into the hole of the display module, a movement which is positioned in the rear of the display module, is connected to one end of the shaft, and provides a rotational force for the shaft, a window which is separated from the display module and is positioned in front of the display module, and a hand which is positioned between the display module and the window and is fixed to the other end of the shaft.

A method of fabricating a liquid crystal display device including a reflective or transflective liquid crystal cell whose liquid crystal molecules are aligned in a planar or vertical manner, this liquid crystal cell being formed of a transparent front substrate located on the side of an observer, and a rear substrate, also transparent, which extends beneath the front substrate, parallel to and at a distance from the latter, these two front and rear substrates being joined to each other with a sealing frame which defines a sealed enclosure in which a liquid crystal composition is confined, the front and rear substrates being coated on their opposite faces with electrically conductive transparent electrodes and counter-electrodes, the optical properties of the liquid crystal composition being modified by application of an electric field at the point of intersection between an electrode and a corresponding counter-electrode.

An electronic device includes: a TFT liquid crystal panel; a light source that emits light to be radiated onto a back face of the TFT liquid crystal panel; and a processor that generates a common signal to be input to a common electrode of the TFT liquid crystal panel. The processor generates the common signal so as to have a waveform that differs between when the light source is not lit and when the light source is lit.

A sequential displaying method is provided. The method includes providing a display device which includes a first display area. The first display area has N first sub-areas that are arranged in sequence, wherein N is positive integer. Then, displayed images in the N first sub-areas are sequentially updated, wherein a time interval of updating the displayed images in two adjacent first sub-areas is 60/N seconds and a frequency for updating a displayed image in each of the first sub-areas is once every 60 seconds. Thus, a method for displaying time information could be improved.

A watch includes a dial plate, a patch antenna, an upper side display component at a visible side than the dial plate, and a lower side display component at the rear surface side of the dial plate. The watch includes a first component layer on which at least a part of a wheel train mechanism for driving the upper side display component and a motor for driving the wheel train mechanism are disposed, and a second component layer that is positioned between the first component layer and the dial plate, and on which the lower side display component and a driving component of the lower side display component are disposed. The patch antenna is disposed on the second component layer so as to be planarly overlapped with a metal component disposed on the first component layer.