An electronic timepiece includes a sensor, a dial plate, and a subdial. The sensor is configured to execute a measurement. The dial plate has hands that indicate a time. The subdial is disposed on the dial plate and has a subdial hand and a first region indicating that the measurement is being executed. The subdial hand points to the first region when the sensor executes the measurement.

Methods and systems for providing a notification are described. An apparatus for providing a notification to a watch or a smart watch can receive a signal that contains an indication of a notification. The apparatus for providing a notification to a watch or a smart watch can provide a signal to a display in order to display the notification.

An electronic timepiece, including: a counter; a display section; a first processor; a second processor; and a power supply section which supplies electric power to each section from a battery, wherein when an output voltage from the power supply section decreases to less than a predetermined first reference voltage, the first processor stops a display operation by the display section, when the time information is acquired by the processing operation of the second processor, the first processor corrects the time counted by the counter based on the acquired time information and causes the display section to display the corrected time, and when the output voltage decreases to less than the first reference voltage following an acquisition operation of the time information by the second processor, the first processor does not stop a time display operation during a predetermined pending period.

A method of controlling a watch-type mobile terminal having a touch bezel includes performing communication with an external device via a wireless communication unit; executing a first contact application stored in a memory; displaying a contact list on a display unit while executing the first contact application; sensing a drag touch input on the display unit while executing the first contact application; scrolling the contact list in response to sensing the drag touch input on the display unit while executing the first contact application; sensing a rotation touch input on a touch bezel located on an edge of the watch-type mobile terminal while executing the first contact application, wherein a direction of the drag touch input is different from a direction of the rotation touch input; displaying a quick scroll pop-up screen on the display unit when a speed of the rotation touch input on the touch bezel located on the edge of the watch-type mobile terminal is faster than a predetermined speed while executing the first contact application; and displaying a different screen on the display unit that is different than a screen where the quick scroll pop-up screen is displayed when a speed of the rotation input on the touch bezel located on the edge of the watch-type mobile terminal is slower than the predetermined speed while executing the first contact application.

A wearable device (100) includes a body (1) and a detection electrode (21). The body (1) includes an electrocardiosignal collection circuit (11), and an inner electrode (12) and an outer electrode (13) that are electrically connected to the electrocardiosignal collection circuit (11). The inner electrode (12) is configured to collect an electric potential signal of a first wearing position (200), and the outer electrode (13) is configured to collect an electric potential signal of a non-wearing position (300). The detection electrode (21) can move relative to the body (1), and the detection electrode (21) is configured to electrically connect to the electrocardiosignal collection circuit (11) and collect an electric potential signal of a second wearing position (400). The non-wearing position (300) and the second wearing position (400) are different from the first wearing position (200). The wearable device (100) can measure electrocardiosignal data in time.

An electronic device, such as a watch, has a housing to which a carrier is attached. The carrier has a first surface interior to the electronic device, and a second surface exterior to the electronic device. A set of electrodes is deposited on the exterior surface of the carrier. An additional electrode is operable to be contacted by a finger of a user of the electronic device while the first electrode is positioned against skin of the user. The additional electrode may be positioned on a user-rotatable crown of the electronic device, on a button of the electronic device, or on another surface of the housing of the electronic device. A processor of the electronic device is operable to determine a biological parameter of the user based on voltages at the electrodes. The biological parameter may be an electrocardiogram.

Particular embodiments described herein provide for a wearable electronic device, such as a bracelet, watch, wristband or armband. One particular example implementation of a wearable electronic device may include a first display screen, a second display screen, and logic. At least a portion of the logic is implemented in hardware. The logic is configured to receive a communication over a wireless network, and to display, in the first display screen, a communication alert. The communication alert can be a graphic design. The logic is also configured to receive input data indicative of a screen transition input to view information associated with the communication, and to display, in the second display screen, the information associated with the communication. In further embodiments, the graphic design includes a notification pattern indicating one or more attributes of the communication. In further embodiments, the first and second display screens form a single display screen.

An apparatus and method for providing physiological state information are provided. The apparatus includes a wearable electronic device. The wearable electronic device includes a sensor module configured to measure motion of the wearable electronic device, a display configured to provide a user interface (UI) including movable particles displayed on the display, and a processor configured to reduce the number of the displayed movable particles based on the measured motion of the wearable device.

The present invention provides a smart watch, including a case; a window for covering a front surface of the case; a display unit mounted inside the window and including a center hole formed at a center thereof; a movement located on a rear surface of the display unit and including a shaft that passes through the center hole; a watch hand located between the display unit and the window and rotating by being connected to the shaft; and a main board for controlling the display unit and the movement, wherein the display unit includes: a liquid crystal panel; a light guide plate located on a rear surface of the liquid crystal panel; and a first light source located at one side of the light guide plate and a second light source located at the other side of the light guide plate, and wherein the center hole is located at a center of the first and second light sources.

An electronic timepiece device comprises an electronic processing unit determining first, geolocation parameters and second parameters concerning the current legal standard time, and establishing local horizontal coordinates of the Sun from predetermined calculation rules stored in a memory of the electronic processing unit. The device also comprises a dial equipped with a casing enclosing all or part of the electronic processing unit and equipped with a display system displaying at least one indicator hand having an orientation that varies over time such that the angle formed between the indicator hand and a first fixed reference axis of the dial is equal, at each instant, to the azimuth of the Sun established by the processing unit, and a time scale calculated by the electronic processing unit and displayed at the periphery of the dial in the form of a plurality of time points positioned, with respect to the first fixed reference axis, as a function of the azimuth of the Sun respectively at the times of which the time points are representative. Thus the indicator needle simultaneously indicates, at each instant, a representation of the relative directions of the Sun and of the cardinal point of the culmination of the Sun and the current legal time.