A wearable apparatus, including: a mounting component, configured to hold a relationship between relative positions of the wearable apparatus and its user; a folding panel mounted on the mounting component, the folding panel including at least two display screens interconnected at a joint where sensors are disposed; and a controller signal connected with individual display screens and the sensors respectively, the controller being configured to control corresponding display screens to turn on or turn off based on the state of the folding panel detected by the sensors. The state of the folding panel in the wearable apparatus can be adjusted according to the needs of a user and thereby the usage needs of the user can be satisfied.

Display units for digital out of home advertising with orientation monitoring features are disclosed. The units include an electronic display, an orientation detection device, and a controller. The controller receives orientation data from the orientation detection device, determines a baseline orientation of the display unit, and where a subsequently detected orientation is not within a predetermined margin of the baseline orientation, electronically generates an alert.

A backlight device 12 includes at least: a plurality of LEDs 17 arranged in an annular and curved shape; a light guide plate 14 surrounded by the plurality of LEDs 17 having am outer shape along the arrangement of the plurality of LEDs 17, and guiding light from the plurality of LEDs 17; and an LED board (light source board) 18 on which the plurality of LEDs 17 are mounted and wiring portions 18c for feeding power to the plurality of LEDs 17 are formed. The LED board 18 extends along the arrangement of the plurality of LEDs 17, and has a terminated annular shape or an endless annular shape, and includes a no-wiring formed region NWA in a part with respect to the circumferential direction thereof, where the wiring portions 18c are not formed.

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.

An electronic timepiece includes a first display section including a first rotatable part and a processor. In the first display section, a predetermined number of display contents being a same display content is simultaneously displayed at predetermined angle intervals in a rotation angle range of the first rotatable part, wherein the predetermined number is two or more. The first display section makes a display pattern that shows change in the display content appear the predetermined number of times cyclically according to rotation of the first rotatable part. When causing the first display section to display a first display content of first display contents included in the display pattern, the processor selects an angular position from angular positions for the first display content in the predetermined number of display patterns, and causes the first rotatable part to rotate to the selected angular position.

An electronic timepiece includes a turnable hand and a processor that controls a turn of the hand. When the processor performs a rapid shift of the hand to a set target position, the processor performs a control of a damping of reciprocation of the hand in which the hand performs a predetermined reciprocation about the target position as a reference position and gradually decreases an amplitude of the reciprocation thereof during the rapid shift.

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.

An electronic timepiece, including: a reciprocating hand which is provided to be rotatable only within a partial angle range of a circle; and a processor which acquires information according to an operation of the reciprocating hand, and makes the reciprocating hand perform a predetermined notification operation when a destination of the reciprocating hand is out of the angle range, the destination being determined on the basis of the information.

An apparatus include a housing having a top opening, and a sidewall and a bottom surface defining a cavity. The apparatus includes a display assembly. The display assembly includes an electronic transmissive display layer within the cavity to display an image viewable from the top opening of the housing. The display assembly includes a light collector within the cavity and having an optical opening at the top opening of the housing to collect ambient light. The display assembly includes a light guide layer within the cavity to guide the collected ambient light towards and through the display layer. The apparatus includes a processing device within the cavity to generate data to display using the display layer.

A display control method and a terminal device are provided. The display control method is applied to a terminal device having a transmissive liquid crystal display (LCD), and a backlight side of the transmissive LCD has a mechanical structure. The method includes detecting an operating status of the terminal device, turning off the transmissive LCD of the terminal device when the terminal device is in a standby state, and controlling the transmissive LCD to be in a transparent state to display the mechanical structure on the backlight side of the transmissive LCD. Hence, the method reduces power consumption of the terminal device and retains a watch function of displaying time by the terminal device.