An electromechanical watch including an electromechanical motor (4) mechanically coupled to an analogue display (AD) and formed by two coils (B1, B2) through which the magnetic circuit (10) of the stator passes. A first of the two coils is connected to a voltage detection circuit (CD1, CD2) arranged to be able to detect any voltage induced in this first coil during intervals of time occurring, in a stepping functioning mode of the motor, between drive pulses to detect whether an unwanted step is made by the rotor (18) during these intervals of time. The electromechanical watch includes at least one switch (T1, T2, T3) that is controlled by an electronic control circuit (CEC) to short-circuit the second coil during each of said intervals of time, in order to passively hold the rotor in the idle position in which it is situated momentarily between the drive pulses.

A method of operating a wearable electronic device having a display and a rotatable crown includes initiating a rotation-tracking mode based on a detection of a contact between a user and the rotatable crown. In response to initiating the rotation-tracking mode, the electronic device controls a graphical output of the display in accordance with rotational movement or absence of rotational movement of the rotatable crown, terminates the rotation-tracking mode based on a termination of the contact between the user and the rotatable crown, and in response to terminating the rotation-tracking mode, controls the graphical output of the display without regard to rotational movement or absence of rotational movement of the rotatable crown.

An electronic watch includes a housing, a display positioned at least partially within the housing, a cover covering at least part of the display, and a crown having a portion positioned along a side of the housing. The crown may include an inner member that is rotationally constrained relative to the housing and an outer member that is rotationally free relative to the inner member. The device may further include a rotation sensor configured to sense a rotation of the outer member relative to the inner member.

An electronic device is disclosed. In some examples, a crown comprising a housing can be operatively coupled to a body of the electronic device, and configured to rotate in a first direction with respect to the body of the electronic device in response to a mechanical input provided by the user. A rotating member can be disposed at least partially inside the crown housing and configured to rotate in the first direction in response to the mechanical input. A first magnetic sensing cell can be attached to the rotating member at a first location of the rotating member and can be electrically connected to an electronic circuit. A magnet can be configured to remain stationary with respect to the body of the electronic device. The electronic circuit can be configured to generate a first signal corresponding to a rotational position of the crown with respect to the body of the electronic device.

One embodiment of the present disclosure is directed to a wearable electronic device. The wearable electronic device includes an enclosure having a sidewall with a button aperture defined therethrough, a display connected to the enclosure, and a processing element in communication with the display. The device also includes a sensing element in communication with the processing element and an input button at least partially received within the button aperture and in communication with the sensing element, the input button configured to receive two types of user inputs. During operation, the sensing element tracks movement of the input button to determine the two types of user inputs.

According to various embodiments, an electronic device may comprise: a front cover; a rear cover disposed opposite to the front cover; an annular portion including a side portion surrounding at least a part of the space between the front cover and the rear cover, and including a display at least partially disposed along the front cover and at least one magnetic member, comprising a magnetic material, arranged at a specified first angle and a specified first distance with respect to the center of the display; a first Hall sensor disposed at a specified second distance from the center of the display; a second Hall sensor disposed at the specified second distance from the center of the display and spaced a second angle smaller than the first angle apart from the first Hall sensor; a memory; and at least one processor, comprising processing circuitry, operatively connected to the memory. At least one processor, individually and/or collectively, may be configured to: acquire first magnetic information corresponding to the at least one magnetic member based on the first Hall sensor; acquire second magnetic information corresponding to the at least one magnetic member based on the second Hall sensor; based on the first magnetic information and the second magnetic information, identify whether the annular member rotates; and in response to rotation of the annular member, control a user interface displayed through the display.

A portable object including a control stem, actuation of which in rotation can control at least one electronic or mechanical function of the portable object, a magnetized ring driven in rotation by the control stem, rotation of the magnetized ring and position of the magnetized ring being detected by two inductive sensors configured to be sensitive to a variation in magnetic induction in only two directions in space that are parallel to each other or that converge on a same point, with exception of a case in which these two directions are perpendicular to each other.

The present invention disclose an information processing method and a mobile device. The mobile device includes a device body and a magnetic adjustment mechanism, where the magnetic adjustment mechanism includes a magnetic adjustment member and a magnetic sensor, and the magnetic adjustment member is adjusted to enable the magnetic sensor to generate a pulse signal; and the device body further includes a processor and a display screen, and the processor receives the pulse signal generated by the magnetic adjustment mechanism, processes the pulse signal, and then displays adjusted content by using the display screen. This avoids a problem that adjustment cannot be conveniently performed because a display screen is covered by a finger when an operation is performed directly on the display screen.

A watch case including a thumbwheel for controlling a watch function, configured to be manipulated by a user, movable inside a housing and configured to allow a limited translational motion of one portion of the thumbwheel in a radial direction of the case, against an elastic return configured to move the portion away from an interior of the case. The housing includes a control detector detecting presence of the portion close to the center of the case when pressure is applied by a user, and configured to activate or deactivate a sensor included in the case in proximity to the housing, configured, when a rotational movement is imparted to the thumbwheel by the user, to detect passage of a transmitter included in the thumbwheel.

A position sensor and method for determining an axial and/or an angular position of a setting stem of a timepiece. A magnet is provided on the setting stem, and at least one magnetic field sensor is configured to detect changes in magnetic field strength along at least a first axis and a second axis as the rotatable element rotates; the second axis is not parallel to the first axis. The changing magnetic field sensed by the magnetic sensor is converted into a characteristic signature path which may then be mapped onto a circular signature path in two dimensions to derive the angular position of the setting stem.