A timepiece including a case middle closed by a glass and the following elements positioned in the case middle: a dial, a rigid mounting plate extending under the dial, a module including an electric motor, referred to as the motor module, a printed circuit board, of which at least a first portion is interposed between the mounting plate and the motor module, means for the assembly of the motor module on the mounting plate through the first portion of the printed circuit board.

A watch includes a crystal oscillator, a controller including an oscillation circuit configured to cause the crystal oscillator to oscillate, wiring that couples the crystal oscillator with the controller, and the crystal oscillator, a storage container that stores the crystal oscillator, the wiring, and the controller, and an outer case that stores the storage container, in which the crystal oscillator and the controller are placed side by side inside the storage container in plan view.

An electronic watch includes an including a package in which an oscillator and a watch control integrated circuit are housed, a circuit board having an elastic function, the circuit board including a first face and a second face, a first member provided with a plurality of first protrusions, and a second member provided with a second protrusion facing the first protrusion with the circuit board interposed therebetween, in which a plurality of clamping positions are clamped between the first protrusion and the second protrusion, A1>P1>A2>0, where A1 is a length of the first protrusion, A2 is a length of the second protrusion, and P1 is a thickness of the oscillation device.

Systems and methods of generating electrical power for a portable electronic device from a photovoltaic power system are described herein. In some embodiments, a photovoltaic module comprises an interior surface and an exterior surface. The interior photovoltaic cells may be disposed in photovoltaic stripes on the interior surface and exterior photovoltaic cells may be disposed on the exterior surface. Substantially opaque materials are employed to provide a photovoltaic-powered portable electric device with an improved appearance.

An electronic watch includes a pointer; a stepping motor including a coil and configured to drive the pointer; a driving circuit configured to drive the stepping motor; an A/D converter configured to detect electromotive force generated in the coil due to an impact; and a CPU configured to control driving of the driving circuit. The CPU determines a direction in which the pointer is likely to be shifted, based on the electromotive force detected by the A/D converter, determines whether the pointer is shifted due to the impact, and upon determining that the pointer is shifted, corrects a position of the pointer in accordance with the direction in which the pointer is likely to be shifted.

A timepiece movement including an analogue display, including a rotary indicator and a wheel secured in rotation to the rotary indicator, the wheel including a roller including a location element, a device for detecting at least one angular position of the location element, including a plate fixed relative to the roller, extending substantially parallel to the roller, and on which are arranged a first electrode, a second electrode and a common electrode positioned between the first electrode and the second electrode the electrodes being planar and being arranged in such a way that, in an angular position of the wheel, the location element is located above at least a portion of each electrode, the first electrode and the second electrode having the form of two segments of a ring centred on the intersection between the axis of the wheel and the plate.

The present disclosure relates to a swing bearing and a wearable device. The swing bearing includes an inner ring, an outer ring, and a plurality of rolling elements, a plurality of first grooves arranged at intervals along a circumferential direction being formed on an outer circumferential surface of the inner ring, a plurality of second grooves arranged at intervals along a circumferential direction being formed on an inner circumferential surface of the outer ring, each rolling element being disposed between the corresponding first groove and the second groove, and the rolling element, the first groove, and the second groove being configured to restrict relative rotational movement between the inner ring and the outer ring and allow the inner ring and the outer ring to produce shaft axis deflection movement.

A timepiece movement includes a photovoltaic cell which is attached to the upper surface of a support plate, preferably by adhesive bonding. On the other side of the cell, on its lower surface, the support plate is provided with a plurality of nuts. An electrical module including a flat surface is attached to the support plate with the nuts. The module is provided with several openings whose position and dimensions correspond to those of the nuts, so that the nuts pass through the openings, allowing the flat surface of the module to be placed in contact with the support plate. The module is secured to the support plate by screws, screwed into the nuts. The connection via the nuts secures the photovoltaic cell to the electrical module and ensures shock resistance, without requiring a lateral support.

A timer movement includes a shell; a quartz movement body, a sound component and a central output wheel assembly driven by the quartz movement body are disposed in the shell, a printed circuit board and a traveling wheel driven by the central output wheel assembly are disposed at the top of the shell, and a battery compartment is disposed at the bottom of the shell. A leaf spring and a switch pillar are disposed on the printed circuit board, and a toggle rod forcing the leaf spring to bend so as to touch the switch pillar is disposed on the traveling wheel.

A micro-electromechanical systems (MEMS) driving arrangement for an electronic device, the micro-electromechanical systems (MEMS) driving arrangement including a driven wheel; a driving actuation assembly for causing rotation of the driven wheel; an indicator assembly including an indicator; and a force absorbing assembly coupled intermediate the indicator assembly and the driven wheel; whereby a force acting upon the indicator assembly is absorbed by the force absorbing assembly so as to inhibit rotation of the driven wheel relative to the driving actuation assembly.