A smart watch includes a watch body and watch straps respectively connected to two sides of the watch body. At least one watch strap includes charging contacts, a USB plug, and cables connected to the charging contacts and the USB plug, and the charging contacts are disposed on a back of the watch strap. Charging terminals configured to cooperate with the charging contacts are disposed on a back of the watch body. The charging contacts and the charging terminals are electrically contacted to charge the smart watch after the watch strap disposed with the USB plug is attach to the back of the watch body.

An electronic timepiece with a first and second electric motors for driving time indicating hands with a set of gear wheels, and a microcontroller connected to the motion sensor and controlling each motor. A motion sensor includes a movable element arranged to move freely inside a structure connected to the timepiece movement. As a function of the position and movement of the moving element inside the housing, a first and second electric signals, different from each other, are generated by the motion sensor for the microcontroller in a defined time period to determine whether the timepiece is in use. If only one electric signal is detected by the microcontroller in the defined time period, the timepiece changes into a sleep mode, by stopping at least the first electric motor intended to drive the seconds hand.

An electronic timepiece with a first and second electric motors for driving time indicating hands with a set of gear wheels, and a microcontroller connected to the motion sensor and controlling each motor. A motion sensor includes a movable element arranged to move freely inside a structure connected to the timepiece movement. As a function of the position and movement of the moving element inside the housing, a first and second electric signals, different from each other, are generated by the motion sensor for the microcontroller in a defined time period to determine whether the timepiece is in use. If only one electric signal is detected by the microcontroller in the defined time period, the timepiece changes into a sleep mode, by stopping at least the first electric motor intended to drive the seconds hand.

An intermittent display mechanism for a timepiece includes a mobile component in motion, an energy source for supplying a light emission source coupled with a light guide, and light emission control means. The light emission control means includes a flexible body bearing a flexible piezoelectric film or coating coated in an electrically insulating shell and attached to a fixed structure and including a distal zone overhanging with respect to the structure, arranged to interfere mechanically, at periodic or random times, with the mobile component during the travel thereof and move away from the rest position thereof before starting vibration of the flexible body and the piezoelectric film or coating, which constitutes an energy source, to convert the mechanical energy supplied by the mobile component into electrical energy supplied to the light emission source.

A device includes a flexible printed circuit board (PCB) that includes a first battery connection, a second battery connection, and a mechanical coupling apparatus. The first battery connection is for providing a first electrical connection to a first terminal of a battery. The second battery connection is for providing a second electrical connection to a second terminal of the battery. When the flexible PCB is in a first flex position, the first and second battery connections are at a distance where at least one of the first battery connection and the second battery connection is not electrically coupled to the respective one of the first and second terminals of the battery. When the flexible PCB is in a second flex position, the battery is electrically coupled to the first and second battery terminals and is mechanically held in place by the mechanical coupling apparatus.

A device includes a flexible printed circuit board (PCB) that includes a first battery connection, a second battery connection, and a mechanical coupling apparatus. The first battery connection is for providing a first electrical connection to a first terminal of a battery. The second battery connection is for providing a second electrical connection to a second terminal of the battery. When the flexible PCB is in a first flex position, the first and second battery connections are at a distance where at least one of the first battery connection and the second battery connection is not electrically coupled to the respective one of the first and second terminals of the battery. When the flexible PCB is in a second flex position, the battery is electrically coupled to the first and second battery terminals and is mechanically held in place by the mechanical coupling apparatus.

A method for manufacturing a plurality of generators, each intended to power supply an electronic circuit operating in a given power supply voltage range, includes a step of manufacturing coils distributed in N pluralities of coils, similar within the same plurality and different from one plurality to another, and a step of manufacturing a plurality of rotors which is carried out with tolerances limiting the cost of production. The plurality of rotors is classified into N classes of rotors which are associated respectively with the N pluralities of coils to form N pairs allowing the assembly of N groups of generators. The generators of each of the N groups of generators have magnetic coupling factors between their rotor and their stator which are located in a corresponding optimised value range, which is at least partially superimposed on the others of the N optimised value ranges relating to the N generator groups.

A method for manufacturing a plurality of generators, each intended to power supply an electronic circuit operating in a given power supply voltage range, includes a step of manufacturing coils distributed in N pluralities of coils, similar within the same plurality and different from one plurality to another, and a step of manufacturing a plurality of rotors which is carried out with tolerances limiting the cost of production. The plurality of rotors is classified into N classes of rotors which are associated respectively with the N pluralities of coils to form N pairs allowing the assembly of N groups of generators. The generators of each of the N groups of generators have magnetic coupling factors between their rotor and their stator which are located in a corresponding optimised value range, which is at least partially superimposed on the others of the N optimised value ranges relating to the N generator groups.

An integrated sensor package for an electronic device may include a matrix material defining a body structure of the integrated sensor package, a light emitting diode at least partially encapsulated in the matrix material, a photodiode at least partially encapsulated in the matrix material and configured to detect light emitted by the light emitting diode and reflected by an object external to the integrated sensor package, a via structure at least partially encapsulated in the matrix material, a permanent magnet at least partially encapsulated in the matrix material, a first conductive member on a first side of the integrated sensor package and conductively coupling the light emitting diode to a first end of the via structure, and a second conductive member on a second side of the integrated sensor package opposite the first side and conductively coupled to a second end of the via structure.

An integrated sensor package for an electronic device may include a matrix material defining a body structure of the integrated sensor package, a light emitting diode at least partially encapsulated in the matrix material, a photodiode at least partially encapsulated in the matrix material and configured to detect light emitted by the light emitting diode and reflected by an object external to the integrated sensor package, a via structure at least partially encapsulated in the matrix material, a permanent magnet at least partially encapsulated in the matrix material, a first conductive member on a first side of the integrated sensor package and conductively coupling the light emitting diode to a first end of the via structure, and a second conductive member on a second side of the integrated sensor package opposite the first side and conductively coupled to a second end of the via structure.