An athletic device is worn by a participant during an athletic event (e.g., a race). In one example, a race course is provided with a plurality of mats or signal devices along the race course. The mats may have antennas and generate a magnetic field. The device may include a chip system having an RFID tag and a display. As the participant progress along the course, the tag is triggered at each mat and race data may be displayed on the device. Data relating to a location of the participant may also be provided to the participant during the athletic event.

An athletic device is worn by a participant during an athletic event (e.g., a race). In one example, a race course is provided with a plurality of mats or signal devices along the race course. The mats may have antennas and generate a magnetic field. The device may include a chip system having an RFID tag and a display. As the participant progress along the course, the tag is triggered at each mat and race data may be displayed on the device. Data relating to a location of the participant may also be provided to the participant during the athletic event.

A swimming timer including a fluid container, a fluid channel, a fluid sensor, a control circuit board and a display device. The fluid channel is connected to the fluid container and the fluid sensor, and the control circuit board is wired with the fluid sensor and the display device. The fluid container is installed and mounted on a side-wall of a swimming lane. When a swimmer starts, turns and stops, the fluid container will be touched and compressed forcing the fluid inside to flow into the fluid channel. The fluid sensor detects the fluid flow and generates electronic signals accordingly for the control circuit board and the built-in timing and stopwatch program to use as the input commands of start, lap and stop to compute the swimming time and the number of swimming laps. The display device is to show the results for the swimmer reference.

A swimming timer including a fluid container, a fluid channel, a fluid sensor, a control circuit board and a display device. The fluid channel is connected to the fluid container and the fluid sensor, and the control circuit board is wired with the fluid sensor and the display device. The fluid container is installed and mounted on a side-wall of a swimming lane. When a swimmer starts, turns and stops, the fluid container will be touched and compressed forcing the fluid inside to flow into the fluid channel. The fluid sensor detects the fluid flow and generates electronic signals accordingly for the control circuit board and the built-in timing and stopwatch program to use as the input commands of start, lap and stop to compute the swimming time and the number of swimming laps. The display device is to show the results for the swimmer reference.

A force sensor including: a first part including a detection coil; a second part positioned opposite the first part and including: a ferromagnetic plate translationally movable relative to the first part to move towards the first part when a force is transferred to the sensor and to reduce reluctance of a magnetic circuit formed by the first and second parts in series with a variable gap; and an electronic detection circuit configured to generate a signal dependent on the reluctance of the magnetic circuit. The ferromagnetic plate is formed by an amorphous metal alloy.

A force sensor including: a first part including a detection coil; a second part positioned opposite the first part and including: a ferromagnetic plate translationally movable relative to the first part to move towards the first part when a force is transferred to the sensor and to reduce reluctance of a magnetic circuit formed by the first and second parts in series with a variable gap; and an electronic detection circuit configured to generate a signal dependent on the reluctance of the magnetic circuit. The ferromagnetic plate is formed by an amorphous metal alloy.

An athletic device is worn by a participant during an athletic event (e.g., a race). In one example, a race course is provided with a plurality of mats or signal devices along the race course. The mats may have antennas and generate a magnetic field. The device may include a chip system having an RFID tag and a display. As the participant progress along the course, the tag is triggered at each mat and race data may be displayed on the device. Data relating to a location of the participant may also be provided to the participant during the athletic event.

An athletic device is worn by a participant during an athletic event (e.g., a race). In one example, a race course is provided with a plurality of mats or signal devices along the race course. The mats may have antennas and generate a magnetic field. The device may include a chip system having an RFID tag and a display. As the participant progress along the course, the tag is triggered at each mat and race data may be displayed on the device. Data relating to a location of the participant may also be provided to the participant during the athletic event.

There is provided a timepiece capable of selecting a timepiece mode and a chronograph mode. The timepiece includes an hour hand and a minute hand which indicate a time in a case where the timepiece mode is selected, and a main control unit that performs control so as to start time measurement by simultaneously starting hand operations of the hour hand and the minute hand in a case where the chronograph mode is selected, to indicate a measured time at the time of stopping by stopping the hand operation of the hour hand, and to continue the time measurement by continuing the hand operation of the minute hand.

The invention pertains to a method of detecting and calculating height of a jump performed by an individual, comprising the following steps:

A detection of a reception subsequent to the jump, this step comprising a sub-step of detecting a pressure spike of amplitude greater than a first threshold amplitude, within pressure measurements provided by a pressure sensor embedded aboard a watch worn on the wrist of the individual,

A calculation of a height of the jump by differencing a starting altitude corresponding to a last stable pressure measured before the pressure spike and a finishing altitude corresponding to a first stable pressure measured after the pressure spike via the pressure sensor, a stable pressure being defined as a pressure whose variations do not exceed 0.1 hectopascals for at least 2 seconds.