Abstract: The present invention provides an apparatus for controlling an electronic stop watch. The apparatus comprises a controller and a transmission media. The controller includes a keyboard for inputting a datum and an output port outputting the datum to the electronic stopwatch. The transmission media connects the electronic stopwatch with the controller, through one of a wire connection and a wireless connection.

Abstract: A timing device utilizes hybrid power to drive a movement of the timing device, the hybrid power supply functioning as an auxiliary unit to deliver power to an electro-magnetically driving unit through an automatic control unit manipulated by a mechanical energy storage status detection unit to produce mechanical energy in time to prevent the movement from stopping; a main spring barrel or a potential difference weight of the kinetic energy storage unit being driven to further drive a wheel chain of the timing device and automatically suspend driving upon the completion of winding the wheel train.

Abstract: A timing device utilizes hybrid power to drive a movement of the timing device, the hybrid power supply functioning as an auxiliary unit to deliver power to an electro-magnetically driving unit through an automatic control unit manipulated by a mechanical energy storage status detection unit to produce mechanical energy in time to prevent the movement from stopping; a main spring barrel or a potential difference weight of the kinetic energy storage unit being driven to further drive a wheel chain of the timing device and automatically suspend driving upon the completion of winding the wheel train.

Abstract: A technique for setting time of an apparatus which receives signals either from a single analog channel and a single digital channel or from a plurality of analog channels and a plurality of digital channels. In the case that the apparatus receives signals from a plurality of analog channels and a plurality of digital channels, a determination is first made as to whether an input signal is from one of the analog or digital channels. Then, if the input signal is determined to be a signal from one of the digital channels, the current time is set based on current time information from the signal of the digital channel. Conversely, if the input signal is determined to be a signal from one of the analog channels, the current time is set based on the current time information from an arbitrary digital channel.

Abstract: A device (10) for automatically adjusting a device containing a clock (70) that derives its timing function from the frequency of an alternating current signal on a power line is provided. The device (10) includes a controller (15) that receives user-entered controls for adjusting the clock (70) and generates control signals in response to the user-entered controls. The device also includes a frequency changer (11) that responds to the control signals to increase or decrease the frequency of the alternating current signal applied to the clock (70) so that the clock (70) may be adjusted.

Abstract: An electronic watch including a watch circuit and display is provided which additionally includes an automatic time indication modifier. The modifier comprises a receiver, a filter for passing only that component of the signal from the receiver which has the same frequency as a time announcement signal, a pulse height discriminator for converting an output signal of the filter into a bi-level signal in accordance with the magnitude of the output signal above a threshold level, a time announcement pattern discrimination circuit responsive to the bi-level signal from the discriminator to determine the presence of a time announcement pattern on the basis of the duration of and the time interval between the bi-level signals, and a "seconds" indication modifying and control circuit for modifying a "seconds" indication of the watch in response to an output signal from the discrimination circuit.

Abstract: A programmed digital secondary clock which functions as a master clock, a sub-master clock or a slave clock. The master clock maintains an updated real time count based on a 50 hz or 60 hz ac line or digital oscillator signal, displays the count, and serially transmits digital information representative of the updated real time count for use by a slave clock. The sub-master clock, receives an hourly or twice-a-day correction signal from a conventional master clock or a conventional electronic receiver, corrects the real time count, displays the corrected count, and serially transmits digital information representative of the corrected real time count for use by a slave clock. Identical programmed digital secondary clocks can be connected in daisy chain. The first clock can operate as a master clock or as a sub-master clock. The following clocks can be operated as slave clocks.

Abstract: A timepiece is set by transmission of a time related signal which is received by the timepiece and converted into digital form. The circuit developing signals representing the time displayed by the timepiece is stepped more rapidly than normal and simultaneously compared with the time related signal until they compare at which time the rapid stepping of the timepiece is abruptly terminated and normal stepping of the timepiece is resumed. The carrier may be any supersonic frequency. Setting of the timepiece may be enabled only after operating a time check switch.The above technique may be employed to produce an alarm at a requested time to serve as a memory or wake-up aid, for example.