Self-chargeable electronic timepiece with operating voltage checking
First Claim
1. An electronic analog timepiece having a time-indicating member driven by a step motor with voltage checking function comprising:
- oscillation means for generating a time base signal having a given frequency;
frequency dividing means for dividing the frequency of the time base signal to produce a divided signal;
pulse synthesizing circuit means for producing a plurality of control signals in response to the divided signal from the frequency dividing means;
step motor driving means for generating and controlling driving pulses effective to drive the step motor in response to the control signals of the pulse synthesizing circuit means;
power supply means including a primary power source for generating electric energy, and a secondary power source for accumulating the electric energy, the secondary power source being comprised of a first condenser having a relatively large capacity and a second condenser having a smaller capacity than that of the first condenser;
voltage detecting means including a plurality of voltage detectors for detecting a plurality of terminal voltages of the first condenser and the second condenser, respectively, and a sampling signal selecting circuit for producing a first sampling signal having a relatively long period effective to determine a relatively long time interval of the terminal voltage detection when the timepiece is powered by the first condenser having relatively large capacity and a second sampling signal having a relatively short period effective to determine a relatively short time interval of the terminal voltage detection when the timepiece is powered by the second condenser having relatively small capacity; and
charge control means for controlling the accumulation and supply of the electric charge in the power supply means in response to the detecting result of the voltage detecting means.
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Accused Products
Abstract
A self-chargeable timepiece includes a pair of small and large capacitors having respective small and large capacities and selectively disconnectably connected at their respective terminals to time-keeping circuitry and a solar cell. The pair of small and large capacitors cooperate with each other during the momentary operation of the solar cell for selectively receiving and storing the electric charge to develop respective terminal voltages across their respective terminals even after the momentary operation of the solar cell. A detector periodically detects the terminal voltages of the small and large capacitors during the time-keeping operation. A switching circuit responds to the detected terminal voltages for selectively connecting and disconnecting the small and large capacitors to and from the time-keeping circuitry to enable the small and large capacitors to selectively power the time-keeping circuitry. A regulating circuit operates when the time-keeping circuitry is powered by the small capacitor for regulating the detector to effect the periodical detection of the terminal voltages at relatively short time intervals and operates when the time-keeping circuit is powered by the large capacitor for regulating the detector to effect the periodical detection of the terminal voltages at relatively long time intervals.
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Citations
11 Claims
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1. An electronic analog timepiece having a time-indicating member driven by a step motor with voltage checking function comprising:
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oscillation means for generating a time base signal having a given frequency; frequency dividing means for dividing the frequency of the time base signal to produce a divided signal; pulse synthesizing circuit means for producing a plurality of control signals in response to the divided signal from the frequency dividing means; step motor driving means for generating and controlling driving pulses effective to drive the step motor in response to the control signals of the pulse synthesizing circuit means; power supply means including a primary power source for generating electric energy, and a secondary power source for accumulating the electric energy, the secondary power source being comprised of a first condenser having a relatively large capacity and a second condenser having a smaller capacity than that of the first condenser; voltage detecting means including a plurality of voltage detectors for detecting a plurality of terminal voltages of the first condenser and the second condenser, respectively, and a sampling signal selecting circuit for producing a first sampling signal having a relatively long period effective to determine a relatively long time interval of the terminal voltage detection when the timepiece is powered by the first condenser having relatively large capacity and a second sampling signal having a relatively short period effective to determine a relatively short time interval of the terminal voltage detection when the timepiece is powered by the second condenser having relatively small capacity; and charge control means for controlling the accumulation and supply of the electric charge in the power supply means in response to the detecting result of the voltage detecting means. - View Dependent Claims (2, 3, 4)
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5. In an apparatus having time-keeping means for electrically effecting a time-keeping operation, and power supply means momentarily operable to generate electric charge effective to power the time-keeping means to maintain the time-keeping operation:
- a small capacity means and a large capacitive means having respective relatively small and relatively large capacities and each having a pair of terminals selectively disconnectably connected to the time-keeping means and the supply means, the small and large capacitive means being cooperative with each other during the momentary operation of the supply means for selectively receiving and storing the electric charge to develop respective terminal voltages across their respective terminals even after the momentary operation of the supply means;
detecting means operative during the time-keeping operation for periodically detecting the terminal voltages of the small and large capacitive means;
switch means responsive to the detected terminal voltages for selectively connecting the disconnecting the small and large capacitive means to and from the time-keeping means to enable the small and large capacitive means to selectively power the time-keeping means to thereby maintain the time-keeping operation thereof; and
regulating means operative when the time-keeping means is powered by the small capacitive means for regulating the detecting means to effect the periodical detection of the terminal voltages at relatively short time intervals and operative when the time-keeping means is powered by the large capacitive means for regulating the detecting means to effect the periodical detection of the terminal voltages at relatively long time intervals. - View Dependent Claims (6, 7, 8, 9, 10, 11)
- a small capacity means and a large capacitive means having respective relatively small and relatively large capacities and each having a pair of terminals selectively disconnectably connected to the time-keeping means and the supply means, the small and large capacitive means being cooperative with each other during the momentary operation of the supply means for selectively receiving and storing the electric charge to develop respective terminal voltages across their respective terminals even after the momentary operation of the supply means;
Specification