| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | 파워 리저브 표시형 시계 | KR1020030086603 | 2003-12-02 | KR101008794B1 | 2011-01-14 | 본,장-자즈 |
| 본 발명은 배럴(1), 배럴(1)에 내장된 스프링(1a), 상기 배럴에 기계적으로 연결된 시간 디스플레이 부재(5), 상기 배럴에 또한 연결된 전력 제너레이터(2), 그리고 상기 제너레이터 주파수를 기준 주파수로 예속시키기 위한 레귤레이터 회로(6)를 포함하는 시계에 관한 것이다. 상기 레귤레이터 회로(6)는 스위칭 수단(7)을 포함하고, 상기 제너레이터 주파수가 기준 주파수보다 크다는 것을 상기 레귤레이터 회로가 감지하면 제동 구간 동안 상기 제너레이터를 전기적으로 제동시키기 위해 상기 스위칭 수단(7)이 배열된다. 상기 제동 구간 동안 액츄에이터 수단(10)과 제너레이터 간 전기적 연결에 의해 전달되는 전기량(G2)을 통해, 아날로그 파워 리저브(power reserve) 디스플레이 부재(11)의 액츄에이터 수단(10)을 상기 제너레이터가 제어한다. | ||||||
| 82 | 파워 리저브 표시형 시계 | KR1020030086603 | 2003-12-02 | KR1020040048830A | 2004-06-10 | 본,장-자즈 |
| PURPOSE: A timepiece having a power reserve indication function without increasing power consumption is provided to use display linked with operation of the generator and particularly during the braking period. CONSTITUTION: A timepiece includes a barrel(1), a spring(1a) inserted into the barrel, a time display member(5) mechanically coupled to the barrel, an electric generator(2) coupled to the barrel, and a regulator circuit(6) for setting a frequency of the electric generator as a reference frequency. The regulator circuit includes a switching unit to break electrically the electric generator during a braking period when the regulator circuit detects the frequency of the electric generator higher than the reference frequency. In addition, the electric generator is used for controlling an actuator(10) of an analogue power reserve display member(11) by the quantity of transmitted electricity while the actuator is connected electrically to the electric generator during the braking period. | ||||||
| 83 | 정전경보용 시계 | KR2020000029844 | 2000-10-25 | KR200218875Y1 | 2001-04-02 | 이기배 |
| 본 고안은 정전경보용 시계에 관한 것으로, 시계에 있어서, 상용의 교류전원과 병렬로 연결되어 교류전원의 입력여부에 따라 접점이 스위칭되는 릴레이(12)와, 상기 릴레이와 병렬로 연결되고 인가되는 교류전원에 의하여 점등되는 전원표시등(10)과, 상기 릴레이의 b접점과 직렬로 연결되어 정전경보를 선택하기 위한 정전경보 선택스위치(14)와, 상기 정전경보 선택스위치에 연결되어 소정 주파수의 경보음을 발생하기 위한 경보수단(15)이 포함되어 통상의 시계를 통해 상용의 교류전원의 정전상태를 경보하기 위한 것이다. | ||||||
| 84 | BATTERYLESS ACTIVITY MONITOR | PCT/FI2013/050324 | 2013-03-22 | WO2014147286A1 | 2014-09-25 | JAATINEN, Jukka |
This document discloses an apparatus comprising: at least one base layer (10) arranged as a substrate for printed electronics; an energy harvester (12) printed on the at least one base layer (10) and arranged to transform kinetic energy into electric energy; an energy storage (16) printed on the at least one base layer (10), coupled to the energy harvester (12), and arranged to store the electric energy; a display element (18) printed on the at least one base layer (10), coupled to the energy storage (16), and arranged to provide a display view to a user of the apparatus; and a control circuitry (14) configured to determine the amount of the electric energy stored in the energy storage (16) and to control the display element (14) to update the display view according to the amount of the electric energy. A method and a computer program product for controlling manufacturing of the apparatus are also disclosed. |
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| 85 | ANALOG ELECTRONIC WATCH HAVING A TIME RESET DEVICE FOLLOWING POWER SHORTAGE | PCT/EP2001/014208 | 2001-11-29 | WO02050617A1 | 2002-06-27 | |
| The invention concerns an electronic watch comprising analog display means (1) consisting of at least a hand (2) driven by at least a motor (3), a time base (4) for controlling the means powering (8) the motor, a rechargeable power source (9), and means for stopping (14) the motor, which act in particular on the powering means and time counting means (18) synchronously with the display means for adequate power supply. When a power shortage is detected by the stop means, the display means are stopped, the corresponding value of the counting means is stored in storage means and the counting means continue to operate. When sufficient power is restored, means computing time difference (20) send signals representing the time difference (21) between the stored value and the value of the time counting means to the powering means for time reset of the analog display means. | ||||||
| 86 | ELECTRONIC TIMEPIECE | PCT/JP2001/007961 | 2001-09-13 | WO02023285A1 | 2002-03-21 | |
| An electronic timepiece, wherein, when a winder switch (8) is pulled up, a switch signal preparation means (9) outputs a signal (RS) indicating the pulling up, a control means (13) receives the signal (RS) and starts a timing with a timer (13a), the control means (13), when receiving a signal (HS) output from a power generation detection means (12) within a timing period, outputs a signal (CS) indicating the detection when detecting the power generating operation of a power generation means (10) , a micro pulse preparation means (7), based on the signal (CS), prepares micro pulses having a pulse width of such a degree that a motor (5) is not driven and outputs the pulses to a motor drive circuit (4), the motor drive circuit (4), based on the micro pulses, flows a micro current to a coil (4a) for driving the motor (5), and a variation in the micro current is detected by an external device so as to confirm the presence or absence of the power generating operation. | ||||||
| 87 | POWER SUPPLY SYSTEM, POWER RECEIVING SYSTEM, POWER TRANSMISSION SYSTEM, METHOD OF POWER TRANSMISSION, PORTABLE DEVICE AND TIMER DEVICE | PCT/JP1999/004735 | 1999-09-01 | WO00038296A1 | 2000-06-29 | |
| When a driver circuit (11) is energized by a power source (10) in a power supply system (A1) and generated a driving signal (V), an actuator (12) vibrates and the vibrations are transmitted through vibration transfer materials (14, 20) to a converter (21) of a power-receiving device (B1). The converter (21) includes a piezoelectric element for converting vibrations into voltage, and a voltage (Vg) appears. The voltage (Vg) is rectified by a rectifier circuit (23), and the rectified voltage charges a large capacitor (24), which in turn energizes a timer circuit (25) that measures time. | ||||||
| 88 | TIMEPIECE | PCT/JP1999/002104 | 1999-04-20 | WO00038020A1 | 2000-06-29 | |
| A timepiece provided with a liquid crystal display panel (9) for displaying thereon at least one of time information (5) and calendar information (4), wherein a solar battery unit (12) is provided to face at least a part of a visual recognition-side surface of the liquid crystal panel (9) or an opposite-side (lower-side) surface thereof, the light being applied to a generating portion of the solar battery unit (12) through a transmission portion of the liquid crystal display panel (9) to generate electric power or what is displayed on the liquid crystal display panel (9) being visually recognized through a transmission portion of the solar battery unit (12), a timepiece circuit and the liquid crystal display panel (9) being driven by utilizing the electric power generated by the solar battery unit (12). | ||||||
| 89 | LIQUID CRYSTAL DISPLAY DEVICE WITH POWER GENERATING FUNCTION | PCT/JP1999/002103 | 1999-04-20 | WO00037995A1 | 2000-06-29 | |
| A solar battery (12) is disposed on the side opposite to the visibility side of a liquid crystal display panel (9) or in a position facing at least part of the visibility side surface, and the solar battery is irradiated with light via the transparent portion of the LCD panel (9) to generate power or display is made by the LCD panel (9) via the transparent portion of the solar battery unit (12), thereby providing a power generation function of the solar battery by using the area of the LCD panel alone. A provision of a printing layer (50) that gives the same color to the entire solar battery unit (12) will enhance a design feature. In addition, the display area of the LCD panel (9) can be controlled according to the amount of power generated by the solar battery unit (12). | ||||||
| 90 | RECHARGEABLE ELECTRONIC DEVICE | PCT/JP1997002903 | 1997-08-21 | WO1998008146A1 | 1998-02-26 | CITIZEN WATCH CO., LTD. |
| Power generating type electronic device incorporating a rechargeable electronic time piece such that the user can easily confirm the remaining capacity of the battery by easily detecting the capacity. A rechargeable electronic device (100) is provided with a power generating means (3), a battery means (7), a reverse current preventing means (5) which prevents the reverse flow of a charging current supplied to the battery means (7), a time indicating means (6) supplied with electric power from the battery means (7) charged by the power generating means (3), a charged state detecting means (30) which detects the charged state of the battery means (7), a charge interrupting means (9) which is provided on the charging path between the power generating means (3) and battery means (7), and a charged state notifying means (6) which indicates the charged state of the battery (7) based on the detection signal of the charged state detecting means (30). The charge interrupting means (9) is operated to set up a charge interrupting state while the detecting means (30) is operated to detect the charged state of the battery (7). | ||||||
| 91 | VERFAHREN UND VORRICHTUNG ZUR EINSTELLUNG EINER DATUMSANZEIGE BEI EINER UHR, INSBESONDERE EINER FUNKUHR, NACH EINEN BATTERIEWECHSEL | PCT/EP2005/002318 | 2005-03-04 | WO2005124473A1 | 2005-12-29 | RICHTER, Wilfried; MEGNER, Günter |
Die Erfindung betrifft ein Verfahren sowie eine Vorrichtung zur Einstellung einer Datumsanzeige bei einer Uhr, insbesondere einer Funkuhr, nach einem Batteriewechsel. Das erfindungsgemässe Verfahren umfasst folgende Schritte: a. Feststellen der Notwendigkeit eines Batteriewechsels; b. Verbringen der Datumsanzeige in eine vorbestimmte Referenzposition; c. Feststellen, dass ein Batteriewechsel stattgefunden hat; d. Feststellen des an der Datumsanzeige aktuell einzustellenden Datums; e. Einstellen des festgestellten Datums an der Datumsanzeige aus der Referenzposition. Um dieses Verfahren durchführen zu können, bedarf es einer Vorrichtung mit folgenden Einzelkomponenten: a. Mittel zum Feststellen der Notwendigkeit eines Batterie wechsels; b. Mittel zum Verbringen der Datumsanzeige in eine vorbestimmte Referenzposition; c. Mittel zum Feststellen, dass ein Batteriewechsel stattgefunden hat; d. Mittel zum Feststellen des an der Datumsanzeige aktuell einzustellenden Datums sowie e. Mittel zum Einstellen des festgestellten Datums an der Datumsanzeige ausgehend von der Referenzposition. |
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| 92 | METHOD AND APPARATUS FOR REAL TIME CLOCK (RTC) BROWNOUT DETECTION | PCT/US2004018558 | 2004-06-10 | WO2005001388A3 | 2005-03-24 | GRONEMEYER STEVEN A |
| A method and apparatus for real time clock brownout detection. A low power real time clock (RTC) operates continuously to keep time in a global positioning system (GPS) receiver while some receiver components are powered down. In various embodiments, a brownout detector circuit detects a loss of RTC clock cycles. If a loss of RTC clock cycles exceeds a predetermined threshold such that the RTC is not reliable for GPS navigation, an RTC status signal so indicates. | ||||||
| 93 | DEVICE INDICATING THE STATE OF BATTERIES, DESIGNED TO EQUIP A WATCH | PCT/IB2001/001960 | 2001-10-19 | WO02035296A1 | 2002-05-02 | |
| The invention concerns a device for indicating the state of watch batteries. Said device comprises, in combination: a circuit for determining (34) at least a physical characteristic of the cell (10) which varies when it is nearly discharged, a circuit for metering (36) the power consumed by the watch, a circuit for assessing (40) the capacity rating of the battery, connected to the determining (34) and metering (36) circuits and designed to process data and select the most relevant information derived either from the determining circuit (34), or from the metering circuit (36), means for displaying the state of the battery (38, 40, 42), and a circuit controlling (39) the display means. | ||||||
| 94 | ELECTRONIC WATCH AND ELECTRONIC WATCH CONTROL METHOD | PCT/JP2001/008293 | 2001-09-25 | WO02027414A1 | 2002-04-04 | |
| An electronic watch (10) has time information generating means (A) for generating time information, other information generating means for generating information (function information, warning information, and so forth) other than the time information, power saving mode operating means (D) for operating the electronic watch in a power saving mode in which the power consumption is less than that in the normal mode. Either the other information generating means or the power saving mode operating means (D) is preferentially operated. | ||||||
| 95 | RADIO-CONTROLLED CLOCK MOVEMENT | PCT/US1999/026561 | 1999-11-10 | WO00029914A2 | 2000-05-25 | |
| A radio-controlled clock movement for use in a radio-controlled clock which is synchronized with timing information supplied by a broadcast time signal includes a sound transducer for providing an audible signal representative of the strength of the received time signal. The clock is synchronized by setting the clock hands to an initial set position, decoding timing information from the broadcast time signal, calculating the relative distance to move the clock hands to make the displayed time synchronous with the decoded timing information and moving the clock hands the calculated relative distance. The initial set position is determined based on the desired time zone. In this manner, time zones are considered when setting the clock. | ||||||
| 96 | ELECTRONIC WATCH WITH GENERATING FUNCTION | PCT/JP1999/004714 | 1999-08-31 | WO00013066A1 | 2000-03-09 | |
| An electronic watch displays an indication of whether generating means is generating power or not and displays the generating state of the generating means and the storage state of storage means. Detecting means (140) detects the generating state of the generating means (110). Judging means (150) judges whether or not the generating means (110) is generating based on the detection signal from the detecting means (140) and instructs display means (130) to display the generating state. The generating state is detected from the potential difference between terminals. Storage measuring means (242) for measuring the electricity stored in the storage means (120) may be provided. The display of the generating state is, if the watch is an analog type, displayed by modulated movement of a hand, and if a digital type, displayed by mark indication. If the watch is in a non-generating state or if the stored electricity is small, the hand is stopped to lower the power consumption. | ||||||
| 97 | DEVICE AND METHOD FOR TIMING | PCT/JP1999/002133 | 1999-04-21 | WO99054790A1 | 1999-10-28 | |
| A device for timing comprising a mechanism which has at least a function to measure any elapsed time, disables the function to be reset after the function has been started and enables it to be reset after the function has been stopped, wherein, after the function has been started, electrically energized state of the function is maintained at all times except when the stoppage of the function is normal, whereby the electrical and mechanical operating conditions can be matched to each other at all times; and a method for timing. | ||||||
| 98 | ELECTRONIC DEVICE, METHOD OF CONTROLLING ELECTRONIC DEVICE, METHOD OF ESTIMATING CHARGE IN RECHARGEABLE BATTERY, AND METHOD OF CHARGING RECHARGEABLE BATTERY | PCT/JP1999/001471 | 1999-03-24 | WO99049552A1 | 1999-09-30 | |
| A noncontact battery charger using electromagnetic induction having a signal transfer function. A station (100) having power supply means for charging rechargeable batteries begins transferring a signal after it finishes charging an electronic timepiece (200) provided with a built-in rechargeable battery for a predetermined time. This system functions to detect positional deviation, changing electric power/signal ratios, and detect changes in the rechargeable battery voltage to estimate the charge in the battery by referring to a conversion table. | ||||||
| 99 | WATCH COMPRISING SENSING AND SAVING MEANS IN CASE OF INSUFFICIENCY OF SUPPLY SOURCE | PCT/CH1998/000020 | 1998-01-21 | WO98033098A1 | 1998-07-30 | |
| The invention concerns an electronic watch in which the position of the hands is managed by the electronic circuit for displaying data internal to the circuit, in particular time data. Said watch comprises means for sensing supply insufficiency combined for bringing and maintaining the hands on reference positions when such deficiency is detected, thus avoiding a discrepancy between the indications of the hands and the internal data which they must display when the supply source is back to normal. | ||||||
| 100 | 實時時鐘電池的檢測電路、配置狀態檢測方法及電子裝置 | TW102137149 | 2013-10-15 | TWI495980B | 2015-08-11 | 林志陽; LIN, CHIH YANG; 邱明正; CHIU, MING CHEN; 曾意達; TSENG, I TA |
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