JP2004279107A - Radio controlled watch and its control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio controlled watch capable of saving power. <P>SOLUTION: After time is corrected by the operation of a crown 710, an initial reception processing for acquiring time information including minute information and hour information is made for correcting time, and passage time after reception is clocked. Based on timing schedule information, reception is made periodically. Specific condition timing information is selected from a reception schedule storage means 433 by a schedule information selection means 432 corresponding to the passage time in reception. Based on the time information of condition timing information, reception is started at time earlier than the initial setting time for executing normal reception. As the passage time becomes longer, reception timing becomes earlier, and the work time length for reception is extended. The power consumption for acquiring the minimum time information required for time correction can be minimized to save power. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a radio-controlled timepiece and a control method thereof.
[0002]
[Background Art]
2. Description of the Related Art Conventionally, a radio-controlled timepiece that receives a long-wave standard radio wave on which time information is superimposed and corrects the time is known. This conventional radio-controlled timepiece eliminates the need to perform cumbersome time adjustment operations by correcting the displayed time appropriately based on the time information of the long-wave standard radio wave.
In this conventional radio-controlled timepiece, the user counts up every second based on an oscillation signal of a quartz oscillator or the like by an operation of changing the displayed time to, for example, 0:00 (12:00) which is a predetermined time. The count value is reset, and the displayed time and the count value are synchronized. Then, the received time information is compared with the count value, the count value is corrected based on the recognized time difference, and the time is corrected by correcting the displayed time. I have.
[0003]
By the way, for example, in the time information in Japan, the format of a one-minute time code is defined as one frame, and in this one frame, each information such as second information, hour / minute information, and day information is transmitted with one bit by 1 Hz pulse width modulation. Is adopted. The conventional radio-controlled timepiece employs a configuration in which a plurality of frames are acquired and time information is correctly acquired in consideration of the reception situation.
Note that the reception operation consumes the most power in the timepiece. For this reason, in the conventional radio-controlled timepiece, reception with the largest power consumption is performed for several minutes in order to acquire time information.
Therefore, in order to reduce power consumption due to reception, a configuration is known in which second information is acquired as time information to correct the time (for example, Patent Document 1).
[0004]
The radio-controlled timepiece described in Patent Document 1 receives a standard radio wave including time information by a receiving unit, and recognizes 0 second information based on the standard radio wave. Then, the count value of the hand position counter corresponding to the time displayed by the hands is compared with the 0-second information, and the progress of the second digit count value of the hand position counter with respect to the 0-second information is recognized. The time is corrected based on the advance / delay status so that the count value becomes 0 second at the timing of the 0 second information.
If the time difference between the 0 second information and the count value exceeds a predetermined time range, minute information and hour information are also acquired, and the count value is corrected.
As described above, normally, the 0-second information is acquired and the time is adjusted, and necessary time information is also received according to the advance / delay status, and the time is surely adjusted, so that the reception time is shortened and power saving is easy. And the time is adjusted efficiently.
[0005]
[Patent Document 1]
Japanese Patent Application Laid-Open No. H5-157859 (page 3, right column-page 4, right column)
[0006]
[Problems to be solved by the invention]
By the way, the radio-controlled timepiece may not be able to receive the standard radio wave due to the surrounding electric field condition, for example, the influence of the magnetic field, or the difficulty of the radio wave reaching inside the building. In addition, there is a case where radio waves cannot be received due to staying in an area where standard radio waves cannot be received, such as an overseas business trip. In these cases, even if the receiving operation is automatically performed by the automatic receiving function, the standard radio wave cannot be received, and the time is not corrected. And, there are many situations where these cannot be received.
If this time adjustment is not performed even after a certain amount of time has passed, there is a possibility that an error of, for example, about 20 seconds per month occurs as in a normal quartz timepiece. For this reason, the error increases as the period during which the time cannot be adjusted becomes longer.
[0007]
The radio-controlled timepiece described in Patent Document 1 starts receiving the standard radio wave, detects the time difference between the 0 second information and the count value of the hand position counter, and if there is a time difference exceeding a predetermined time range, the minute After receiving the information and time information, the reception is stopped. For this reason, when reception becomes impossible for a certain period of time, minute information and hour information are also acquired in the same manner as in the conventional configuration, so that the reception time becomes long as in the conventional configuration. Therefore, further reduction in power consumption is being pursued.
[0008]
An object of the present invention is to provide a radio-controlled timepiece capable of saving power in view of the above points and a control method thereof.
[0009]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided a radio-controlled timepiece comprising: clock means for measuring a current time based on a reference clock; display means for displaying the measured current time; and receiving means for receiving a standard radio wave including time information. A radio wave comprising: a receiving unit power supply control unit that operates a receiving power supply unit that drives the receiving unit; and a current time correction unit that corrects the current time of the clock unit based on the time information received by the receiving unit. A modified timepiece, wherein the receiving unit power supply control means includes an elapsed time detecting means for detecting an elapsed time from when a previous standard radio wave was received, and the receiving power supply means having an initial setting time length at an initial setting time. Initial schedule information to be operated to receive the time information by the receiving means, and a time earlier than the initial set time of the initial schedule information by a predetermined time, and the initial schedule Reception schedule information storage means for storing condition schedule information for operating the reception power supply means for a predetermined time longer than the initial set time length of the file information; and the initial schedule information or the condition schedule according to the length of the elapsed time. Schedule information selection means for selecting information; and power supply means control means for controlling the operation of the reception power supply means based on the initial schedule information or the condition schedule information selected by the schedule information selection means. It is characterized by the following.
[0010]
In such an embodiment of the present invention, in normal times, the clock means counts the reference clock to measure the current time, and the current time is displayed by the display means.
On the other hand, for example, when the initial setting time is every one hour, the receiving unit power supply control means causes the receiving means to supply power to the initial setting time of the initial schedule information for a predetermined time, and to operate the receiving means. A standard radio wave including time information is acquired. Then, when the time information is correctly obtained, the current time is corrected based on the time information obtained by the current time correction unit.
[0011]
On the other hand, if the time information cannot be correctly received during the receiving operation, the time is not adjusted.
If the reception failure state continues and the time after receiving the previous standard time signal detected by the elapsed time detecting means has passed a predetermined time or more, the schedule information selecting means corresponds to the length of the elapsed time. Select the condition schedule information whose reception start time is earlier than the initial setting time, and receive the time information at a start time earlier than the initial setting time of the condition schedule information for a time longer than a predetermined time of the initial schedule information. Take control.
[0012]
For this reason, for example, when a radio-controlled clock is left in a place where it is difficult to receive standard radio waves, such as in a building, or when traveling overseas or staying on a business trip, radio wave reception has failed for a long time. In the case, even if the error occurring at the current time measured based on the reference clock increases according to the period during which the reception has failed, the time information is received earlier in anticipation of the error. It is possible to obtain necessary time information such as second information in a limited time, and power consumption in the operation of receiving the standard radio wave is suppressed to a minimum. Therefore, the battery life can be extended in the case of battery drive, and energy saving can be achieved even when a commercial power supply from an outlet is used.
[0013]
Here, in the first invention, it is preferable that the predetermined time for operating the reception power supply unit is a time length in which only a part of the time information can be received.
In such a configuration, the reception power supply unit is operated for a predetermined time of a time length capable of receiving only the second information, which is a part of the time information, so that the time for acquiring the time information necessary for time correction is minimized. It is easily obtained that power consumption is minimized.
[0014]
According to a second aspect of the invention, there is provided a radio-controlled timepiece comprising: clock means for measuring the current time based on a reference clock; display means for displaying the measured current time; and reception means for receiving a standard radio wave including time information. A radio wave comprising: a receiving unit power supply control unit that operates a receiving power supply unit that drives the receiving unit; and a current time correction unit that corrects the current time of the clock unit based on the time information received by the receiving unit. A modified timepiece, wherein the receiving section power supply control means detects an elapsed time from when a previous standard time radio wave was received, and an elapsed time detecting means, and operates the receiving power supply means so that the receiving means operates the receiving power supply means. Receiving schedule storage means for storing condition schedule information in which a start time for receiving time information is set earlier than an initial setting time in accordance with the length of the elapsed time; Schedule information selecting means for selecting the condition schedule information set at the start time corresponding to the start time, and controlling the operation of the reception power supply means based on the condition schedule information selected by the schedule information selection means And a power supply control means.
[0015]
In the present invention as described above, the state in which time information cannot be correctly received at the time of the reception operation of the initial set time continues, and the time after receiving the previous standard radio wave detected by the elapsed time detecting means has passed the predetermined time or more. In this case, the schedule information selecting means selects the condition schedule information whose reception start time is earlier than the initial set time corresponding to the length of the elapsed time, and starts the schedule start earlier than the initial set time of the condition schedule information. Control to receive time information at the time.
According to such a configuration, the same operation and effect as those of the first aspect described above can be obtained.
[0016]
Here, in the first invention and the second invention, a time earlier than the initial setting time and the initial setting time of the condition schedule information by a predetermined time is 0 seconds when the second information of the current time measured by the timer is 0 seconds. It is preferable that the time is set with reference to a certain reference time.
In such a configuration, the time at which the second time information of the current time measured by the timer means is 0 second is set to a time value earlier than the initial setting time of the initial setting time and the initial setting time of the condition schedule information by 0 seconds. Set based on time. As a result, for example, it is easy to obtain at least 0 second information as the time information to be received, and it is only necessary to consider, for example, an error based on the reference time as the time to start the reception, and it is easy to shorten the reception time. Power saving can be achieved easily.
The condition schedule information may be set in such a manner that a plurality of times are set in such a manner that a time at which the reception power supply unit is operated according to the length of the elapsed time to start receiving the standard radio wave by the reception unit is gradually advanced. preferable.
In such a configuration, since a plurality of condition schedule information are set in such a manner that the time at which the reception starts according to the length of the elapsed time is set earlier, the current time can be corrected based on the received time information. The error that may occur at the current time increases as the elapsed time becomes longer, so that the time information is satisfactorily received in a minimum time.
[0017]
In addition, it is preferable that a plurality of the condition schedule information are set in a state in which a predetermined time for receiving the standard radio wave gradually increases according to the length of the elapsed time.
In such a configuration, the length of the predetermined time to be received increases according to the length of the elapsed time, so that the error increases as the length of the elapsed time increases, and an error occurs in seconds or more. Also, by increasing the length of time to be received, information necessary for time correction can be easily obtained, and the current time is correctly corrected.
[0018]
Further, it is preferable that the time earlier than the initial setting time of the condition schedule information by a predetermined time is set based on the accuracy of the clocking by the clocking means and the elapsed time.
In such a configuration, a time that is earlier than the initial setting time for starting the reception is set based on the accuracy of the clocking by the clocking unit and the elapsed time. Thus, for example, in order to obtain 0-second information that is a part of the time information necessary for time correction, the time at which reception starts is set in consideration of the accuracy of timekeeping that varies with timekeeping time. Thus, good reception of time information can be easily obtained in a minimum time.
[0019]
Then, the time earlier than the initial setting time of the condition schedule information by a predetermined time is necessary for multiplying the accuracy per unit time of the monthly difference accuracy by the elapsed time, and for allowing the receiving means to receive the standard radio wave. It is preferable that the setting is made based on a short processing time.
In such a configuration, a time earlier than the initial setting time for starting reception is set based on the time obtained by multiplying the accuracy per unit time of the monthly difference accuracy by the elapsed time and the processing time required for reception. As a result, for example, in order to obtain 0 second information which is a part of the time information required for time correction, the reception time is considered in consideration of the processing time required for the reception with the accuracy of the timekeeping varying with the timekeeping time. Since the time to be set is set, good reception of time information can be reliably obtained in a minimum time, and good time correction can be obtained.
[0020]
Further, it is preferable that the receiving section power supply control means resets the elapsed time when the receiving means acquires at least second information by receiving the standard radio wave.
In such a configuration, when at least the second information is acquired by receiving the standard radio wave, the elapsed time is reset by the receiving unit power supply control unit. As a result, at least the second information of the time is corrected in the acquisition of the second information, so that when the next reception is performed, the time condition for receiving is set based on the elapsed time measured again, and the reception condition is set. Thus, it is possible to efficiently receive time information according to the error that occurs.
[0021]
It is preferable that the elapsed time detecting means measures an elapsed time from when the time information is received by the receiving means based on the reference clock.
In such a configuration, the elapsed time detecting unit measures the elapsed time from when the time information is received by the receiving unit based on the reference clock. As a result, the magnitude of the error of the current time caused by the time measurement corresponds to the length of the elapsed time, so that the condition schedule information corresponding to the length of the elapsed time is set based on the elapsed time, and Correspondingly, it is possible to easily receive the time in a minimum time for acquiring the time information necessary for time correction.
[0022]
And a current time information storage means for storing the current time displayed on the display means and counting up the current time based on the reference clock, wherein the current time correction means comprises the current time information storage means It is preferable to correct the current time stored in the time information to the time information received by the receiving means.
In such a configuration, the current time stored in the current time information storage means displayed on the display means and counted up based on the reference clock is corrected to the time information received by the reception means by the current time correction means. Accordingly, for example, even in a configuration that does not include a detection unit that detects the position of the hands when the current time is displayed by the hands or a configuration that includes the detection units, the displayed time and the current time that the time is corrected are made to match. With the configuration, the current time can be correctly corrected.
[0023]
Further, it is preferable that the receiving section power supply control means causes the receiving means to receive time information including hour information and minute information when the standard radio wave has never been received.
In such a configuration, when the standard radio wave has never been received, the receiving unit power supply control unit causes the receiving unit to receive time information including hour information and minute information. Thereby, for example, even in a configuration that does not include the detecting means for detecting the hand position, synchronization between the hand position and the time to be used for time correction for acquiring the hour information and minute information and easily used for time correction can be easily obtained. Time can be easily adjusted.
[0024]
A control method for a radio-controlled timepiece according to a third invention is a control method for a radio-controlled timepiece that corrects the current time measured and displayed based on a reference clock based on a standard radio wave including received time information. The time elapsed since the reception of the standard radio wave was last measured, and the receiving power supply unit was operated for a predetermined time at an initial set time according to the length of the measured elapsed time. Initial schedule information to receive the information, or at a time earlier than the initial setting time of the initial schedule information, and select the condition schedule information to operate the receiving power supply means for a time longer than a predetermined time of the initial schedule information, The reception of the standard radio wave is controlled based on the selected initial schedule information or condition schedule information. .
[0025]
According to the control method of the radio-controlled timepiece of the third invention, the same operation and effect as those of the first invention are provided.
[0026]
In the third invention, it is preferable that the predetermined time during which the standard radio wave is received is a time length during which only a part of the time information can be received.
[0027]
A control method of a radio-controlled timepiece according to a fourth invention is a control method of a radio-controlled timepiece that corrects the current time measured and displayed based on a reference clock based on a standard radio wave including received time information. The condition in which the elapsed time from the previous reception of the standard radio wave was measured last time, and the start time for receiving the time information is set earlier than the initial setting time according to the length of the measured elapsed time. It is characterized in that schedule information is selected, and reception of the standard radio wave is controlled based on the selected condition schedule information.
[0028]
According to the control method of the radio-controlled timepiece of the fourth aspect, the same operation and effect as those of the second aspect are provided.
[0029]
In the second invention, a time earlier than the initial setting time and the initial setting time of the condition schedule information by a predetermined time is set on the basis of a reference time at which second information of the current time measured by the timing means is 0 second. It is preferred that
It is preferable that a plurality of the condition schedule information are set in such a manner that a time at which the reception of the standard time signal starts to be gradually advanced according to the length of the elapsed time.
In addition, it is preferable that a plurality of the condition schedule information are set in a state in which a predetermined time for receiving the standard radio wave gradually increases according to the length of the elapsed time.
Further, it is preferable that the time earlier than the initial setting time of the condition schedule information by a predetermined time is set based on the accuracy of the clocking by the clocking means and the elapsed time.
Then, the time earlier than the initial setting time of the condition schedule information by a predetermined time is necessary for multiplying the accuracy per unit time of the monthly difference accuracy by the elapsed time, and for allowing the receiving means to receive the standard radio wave. It is preferable that the setting is made based on a short processing time.
Further, it is preferable to reset the elapsed time upon recognizing that at least second information has been acquired at the time of receiving the standard radio wave.
It is preferable that the elapsed time from when the time information is received be measured based on the reference clock.
Further, when the standard radio wave has not been received, it is preferable that the receiving unit receives time information including hour information and minute information.
[0030]
According to such a configuration, the same operation and effect as those of the other aspects of the first and second aspects described above can be obtained.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to the drawings.
In the present embodiment, a so-called analog timepiece that has an hour hand, a minute hand, and a second hand and displays the time with a hand will be described. ), Etc., and can be applied to both clocks and watches. Further, in the present embodiment, a configuration in which the configuration for detecting the position of the pointer is not provided will be described.
[0032]
[Configuration of radio-controlled watch]
FIG. 1 is a block diagram showing an internal configuration of a radio-controlled timepiece 100 according to an embodiment of the present invention.
In FIG. 1, reference numeral 100 denotes a radio-controlled timepiece, and the radio-controlled timepiece 100 includes a case body 101.
In the case body 101, a receiving unit 200 as a receiving unit for receiving a standard radio wave which is wireless information including time information, a reference signal generating unit 300 for generating a reference clock, and controlling the operation of the entire apparatus Control circuit 400, a display unit 500 as current time display means for displaying time, a drive control unit 600 for controlling driving of the display unit 500 in response to a command from the control circuit 400, and an external operation An external operation input unit 700 is provided.
[0033]
The receiving unit 200 includes an antenna 210 that receives a standard radio wave including time information, a receiving circuit 220 that processes the time information received by the antenna 210, for example, performs amplification and demodulation, and a signal processed by the receiving circuit 220. A decoding circuit 230 that decodes time information from the receiving circuit 220 and a reception power supply circuit 240 as reception power supply means for supplying power to the reception circuit 220 are provided.
As the antenna 210, for example, a ferrite antenna formed by winding a coil around a ferrite rod is used.
[0034]
The receiving circuit 220 includes a tuning circuit (not shown) including a tuning capacitor and the like. The receiving circuit 220 is configured to cause the antenna 210 to receive a standard radio wave of the frequency set by the tuning circuit.
The receiving circuit 220 includes an amplifying circuit, a band-pass filter, a demodulation circuit, and the like (not shown), shapes the waveform of the received radio wave, demodulates the radio wave, and outputs it to the decoding circuit 230 as a rectangular pulse representing a time code. The decoding circuit 230 converts the rectangular pulse and extracts time information, that is, time code, which is digital data. The extracted time code is output to the control circuit 400. The reception power supply circuit 240 supplies power to the reception circuit 220 using power from a power supply such as a button battery (not shown) which is detachably mounted in the case body 101, for example.
[0035]
Here, as the standard radio wave to be received, for example, a long wave standard radio wave (JJY) in Japan can be used. For example, in Japan, there are two kinds of frequencies: a standard radio wave output station of Otakadoyama (East Japan) with a transmission frequency of 40 kHz and a standard radio wave output station of Haganeyama (West Japan) with a transmission frequency of 60 kHz. .
In the time code format of the long-wave standard radio wave, one signal is transmitted every one second (1 Hz), and one minute (60 seconds) is configured as one record (one frame). That is, one frame is 60-bit data. Further, the data items include the minute and hour at the current time, the total day from January 1 of the current year, the year (last two digits of the Christian era), the day of the week, and leap second. There is no second item because the time information is time data of 0 seconds per minute. The value of each item is constituted by a combination of numerical values assigned every second, and ON / OFF of this combination is determined from the type of signal.
In addition, a signal having a pulse width of 200 ms is provided in the first and last one second of one frame. Therefore, when a signal of 200 ms is continuously recognized in two seconds, the second signal is obtained, that is, the rising of the pulse is 0 second, which is the start of the next frame.
[0036]
The reference signal generation unit 300 generates a reference clock, and outputs the generated reference clock to the control circuit. The reference signal generator includes an oscillation circuit 310 and a frequency dividing circuit 320.
A reference signal source such as a quartz oscillator (not shown) is connected to the oscillation circuit 310. Then, the oscillation circuit 310 causes the reference signal source to oscillate at high frequency, and outputs an oscillation signal generated by the high-frequency oscillation to the frequency dividing circuit 320.
The frequency dividing circuit 320 is connected to the oscillation circuit 310 and receives an oscillation signal output from the oscillation circuit 310. Then, the frequency dividing circuit 320 divides the frequency of the received oscillation signal and outputs it to the control circuit as a predetermined reference signal, for example, a signal of 1 Hz.
[0037]
The control circuit 400 includes current time information storage means 410 as timekeeping means, current time correction means 420 for correcting the current time of the timekeeping means, and receiving section power supply control means 430.
[0038]
The current time information storage means 410 includes, for example, a random access memory (RAM), and counts a reference clock generated by the reference signal generation unit 3 and counts the current time as a count value of 時 hour 分 minute 秒 second. Perform the process. The current time measured by the current time information storage unit 410 is output to the display unit 500 and displayed.
[0039]
When the time information received by the receiving unit 200 is input, the current time correction unit 420 performs a current time correction step of correcting the current time based on the time information. At this time, the current time correction means 420 determines whether the reception was successful. Specifically, it is determined for each fall whether or not the time interval from the fall of the pulse code signal of the standard radio wave to the next fall is within 1 second ± 62.5 ms. Then, for example, when it is determined that it is within 1 second ± 62.5 ms four times in a row, it is determined that the reception of the standard radio wave is successful.
Further, the current time correction unit 420 determines whether the time information received by the receiving unit 200 is accurate. Whether or not the received time information is accurate is determined, for example, by receiving the time information transmitted at one-minute intervals in a plurality of frames (normally two to three frames) in the case of a long-wave standard radio wave. It is determined based on whether or not the respective pieces of time information have a predetermined time difference. For example, when each piece of time information is continuously received, it is determined whether each piece of time information is time information at one-minute intervals.
If the current time correction unit 420 determines that the received time information is accurate, the current time correction unit 420 adds a time elapsed from the time of reception to the time information to obtain a new current time. Further, the current time correction means stores the new current time in the current time information storage means 410, that is, overwrites and corrects the current time.
[0040]
The receiving section power supply control means 430 includes an elapsed time detection means 431, a schedule information selection means 432, a reception schedule storage means 433, and a power supply circuit control means 434 as a power supply control means.
[0041]
The elapsed time detecting unit 431 counts the elapsed time (for example, the number of elapsed days) after the time is corrected by the current time correcting unit 420.
When the current time correction unit 420 corrects the time, the elapsed time detection unit 431 receives the signal and starts clocking, and is output from the current time information storage unit 410 at intervals of one day (24 hours). The time is counted by counting the elapsed time (elapsed days) from the day signal. The counted number of the one-day signal is reset and re-counted by the time correction signal from the current time correction means 420, that is, the signal that the radio wave has been successfully received. The elapsed time from the reception of the previous radio wave to the present is counted.
[0042]
The schedule information selection means 432 performs a process of reading schedule information corresponding to the elapsed time obtained by the elapsed time detection means 431 from the reception schedule storage means 433 based on the preset schedule information, and setting the read schedule information. In the present embodiment, two types of schedule information are set: timing schedule information relating to reception timing and condition schedule information relating to reception conditions.
[0043]
The timing schedule information is information on an initial setting time which is a time for automatically receiving a standard radio wave at a predetermined interval, for example, a plurality of times a day. In consideration of the processing time required for the receiving unit 200 to receive the standard time signal, the initial time is set such that the current time information stored in the current time information storage unit 410 is 0 second, that is, the counter value of the second information is 0. The time is set to be several seconds earlier than the reference time of “00 seconds”.
That is, for the processing time required for reception, for example, power is supplied from the reception power supply circuit 240 to receive the standard radio wave, and the current time correction means 420 causes the pulse signal of the standard radio wave to fall from the falling edge to the next falling edge. The time length for continuously recognizing that the time interval up to 1 second ± 62.5 ms is within 4 seconds, for example, about 10 seconds.
[0044]
Further, the condition schedule information includes, for example, time information for causing the reception of the standard radio wave based on the initial setting time of the timing schedule information to be performed at a predetermined time for a predetermined period. That is, the time to be received corresponding to the length of the elapsed time detected by the elapsed time detecting means 431 is at least the information relating to the time earlier than the initial setting time by the predetermined time, and the time information corresponding to the length of the elapsed time. And information on a predetermined time length for receiving a part of the 0-second information. Note that the 0 second information is a part of the time code, that is, the rising time of the second pulse when a signal of 200 ms continues for 2 seconds.
The time earlier than the initial setting time of the condition schedule information by a predetermined time is set based on the monthly difference accuracy and the elapsed time when the radio-controlled timepiece 100 functions as a normal quartz clock without time correction. Is done. That is, it is based on the time obtained by multiplying the error time, which is the accuracy per unit time of the monthly accuracy, by the elapsed time, and the processing time required for the receiving unit 200 to receive the standard radio wave.
[0045]
That is, when the condition schedule information is specifically described, if the elapsed time is, for example, less than 10 days, the next time to be received based on the timing schedule information is the time when the count value of the second information at the reference time is 00 seconds. Ten seconds after 20 seconds, the count value of the second information is a time from “40 seconds” to “10 seconds”. That is, the initial setting time is a time several seconds earlier than the reference time, and the reference time is ± 10 seconds from the reference time in consideration of the accuracy of, for example, ± 20 seconds per month difference and 10 days of elapsed time. In consideration of the above-described reception processing time (10 seconds), the time is set to be 10 seconds after 20 seconds before the time that is earlier than the reference time by a predetermined time error.
If the elapsed time is, for example, 10 days or more and less than 20 days, the count value of the second information is 20 seconds after 30 seconds before 00 seconds of the initial setting time, and the count value of the second information is “30 seconds”. The time until "20 seconds". That is, also in this case, in consideration of the time of the error based on the accuracy and the 20 days of the elapsed time, the initial processing time is set to ± 20 seconds of the reference time and the above-described reception processing time is considered. The time is set from 30 seconds before the time earlier by the error time which is the predetermined time to 20 seconds later.
Further, if the elapsed time is, for example, 20 days or more, the count value of the second information is 2 minutes after 40 seconds before 00 seconds of the initial setting time, and the count value of the second information is “20 seconds”. It is the time until “00 seconds” when the count value is advanced by two minutes. In other words, in this case, since the error cannot be determined because the signal cannot be received for a long period of time, the above-mentioned time length of 2 minutes is used to obtain at least one frame and at least once to reliably obtain the 0-second information. In consideration of the received reception processing time and the like, the time is set to two minutes after the time 40 seconds before the time that is earlier than the reference time by a predetermined time error from the initial setting time.
As described above, the condition schedule information is set so that the predetermined time becomes gradually longer as the elapsed time becomes longer, the time to start receiving becomes gradually earlier, and the predetermined time to become the work time to receive becomes longer. Have been.
[0046]
The reception schedule storage unit 433 stores the above-described timing schedule information and condition schedule information in a readable manner.
[0047]
The power supply circuit control means 434 controls the operation of the reception power supply circuit 240 based on the schedule information stored in the reception schedule storage means 433, and controls the supply of power (power, electric energy) to the reception circuit 220. That is, the schedule information is, specifically, information that determines an operation time interval when the reception power supply circuit 240 is periodically operated.
Then, after operating the reception power supply circuit 240, the power supply circuit control means 434 is set to stop the reception power supply circuit 240 and end the reception operation after a predetermined time has elapsed. The time during which the reception power supply circuit 240 is operated to perform radio wave reception is a reception time corresponding to the elapsed time in the above-described condition schedule information, that is, 30 seconds when the elapsed time is less than 10 days, and 50 seconds when the elapsed time is 10 days or more and less than 20 days. 2 minutes and 20 seconds for 20 seconds or more, and 2 minutes and 20 seconds, and under the condition that all the time information in the timing schedule information is acquired, it is necessary to determine whether the standard radio wave contains noise or the like and contains an erroneous signal. The operation may be performed for about 2 to 6 minutes in order to receive time information of about two or more frames.
Note that the power supply circuit control unit 434 sets whether or not the reception of the standard radio wave has been successful. For example, if the reception flag is "0", it means that no reception has been performed, and if it is 1, it means that reception based on the timing schedule information was possible, and that time correction was performed.
[0048]
The display unit 500 is of an analog type, and includes a dial 510 constituting a case body having a scale, an hour hand 520, a minute hand 530, and a second hand 540. The dial 510 is not limited to the one provided with the scale, but may be any one such as a display of a numerical value representing time, a plain display having no numerical value, or a print of various characters. . Furthermore, a configuration without a dial may be used. The hour hand 520, the minute hand 530, and the second hand 540 are appropriately moved by the drive control unit 600. The hour hand 520, the minute hand 530, and the second hand 540 display the time according to the status of the hands on the scale of the dial 510. In the configuration in which the dial 510 is not provided, the user can recognize the time based on the state of rotation of each of the hour hand 520, the minute hand 530, and the second hand 540.
[0049]
The drive control unit 600 receives a command from the control circuit 400, and drives the hands (hour hand 520, minute hand 530, second hand 540) of the display unit 500, for example, a drive unit 610 such as a stepping motor, and the drive unit 610. And a drive control circuit 620 that outputs a pulse signal for driving the.
The drive control circuit 620 performs stepping based on the 1 Hz motor drive pulse output from the current time information storage means 410 every time the current time of the current time information storage means 410 is counted up by one and added for one second. The motor is driven to move the hands.
[0050]
The external operation input unit 700 includes, for example, a crown 710 operated by a user and a detection switch 720.
The crown 710 is provided so that a push-pull operation can be performed on the case body 101. Then, when the user manually rotates the crown 710 in a state where the crown 710 is pulled out, the pointer is rotated so that the displayed time can be changed. When the crown 710 is pushed in, the time can be manually changed. It is impossible to perform the hand movement by the normal drive control unit 600.
The detection switch 720 has a structure that is turned on and off depending on a state where the crown 710 is pushed in and pulled out. The ON / OFF electric signal of the detection switch 720 is recognized by the control circuit 400. That is, in a state in which the crown 710 is pulled out, the output of the motor drive pulse from the drive control circuit 620 is stopped to stop the hand movement by the driving means 610, and in a state in which the crown 710 is pushed in, the motor drive from the drive control circuit 620 is stopped. A pulse is output and the hand is moved by the driving means 610. Note that a button (not shown) for receiving standard radio waves may be separately provided in the case body, and the detection switch 720 may be turned on / off by operating this button.
[0051]
[Operation of radio-controlled watch]
Next, the operation of time correction in the radio-controlled timepiece 100 having the above-described configuration will be described with reference to the drawings. In this time adjustment, a case will be described in which the radio-controlled timepiece 100 is not provided with a configuration for detecting the hand position. FIG. 2 is a flowchart showing the operation of the time adjustment of the radio-controlled timepiece 100.
[0052]
At the beginning of using the radio-controlled timepiece 100, for example, the user corrects the time displayed on the display unit 500 to a predetermined time. Note that the time of initial use is, for example, a case where the time has not been adjusted by receiving a standard time signal, or a button battery has been replaced.
Since there is no needle position detecting means for detecting the needle position, the user can operate the crown 710 or operate the button by operating the crown 710, for example, at 0:00 (12:00) or 6:00. This is a time when it is easy to adjust the time in such a manner. By this time adjustment, the control circuit 400 recognizes the on / off state of the detection switch 720 and determines that the time adjustment has been performed. Then, the control circuit 400 stores the predetermined time in the current time information storage means 410, and matches the time-aligned pointer status with the time stored in the current time information storage means 410. Further, when the control circuit 400 recognizes, by turning on and off the detection switch 720, a state in which the crown 710 is pressed or a normal state in which the watch functions as a normal timepiece by operating a button, the 1-Hz pulse signal from the reference signal generation unit 300 is output. The control unit 610 controls the drive control unit 610 based on the control to start the hand movement.
[0053]
More specifically, the crown 710 is pulled out when the second hand indicates 00 seconds, and the rotation of the crown 710 is set to 0:00 as in the case of the conventional analog quartz timepiece. At the same time, 0:00:00 is set in the current time information storage means 410 as the pointer position. The reference position between the pointer and the current time information storage means 410 is adjusted. When the crown 710 is pushed in, the count-up of the current time information storage unit 410 and the drive control unit 610 are controlled based on the 1 Hz pulse signal from the reference signal generation unit 300, as in the case of the conventional analog quartz timepiece. Start hand movement.
In this state, since the standard radio wave has not been received yet, the power supply circuit control means 434 has not received the standard radio wave at all, and needs to acquire time information including minute information and hour information as time information. Is set to the reception flag. Then, the elapsed time detecting means 431 starts measuring the time from the time when the time measurement is started.
[0054]
When the time is set at the beginning of use, the standard time signal may be forcibly received to correct the time to the correct current time. In the execution of the forced reception, the control circuit 400 recognizes the on / off state of the detection switch 720 and recognizes that the process is the forced reception of the standard radio wave. By recognizing the forced reception process, the schedule information selection unit 432 selects the timing schedule information for acquiring all the time information, and stores it in the reception schedule storage unit 433. Then, based on the selected timing schedule information, the reception power supply circuit 240 is operated by the power supply circuit control means 434, and the reception circuit 220 is operated. By the operation of the receiving circuit 220, a receiving step is performed. That is, the standard radio wave is received by the antenna 210, and the time data (time information) is stored in the current time correction means 420 via the receiving circuit 220 and the decoding circuit 230.
[0055]
In this receiving step, for example, the current time correction means 420 determines whether or not the standard time signal has been correctly received and the time data has been correctly acquired.
Specifically, the stored time data is not a non-existent time or day such as 68 minutes, for example, or the time at which each time data is expected, that is, 2 minutes for the first frame. It is determined whether the added time, the time obtained by adding one minute to the second frame, and the time of the third frame are the same time, and it is determined whether accurate time data has been obtained.
[0056]
Then, as described above, the time stored in current time information storage means 410 is compared with the time stored in current time correction means 420, and the time stored in current time information storage means 410 is compared with current time correction means 420. The count value is incremented or decremented by a predetermined pulse signal so as to reach the time stored in the controller, and the drive control unit 600 is driven by the pulse signal to move the hands to correct the time.
By this time correction, the control circuit 400 sets “1” indicating that the time has been corrected in the reception to the reception flag by the power supply circuit control means 434 and starts the time measurement by the elapsed time detection means 431. If the time data could not be obtained correctly due to a reception failure or the like, “0” indicating that reception was not possible is set in the reception flag by the power supply circuit control unit 434, the time is not adjusted, and the elapsed time detection unit 431 is set. Start timekeeping with.
[0057]
Then, when the user sets the time, the control circuit 400 compares the current time in the current time information storage means 410 with the timing schedule information by the schedule information selecting means 432, and the current time is appropriately changed to the timing schedule information. The standard time signal is automatically received at the time when the time information has been initialized.
As automatic reception, since the reception flag is “0”, a process of receiving all time information including minute information and hour information is performed.
[0058]
Specifically, similarly to the case of the above-described forced reception, the power supply circuit control unit 434 operates the reception power supply circuit 240 to operate the reception circuit 220, and the standard radio wave is received by the antenna 210. If all of the time information has been correctly received, the current time stored in the current time information storage means 410 is corrected by the current time correction means 420 based on the received time information, and the drive control unit The time is adjusted by moving the hands so that the current time is displayed by controlling 600.
Then, the power supply circuit control unit 434 sets “1”, which indicates that the time has been correctly received and the time correction has been performed, in the reception flag, and thereafter performs the normal reception process.
[0059]
If the reception was not successful, the reception flag is kept at “0”, and the reception is correctly performed in the initial reception process of acquiring all the time information from the next time onward based on the timing schedule information, and the time is correctly corrected. .
[0060]
Then, after the time is correctly adjusted, automatic reception is sequentially performed based on the timing schedule information, and the time is appropriately adjusted.
Further, the control circuit 400 recognizes the elapsed time detected by the elapsed time detection means 431 and compares it with the time information of the condition schedule information. Then, the schedule information selecting means 432 selects the condition schedule information corresponding to the time information.
[0061]
Specifically, as shown in FIG. 2, first, it is determined whether or not the elapsed time is within 10 days (step S1). If it is determined in step S1 that the elapsed time is within 10 days, the current time information stored in the current time information storage means 410 is stored based on the condition schedule information of the time information corresponding to the elapsed time. It is determined whether or not the counter value of “1” is “40 seconds” (step S2). Then, when recognizing that the counter value of the second information has become "40 seconds" in step S2, the power supply circuit control means 434 causes the receiving step to be performed (step S3). That is, as described above, the reception power supply circuit 240 is operated to operate the reception circuit 220, and the standard radio wave is received by the antenna 210.
Based on the received standard radio wave, the current time correction means 420 determines whether or not the 0 second information has been acquired by the receiving circuit 220 and the decoding circuit 230 (step S4). That is, it is determined whether the 200 ms signal has been repeated twice in two seconds, and when it is recognized that the signal has been repeated twice, the rising edge of the second pulse signal is recognized as 0 second information of the current time.
[0062]
At the time of this reception, the current time correction means 420 checks whether the stored time information is accurate time data, and determines whether the reception was successful. Specifically, it is determined for each fall whether or not the time interval from the fall of the pulse code signal of the standard radio wave to the next fall is within 1 second ± 62.5 ms. Then, for example, when it is determined that it is within 1 second ± 62.5 ms four times in a row, it is determined that the reception of the standard radio wave is successful. Further, the current time correction means 420 determines whether or not the 0-second information has been obtained by determining that the reception of the standard time signal has been successful.
[0063]
Then, in step S4, when the current time correction unit 420 detects the 0 second information, the power supply circuit control unit 434 stops supplying power from the reception power supply circuit 240, stops the reception circuit 220, and ends the reception process. (Step S5). Then, based on the 0 second information acquired by the receiving unit 200, the current time correction unit 420 sets the count value of the second information of the time stored in the current time information storage unit 410 to “00 seconds” as described above. The second correction process is performed as described above (step S6).
Specifically, when it is determined that the counter value of the current time information storage unit 410 is less than +30 seconds relative to the 0 second information, that is, less than 30 seconds, the drive control unit 600 is controlled to control the second hand. The hand operation is stopped, and the current time information storage unit 410 counts up the count value. When it is determined that the time is within -30 seconds, that is, within 30 seconds, the count value of the current time information storage means 410 is incremented by a predetermined pulse so as to be a pointer position of 0 second. The drive control unit 600 is controlled by the predetermined pulse to move the second hand 540 to a state in which the second hand 540 is fast-forwarded to indicate a zero second.
After the completion of the second adjusting step, the elapsed time measured by the elapsed time detecting means 431 is reset to start the time measurement again (step S7), and the time adjustment processing ends.
[0064]
If it is determined in step S4 that the 0-second information cannot be obtained or that the reception of the standard time signal has not been successful, the counter value of the current time stored in the current time information storage unit 410 is set to “10”. Second ”or not (step S8). Then, in step S8, when recognizing that the counter value of the second information has become “10 seconds”, it is determined that the current reception process has failed, and the power supply circuit control unit 434 supplies power from the reception power supply circuit 240. Is stopped, the receiving circuit 220 is stopped, and the receiving process is terminated to prevent power consumption (step S9), and the time correction process is terminated.
[0065]
On the other hand, if it is determined in step S1 that the elapsed time is not within 10 days, it is determined whether the elapsed time is within 20 days (step S10). If it is determined in step S10 that the elapsed time is within 20 days, the current time information stored in the current time information storage means 410 is stored based on the condition schedule information of the time information corresponding to the elapsed time. It is determined whether the counter value of “1” is “30 seconds” (step S11). When it is recognized in step S11 that the counter value has reached "30 seconds", the power supply circuit control means 434 causes the power supply circuit control unit 434 to execute a receiving step, as in step S3 (step S12).
Then, as in step S4, the current time correction means 420 determines whether or not 0 second information has been obtained in the reception in step S12 (step S13). When it is recognized that the 0 second information has been acquired in step S13, the process proceeds to step S5. If it is determined that the 0 second information cannot be received, it is determined whether the counter value of the second information of the current time stored in the current time information storage means 410 is "20 seconds" (step S14). When it is determined in step S14 that the counter value of the second information has reached "20 seconds", the process proceeds to step S9.
[0066]
Further, if it is determined in step S10 that the elapsed time is not within 20 days, the power supply circuit control unit 434 sets the reception flag to “0”, that is, to acquire minute information and time information of the time information (step S10). S15), the process proceeds to the initial reception process shown in FIG.
In the initial reception process shown in FIG. 3, it is determined whether the reception flag is "1" (step S21). If it is determined in step S21 that the reception flag is "1", the process proceeds to the normal reception process shown in FIG. 2 for automatically receiving the standard radio wave based on the timing schedule information and adjusting the time. If it is determined in step S21 that the reception flag is not "1", the reception flag is "0", and the automatic reception or the forced reception of the standard radio wave based on the timing schedule information is not performed for a long time continuously until then. It is determined that the time adjustment has not been performed for a long time.
This causes the power supply circuit control means 434 to execute the receiving step (step S22). That is, similarly to the above-described steps S3 and S12, the reception power supply circuit 240 is operated to operate the reception circuit 220, and the standard radio wave is received by the antenna 210.
[0067]
Thereafter, the current time correction means 420 determines whether or not the time data has been correctly acquired based on the received standard time signal (step S23).
Specifically, whether the time data is not a non-existent time or day such as 68 minutes, for example, or whether each time data of a plurality of acquired frames represents the expected time, In the case of received time data, it is predicted that each time data is minute time data. Therefore, it is determined whether each data has such time, and whether accurate time data can be obtained is determined. to decide.
[0068]
Then, in step S23, when it is determined that the current time correction unit 420 has obtained accurate time data, the power supply circuit control unit 434 controls the power supply from the reception power supply circuit 240, as in steps S5 and S9 described above. The receiving is stopped, the receiving circuit 220 is stopped, and the receiving process ends (step S24). Thereafter, the current time correction unit 420 corrects the second, minute, and hour count values of the time stored in the current time information storage unit 410 based on the time data acquired by the receiving unit 200 so as to become the current time. At the same time, a time adjustment step is performed in which the drive control section 600 moves the hands to display the current time (step S25).
After the end of the time adjustment step in step S25, the elapsed time measured by the timed time detecting means 431 is reset, and the timekeeping is started again (step S26). Further, the power supply circuit control means 434 sets the reception flag to "1", and performs the normal reception process of automatically receiving and correcting the time based on the timing schedule information (step S27). Is completed.
[0069]
On the other hand, if it is determined in step S23 that acquisition of accurate time data has failed, it is determined whether five minutes have elapsed from the start of reception (step S28). Then, when recognizing that five minutes have elapsed from the start of reception in step S28, the power supply circuit control means 434 stops the supply of power from the reception power supply circuit 240, stops the reception circuit 220, and prevents power consumption. Thus, the receiving process is ended (step S29), and the time correction process is ended.
That is, in this state, the time is not adjusted by receiving the standard radio wave for a long period of time, and the reception flag for performing the initial reception processing is in the state of “0”. For this reason, when the next reception is performed and the time is to be corrected based on the timing schedule information, the initial reception processing shown in FIG. 3 is performed.
[0070]
[Effects of radio-controlled watches]
According to the embodiment, the following operation and effect can be obtained.
(1) When a state in which time information cannot be correctly received by a periodic reception operation based on the timing schedule information continues, an elapsed time since receiving the previous standard radio wave detected by the elapsed time detection unit 431 is equal to or longer than a predetermined time. Has elapsed, the schedule information selecting means selects the condition schedule information whose reception start timing is earlier than the initial set time corresponding to the predetermined time, and receives the time information earlier (longer) than the initial set time. Control.
For this reason, for example, when the radio-controlled timepiece 100 is left in a place where it is difficult to receive the standard radio wave, such as in a building, or when traveling overseas, staying on a business trip, and cannot receive the standard radio wave, it is not possible to receive the radio wave for a long time. If the error occurs in the current time measured based on the reference clock according to the period during which the reception has failed, the time information is received at an earlier timing in anticipation of the error. Therefore, necessary time information is acquired in a minimum time in consideration of an error, and power consumption in the operation of receiving a standard radio wave can be suppressed to a minimum. Therefore, the battery life can be extended in the case of battery drive, and energy saving can be achieved even when a commercial power supply from an outlet is used.
[0071]
(2) The count value of the current time information storage means 410 in which the second information of the current time at which a time earlier than the initial time of the initial setting time and the initial setting time of the condition schedule information is counted based on the reference signal generator 300 is 0 second. Is set to a reference time at which “00 seconds” is set. For this reason, for example, it is easy to obtain at least 0 second information as the time information to be received, and it is only necessary to consider, for example, an error with respect to the reference time as the time to start the reception, and it is possible to easily shorten the reception time. In addition, power saving can be easily achieved.
[0072]
(3) A plurality of pieces of condition schedule information are set as time information in which the time for starting reception gradually increases according to the length of the elapsed time.
For this reason, as the elapsed time during which the current time cannot be corrected based on the received time information becomes longer, the error that may occur at the current time increases, so that the time information can be satisfactorily received in a minimum time.
[0073]
(4) The operation time interval, which is the time for receiving the standard radio wave, increases according to the length of the elapsed time.
Therefore, even if the error increases as the length of the elapsed time becomes longer and an error occurs in minutes or hours in units of seconds or more, it is necessary to increase the operation time interval and acquire minute information and hour information. Then, the current time can be correctly corrected. In addition, by selecting a plurality of pieces of condition schedule information according to the elapsed time, more detailed schedule management is performed, and power consumption can be further minimized.
[0074]
(5) Based on the accuracy of the timekeeping and the elapsed time, a time earlier than the initial setting time for starting the reception is set.
For this reason, for example, in order to obtain 0-second information that is a part of the time information necessary for time correction, the time at which reception starts is set in consideration of the accuracy of timekeeping that fluctuates with the timekeeping time. Good reception of time information can be easily obtained in a limited time.
[0075]
(6) Based on the time obtained by multiplying the accuracy per unit time of the monthly difference accuracy by the elapsed time and the processing time required for reception, a time earlier than the initial set time for starting reception is set.
For this reason, for example, in order to obtain 0-second information that is a part of the time information necessary for time correction, the reception starts in consideration of the processing time required for the reception, with the accuracy of the timekeeping varying with the timekeeping time. Since the time to be set is set, good reception of time information can be reliably obtained in a minimum time, and good time correction can be obtained.
[0076]
(7) The schedule information selecting unit 432 receives the time information periodically based on the timing schedule information having the time information corresponding to the initial setting time “00 seconds” with respect to the time at which the time information is to be received periodically. At this time, condition schedule information is selected on the basis of the elapsed time when receiving.
For this reason, the operation of receiving periodically based on the timing schedule information is performed, and if the reception based on the timing schedule information has failed for a long time, the next reception based on the timing schedule information indicates the progress. Since the condition schedule information is selected according to the time, it is easy to obtain a configuration in which the time information can be satisfactorily received in a minimum time by setting the simple schedule information.
[0077]
(8) When the time information including the correct second information is received, the schedule information selecting unit 432 sets the timing to start receiving the condition schedule information for the next reception based on the timing schedule information to the initial set time. Specifically, the reception flag is set to "1" to perform the normal reception processing.
For this reason, the current time is corrected by acquiring the correct time information, so that the next time the signal is received periodically, the elapsed time is short and there is almost no error, so that the timing to make it earlier from the initial setting time is earlier. Since the time for performing the operation is shortened, the reception schedule of the time information for normal time correction may be set, and the time information can be efficiently received.
[0078]
(9) The elapsed time detection means 431 measures the elapsed time from when the time information was received by the receiving unit 200 based on the reference clock.
For this reason, since the error of the current time caused by the clocking and the elapsed time correspond, the condition of the timing to start the good reception is set even if the reception timing based on the elapsed time is set in the condition schedule information, Time information can be obtained well.
[0079]
(10) The current time stored in the current time information storage means 410, which is displayed on the display section 500 and counted up based on the reference clock, is corrected by the current time correction means 420 to the time information received by the receiving section 200. .
For this reason, for example, in a configuration that does not include a detecting unit that detects the position of the pointer when the current time is displayed by the pointer, the pointer is corrected to a predetermined time by the crown 710 and the current time and the displayed time are changed. What is necessary is just to perform the process of matching, and in the configuration including the detecting means, the current time to be displayed matches the current time to be stored, so that the current time can be correctly corrected in any configuration, and versatility is improved. Can be improved.
[0080]
(11) If the standard radio wave has never been received, the receiving unit power supply control unit 430 causes the receiving unit 200 to receive time information including hour information and minute information.
For this reason, at the time of receiving based on the timing schedule information, for example, even in a configuration without the detecting means for detecting the hand position, by executing the schedule for forcibly receiving all the time information, the displayed current time is displayed. And the current time to be counted are matched, and the current time can be correctly corrected only by acquiring the second information in the periodic reception processing of the transition.
[0081]
[Other embodiments]
Note that the present invention is not limited to the above-described embodiment, and modifications and improvements as long as the object of the present invention can be achieved are included in the present invention.
In other words, the radio-controlled timepiece 100 of the present invention may be one having a calendar function or the like, regardless of a pointer display type, a digital display type, etc. It can be applied to various watches. In addition, although the description is made by driving with a button battery, as described above, a power generation type configuration such as a configuration using an illuminating AC power source or a configuration using a solar cell or a mainspring type or body temperature may be used as the driving source. Can be in any configuration.
[0082]
Then, the elapsed time detecting means 431 may calculate the difference between the reception time and the current time to obtain the elapsed time. That is, the reception time storage means for storing the reception time (correction time) input from the current time correction means 420, the reception time stored in the reception time storage means, and the current time information from the current time information storage means 410 , That is, the elapsed time may be calculated by the elapsed time calculation means. In this case, since the elapsed time calculation means only needs to be operated when calculating the elapsed time, there is an advantage that power consumption can be reduced. That is, the elapsed time calculating means only needs to calculate the number of receptions, and the power consumption can be reduced accordingly. For example, if the automatic reception is performed once / day, and the reception is not possible ten times in a row, the operation is performed in the same manner as the operation in step S1 shown in FIG. 2 described above.
[0083]
Further, the condition schedule information is not limited to the three elapsed time divisions, but may be set to only one condition schedule or a plurality of two or more condition schedules to be received earlier than the initially set time. The timing is set so that the timing becomes earlier than the initial set time as the elapsed time becomes longer. As a result, it is possible to appropriately cope with a case where the elapsed time becomes long and the error becomes large, and it is possible to appropriately acquire time information with minimum power consumption.
Further, the operation time interval may be set longer. Even in this case, even if the error increases, the time can be correctly corrected by acquiring the minute information and the hour information.
[0084]
As the schedule information, the reception is controlled based on the reception condition of the condition schedule information at the timing based on the initial setting time of the timing schedule information. However, one frame of the time code is transmitted at predetermined intervals of one day or more. The reception condition for acquiring all the time information together with the minute, that is, the minute information and the hour information may be separately set in the condition schedule information.
As the condition in the initial setting for acquiring all the time information, for example, the initial setting time is set so that the standard radio wave is received at 2:00 am when the operation of the electric appliance is less and the radio wave receiving condition is good. preferable. The condition for acquiring all of the time information is schedule information that is used not only in the case of automatic reception based on the set time, but also in, for example, the operation of forcibly receiving the external operation input unit 700.
[0085]
Further, the configuration without the needle position detecting means has been described, but the configuration may be provided with the needle position detecting means. In this case, for example, by manually correcting the time at the beginning of use based on a time signal or the like, the current time to be displayed and the time to be stored in the current time information storage means 410 are matched by the hand position detection means. When the next time information is received based on the timing schedule information, only the second information which is a part of the time information may be received. That is, there is no need to perform a process or operation for matching the current time at which all the time information is received and timed with the current time to be displayed.
For this reason, it is possible to prevent power consumption for receiving all the time information for the initial setting, and to further save energy.
Further, in the case of the digital display type, the time to be displayed may be displayed based on the current time stored in the current time information storage means 410, so that the same effect as in the case where the hand position detecting means is provided is obtained. It is.
[0086]
The circuits and means shown in FIG. 1, which is a circuit configuration for executing the operations shown in FIGS. 2 and 3, are not limited to those constituted by hardware such as various logic elements, but may include a CPU (Central Processing Unit), A computer including a memory (storage device) is provided in the radio-controlled timepiece 100, and a predetermined program or data (data stored in each storage unit) is incorporated in the computer to realize each circuit or means. May be done.
For example, a CPU or a memory is arranged in the radio-controlled timepiece 100 so that it can function as a computer, and a predetermined control program or data is stored in the memory by a communication means such as the Internet, a CD-ROM, a memory card, or the like. What is necessary is just to install via a medium, operate a CPU etc. with this installed program, and correct time by operating the crown 710 appropriately.
In order to install a predetermined program or the like in the radio-controlled timepiece 100, a memory card, a CD-ROM, or the like is directly inserted into the radio-controlled timepiece 100. It may be connected to the correction clock 100. Further, a LAN cable, a telephone line, or the like may be connected to the radio-controlled timepiece 100 to supply and install a program or the like by communication. Since the antenna 130 is provided, a program may be supplied and installed wirelessly. You may.
[0087]
By incorporating such a recording medium or a control program provided by communication means such as the Internet into the radio-controlled timepiece 100, the functions of the inventions described above can be realized only by changing the program. The control program to be executed can be selected and incorporated. In this case, various radio-controlled timepieces 100 having different control formats can be manufactured only by changing the program, so that parts can be shared and the manufacturing cost at the time of developing variations can be greatly reduced.
[0088]
The functions of the radio-controlled timepiece 100, that is, the components of the receiving unit 200, the reference signal generating unit 300, the control circuit 400, the display unit 500, the drive control unit 600, the external operation input unit 700, and the like are the same as those of the above-described embodiment. Not limited to this, each means of a conventionally known radio-controlled timepiece can be used.
And it is good also as a structure which does not provide the crown 710 like a digital display type. Further, it is not necessary to provide a configuration without a button for forced reception or a configuration for forced reception by the crown operation 710.
In addition, the number of reception target stations, a specific country (region), and the like may be set as appropriate for implementation.
[0089]
In addition, specific structures and procedures for implementing the present invention can be appropriately changed to other structures or the like as long as the object of the present invention can be achieved.
[0090]
【The invention's effect】
As described above, according to the radio-controlled timepiece and the method of controlling the same according to the present invention, if the reception operation continues to be unable to correctly receive time information, the length of time elapsed since the previous reception of the standard radio wave In order to receive the time information earlier than the initial setting time, and to receive the time information for a longer time than the initial setting time, the power consumption during reception is minimized. Power consumption can be reduced.
[0091]
Further, according to the radio-controlled timepiece and the control method thereof of the present invention, when a state in which time information cannot be correctly received in the receiving operation continues, the elapsed time from the previous reception of the standard radio wave has exceeded a predetermined time. In this case, power consumption at the time of reception is controlled in order to select condition schedule information whose reception start time is earlier than the initial setting time corresponding to the predetermined time and to receive the time information earlier than the initial setting time. Can be minimized, and power saving can be achieved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a radio-controlled timepiece according to an embodiment of the present invention.
FIG. 2 is a flowchart showing a normal reception process of time correction of the radio-controlled timepiece according to the embodiment.
FIG. 3 is a flowchart showing an initial reception process of time correction of the radio-controlled timepiece according to the embodiment.
[Explanation of symbols]
100: radio-controlled timepiece, 200: reception unit (reception unit), 500: display unit (display unit), 240: reception power circuit (reception power unit), 410: current time information storage unit (time measurement unit), 420: current Time correction means, 430: receiving unit power supply control means, 431 ... elapsed time detection means, 432 ... schedule information selection means, 433 ... reception schedule storage means, 434 ... power supply circuit control means (power supply means control means)

Claims (13)

Clock means for measuring the current time based on a reference clock, display means for displaying the clocked current time, receiving means for receiving a standard radio wave including time information, and receiving power supply means for driving the receiving means A radio-controlled timepiece comprising: a receiving unit power supply control unit that operates a current time correction unit that corrects the current time of the clock unit based on the time information received by the receiving unit.
The receiving unit power supply control means,
An elapsed time detecting means for detecting an elapsed time from when the previous standard radio wave was received, and an initial operation in which the receiving power supply means is operated at an initially set time with an initially set time length and the receiving means receives the time information. The schedule information and condition schedule information for operating the receiving power supply unit at a time earlier than the initial setting time of the initial schedule information by a predetermined time and longer than the initial setting time length of the initial schedule information by a predetermined time are stored. Receiving schedule information storage means,
Schedule information selecting means for selecting the initial schedule information or the condition schedule information according to the length of the elapsed time,
A radio-controlled timepiece comprising: power supply control means for controlling the operation of the reception power supply based on the initial schedule information or the condition schedule information selected by the schedule information selection means. The radio-controlled timepiece according to claim 1,
The radio-controlled timepiece according to claim 1, wherein the predetermined time during which the reception power supply is operated is a time length in which only a part of the time information can be received. Clock means for measuring the current time based on a reference clock, display means for displaying the clocked current time, receiving means for receiving a standard radio wave including time information, and receiving power supply means for driving the receiving means A radio-controlled timepiece comprising: a receiving unit power supply control unit that operates a current time correction unit that corrects the current time of the clock unit based on the time information received by the receiving unit.
The receiving unit power supply control means,
Elapsed time detecting means for detecting the elapsed time from when the previous standard radio wave was received, and the start time at which the receiving power means is operated to receive the time information at the receiving means is the length of the elapsed time. Receiving schedule storage means for storing condition schedule information set at a time earlier than the initial setting time in response thereto;
Schedule information selecting means for selecting the condition schedule information set at the start time corresponding to the elapsed time,
A radio-controlled timepiece comprising: power supply control means for controlling the operation of the reception power supply based on the condition schedule information selected by the schedule information selection means. The radio-controlled timepiece according to any one of claims 1 to 3,
A time earlier than the initial setting time and the initial setting time of the condition schedule information by a predetermined time is set on the basis of a reference time at which second information of the current time measured by the timer is 0 second. Radio correction clock. The radio-controlled timepiece according to any one of claims 1 to 4,
The condition schedule information is characterized in that a plurality of conditions are set in such a manner that the time at which the reception power supply unit is operated according to the length of the elapsed time to start receiving the standard radio wave by the reception unit is gradually advanced. Radio-corrected clock. The radio-controlled timepiece according to any one of claims 1 to 5,
A radio-controlled timepiece wherein a plurality of the condition schedule information are set in such a manner that a predetermined time length for receiving the standard radio wave is gradually increased according to the length of the elapsed time. The radio-controlled timepiece according to any one of claims 1 to 6,
The radio-controlled timepiece according to claim 1, wherein the time earlier than the initial setting time of the condition schedule information by a predetermined time is set based on the accuracy of time measurement by the time measuring means and the elapsed time. The radio-controlled timepiece according to claim 7,
The time earlier than the initial setting time of the condition schedule information by a predetermined time is a time obtained by multiplying the accuracy per unit time of the monthly difference accuracy by the elapsed time, and a process required for the receiving means to receive the standard radio wave. A radio-controlled timepiece characterized by being set based on time. The radio-controlled timepiece according to any one of claims 1 to 8,
The radio-controlled timepiece according to claim 1, wherein the power supply control unit of the receiving unit resets the elapsed time when at least second information is acquired by the receiving unit by receiving the standard radio wave. The radio-controlled timepiece according to any one of claims 1 to 9,
The radio-controlled timepiece according to claim 1, wherein the elapsed time detecting means measures an elapsed time from when the time information is received by the receiving means based on the reference clock. The radio-controlled timepiece according to any one of claims 1 to 10,
The radio-controlled timepiece according to claim 1, wherein the receiving unit power supply control means causes the receiving means to receive time information including hour information and minute information when no standard radio wave has been received. A method of controlling a radio-controlled clock that corrects a current time that is measured and displayed based on a reference clock based on a standard radio wave including received time information,
The time elapsed since the last reception of the standard time was measured,
According to the length of the elapsed time to be counted, the receiving power supply means is operated for a predetermined time at an initial set time, and the receiving means receives the time information, or initial schedule information of the initial schedule information. At a time earlier than the set time, and select the condition schedule information to operate the receiving power supply means for a time longer than the predetermined time of the initial schedule information,
Controlling the reception of the standard radio wave based on the selected initial schedule information or condition schedule information. A method of controlling a radio-controlled clock that corrects a current time that is measured and displayed based on a reference clock based on a standard radio wave including received time information,
The time elapsed since the last reception of the standard time was measured,
According to the length of the elapsed time to be measured, the start time at which the time information is received is selected as condition schedule information set earlier than the initial setting time,
A method for controlling a radio-controlled timepiece, comprising: controlling reception of the standard radio wave based on the selected condition schedule information.

Images