JP2004144688A - Method and apparatus for acquiring time information, and radio controlled clock - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an improved method and apparatus for acquiring time information as well as a radio controlled clock capable of preventing consumption of a power source battery of the radio controlled clock even in a bad reception environment for a standard calibration signal. <P>SOLUTION: With the time information acquiring method, the radio wave containing a time information is intermittently received (20), to acquire the time information from the radio wave. There are provided steps (25, 30, 36, and 41) where the total sum of times of intermittent reception operations in a prescribed period is counted, and a step (47) where a receiving operation of radio waves is stopped when the count exceeds a prescribed total time (T1) within a prescribed period. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a time information acquisition method used for a radio-controlled timepiece that acquires time information from a standard radio wave and corrects the time, a time information acquisition device that performs the method, and a radio-controlled timepiece including the device.
[0002]
[Prior art]
In Japan, a long standard radio wave (JJY) is constantly transmitted at a frequency of 40 kHz from a transmitting station in Fukushima and at a frequency of 60 kHz from a transmitting station in Kyushu.
[0003]
As shown in FIG. 6, the time code superimposed on the long standard radio wave is represented by a rectangular pulse within a one-second frame period. The rectangular pulse in each second frame has a predetermined pulse width of 200 ms, 500 ms, or 800 ms, and its falling edge (or rising edge when the polarity of the rectangular pulse is reversed) is each second. Synchronized with the start of The pulse width of 200 ms is a marker signal, and the falling (rising) end of the latter half of the two consecutive 200 ms pulse widths is a 0 second marker indicating the start of every minute. After the 0-second marker signal, time information such as minute information, hour information, total day information from January 1, parity information, last two digits of the Christian era, day of the week information, leap second information, and the like, are sequentially provided with a pulse width of 500 msec. It is represented by binary codes “0” and “1” represented by any rectangular pulse having a pulse width of 800 ms. This time information is transmitted in a one minute cycle.
[0004]
Conventionally, a radio-controlled timepiece that acquires time information from this standard radio wave and corrects the time has been known. According to the time information acquisition method of the conventional radio-controlled timepiece, the receiving operation is started intermittently at a predetermined number of times a day at a predetermined time interval, for example, 24 times every hour, at 0 minute every hour. The time information is obtained from the standard radio wave of any frequency to correct the time.
[0005]
The conventional time information acquisition method follows the following procedure. First, a standard radio wave having any one of the above frequencies is selected, and the output timing of the second frame signal having a one-second cycle is determined based on the received signal. Next, a 0 second marker signal is acquired and determined. Then, the minute information and the hour information are sequentially acquired and determined. In this conventional time information acquisition method, a time limit is set for each piece of information such as a second frame, a 0-second marker, minute information, and hour information, and a time limit is set for each piece of information, and the time limit is set within the time limit. If the information cannot be acquired and determined, the current reception operation is stopped at that time. As a result, the reception time for acquiring the time information is extended without limit, and the power supply battery of the radio-controlled timepiece that supplies power to the reception circuit is not consumed.
[0006]
If the acquisition of the time information by the reception of the predetermined time fails, the reception is started again after a predetermined time (for example, one hour), and the acquisition of the time information is tried again. The predetermined time is selected, for example, at 2:00 a.m., a time period in which noise generation associated with human daily activities is relatively small. Since the radio wave condition is relatively good in this time zone, it is based on the reason that there is a high possibility of successfully receiving the time information from the standard radio wave at least once.
[0007]
If the reception is successful at a predetermined time or at a later time and time information can be obtained, the time of the radio-controlled clock is adjusted based on the obtained time information, and thereafter, for a predetermined period (for example, 24 hours). In the reception operation intermittently repeated at intervals of a predetermined time (for example, every one hour) in the reception within the parentheses, all time codes are not obtained from the standard time signal, but the second frame and the second of the 0 second marker are not obtained. Get information only. This is because, after the radio-controlled timepiece corrects the time once based on the time code of the standard radio wave, the deviation of the radio-controlled timepiece does not increase so much during a predetermined period (for example, 24 hours). This is because only the correction based on the 0 second marker information is expected. Thus, every time an intermittent reception operation is performed, for example, every one hour during a predetermined period (for example, 24 hours), the power supply battery is consumed due to reception for acquiring all the time codes of the standard radio wave every time. Is preventing. In addition, regarding acquisition and determination of the second frame and the 0-second marker, a shorter time limit, for example, 30 seconds and 60 seconds, that is, 90 seconds in total, is set, and acquisition of the second frame and the 0-second marker fails. Even if this is done, the reception time is limited to the maximum time limit of 90 seconds. This prevents the power battery of the radio-controlled timepiece from being consumed. In addition, in a radio-controlled timepiece that performs a receiving operation intermittently, a technique in which a time limit is provided for one receiving operation is described in Patent Document 1.
[0008]
[Patent Document 1]
JP-A-2002-181963 (paragraph number 0009)
[0009]
[Problems to be solved by the invention]
However, according to the conventional time information acquisition method described above, when the radio wave reception environment is good, the reception time is shortened, and as a result, the power consumed for reception can be saved. In a bad case, in each reception operation that is periodically repeated after the reception failure at a predetermined time, there is a possibility that the reception operation for the full time limit is repeated. For this reason, when the reception environment is poor, there is a problem that the total reception time becomes long and the power battery of the radio-controlled timepiece is quickly consumed.
[0010]
For example, in the case of a radio-controlled timepiece in which the time limit of each reception operation is 36 minutes and the reception operation is performed 24 times a day every other hour, if the reception environment is poor, the maximum is 24 × 36 = 864 per day. The reception operation is performed for a total reception time of 14 minutes 24 minutes. As a result, the conventional time information acquisition method has a problem that when the reception environment is poor, the battery power of the radio-controlled timepiece is greatly consumed.
[0011]
The present invention solves the problems of the prior art, even in a poor reception environment, can prevent power consumption and extend the life of the power supply battery of the radio-controlled clock, an improved time information acquisition method, A time information acquisition device and a radio-controlled timepiece are provided.
[0012]
[Means for Solving the Problems]
According to the present invention as set forth in claim 1, a time information obtaining method for intermittently receiving a radio wave including time information and obtaining the time information from the radio wave, wherein within a predetermined period, Counting the total time during which the receiving operation has been performed, and stopping the receiving operation when the count exceeds a predetermined total time within the predetermined period. A time information obtaining method is provided.
[0013]
According to this method, when the total reception operation time exceeds the predetermined cumulative time within the predetermined period, the subsequent reception operation is stopped. Power consumption can be prevented.
[0014]
According to the second aspect of the present invention, in the method according to the first aspect, the step of stopping the receiving operation is canceled at the end of the predetermined period. Is provided.
[0015]
According to this method, the suspension of the receiving operation is released at the end of the predetermined period, and the operation of intermittently receiving the standard radio wave is started again. If the reception environment is improved later, time information can be acquired, and both acquisition of time information and power saving can be achieved.
[0016]
According to the third aspect of the present invention, an operation of intermittently receiving a radio wave including time information and a maximum operation per one of the receiving operations for obtaining the time information from the radio wave are performed. A time information obtaining method in which time is limited to a first time, wherein a step of counting a total time during which the receiving operation is performed within a predetermined period; and a step of counting the total number of times during the predetermined period. Limiting the maximum operation time per one operation of the receiving operation to a second time shorter than the first time when the time exceeds the time. Provided.
[0017]
According to this method, when the total reception operation time exceeds the predetermined total time within the predetermined period, the maximum time of one reception operation is shortened instead of stopping the subsequent reception operation. Even when the reception environment is poor, power consumption of the radio-controlled timepiece is prevented, and at the same time, when the reception environment is improved, the time can be corrected.
[0018]
According to the present invention as set forth in claim 4, in the method as set forth in claim 3, at the end of the predetermined period, the maximum operation time per one operation of the receiving operation is set to the maximum operation time from the second time. A time information acquisition method is provided, further comprising the step of changing to a first time.
[0019]
According to this method, at the end of the predetermined period, the time limit for one reception operation is returned to the relatively long first time again. Therefore, even when the reception environment is poor, acquisition of time information and power consumption can be achieved. Savings can be achieved.
[0020]
According to the present invention described in claim 5, an operation of intermittently receiving a radio wave including time information having 0 second marker information, minute information, and hour information is performed, and the 0 second marker information is obtained from the radio wave. A time information acquisition method for performing a second operation of acquiring the minute information and the hour information after the first operation of acquiring, the method comprising: counting a total time during which the reception operation is performed within a predetermined period; And stopping the second operation when the count exceeds a predetermined cumulative time within the predetermined period, a time information obtaining method is provided.
[0021]
According to this method, when the total reception operation time exceeds the predetermined cumulative time within the predetermined period, the reception operation after that is not stopped, but only the reception of the cellosecond marker information that requires a relatively short reception time is performed. To stop the second operation requiring a relatively long reception time, thereby preventing power consumption of the radio-controlled timepiece and making it possible to correct the time at least in seconds when the reception environment is poor. I have.
[0022]
According to the present invention described in claim 6, in the method according to claim 5, the step of stopping the second operation is canceled at the end of the predetermined period. A method is provided.
[0023]
According to this method, at the end of the predetermined period, in addition to the first operation of acquiring the zero-second marker information, the second operation of acquiring the minute information and the hour information is performed again. In this case, both acquisition of time information and saving of power consumption can be achieved.
[0024]
According to a seventh aspect of the present invention, there is provided the time information acquiring method according to any one of the first to sixth aspects, wherein the predetermined period is 24 hours.
[0025]
According to such a method, a predetermined time for starting intermittent reception of the standard time signal every day and obtaining time information and correcting the time is set to, for example, 2:00 a.m. If the time is selected from a time zone in which the noise caused by the activity is relatively small, the radio wave condition is relatively good in this time zone, so there is a high possibility that the time information can be successfully received at least once from the standard radio wave. . As a result, at the time near the start of the predetermined period, the time information can be successfully received from the standard time signal and the time can be adjusted, and the subsequent reception time can be shortened to prevent the power battery from being consumed. .
[0026]
According to the invention described in claim 8, in the method according to any one of claims 1 to 6, the predetermined period is a period longer than 1 day and shorter than 7 days. A method for acquiring time information is provided.
[0027]
According to this method, by setting the predetermined period to, for example, 36 hours (one and a half days), the predetermined time at which the standard time signal is intermittently received and time information acquisition is started is set to 12 hours every day. By shifting by the unit, it is possible to avoid the effect of noise generation due to periodic human activities of the day, and to succeed in receiving time information from standard radio waves while saving power required for reception. Will be higher. Further, if the predetermined period is five days, the predetermined time at which the standard radio wave is intermittently received and time information acquisition is started is shifted by five days, so that weekly periodic human activities are performed. , It is possible to avoid the influence of noise generation accompanying the above, and to increase the possibility of successfully receiving the time information from the standard radio wave while saving the power required for reception.
According to the ninth aspect of the present invention, a receiving unit that receives a radio wave including time information and a control unit that intermittently starts the operation of the receiving unit and acquires the time information from the radio wave A time information acquisition device, comprising: a counter that counts the total time during which the receiving unit has operated within a predetermined period; and the reception when the content of the counter exceeds a predetermined total time within the predetermined period. Means for stopping an operation received by the unit.
[0028]
According to such a configuration, when the total reception operation time exceeds the predetermined cumulative time within the predetermined period, the subsequent reception operation is stopped. Power consumption can be prevented. As a result, the battery life can be extended.
[0029]
According to a tenth aspect of the present invention, in the device according to the ninth aspect, the time information further includes means for canceling the stop of the operation of the receiving unit at the end of the predetermined period. An acquisition device is provided.
[0030]
According to this configuration, at the end of the predetermined period, the suspension of the reception operation is released, and the operation of intermittently receiving the standard time signal is started again. Therefore, even in a poor reception environment, the total reception time can be reduced within the predetermined period. By limiting, both acquisition of time information and saving of power consumption can be achieved.
[0031]
According to the present invention as set forth in claim 11, a receiving unit for receiving a radio wave including time information, and an operation for intermittently starting the operation of the receiving unit to acquire the time information from the radio wave once. A control unit for limiting a maximum operation time of the receiving unit to a first time per hit, wherein a counter for counting a total time during which the receiving unit operates within a predetermined period; and Means for changing the maximum operation time of the receiving section to a second time shorter than the first time when the content of the counter exceeds a predetermined cumulative time within the predetermined time period. The time information acquisition device characterized by the above is provided.
[0032]
According to this configuration, when the total receiving operation time exceeds the predetermined cumulative time within the predetermined period, the subsequent receiving operation is not stopped but the maximum time of one receiving operation is shortened. In addition, even when the reception environment is poor, the power consumption of the radio-controlled timepiece is prevented and the time can be corrected as much as possible.
[0033]
According to the present invention as set forth in claim 12, in the apparatus as set forth in claim 11, at the end of the predetermined period, the maximum operation time of the receiving section per one time is set to the second operation time from the second time. There is provided a time information acquisition apparatus further comprising means for changing the time to one time.
[0034]
According to this configuration, at the end of the predetermined period, the time limit for one reception operation is returned to the relatively long first time again, so that acquisition and consumption of time information can be performed even in a poor reception environment. Both power savings can be achieved.
[0035]
According to the present invention as set forth in claim 13, a receiving unit for receiving a radio wave including time information having 0-second marker information, minute information, and hour information, and an operation of starting reception of the receiving unit intermittently. A control unit for performing a second operation of acquiring the minute information and the hour information after a first operation of acquiring the 0 second marker information from the radio wave and starting the operation, the time information acquiring device comprising: A counter for counting the total time during which the receiving unit has performed the operation, and means for stopping the second operation when the content of the counter exceeds a predetermined cumulative time within the predetermined period. And a time information acquisition device characterized by including the following.
[0036]
According to such a configuration, when the total reception operation time exceeds the predetermined cumulative time within the predetermined period, the reception operation thereafter is not stopped, but only the reception of the cellosecond marker information that requires a relatively short reception time is performed. To stop the second operation requiring a relatively long reception time, thereby preventing the power consumption of the radio-controlled timepiece and correcting the time in seconds if possible even in a poor reception environment. ing.
[0037]
According to a fourteenth aspect of the present invention, in the device according to the thirteenth aspect, at the end of the predetermined period, a means for canceling the suspension of the second operation is further provided. An apparatus is provided.
[0038]
According to this configuration, at the end of the predetermined period, in addition to the first operation of acquiring the zero-second marker information, the second operation of acquiring the minute information and the hour information is performed again. In this case, both acquisition of time information and saving of power consumption can be achieved.
[0039]
According to a fifteenth aspect of the present invention, there is provided the time information acquiring apparatus according to any one of the ninth to fourteenth aspects, wherein the predetermined period is 24 hours.
[0040]
According to such a configuration, the standard radio wave is intermittently started every day, and the predetermined time for acquiring the time information and correcting the time is set according to the human activity such as 2:00 am, for example. If the user selects from a time zone in which the occurrence of noise is relatively small, the radio wave condition is relatively good in this time zone, so that there is a high possibility of successfully receiving the time information from the standard radio wave at least once. As a result, it is possible to successfully receive the time information from the standard radio wave at a time near the beginning of the predetermined period and correct the time, and to shorten the subsequent reception time and prevent the power battery from being consumed. .
[0041]
According to the present invention described in claim 16, in the apparatus described in any one of claims 9 to 14, the predetermined period is a period longer than 1 day and shorter than 7 days. A time information acquisition device is provided.
[0042]
According to this configuration, by setting the predetermined period to, for example, 36 hours (one and a half days), the predetermined time at which the standard radio wave is intermittently received and time information acquisition is started is set to 12 hours every day. By shifting by the unit, it is possible to avoid the effect of noise generation due to periodic human activities of the day, and to succeed in receiving time information from standard radio waves while saving power required for reception. Will be higher. Further, by setting the predetermined period to 5 days, the predetermined time at which the standard radio wave is intermittently received and the acquisition of the time information is started is shifted by a unit of 5 days to accompany periodic human activities. Thus, the influence of the occurrence of noise can be avoided, and the possibility of successful reception of time information from a standard radio wave can be increased while reducing the power required for reception.
[0043]
According to the seventeenth aspect of the present invention, the time information acquiring device according to any one of the ninth to sixteenth aspects, a time clock unit that measures time, and a time information acquiring unit that acquires the time information Thus, a radio-controlled timepiece including a time correction unit for correcting the time measurement of the time measurement unit can be achieved.
[0044]
According to this configuration, it is possible to provide a radio-controlled timepiece that can save the power required for reception even when the reception environment of the standard radio wave is poor.
[0045]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 shows a block diagram of a radio-controlled timepiece 1 according to an embodiment of the present invention. The radio-controlled timepiece 1 is driven by electric power supplied from a power supply battery (not shown) to receive and detect a long-wave standard radio wave, a control unit 3 having a CPU (not shown), and time information obtained from the standard radio wave. Time correction unit 4 that corrects the time measured by the time clock unit 5 based on the time, a time clock unit 5 that measures the time of the radio-controlled clock, the time display unit 6, and the reception of a time code of one day (24 hours). A total time (T1) counter 7, one second frame reception time (T2) counter 8, one 0 second marker reception time (T3) counter 9, and one minute information and hour information reception time (T4 ) Includes a counter 10, a one-time information receiving time (T5) counter 11, and an antenna 12. The control unit 3 and each of the counters 7 to 11 are supplied with a clock signal from the time counting unit 5. The control unit 3 controls the receiving operation of the radio wave receiving unit 2 by a CPU (not shown) based on the time information from the time counting unit 5 and the count contents T1 to T5 of the counters 7 to 11.
[0046]
When the time counting unit 5 reaches a predetermined time (for example, 2:00 am), the control unit 3 turns on the radio wave receiving unit 2 and supplies power from a power supply battery (not shown). Then, the radio wave receiving unit 2 detects the long-wave standard radio wave received by the antenna 12 and demodulates it into the time code shown in FIG. If the control unit 3 cannot acquire and determine each information from the time code received and detected by the reception unit 2 within the respective time limits described later, the control unit 3 determines that the reception has failed and turns off the reception unit 2. To stop the power supply from a power supply battery (not shown). If the control unit 3 succeeds in acquiring and determining the time information from the time code detected within each time limit, the time correction unit 4 uses the time clock unit based on the acquired time code. 5 and the time on the time display section 6 are corrected. As will be described in detail later, after successful or unsuccessful reception of the time code from the standard time signal at a predetermined time, the control unit 3 performs a predetermined period of time, for example, one day (24 hours). At intervals (for example, every one hour), the radio wave receiving unit 2 is turned on intermittently, and an attempt to receive the standard radio wave and acquire all or at least a part of the time code is repeated. In the present example, the predetermined period is a period during which the receiving operation is intermittently performed a plurality of times.
[0047]
The time code reception total time (T1) counter 7 indicates the time during which the receiving unit 2 performs the receiving operation during a predetermined period, for example, one day (24 hours), that is, the total time during which power is supplied to the receiving unit 2. (T1) is counted. In the present embodiment, within the predetermined period (one day), the time limit of the total time code reception time (T1) is 36 minutes. However, this time (T1) may be another value.
[0048]
The one-time second frame reception time (T2) counter 8 indicates that the control unit 3 determines that the second frame (the falling edge of the continuous rectangular pulse) corresponding to the time code at which the receiving unit 2 detected the received radio wave in one reception. (For example, a signal having a one-second cycle synchronized with an interval (or a rising edge) (see FIG. 6)) (for example, a timing of a falling edge (or a rising edge) of a continuous pulse is measured, and the timing interval is approximately 1 second. (T2) required to output a second frame signal in a one-second cycle synchronized with the timing (T2) is counted. In the present embodiment, the time limit for one second frame reception time (T2) is one minute. However, this time (T2) may be another value.
[0049]
The one-second marker reception time (T3) counter 9 indicates that the control unit 3 determines the 0-second marker (200 msec width) from the time code at which the receiving unit 2 detects the received radio wave after the second frame is determined in one reception. The rectangular pulse M (see FIG. 6) is acquired, and the time (T3) required for confirmation (for example, acquiring a rectangular pulse M of 200 msec width continuously twice) is counted. In the present embodiment, the time limit for one 0-second marker reception time (T3) is 5 minutes. However, this time (T3) may be another value.
[0050]
The one-minute information and hour information reception time (T4) counter 10 indicates that the control unit 3 converts the time code at which the receiving unit 2 detects the received radio wave after the acquisition of the 0-second marker in one reception to the 0-second marker. The time (T4) required until the subsequent minute information and character information (see FIG. 6) are acquired and confirmed (for example, there is no inconsistency between the information acquired twice) is counted. In the present embodiment, the time limit for one minute information and hour information reception time (T4) is 30 minutes. However, this time (T4) may be another value.
[0051]
In the present embodiment, the time limit (36 minutes) of the total time code reception time (T1) within the predetermined period (1 day) is one minute of one second frame reception time (T2) and one time of zero (0). It is selected as the sum of 5 minutes of the second marker reception time (T3) and 30 minutes of the time limit of the minute information and time information reception time (T4). However, the time limit of the total time code reception time (T1) within the predetermined period (one day) may be a value other than the sum of the time limits.
[0052]
After one time information reception time (T5) counter 11 has succeeded in acquiring the time code within a predetermined period (one day) or after the reception total time (T1) has been exceeded, the reception unit 2 performs one reception. From the time code at which the received radio wave was detected, the time (T5) required to acquire and confirm the second frame and the 0 second marker as described above is counted. In the present embodiment, the time limit of one second information reception time (T5) is set to 90 seconds. However, this time (T5) may be another value.
[0053]
The values of the predetermined period (one day), the predetermined time (2:00 am), the predetermined time interval (every hour), and the time limit of each of the counters 7 to 11 used in the above-described embodiment are as follows. Can be changed as appropriate. For example, the predetermined period may be one and a half days (36 hours) or five days instead of one day (24 hours), and the predetermined time interval may be two hours instead of one hour.
FIG. 2 is a flowchart showing a method for obtaining time information of a radio-controlled timepiece according to one embodiment of the present invention. In this method, the predetermined period is one day (24 hours). Then, at a predetermined time, that is, at 2:00 a.m. in the middle of the night when the reception environment is considered to be relatively good with few noise sources due to human activities, the reception of the standard radio wave is started. Then, the standard radio wave is received every hour at predetermined intervals of one hour.
[0054]
When the radio wave receiving unit 2 is turned on by the control unit 3 every time and power is supplied from a power supply battery (not shown) and reception is started (step 20), the control unit 3 sets the time of the time clock unit 5 to 2:00 am It is detected whether or not it is (step 21). If it is 2:00 am, the total time code reception time (T1) within a predetermined period (one day), which is the content of the counter 7, is reset (step 22). Then, one second frame reception time (T2) counter 8, one 0 second marker reception time (T3) counter 9, and one minute information and hour information reception time (T4) counter 10 are reset. .
[0055]
Then, it is determined whether or not the second frame corresponding to the received and detected time code has been output (determined) (step 24). If the second frame has not been determined, it is determined whether or not the content (T1) of the counter 7 has exceeded the time code reception total time limit (36 minutes) of one day (step 25). The reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiver 2 is stopped. If not, it is checked whether or not the content (T2) of the counter 8 has exceeded the time limit (1 minute) of one second frame reception time (step 26). Step 47), the power supply from the power supply battery (not shown) to the receiver 2 is stopped. If not, the reception time for the second frame is added to T1 of the counter 7 and the reception time for the second frame is added to T2 of the counter 8 (step 27). Then, reception for determining the second frame is performed (step 28). If the second frame has been successfully determined, it is checked whether the 0-second marker information has been obtained and determined (step 29).
[0056]
If the 0-second marker information has not been obtained and confirmed, it is determined whether or not the content (T1) of the counter 7 has exceeded the time limit (36 minutes) of the total time code reception time of one day (step 30). If so, the reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiver 2 is stopped. If not, it is checked whether or not the content (T3) of the counter 9 has exceeded the one-second marker reception time limit (5 minutes) (step 31). (Step 47) The power supply from the power supply battery (not shown) to the receiving unit 2 is stopped. If not, the reception time for the 0-second marker information is added to T1 of the counter 7 and the reception time for the 0-second marker information is added to T3 of the counter 9 (step 32). Then, a 0 second marker is received (step 33). If the acquisition / determination of the 0-second marker information is successful, it is determined whether the minute information and the hour information have been acquired / determined (step 35).
[0057]
If the minute information and the hour information have not been acquired / determined, it is determined whether or not the content (T1) of the counter 7 has exceeded the limit time (36 minutes) of the total time code reception time of one day (step 36). If it exceeds, the reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiver 2 is stopped. If not, it is checked whether or not the content (T4) of the counter 10 has exceeded the time limit (30 minutes) of one minute information and hour information reception time (step 37). Then, the power supply from the power supply battery (not shown) to the receiver 2 is stopped (step 47). If not, the reception time for minute information and hour information is added to T1 of the counter 7, and the reception time for minute information and hour information is added to T4 of the counter 10 (step 38). Then, the minute information and the hour information are received (step 39). When the acquisition and determination of the minute information and the hour information are completed (step 35), the reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiver 2 is stopped.
[0058]
When power is supplied to the receiving unit 2 and reception starts at every hour (step 20), the control unit 3 detects whether the time of the time clock unit 5 is 2:00 am (step 21). If it is not 2:00 am, the radio-controlled clock checks whether or not the time code has been successfully acquired within a predetermined period (one day) after 2:00 am (including 2:00 am) for time adjustment ( Step 40). If the time code has not been successfully acquired after 2:00 am (including 2:00 am), the accumulated time code reception time (T1) within a predetermined period (one day) of the counter 7 is limited to the time limit (36 minutes). ) Is checked (step 41). If the total time (T1) does not exceed the time limit (36 minutes), the process proceeds to step 23 and the above-described steps are performed. If the total time (T1) exceeds the time limit (36 minutes), one second information reception time (T5) of the counter 11 is reset (step 42).
[0059]
If the time code has been successfully acquired within a predetermined period (one day) after 2:00 am (including 2:00 am) (step 40), one second of the information of the counter 11 is similarly received. The time (T5) is reset (step 42). Then, it is checked whether or not the content (T5) of the counter 11 has exceeded the time limit (90 seconds) (step 43). If the one-time information reception time (T5) exceeds the time limit (90 seconds), the reception is terminated (step 47), and power is supplied to the receiver 2 from a power supply battery (not shown). To stop. If not, the second information reception time is added to the content (T5) of the counter 11. The second information of the second frame and the 0 second marker information is obtained from the time code detected and received (step 45). If the acquisition of the second information of the second frame and the 0 second marker information is successful, the reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiving unit 2 is stopped. If the acquisition of the second information of the second frame and the 0 second marker information has not been successful, the process returns to step 43.
[0060]
As can be understood from the above description, in the method of the present embodiment, the method is started at a predetermined time (2:00 am) and intermittently at predetermined time intervals (every hour) within a predetermined period (one day). In the receiving operation of receiving a standard radio wave and acquiring time information, a time limit of one minute is acquired for acquiring a second frame, a time limit of five minutes is acquired for acquiring 0 second marker information, minute information, and hour information. A time limit of 30 minutes is set for the acquisition of the information, and if each piece of information cannot be acquired within the time limit, the receiving unit 2 is turned off as a failure in the current reception operation. Furthermore, a time limit (36 minutes) is also set for the cumulative reception time within a predetermined period (1 day), and when the cumulative reception time exceeds the time limit (36 minutes), the power of the receiving unit 2 is turned off. . As a result, when the reception environment is poor, it is possible to prevent the accumulated reception time from being lengthened and the power of the power supply battery from being consumed.
[0061]
If acquisition of time information from a received radio wave fails at a predetermined time (2 am) and the time cannot be adjusted, the total reception time within the predetermined period (1 day) is the time limit (36). As long as the time does not exceed (minutes), acquisition of time information is attempted in a reception operation repeated every hour. If the total reception time within the predetermined period (one day) exceeds the time limit (36 minutes), acquisition of all time information in the reception operation repeated every other hour thereafter is stopped. Instead, within the time limit of 90 seconds, an attempt is made to acquire only the second information of the second frame and 0 second marker information. Unless the total reception time exceeds the time limit (36 minutes) within a predetermined period (one day), acquisition of time information is attempted at predetermined time intervals (every hour). If the time limit is exceeded, an attempt is made to receive only the second information within the short time limit (90 seconds) to prevent the reception time from being lengthened, and the power supply battery to be used when the reception state is poor. Power consumption.
[0062]
If the time information is successfully acquired from the received radio wave within a predetermined period (one day) and the time can be adjusted, acquisition of all the time information is stopped in the subsequent receiving operation repeated every hour. Instead, an attempt is made to acquire only the second information of the second frame and the 0 second marker information within the time limit of 90 seconds. This is because if the time information is successfully obtained even once within the predetermined period (one day) and the time can be adjusted, only the second frame and the second information of the zero-second marker information are obtained within the predetermined period (one day). It is considered that the time of the radio-controlled clock can be maintained sufficiently accurately by the time correction by acquisition, so that only the second information of the second frame and the 0 second marker information is received and received within the short (90 second) time limit. By preventing the time from being lengthened, the power consumption of the power battery is suppressed.
[0063]
FIG. 3 shows a flowchart of the time information acquisition method according to the second embodiment of the present invention. Note that the configuration for implementing the method shown in FIG. 3 is the same as that in FIG. 1, and a description thereof will be omitted. The same steps as those in the flowchart shown in FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted. In the embodiment shown in FIG. 3, step 50 is used instead of step 41 shown in FIG. 2, and if acquisition of time information at a predetermined time (2 am) fails, As long as the total reception time (T1) does not exceed the time limit (36 minutes) within the predetermined period (one day), acquisition of time information is attempted at predetermined time intervals (every hour). If (T1) exceeds the time limit (36 minutes), the reception is terminated and prohibited (step 47) to prevent power consumption of the power supply battery when the reception state is poor. As described above, since only the reception operation within the time limit (36 minutes) is repeated within the predetermined period (one day), the life of the power supply battery of the radio-controlled timepiece can be extended even in a poor reception environment.
[0064]
FIG. 4 shows a flowchart of the time information acquisition method according to the third embodiment of the present invention. The same steps as those in the flowchart shown in FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted. FIG. 5 is a block diagram of a radio-controlled timepiece according to another embodiment of the present invention for implementing the method shown in FIG. The same components as those of the radio-controlled timepiece of FIG. 1 are denoted by the same reference numerals, and description thereof is omitted. In the embodiment shown in FIG. 4, step 61 is used instead of step 41 shown in FIG. 2, and if acquisition of time information at a predetermined time (2 am) fails, As long as the total reception time (T1) does not exceed the time limit (36 minutes) within the predetermined period (one day), acquisition of time information is attempted at predetermined time intervals (every hour). If (T1) is longer than the time limit (36 minutes), go to step 62.
[0065]
In step 62, the counter 12 (FIG. 5) of the cumulative reception time (T6) having a half time limit (18 minutes) of the time code reception total time (T1) counter 7 of one day (24 hours) is reset, and The counter 13 (FIG. 5) of the second frame reception time (T7) having a half time limit (30 seconds) of the second second frame reception time (T2) counter 8 is reset, and one 0-second marker reception time (T3) 5) Reset the counter 14 (FIG. 5) of the 0 second marker reception time (T8) having a half time limit (2 minutes and 30 seconds) of the counter 9 to reset the one minute information and hour information reception time (T4) counter 10 The counter 15 (FIG. 5) of the minute information and hour information reception time (T9) having a time limit (15 minutes) which is half of the time limit is reset.
[0066]
Then, it is determined whether or not the second frame according to the received and detected time code has been output (determined) (step 64). If the second frame has not been acquired / determined, it is determined whether or not the content (T6) of the counter 12 has exceeded the time code reception total time limit (18 minutes) set as described above (step 65). If it exceeds, the reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiver 2 is stopped. If not, it is checked whether or not the content (T7) of the counter 13 has exceeded the one-second frame reception time limit (30 seconds) set as described above (step 66). In this case, the reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiver 2 is stopped. If not, the reception time for the second frame is added to T6 of the counter 12 and T7 of the counter 13 (step 67). Then, reception for determining the second frame is performed (step 68). If the acquisition and determination of the second frame is successful, it is determined whether the acquisition and determination of the 0-second marker information has been successfully performed (step 69).
[0067]
If the 0-second marker information has not been acquired / confirmed, it is checked whether T6 of the counter 12 has exceeded the time code reception total time limit (18 minutes) set as described above (step 70). If it exceeds, the reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiver 2 is stopped. If not, it is determined whether or not the content (T8) of the counter 14 has exceeded the time limit (2 minutes and 30 seconds) of the 0 second marker receiving time set as described above (step 71). If yes, the reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiver 2 is stopped. If not, the reception time for the 0 second marker information is added to T6 of the counter 12 and T8 of the counter 14 (step 72). Then, a 0 second marker is received (step 73). If the acquisition / determination of the 0-second marker information is successful, it is determined whether the minute information and the hour information have been acquired / determined (step 75).
[0068]
If the minute information and the hour information have not been obtained and determined, it is determined whether or not T6 has exceeded the time code reception cumulative time limit (18 minutes) (step 76). Then, the power supply from the power supply battery (not shown) to the receiver 2 is stopped (step 47). If not, it is checked whether or not the content (T9) of the counter 15 exceeds the time limit (15 minutes) of the minutes information and hour information reception time set as described above (step 77). If yes, the reception is terminated (step 47), and the power supply from the power supply battery (not shown) to the receiver 2 is stopped. If not, the reception time for the minute information and the hour information is added to T6 of the counter 12 and T9 of the counter 15 (step 78). Then, the minute information and the hour information are received (step 79). When the minute information and the hour information have been obtained and confirmed (step 75), the reception is ended (step 47), and the power supply from the power supply battery (not shown) to the receiving unit 2 is stopped.
[0069]
In the method of the embodiment shown in FIG. 4, within a predetermined period (for example, one day), the processing is started at a predetermined time (for example, 2:00 am), and at a predetermined time interval (for example, every one hour). In the reception operation of the time information acquisition from the standard radio wave that is intermittently repeated, if the time information cannot be acquired even when a predetermined total reception time (for example, 36 minutes) has been reached, then each time information in each reception operation is thereafter obtained. The reception operation is performed by halving the time limit for the acquisition of If the reception environment is improved, the time information can be acquired even if the time is limited to half in this way, so the reception time is limited to half and the power consumed for reception is saved. While time information is acquired, the time can be adjusted.
[0070]
Although the time limit of T6 to T9 of the counters 12 to 15 corresponding to T1 to T4 of the counters 7 to 10 is set to half of T1 to T4, the time limit is not limited to a half value. Any time shorter than this is sufficient.
In addition, the time information acquisition method and the device thereof in each example are not limited to the radio-controlled timepiece, and may be used for various electronic devices having a clock unit.
[0071]
【The invention's effect】
As described above, according to the present invention, even when the reception environment is poor, the total reception time within a predetermined period is limited, so that the power consumption of the radio-controlled timepiece can be extended by preventing power consumption. And an improved time information acquisition method, time information acquisition device, and radio-controlled timepiece.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a radio-controlled timepiece according to one embodiment of the present invention.
FIG. 2 is a flowchart showing a time information acquisition method according to one embodiment of the present invention.
FIG. 3 is a flowchart showing a time information acquisition method according to another embodiment of the present invention.
FIG. 4 is a flowchart showing a time information acquisition method according to still another embodiment of the present invention.
FIG. 5 is a block diagram showing a radio-controlled timepiece used in the embodiment of the present invention shown in FIG. 4;
FIG. 6 is a time chart showing a time code superimposed on a long wave standard radio wave (JJY).
[Explanation of symbols]
1 radio wave correction clock
2 Radio wave receiver
3 control part
4 Time adjustment section
5 Clock section
6 Time display section
7 Total time code reception counter for one day
8 One second frame reception time counter
9 One-second marker reception time counter
10 One minute information and hour information reception time counter
11 One second reception time counter

Claims (17)

A time information obtaining method for intermittently receiving a radio wave including time information and obtaining the time information from the radio wave,
Within a predetermined period, counting the total time of the receiving operation,
If the count exceeds a predetermined cumulative time within the predetermined period, stopping the operation of receiving the radio wave;
A time information acquisition method, comprising: The time information acquiring method according to claim 1, wherein the step of stopping the receiving operation is canceled at the end of the predetermined period. Time information that performs an operation of intermittently receiving a radio wave including time information, and a maximum operation time per operation of the reception is limited to a first time in order to obtain the time information from the radio wave. Acquisition method,
Within a predetermined period, counting the total time of the receiving operation,
Within the predetermined period, when the count exceeds a predetermined cumulative time, limiting a maximum operation time per one operation of the receiving operation to a second time shorter than the first time;
A time information acquisition method, comprising: 4. The method according to claim 3, further comprising a step of changing a maximum operation time per one operation of the received operation from the second time to the first time at the end of the predetermined period. Time information acquisition method. It performs an operation of intermittently receiving a radio wave including time information having 0 second marker information, minute information, and hour information, and after the first operation of acquiring the 0 second marker information from the radio wave, the minute information and the hour A time information acquisition method for performing a second operation of acquiring information,
Within a predetermined period, counting the total time of the reception,
Stopping the second operation when the count exceeds a predetermined cumulative time within the predetermined period;
A time information acquisition method, comprising: 6. The time information acquiring method according to claim 5, wherein the step of stopping the second operation is canceled at the end of the predetermined period. 7. The method according to claim 1, wherein the predetermined period is 24 hours. 7. The time information acquiring method according to claim 1, wherein the predetermined period is a period longer than one day and shorter than seven days. A reception unit that receives a radio wave including time information, and a time information acquisition device including a control unit that intermittently starts the operation of the reception unit and acquires the time information from the radio wave,
A counter that counts the total time during which the receiving unit operates within a predetermined period;
Means for stopping the operation of the receiving unit when the content of the counter exceeds a predetermined cumulative time within the predetermined period,
A time information acquisition device, comprising: 10. The time information acquiring apparatus according to claim 9, further comprising: means for canceling the suspension of the operation of the receiving unit at the end of the predetermined period. A receiving unit that receives a radio wave including time information, and a maximum operation time of the receiving unit per one time when the operation of the receiving unit is started intermittently and the time information is acquired from the radio wave. A time information acquisition device including a control unit for limiting to time,
Within a predetermined period, a counter that counts the total time during which the receiving unit has operated,
Means for changing the maximum operation time of the receiving section to a second time shorter than the first time when the content of the counter exceeds a predetermined cumulative time within the predetermined time period;
A time information acquisition device, comprising: 12. The time according to claim 11, further comprising: means for changing a maximum operation time of the receiving unit at one time from the second time to the first time at the end of the predetermined period. Information acquisition device. A receiving unit that receives a radio wave including time information having 0-second marker information, minute information, and hour information, and intermittently starts a reception start operation of the receiving unit to obtain the 0-second marker information from the radio wave And a control unit that performs a second operation of acquiring the minute information and the hour information after the first operation of
Within a predetermined period, a counter that counts the total time during which the receiving unit performs an operation of receiving,
Means for stopping the second operation when the content of the counter exceeds a predetermined cumulative time within the predetermined period;
A time information acquisition device, comprising: 14. The time information acquiring apparatus according to claim 13, further comprising: means for canceling suspension of the second operation at the end of the predetermined period. 15. The time information acquisition device according to claim 9, wherein the predetermined period is 24 hours. 15. The time information acquisition device according to claim 9, wherein the predetermined period is a period longer than one day and shorter than seven days. A time information acquisition device according to any one of claims 9 to 16, a time clock unit for measuring time, and a time for correcting the time measurement of the time clock unit based on the time information acquired by the time information acquisition device. A radio-controlled timepiece including a correction unit.

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